; --------------------------------------------------------------------------------
; @Title: OMAP4460 On-Chip Peripherals
; @Props: Released
; @Author: KAM, LEM, SLA, PIW
; @Changelog:
;   2011-08-31
;   2011-12-13
;   2012-04-18
;   2022-05-12 PIW
; @Manufacturer: TI - Texas Instruments
; @Doc: XML generated (TIXML2PER 2.1.1), based on: OMAP4460.xml (Rev. 1.1)
; @Core: Cortex-A9, Cortex-A9MPCore
; @Chip: OMAP4460
; @Copyright: (C) 1989-2022 Lauterbach GmbH, licensed for use with TRACE32(R) only
; --------------------------------------------------------------------------------
; $Id: peromap4460app.per 14797 2022-05-18 06:30:25Z kwisniewski $

;
;                          WARNING: EXPORT NOTICE
;
;  Recipient agrees to not knowingly export or re-export, directly or
;  indirectly, any product or technical data (as defined by the U.S., EU, and
;  other Export Administration Regulations) including software, or any
;  controlled product restricted by other applicable national regulations,
;  received from Disclosing party under this Agreement, or any direct
;  product of such technology, to any destination to which such export or
;  re-export is restricted or prohibited by U.S. or other applicable laws,
;  without obtaining prior authorisation from U.S. Department of Commerce
;  and other competent Government authorities to the extent required by
;  those laws. This provision shall survive termination or expiration of this
;  Agreement.
;
;  According to our best knowledge of the state and end-use of this
;  product or technology, and in compliance with the export control
;  regulations of dual-use goods in force in the origin and exporting
;  countries, this technology is classified as follows:
;
;  US ECCN: 3E991
;  EU ECCN: EAR99
;
;  And may require export or re-export license for shipping it in compliance
;  with the applicable regulations of certain countries.
;
;
sif (CORENAME()=="CORTEXA9MPCORE")
tree "Core Registers (Cortex-A9MPCore)"
width 0x8
; --------------------------------------------------------------------------------
;    Identification registers
; --------------------------------------------------------------------------------
tree "ID Registers"
rgroup.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" "Pre-ARMv7,Pre-ARMv7,Pre-ARMv7,Pre-ARMv7,Pre-ARMv7,Pre-ARMv7,Pre-ARMv7,Pre-ARMv7,Pre-ARMv7,Pre-ARMv7,Pre-ARMv7,Pre-ARMv7,Pre-ARMv7,Pre-ARMv7,Pre-ARMv7,ARMv7"
textline "                 "
hexmask.long.word 0x0 4.--15. 0x1 " 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 c15:0x100++0x0
line.long 0x0 "CTR,Cache Type Register"
bitfld.long 0x0 29.--31. " FORMAT     ,Format" "Not ARMv7,Not ARMv7,Not ARMv7,Not ARMv7,ARMv7,Not ARMv7,Not ARMv7,Not ARMv7"
bitfld.long 0x0 24.--27. "               CWG        ,Cache Writeback Granule" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                 "
bitfld.long 0x0 20.--23. " ERG        ,Exclusives Reservation Granule" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x0 16.--19. "                      DMINLINE   ,D-Cache Minimum Line Size" "1 word,2 words,4 words,8 words,16 words,32 words,64 words,128 words,256 words,512 words,1024 words,2048 words,4096 words,8192 words,16384 words,32768 words"
textline "                 "
bitfld.long 0x0 14.--15. " L1POLICY   ,L1 Instruction cache policy" "Reserved,ASID,Virtual,Physical"
bitfld.long 0x0 0.--3. "                IMINLINE   ,I-Cache Minimum Line Size" "1 word,2 words,4 words,8 words,16 words,32 words,64 words,128 words,256 words,512 words,1024 words,2048 words,4096 words,8192 words,16384 words,32768 words"
rgroup.long c15:0x200++0x0
line.long 0x0 "TCMTR,Tighly-Coupled Memory Type Register"
rgroup.long c15:0x300++0x0
line.long 0x0 "TLBTR,TLB Type Register"
hexmask.long.byte 0x0 16.--23. 0x1 " ILSIZE     ,Specifies the number of instruction TLB lockable entries"
hexmask.long.byte 0x0 8.--15. 0x1 "                      DLSIZE     ,Specifies the number of unified or data TLB lockable entries"
bitfld.long 0x0 1. "                      TLB_size  ,TLB Size" "64,128"
textline "                 "
bitfld.long 0x0 0. " nU         ,Unified or Separate TLBs" "Unified,Separate"
rgroup.long c15:0x500++0x0
line.long 0x0 "MPIDR,Multiprocessor Affinity Register"
bitfld.long 0x00 30. " U          ,Processor is part of a multiprocessor or uniprocessor system" "Multiprocessor,Uniprocessor"
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" "0,1,2,3"
rgroup.long c15:0x0410++0x00
line.long 0x00 "MMFR0,Memory Model Feature Register 0"
bitfld.long 0x00 28.--31. " ISB        ,Innermost shareability bits" "Non-cacheable,Hardware coherency,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Ignored"
bitfld.long 0x00 24.--27. "      FCSE       ,Fast Context Switch Memory Mappings Support" "Not supported,Supported,?..."
bitfld.long 0x00 20.--23. "           ARS       ,Auxiliary Registers Support" "Not supported,Control only,Fault status and Control,?..."
textline "                 "
bitfld.long 0x00 16.--19. " TCM        ,TCM and Associated DMA Support" "Not supported,IMPLEMENTATION DEFINED,?..."
bitfld.long 0x00 12.--15. "  SLS        ,Shareability levels Support" "One level,Two levels,?..."
bitfld.long 0x00 8.--11. "              OSS       ,Outermost shareability Support" "Non-cacheable,Supported,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Ignored"
textline "                 "
bitfld.long 0x00 4.--7. " PMSA       ,Physical Memory System Architecture (PMSA) Support" "Not supported,IMPLEMENTATION DEFINED,PMSAv6,PMSAv7,?..."
bitfld.long 0x00 0.--3. "  VMSA       ,Virtual Memory System Architecture (VMSA) Support" "Not supported,IMPLEMENTATION DEFINED,VMSAv6,VMSAv7,?..."
rgroup.long c15:0x0510++0x00
line.long 0x00 "MMFR1,Memory Model Feature Register 1"
bitfld.long 0x00 28.--31. " BTB        ,Branch Predictor" "Disabled,Required,Required,Required,Not 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,?..."
rgroup.long c15:0x0610++0x00
line.long 0x00 "MMFR2,Memory Model Feature Register 2"
bitfld.long 0x00 28.--31. " HAF        ,Hardware Access Flag Support" "Not supported,Supported,?..."
bitfld.long 0x00 24.--27. "           WFI        ,Wait for Interrupt Stalling Support" "Not supported,Supported,?..."
bitfld.long 0x00 20.--23. "           MBF       ,Memory Barrier Operations Support" "Not supported,Supported,Supported,?..."
textline "                 "
bitfld.long 0x00 16.--19. " UTLBMO     ,TLB Maintenance Operations/Unified Architecture Support" "Not supported,Supported,Supported,Supported,?..."
bitfld.long 0x00 12.--15. "           HTLBMO     ,TLB Maintenance Operations/Harvard Architecture Support" "Not supported,Supported,Supported,?..."
bitfld.long 0x00 8.--11. "           HL1CMRO   ,Cache Maintenance Range Operations/Harvard Architecture Support" "Not supported,Supported,?..."
textline "                 "
bitfld.long 0x00 4.--7. " HL1BPCRO   ,Background Prefetch Cache Range Operations/Harvard Architecture Support" "Not supported,Supported,?..."
bitfld.long 0x00 0.--3. "           HL1FPCRO   ,Foreground Prefetch Cache Range Operations/Harvard Architecture Support" "Not supported,Supported,?..."
rgroup.long c15:0x0710++0x00
line.long 0x00 "MMFR3,Memory Model Feature Register 3"
bitfld.long 0x00 28.--31. " SS         ,Supersection support" "Supported,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Not supported"
bitfld.long 0x00 20.--23. "           CW         ,Coherent walk" "Supported,?..."
bitfld.long 0x00 12.--15. "               MB        ,Invalidate broadcast Support" "Reserved,Reserved,Supported,?..."
textline "                 "
bitfld.long 0x00 8.--11. " BPM        ,Invalidate Branch predictor Support" "Not supported,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" "Not supported,Supported,?..."
bitfld.long 0x00 0.--3. "           HCMOMVA   ,Invalidate Cache MVA Support" "Not supported,Supported,?..."
rgroup.long c15:0x0020++0x00
line.long 0x00 "ISAR0,Instruction Set Attribute Register 0"
bitfld.long 0x00 24.--27. " DIVI       ,Divide Instructions Support" "Not supported,Supported,?..."
bitfld.long 0x00 20.--23. "           DEBI       ,Debug Instructions Support" "Not supported,Supported,?..."
bitfld.long 0x00 16.--19. "           CI        ,Coprocessor Instructions Support" "Not supported,Supported,Supported,Supported,Supported,?..."
textline "                 "
bitfld.long 0x00 12.--15. " CBI        ,Combined Compare and Branch Instructions Support" "Not supported,Supported,?..."
bitfld.long 0x00 8.--11. "           BI         ,Bitfield Instructions Support" "Not supported,Supported,?..."
bitfld.long 0x00 4.--7. "           BCI       ,Bit Counting Instructions Support" "Not supported,Supported,?..."
textline "                 "
bitfld.long 0x00 0.--3. " SI         ,Swap Instructions Support" "Not supported,Supported,?..."
rgroup.long c15:0x0120++0x00
line.long 0x00 "ISAR1,Instruction Set Attribute Register 1"
bitfld.long 0x00 28.--31. " JI         ,Jazelle Instructions Support" "Not supported,Supported,?..."
bitfld.long 0x00 24.--27. "           INTI       ,Interwork Instructions Support" "Not supported,Supported,Supported,Supported,?..."
bitfld.long 0x00 20.--23. "           IMMI      ,Immediate Instructions Support" "Not supported,Supported,?..."
textline "                 "
bitfld.long 0x00 16.--19. " ITEI       ,If Then Instructions Support" "Not supported,Supported,Supported,?..."
bitfld.long 0x00 12.--15. "           EXTI       ,Extend Instructions Support" "Not supported,Supported,Supported,?..."
bitfld.long 0x00 8.--11. "           E2I       ,Exception 2 Instructions Support" "Not supported,Supported,?..."
textline "                 "
bitfld.long 0x00 4.--7. " E1I        ,Exception 1 Instructions Support" "Not supported,Supported,?..."
bitfld.long 0x00 0.--3. "           ENDI       ,Endian Instructions Support" "Not supported,Supported,?..."
rgroup.long c15:0x0220++0x00
line.long 0x00 "ISAR2,Instruction Set Attribute Register 2"
bitfld.long 0x00 28.--31. " RI         ,Reversal Instructions Support" "Not supported,Supported,Supported,?..."
bitfld.long 0x00 24.--27. "           PSRI       ,PSR Instructions Support" "Not supported,Supported,?..."
bitfld.long 0x00 20.--23. "           UMI       ,Advanced Unsigned Multiply Instructions Support" "Not supported,Supported,Supported,?..."
textline "                 "
bitfld.long 0x00 16.--19. " SMI        ,Advanced Signed Multiply Instructions Support" "Not supported,Supported,Supported,Supported,?..."
bitfld.long 0x00 12.--15. "           MI         ,Multiply Instructions Support" "Not supported,Supported,Supported,?..."
bitfld.long 0x00 8.--11. "           II        ,Multi-Access Interruptible Instructions Support" "Not supported,Supported,Supported,?..."
textline "                 "
bitfld.long 0x00 4.--7. " MHI        ,Memory Hint Instructions Support" "Not supported,Supported,Supported,Supported,Supported,?..."
bitfld.long 0x00 0.--3. "           LSI        ,Load and Store Instructions Support" "Not supported,Supported,?..."
rgroup.long c15:0x0320++0x00
line.long 0x00 "ISAR3,Instruction Set Attribute Register 3"
bitfld.long 0x00 28.--31. " T2E        ,Thumb-2 Extensions Support" "Not supported,Supported,?..."
bitfld.long 0x00 24.--27. "           NOPI       ,True NOP Instructions Support" "Not supported,Supported,?..."
bitfld.long 0x00 20.--23. "           TCI       ,Thumb Copy Instructions Support" "Not supported,Supported,?..."
textline "                 "
bitfld.long 0x00 16.--19. " TBI        ,Table Branch Instructions Support" "Not supported,Supported,?..."
bitfld.long 0x00 12.--15. "           SPI        ,Synchronization Primitive Instructions Support" "Not supported,Supported,Supported,Supported,?..."
bitfld.long 0x00 8.--11. "           SVCI      ,SVC Instructions Support" "Not supported,Supported,?..."
textline "                 "
bitfld.long 0x00 4.--7. " SIMDI      ,Single Instruction Multiple Data (SIMD) Instructions Support" "Not supported,Supported,Supported,Supported,?..."
bitfld.long 0x00 0.--3. "           SI         ,Saturate Instructions Support" "Not supported,Supported,?..."
rgroup.long c15:0x0420++0x00
line.long 0x00 "ISAR4,Instruction Set Attribute Register 4"
bitfld.long 0x00 28.--31. " SWP_frac   ,SWAP_frac" "Not supported,Supported,?..."
bitfld.long 0x00 24.--27. "           PSR_M_I    ,PSR_M Instructions Support" "Not supported,Supported,?..."
bitfld.long 0x00 20.--23. "           SPRI      ,Synchronization Primitive instructions" "Not supported,Reserved,Reserved,Supported,?..."
textline "                 "
bitfld.long 0x00 16.--19. " BI         ,Barrier Instructions Support" "Not supported,Supported,?..."
bitfld.long 0x00 12.--15. "           SMCI       ,SMC Instructions Support" "Not supported,Supported,?..."
bitfld.long 0x00 8.--11. "           WBI       ,Write-Back Instructions Support" "Not supported,Supported,?..."
textline "                 "
bitfld.long 0x00 4.--7. " WSI        ,With-Shift Instructions Support" "Not supported,Supported,Supported,Supported,Supported,?..."
bitfld.long 0x00 0.--3. "           UI         ,Unprivileged Instructions Support" "Not supported,Supported,Supported,?..."
rgroup.long c15:0x0010++0x00
line.long 0x00 "PFR0,Processor Feature Register 0"
bitfld.long 0x00 12.--15. " State3     ,Thumb-2 Execution Environment (Thumb-2EE) Support" "Not supported,Supported,?..."
bitfld.long 0x00 8.--11. "           State2     ,Java Extension Interface Support" "Not supported,Supported,Supported,?..."
bitfld.long 0x00 4.--7. "           State1    ,Thumb Encoding Supported by the Processor Type" "Not supported,Supported,Reserved,Supported,?..."
textline "                 "
bitfld.long 0x00 0.--3. " State0     ,ARM Instruction Set Support" "Not supported,Supported,?..."
rgroup.long c15:0x0110++0x00
line.long 0x00 "PFR1,Processor Feature Register 1"
bitfld.long 0x00 8.--11. " MPM        ,Microcontroller Programmer's Model Support" "Not supported,Reserved,Supported,?..."
bitfld.long 0x00 4.--7. "           SE         ,Security Extensions Architecture v1 Support" "Not supported,Supported,Supported,?..."
bitfld.long 0x00 0.--3. "           PM        ,Standard ARMv4 Programmer's Model Support" "Not supported,Supported,?..."
rgroup.long c15:0x0210++0x00
line.long 0x00 "DFR0,Debug Feature Register 0"
bitfld.long 0x00 20.--23. " MDM_MM     ,Microcontroller Debug Model Support" "Not supported,Supported,?..."
bitfld.long 0x00 16.--19. "           TDM_MM     ,Trace Debug Model (Memory-Mapped) Support" "Not supported,Supported,?..."
bitfld.long 0x00 12.--15. "           TDM_CB    ,Coprocessor-Based Trace Debug Model Support" "Not supported,Supported,?..."
textline "                 "
bitfld.long 0x00 8.--11. " CDM_MM     ,Memory-Mapped Debug Model Support" "Not supported,Reserved,Reserved,Reserved,Supported,?..."
bitfld.long 0x00 4.--7. "           SDM_CB     ,Secure Debug Model (Coprocessor) Support" "Not supported,Reserved,Reserved,v6.1,v7,?..."
bitfld.long 0x00 0.--3. "           CDM_CB    ,Coprocessor Debug Model Support" "Not supported,Reserved,v6,v6.1,v7,?..."
tree.end
width 0x8
tree "System Control and Configuration"
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 27. " NMFI     ,Nonmaskable Fast Interrupt enable" "Disabled,Enabled"
bitfld.long 0x0 25. "     EE       ,Exception endianess" "Little,Big"
bitfld.long 0x0 14. "       RR   ,Replacement strategy for caches, BTAC, and micro TLBs" "Random,Round robin"
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"
group.long c15:0x101++0x0
line.long 0x0 "ACTLR,Auxiliary Control Register"
bitfld.long 0x00 9. " PARON    ,Parity On" "Disabled,Enabled"
bitfld.long 0x00 8. "     ALIOW    ,Enable allocation in one cache way only" "Disabled,Enabled"
bitfld.long 0x00 7. "     EXCL ,Exclusive cache Enable" "Disabled,Enabled"
textline "                 "
bitfld.long 0x00 6. " SMP      ,Signals if the Cortex-A9 processor is taking part in coherency or not" "0,1"
bitfld.long 0x00 3. "            FOZ      ,Full Of Zero mode Enable" "Disabled,Enabled"
bitfld.long 0x00 2. "     DP1  ,L1 Dside prefetch Enable" "Disabled,Enabled"
textline "                 "
bitfld.long 0x00 1. " PH2      ,L2 prefetch hint Enable" "Disabled,Enabled"
bitfld.long 0x00 0. "     FW       ,Cache and TLB maintenance broadcast" "Disabled,Enabled"
group.long c15:0x201++0x0
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 D16-D31 of the VFP register file" "No,Yes"
bitfld.long 0x0 22.--23. "          CP11 ,Coprocesor access control" "Denied,Privileged,Reserved,Full"
textline "                 "
bitfld.long 0x0 20.--21. " CP10     ,Coprocesor access control" "Denied,Privileged,Reserved,Full"
textline "                 "
group.long c15:0x11++0x0
line.long 0x0 "SCR,Secure Configuration Register"
bitfld.long 0x00 6. " nET      ,Not early termination" "Not early,Early"
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   ,FW-bit controls whether the Non-secure world can modify the F-bit in the CPSR" "Not allowed,Allowed"
textline "                 "
bitfld.long 0x00 3. " EA       ,External Abort  exceptions handled in Abort mode or Monitor mode" "Abort,Monitor"
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"
textline "                 "
bitfld.long 0x00 0. " NS       ,Secure mode " "Secure,Non-secure"
group.long c15:0x111++0x0
line.long 0x0 "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"
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 writable in Non-secure state" "Disabled,Enabled"
bitfld.long 0x00 17. "     TL       ,Lockable Page Table Entries Allocation in Nonsecure World" "Denied,Permitted"
bitfld.long 0x00 16. "    PLE  ,NS accesses to the Preload Engine resources control" "Secure,Non-secure"
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" "No,Yes"
bitfld.long 0x00 11. "    CP11 ,Coprocessor 11 in the Nonsecure World Access Permission" "Denied,Permitted"
textline "                 "
bitfld.long 0x00 10. " CP10     ,Coprocessor 10 in the Nonsecure World Access Permission" "Denied,Permitted"
group.long c15:0x0311++0x00
line.long 0x00 "VCR,Virtualization Control Register"
bitfld.long 0x00 8. " AMO      ,Abort Mask Override" "0,1"
bitfld.long 0x00 7. "            IMO      ,IRQ Mask Override" "0,1"
bitfld.long 0x00 6. "            IFO  ,FIQ Mask Override" "0,1"
group.long c15:0xf++0x0
line.long 0x00 "PCR,Power Control Register"
bitfld.long 0x00 8.--10. " MCL      ,Max Clock Latency" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "            EDCG     ,Enable Dynamic Clock Gating" "Disabled,Enabled"
textline "                 "
group.long c15:0x000c++0x00
line.long 0x00 "VBAR,Secure or Nonsecure Vector Base Address Register"
hexmask.long 0x00 5.--31. 0x20 " VBA      ,Base Address"
group.long c15:0x10c++0x00
line.long 0x0 "MVBAR,Monitor Vector Base Address Register"
hexmask.long 0x00 5.--31. 0x20 " MVBA     , Monitor Vector Base Address"
rgroup.long c15:0x1C++0x0
line.long 0x0 "ISR,Interrupt status Register"
bitfld.long 0x0 8. " A        ,Pending External Abort" "Not pending,Pending"
bitfld.long 0x0 7. "  I        ,Pending IRQ" "Not pending,Pending"
bitfld.long 0x0 6. "  F    ,Pending FIQ" "Not pending,Pending"
group.long c15:0x11c++0x0
line.long 0x00 "VIR,Virtualization Interrupt Register"
bitfld.long 0x00 8. " VA       ,Virtual Abort" "0,1"
bitfld.long 0x00 7. "            VI       ,Virtual IRQ" "0,1"
bitfld.long 0x00 6. "            VF   ,Virtual FIQ" "0,1"
tree.end
width 0x0d
tree "Memory Management Unit"
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 27. " NMFI ,DNonmaskable Fast Interrupt enable" "Disabled,Enabled"
bitfld.long 0x0 25. "            EE        ,Exception endianess" "Little,Big"
bitfld.long 0x0 14. "              RR  ,Replacement strategy for caches, BTAC, and micro TLBs" "Random,Round robin"
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 "                      "
group.long c15:0x0002++0x00
line.long 0x00 "TTBR0,Translation Table Base Register 0"
hexmask.long 0x00 14.--31. 0x4000 " TTB0 ,Translation Table Base Address"
bitfld.long 0x00 0. 6. "            IRGN[1:0] ,Indicates inner cacheability" "Noncacheable,Back/allocated,Through,Back/not allocated"
bitfld.long 0x00 5. "  NOS ,Not Outer Shareable" "Outer,Inner"
textline "                      "
bitfld.long 0x00 3.--4. " RGN  ,Outer Cacheable Attributes for Page Table Walking" "Noncacheable,Back/allocated,Through,Back/not allocated"
bitfld.long 0x00 2. "  IMP       ,Implementation Defined" "0,1"
bitfld.long 0x00 1. "                   S   ,Page Table Walk to Shared Memory" "Nonshared,Shared"
textline "                      "
bitfld.long 0x00 0. " C    ,Cacheable" "Non-cacheable,Cacheable"
group.long c15:0x0102++0x00
line.long 0x00 "TTBR1,Translation Table Base Register 1"
hexmask.long 0x00 14.--31. 0x4000 " TTB1 ,Translation Table Base Address"
bitfld.long 0x00 0. 6. "            IRGN[1:0] ,Indicates inner cacheability" "Noncacheable,Back/allocated,Through,Back/not allocated"
bitfld.long 0x00 5. "  NOS ,Not Outer Shareable" "Outer,Inner"
textline "                      "
bitfld.long 0x00 3.--4. " RGN  ,Outer Cacheable Attributes for Page Table Walking" "Noncacheable,Back/allocated,Through,Back/not allocated"
bitfld.long 0x00 2. "  IMP       ,Implementation Defined" "0,1"
bitfld.long 0x00 1. "                   S   ,Page Table Walk to Shared Memory" "Nonshared,Shared"
textline "                      "
bitfld.long 0x00 0. " C    ,Cacheable" "Non-cacheable,Cacheable"
group.long c15:0x0202++0x00
line.long 0x00 "TTBCR,Translation Table Base Control Register"
bitfld.long 0x00 5. " PD1  ,Page Table Walk on a TLB Miss When Using Translation Table Base Register 1" "Enable,Disable"
bitfld.long 0x00 4. "             PD0       ,Page Table Walk on a TLB Miss When Using Translation Table Base Register 0" "Enable,Disable"
bitfld.long 0x0 0.--2. "             N   ,Translation Table Base Register 0 page table boundary size" "Off,0x80000000,0x40000000,0x20000000,0x10000000,0x08000000,0x04000000,0x02000000"
textline "                      "
group.long c15:0x3--0x3
line.long 0x0 "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"
bitfld.long 0x0 24.--25. "     D12 ,Domain Access 12" "Denied,Client,Reserved,Manager"
textline "                      "
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"
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"
textline "                      "
bitfld.long 0x0 14.--15. " D7   ,Domain Access 7" "Denied,Client,Reserved,Manager"
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"
bitfld.long 0x0 0.--1. "     D0  ,Domain Access 0" "Denied,Client,Reserved,Manager"
textline "                      "
group.long c15:0x0005++0x00
line.long 0x00 "DFSR,Data Fault Status Register"
bitfld.long 0x00 12. " EXT      ,External Abort Qualifier" "DECERR,SLVERR"
bitfld.long 0x00 11. "                  RW     ,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.  "                     STATUS ,Generated Exception Type" "Reserved,Alignment,Debug,Access/section,Instruction,Translation/section,Access/page,Translation/page,Nontranslation/synchronous external,Domain/section,Reserved,Domain/page,L1/external,Permission/section,L2/external,Permission/page,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Asynchronous external,?..."
group.long c15:0x0006++0x00
line.long 0x00 "DFAR,Data Fault Address Register"
hexmask.long 0x00 0.--31. 1. " DFA      ,Data Fault Address"
group.long c15:0x0105++0x00
line.long 0x00 "IFSR,Instruction Fault Status Register"
bitfld.long 0x00 12. " SD       ,External Abort Qualifier" "DECERR,SLVERR"
bitfld.long 0x00 0.--3. 10. "                  STATUS ,Generated Exception Type" "Reserved,Alignment,Debug,Access/section,Instruction,Translation/section,Access/page,Translation/page,Nontranslation/synchronous external,Domain/section,Reserved,Domain/page,L1/external,Permission/section,L2/external,Permission/page,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Asynchronous external,?..."
group.long c15:0x0206++0x00
line.long 0x00 "IFAR,Instruction Fault Address Register"
hexmask.long 0x00 0.--31. 1. " IFA      ,Instruction Fault Address"
group.long c15:0x0015++0x00
line.long 0x00 "ADFSR,Auxiliary Data Fault Status Register"
hexmask.long 0x00 0.--31. 1. " DAFS     ,Data Auxiliary Fault Status"
group.long c15:0x0115++0x00
line.long 0x00 "AIFSR,AuxiliaryInstruction  Fault Status Register"
hexmask.long 0x00 0.--31. 1. " IAFS     ,Instruction Auxiliary Fault Status"
textline "                      "
group.long c15:0xa++0x0
line.long 0x0 "TLBLR,TLB Lockdown Register"
bitfld.long 0x0 28.--29. " VICTIM   ,Victim Value Increments after Each Tabel Walk" "0,1,2,3"
bitfld.long 0x0 0. "                       P      ,Lockdown by Victim or Set Associative Region of TLB" "Associative,Lockdown"
group.long c15:0x0047++0x00
line.long 0x00 "PAR,PA Register"
hexmask.long 0x00 12.--31. 0x1000 " PA       ,Physical Adress"
bitfld.long 0x00 10. "                NOS    ,Not Outer Shareable attribute" "Outer shareable,Not outer shareable"
textline "                      "
bitfld.long 0x00 9. " NS       ,Non-secure" "Not secured,Secured"
bitfld.long 0x00 7. "             SH     ,Shareable attribute" "Non-shareable,Shareable"
textline "                      "
bitfld.long 0x00 4.--6. " Inner    ,Signals region inner attributes" "Noncacheable,Strongly-ordered,Reserved,Device,Reserved,Write-back allocate,Write-through,Write-back"
bitfld.long 0x00 2.--3. "     Outer  ,Signals region outer attributes for normal memory type" "Noncacheable,Write-back allocate,Write-through,Write-back"
textline "                      "
bitfld.long 0x00 1. " SS       ,Supersection Enable bit" "Disabled,Enabled"
bitfld.long 0x00 0. "                F      ,Translation Successful" "Successful,No successful"
textline "                      "
group.long c15:0x002A++0x0
line.long 0x00 "PRRR,Primary Region Remap Register"
bitfld.long 0x00 31. " NOS7     ,Outer Shareable property mapping for memory attribute 7" "Outer,Inner"
bitfld.long 0x00 30. "                   NOS6   ,Outer Shareable property mapping for memory attribute 6" "Outer,Inner"
textline "                      "
bitfld.long 0x00 29. " NOS5     ,Outer Shareable property mapping for memory attribute 5" "Outer,Inner"
bitfld.long 0x00 28. "                   NOS4   ,Outer Shareable property mapping for memory attribute 4" "Outer,Inner"
textline "                      "
bitfld.long 0x00 27. " NOS3     ,Outer Shareable property mapping for memory attribute 3" "Outer,Inner"
bitfld.long 0x00 26. "                   NOS2   ,Outer Shareable property mapping for memory attribute 2" "Outer,Inner"
textline "                      "
bitfld.long 0x00 25. " NOS1     ,Outer Shareable property mapping for memory attribute 1" "Outer,Inner"
bitfld.long 0x00 24. "                   NOS0   ,Outer Shareable property mapping for memory attribute 0" "Outer,Inner"
textline "                      "
bitfld.long 0x00 19. " NS1      ,Shareable Attribute Remap when S=1 for Normal Regions" "Remapped,Not remapped"
bitfld.long 0x00 18. "            NS0    ,Shareable Attribute Remap when S=0 for Normal Regions" "Not remapped,Remapped"
textline "                      "
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,?..."
bitfld.long 0x00 12.--13. "        TR6    ,{TEX[0] C B} = b110 Remap" "Strongly ordered,Device,Normal,?..."
textline "                      "
bitfld.long 0x00 10.--11. " TR5      ,{TEX[0] C B} = b101 Remap" "Strongly ordered,Device,Normal,?..."
bitfld.long 0x00 8.--9. "        TR4    ,{TEX[0] C B} = b100 Remap" "Strongly ordered,Device,Normal,?..."
textline "                      "
bitfld.long 0x00 6.--7. " TR3      ,{TEX[0] C B} = b011 Remap" "Strongly ordered,Device,Normal,?..."
bitfld.long 0x00 4.--5. "        TR2    ,{TEX[0] C B} = b010 Remap" "Strongly ordered,Device,Normal,?..."
textline "                      "
bitfld.long 0x00 2.--3. " TR1      ,{TEX[0] C B} = b001 Remap" "Strongly ordered,Device,Normal,?..."
bitfld.long 0x00 0.--1. "        TR0    ,{TEX[0] C B} = b000 Remap" "Strongly ordered,Device,Normal,?..."
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" "Noncachable,Write-back allocate,Write-through,Write-back no allocate"
bitfld.long 0x00 28.--29. "  OR6    ,Outer Attribute for {TEX[0] C B} = b110 Remap" "Noncachable,Write-back allocate,Write-through,Write-back no allocate"
textline "                      "
bitfld.long 0x00 26.--27. " OR5      ,Outer Attribute for {TEX[0] C B} = b101 Remap" "Noncachable,Write-back allocate,Write-through,Write-back no allocate"
bitfld.long 0x00 24.--25. "  OR4    ,Outer Attribute for {TEX[0] C B} = b100 Remap" "Noncachable,Write-back allocate,Write-through,Write-back no allocate"
textline "                      "
bitfld.long 0x00 22.--23. " OR3      ,Outer Attribute for {TEX[0] C B} = b011 Remap" "Noncachable,Write-back allocate,Write-through,Write-back no allocate"
bitfld.long 0x00 20.--21. "  OR2    ,Outer Attribute for {TEX[0] C B} = b010 Remap" "Noncachable,Write-back allocate,Write-through,Write-back no allocate"
textline "                      "
bitfld.long 0x00 18.--19. " OR1      ,Outer Attribute for {TEX[0] C B} = b001 Remap" "Noncachable,Write-back allocate,Write-through,Write-back no allocate"
bitfld.long 0x00 16.--17. "  OR0    ,Outer Attribute for {TEX[0] C B} = b000 Remap" "Noncachable,Write-back allocate,Write-through,Write-back no allocate"
textline "                      "
bitfld.long 0x00 14.--15. " IR7      ,Inner attribute for {TEX[0] C B} = b111 Remap" "Noncachable,Write-back allocate,Write-through,Write-back no allocate"
bitfld.long 0x00 12.--13. "  IR6    ,Inner attribute for {TEX[0] C B} = b110 Remap" "Noncachable,Write-back allocate,Write-through,Write-back no allocate"
textline "                      "
bitfld.long 0x00 10.--11. " IR5      ,Inner attribute for {TEX[0] C B} = b101 Remap" "Noncachable,Write-back allocate,Write-through,Write-back no allocate"
bitfld.long 0x00 8.--9. "  IR4    ,Inner attribute for {TEX[0] C B} = b100 Remap" "Noncachable,Write-back allocate,Write-through,Write-back no allocate"
textline "                      "
bitfld.long 0x00 6.--7. " IR3      ,Inner attribute for {TEX[0] C B} = b011 Remap" "Noncachable,Write-back allocate,Write-through,Write-back no allocate"
bitfld.long 0x00 4.--5. "  IR2    ,Inner attribute for {TEX[0] C B} = b010 Remap" "Noncachable,Write-back allocate,Write-through,Write-back no allocate"
textline "                      "
bitfld.long 0x00 2.--3. " IR1      ,Inner attribute for {TEX[0] C B} = b001 Remap" "Noncachable,Write-back allocate,Write-through,Write-back no allocate"
bitfld.long 0x00 0.--1. "  IR0    ,Inner attribute for {TEX[0] C B} = b000 Remap" "Noncachable,Write-back allocate,Write-through,Write-back no allocate"
textline "                      "
group.long c15:0x400f++0x0
line.long 0x00 "CBAR,Configuration Base Address Register"
hexmask.long 0x00 0.--31. 1. " CBA      ,Configuration Base Address"
textline "                      "
rgroup.long c15:0x000d++0x00
line.long 0x00 "FCSEIDR,FCSE PID Register"
hexmask.long.byte 0x00 25.--31. 0x02 " PID      ,Process for Fast Context Switch Identification and Specification"
group.long c15:0x10d++0x0
line.long 0x0 "CONTEXTIDR,Context ID Register"
hexmask.long.tbyte 0x0 8.--31. 1. " PROCID   ,Process ID"
hexmask.long.byte 0x0 0.--7. 1. "                  ASID   ,Application Space ID"
group.long c15:0x020d++0x00
line.long 0x00 "TPIDRURW,User Read/Write Thread ID Register"
hexmask.long 0x00 0.--31. 1. " TPIDRURW ,User Read/Write Thread ID"
group.long c15:0x030d++0x00
line.long 0x00 "TPIDRURO,User Read-only Thread ID Register"
hexmask.long 0x00 0.--31. 1. " TPIDRURO ,User Read-only Thread ID"
group.long c15:0x040d++0x00
line.long 0x00 "TPIDRPRW,Privileged Only Thread ID Register"
hexmask.long 0x00 0.--31. 1. " TPIDRPRW ,Privileged Only Thread ID"
tree.end
width 0xC
tree "Cache Control and Configuration"
rgroup.long c15:0x1100++0x0
line.long 0x0 "CLIDR,Cache Level ID Register"
bitfld.long 0x00 27.--29. " LOU    ,Level of Unification" "Level 1,Level 2,Level 3,Level 4,Level 5,Level 6,Level 7,Level 8"
bitfld.long 0x00 24.--26. "        LOC    ,Level of Coherency" "Level 1,Level 2,Level 3,Level 4,Level 5,Level 6,Level 7,Level 8"
textline "                     "
bitfld.long 0x00 21.--23. " LOUIS  ,Level of Unification Inner Shareable" "Level 1,Level 2,Level 3,Level 4,Level 5,Level 6,Level 7,Level 8"
bitfld.long 0x00 18.--20. "        CType7 ,Cache type for levels 7" "No cache,I-cache,D-cache,Separate I/D,Unified,?..."
textline "                     "
bitfld.long 0x00 15.--17. " CType6 ,Cache type for levels 6" "No cache,I-cache,D-cache,Separate I/D,Unified,?..."
bitfld.long 0x00 12.--14. "   CType5 ,Cache type for levels 5" "No cache,I-cache,D-cache,Separate I/D,Unified,?..."
textline "                     "
bitfld.long 0x00 9.--11. " CType4 ,Cache type for levels 4" "No cache,I-cache,D-cache,Separate I/D,Unified,?..."
bitfld.long 0x00 6.--8. "   CType3 ,Cache type for levels 3" "No cache,I-cache,D-cache,Separate I/D,Unified,?..."
textline "                     "
bitfld.long 0x00 3.--5. " CType2 ,Cache type for levels 2" "No cache,I-cache,D-cache,Separate I/D,Unified,?..."
bitfld.long 0x00 0.--2. "   CType1 ,Cache type for levels 1" "No cache,I-cache,D-cache,Separate I/D,Unified,?..."
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"
textline "                     "
bitfld.long 0x00 29. " RA     ,Read-Allocate" "Not Supported,Supported"
bitfld.long 0x00 28. "  WA     ,Write-Allocate" "Not Supported,Supported"
textline "                     "
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" "4 words,8 words,16 words,32 words,64 words,128 words,256 words,512 words"
group.long c15:0x2000++0x0
line.long 0x0 "CSSELR,Cache Size Selection Register"
bitfld.long 0x00 1.--3. " LEVEL  ,Level" "Level 1,Level 2,Level 3,Level 4,Level 5,Level 6,Level 7,Level 8"
bitfld.long 0x00 0. "        IND    ,Instruction/Not Data" "Data,Instruction"
tree.end
width 12.
tree "System Performance Monitor"
group.long c15:0xC9++0x0
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"
bitfld.long 0x00 5. "           DP ,Disable CCNT when prohibited" "Enabled,Disabled"
textline "                     "
bitfld.long 0x00 4. " X     ,Export Enabled" "Disabled,Enabled"
bitfld.long 0x00 3. "     D      ,Clock Divider" "Every cycle,64th cycle"
bitfld.long 0x00 2. "  C  ,Clock Counter Reset" "No action,Reset"
bitfld.long 0x00 1. "    P  ,Performance Counter Reset" "No action,Reset"
textline "                     "
bitfld.long 0x00 0. " E     ,Counters Enable" "Disabled,Enabled"
group.long c15:0x1C9++0x0
line.long 0x0 "PMCNTENSET,Count Enable Set Register"
bitfld.long 0x00 31. " C     ,CCNT Enabled" "Disabled,Enabled"
bitfld.long 0x00  5. "     P5     ,PMN5 Enabled" "Disabled,Enabled"
bitfld.long 0x00  4. "     P4 ,PMN5 Enabled" "Disabled,Enabled"
bitfld.long 0x00  3. "     P3 ,PMN3 Enabled" "Disabled,Enabled"
textline "                     "
bitfld.long 0x00  2. " P2    ,PMN2 Enabled" "Disabled,Enabled"
bitfld.long 0x00  1. "     P1     ,PMN1 Enabled" "Disabled,Enabled"
bitfld.long 0x00  0. "     P0 ,PMN0 Enabled" "Disabled,Enabled"
group.long c15:0x2C9++0x0
line.long 0x0 "PMCNTENCLR,Count Enable Clear Register"
bitfld.long 0x00 31. " C     ,CCNT Enabled" "Disabled,Enabled"
bitfld.long 0x00  5. "     P5     ,PMN5 Enabled" "Disabled,Enabled"
bitfld.long 0x00  4. "     P4 ,PMN5 Enabled" "Disabled,Enabled"
bitfld.long 0x00  3. "     P3 ,PMN3 Enabled" "Disabled,Enabled"
textline "                     "
bitfld.long 0x00  2. " P2    ,PMN2 Enabled" "Disabled,Enabled"
bitfld.long 0x00  1. "     P1     ,PMN1 Enabled" "Disabled,Enabled"
bitfld.long 0x00  0. "     P0 ,PMN0 Enabled" "Disabled,Enabled"
group.long c15:0x3C9++0x0
line.long 0x0 "PMOVSR,Overflow Flag Status Register"
eventfld.long 0x00 31. " C     ,CCNT overflowed" "No overflow,Overflow"
eventfld.long 0x00  5. "  P5     ,PMN5 overflow" "No overflow,Overflow"
eventfld.long 0x00  4. "  P4 ,PMN5 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++0x0
line.long 0x0 "PMSWINC,Software Increment Register"
eventfld.long 0x00  5. " P5    ,Increment  PMN2" "No action,Increment"
eventfld.long 0x00  4. "    P4     ,Increment  PMN1" "No action,Increment"
eventfld.long 0x00  3. "    P3 ,Increment  PMN3" "No action,Increment"
eventfld.long 0x00  2. "    P2 ,Increment  PMN2" "No action,Increment"
textline "                     "
eventfld.long 0x00  1. " P1    ,Increment  PMN1" "No action,Increment"
eventfld.long 0x00  0. "    P0     ,Increment  PMN0" "No action,Increment"
group.long c15:0x5C9++0x0
line.long 0x0 "PMSELR,Performance Counter Selection Register"
bitfld.long 0x00 0.--5. " SEL   ,Selection value" "CNT0,CNT1,CNT2,CNT3,CNT4,CNT5,?..."
group.long c15:0xD9++0x0
line.long 0x00 "PMCCNTR,Cycle Count Register"
hexmask.long 0x00 0.--31. 1. " CCNT  ,Cycle Count"
group.long c15:0x01d9++0x00
line.long 0x00 "PMXEVTYPER,Event Type Select Register"
hexmask.long.byte 0x00 0.--7. 1. " EVCNT ,Event to count"
group.long c15:0x02d9++0x00
line.long 0x00 "PMXEVCNTR,Event Count Register"
hexmask.long 0x00 0.--31. 1. " PMNX  ,Event Count"
group.long c15:0xE9++0x0
line.long 0x0 "PMUSERENR,User Enable Register"
bitfld.long 0x00  0. " EN    ,User Mode Enable" "Disabled,Enabled"
group.long c15:0x1E9++0x0
line.long 0x0 "PMINTENSET,Interrupt Enable Set Register"
bitfld.long 0x00 31. " C     ,CCNT Overflow Interrupt Enable" "Disabled,Enabled"
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++0x0
line.long 0x0 "PMINTENCLR,Interrupt Enable Clear Register"
eventfld.long 0x00 31. " C     ,CCNT Overflow Interrupt Enable" "Disabled,Enabled"
eventfld.long 0x00  5. "     P5     ,PMCNT5 Overflow Interrupt Enable" "Disabled,Enabled"
eventfld.long 0x00  4. "     P4 ,PMCNT4 Overflow Interrupt Enable" "Disabled,Enabled"
eventfld.long 0x00  3. "     P3 ,PMCNT3 Overflow Interrupt Enable" "Disabled,Enabled"
textline "                     "
eventfld.long 0x00  2. " P2    ,PMCNT2 Overflow Interrupt Enable" "Disabled,Enabled"
eventfld.long 0x00  1. "     P1     ,PMCNT1 Overflow Interrupt Enable" "Disabled,Enabled"
eventfld.long 0x00  0. "     P0 ,PMCNT0 Overflow Interrupt Enable" "Disabled,Enabled"
tree.end
width 8.
tree "Preload Engine"
rgroup.long c15:0x000b++0x00
line.long 0x00 "PLEIDR,PLE ID Register"
bitfld.long 0x00 16.--20. " FIFOS ,PLE FIFO size" "Not present,Reserved,Reserved,Reserved,4,Reserved,Reserved,Reserved,8,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,16,?..."
bitfld.long 0x00 0. "   PEP ,Preload Engine presence" "Not present,Present"
rgroup.long c15:0x020b++0x00
line.long 0x00 "PLEASR,PLE Activity Status Register"
bitfld.long 0x00 0. " R     ,PLE Channel running" "Not running,Running"
rgroup.long c15:0x040b++0x00
line.long 0x00 "PLEFSR,PLE FIFO Status Register"
bitfld.long 0x00 0.--4. " AE    ,Number of available entries in the PLE FIFO" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long c15:0x001b++0x00
line.long 0x00 "PLEUAR,Preload Engine User Accessibility Register"
bitfld.long 0x00 0. " U     ,User accessibility" "Not permited,Permited"
group.long c15:0x011b++0x00
line.long 0x00 "PLEPCR,Preload Engine Parameters Control Register"
hexmask.long.word 0x00 16.--29. 1. " BSM   ,Block size mask"
hexmask.long.byte 0x00 8.--15. 1. "          BNM ,Block number mask"
hexmask.long.byte 0x00 0.--7. 1. "           WS ,PLE wait states"
tree.end
tree "NEON"
rgroup.long c15:0x000f++0x00
line.long 0x00 "NEON,NEON busy Register"
bitfld.long 0x00 0. " Busy  ,NEON busy" "Not busy,Busy"
tree.end
width 0xb
width 9.
tree "Debug Registers"
tree "Jazelle Register"
group.long c14:0x7000++0x0
line.long 0x00 "JIDR,Jazelle ID Register"
bitfld.long 0x00 28.--31. " ARCH   ,Architecture code" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 20.--27. 1. "         DESIGN    ,Implementor code of the designer of the subarchitecture"
textline "                  "
hexmask.long.byte 0x00 12.--19. 1. " SAMAJ  ,The subarchitecture code"
bitfld.long 0x00 8.--11. "         SAMIN     ,The subarchitecture minor code" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                  "
bitfld.long 0x00 6. " TRTBFR ,Format of the Jazelle Configurable Opcode Translation Table Register" "0,1"
bitfld.long 0x00 0.--5. "          TRTBSZ    ,Size of the Jazelle Configurable Opcode Translation Table Register" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long c14:0x7001++0x0
line.long 0x00 "JOSCR,Jazelle OS Control Register"
bitfld.long 0x00 1. " CV     ,Configuration Valid" "Not valid,Valid"
bitfld.long 0x00 0. "  CD        ,Configuration Disabled" "No,Yes"
group.long c14:0x7002++0x0
line.long 0x00 "JMCR,Jazelle Main Configuration Register"
bitfld.long 0x00 31. " nAR    ,Not Array Operations" "Disabled,Enabled"
bitfld.long 0x00 30. "   FP        ,Floating-point opcodes handler" "VM implementation,VFP instructions"
bitfld.long 0x00 29. "  AP  ,Array Pointer" "Handler,Pointer"
textline "                  "
bitfld.long 0x00 28. " OP     ,Object Pointer" "Handler,Pointer"
bitfld.long 0x00 27. "    IS        ,Index Size" "8 bits,16 bits"
bitfld.long 0x00 26. "            SP  ,Static Pointer" "Handler,Pointer"
textline "                  "
bitfld.long 0x00 0. " JE     ,Jazelle Enable" "Disabled,Enabled"
group.long c14:0x7003++0x0
line.long 0x00 "JPR,Jazelle Parameters Register"
bitfld.long 0x00 17.--21. " BSH    ,Bounds SHift" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 12.--16. "         sADO      ,Signed Array Descriptor Offset" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 8.--11. "                 ARO ,Array Reference Offset" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                  "
bitfld.long 0x00 4.--7. " STO    ,STatic Offset" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "         ODO       ,Object Descriptor Offset" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
wgroup.long c14:0x7004++0x0
line.long 0x00 "JCOTTRR,Jazelle Configurable Opcode Translation Table Register"
bitfld.long 0x00 10.--15. " OPCODE ,Bottom bits of the configurable opcode" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--3. "         OPERATION ,Code for the operation" "0,1,2,3,4,5,6,7,8,9,?..."
tree.end
width 11.
tree "Processor Identifier Registers"
rgroup c14:0x340--0x340
line.long 0x00 "CPUID,Main ID Register"
hexmask.long.byte 0x0 24.--31. 0x1 " IMPL       ,Implementer code"
hexmask.long.byte 0x0 20.--23. 0x1 "                        SPECREV    ,Variant number"
textline "                    "
hexmask.long.byte 0x0 16.--19. 0x1 " ARCH       , Architecture"
hexmask.long.word 0x0 4.--15. 0x1 "                        PARTNUM    ,Part Number"
textline "                    "
hexmask.long.byte 0x0 0.--3. 0x1 " REV        ,Layout Revision"
rgroup c14:0x341--0x341
line.long 0x00 "CACHETYPE,Cache Type Register"
bitfld.long 0x0 29.--31. " FORMAT     ,Format" "Not ARMv7,Not ARMv7,Not ARMv7,Not ARMv7,ARMv7,Not ARMv7,Not ARMv7,Not ARMv7"
bitfld.long 0x0 24.--27. "                 CWG        ,Cache Writeback Granule" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                    "
bitfld.long 0x0 20.--23. " ERG        ,Exclusives Reservation Granule" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "                        DMinLine   ,Words of Smallest Line Length in L1 or L2 Data Cache Number" "Reserved,Reserved,Reserved,Reserved,16x32-bit words,?..."
textline "                    "
bitfld.long 0x00 14.--15. " L1_Ipolicy ,VIPT Instruction Cache Support" "Reserved,Reserved,Supported,?..."
bitfld.long 0x00 0.--3. "                 IMinLine   ,Words of Smallest Line Length in L1 or L2 Instruction Cache Number" "Reserved,Reserved,Reserved,Reserved,16x32-bit words,?..."
rgroup c14:0x343--0x343
line.long 0x00 "TLBTYPE,TLB Type Register"
hexmask.long.byte 0x0 16.--23. 0x1 " ILsize     ,Specifies the number of instruction TLB lockable entries"
hexmask.long.byte 0x0 8.--15. 0x1 "                        DLsize     ,Specifies the number of unified or data TLB lockable entries"
textline "                    "
bitfld.long 0x0 1. " TLB_size   ,TLB Size" "64,128"
bitfld.long 0x0 0. "                       U          ,Unified or separate instruction TLBs" "Unified,Separate"
rgroup c14:0x348--0x348
line.long 0x00 "ID_PFR0,Processor Feature Register 0"
bitfld.long 0x00 12.--15. " State3     ,Thumb-2 Execution Environment (Thumb-2EE) Support" "Not supported,Supported,?..."
bitfld.long 0x00 8.--11. "             State2     ,Java Extension Interface Support" "Not supported,Supported,Supported,?..."
textline "                    "
bitfld.long 0x00 4.--7. " State1     ,Thumb Encoding Supported by the Processor Type" "Not supported,Supported,Reserved,Supported,?..."
bitfld.long 0x00 0.--3. "             State0     ,ARM Instruction Set Support" "Not supported,Supported,?..."
rgroup c14:0x349--0x349
line.long 0x00 "ID_PFR1,Processor Feature Register 1"
bitfld.long 0x00 8.--11. " MPM        ,Microcontroller Programmer's Model Support" "Not supported,Reserved,Supported,?..."
bitfld.long 0x00 4.--7. "             SE         ,Security Extensions Architecture v1 Support" "Not supported,Supported,Supported,?..."
textline "                    "
bitfld.long 0x00 0.--3. " PM         ,Standard ARMv4 Programmer's Model Support" "Not supported,Supported,?..."
rgroup c14:0x34a--0x34a
line.long 0x00 "ID_DFR0,Debug Feature Register 0"
bitfld.long 0x00 20.--23. " MDM_MM     ,Microcontroller Debug Model Support" "Not supported,Supported,?..."
bitfld.long 0x00 16.--19. "             TDM_MM     ,Trace Debug Model (Memory-Mapped) Support" "Not supported,Supported,?..."
textline "                    "
bitfld.long 0x00 12.--15. " TDM_CB     ,Coprocessor-Based Trace Debug Model Support" "Not supported,Supported,?..."
bitfld.long 0x00 8.--11. "             CDM_MM     ,Memory-Mapped Debug Model Support" "Not supported,Reserved,Reserved,Reserved,Supported,?..."
textline "                    "
bitfld.long 0x00 4.--7. " SDM_CB     ,Secure Debug Model (Coprocessor) Support" "Not supported,Reserved,Reserved,v6.1,v7,?..."
bitfld.long 0x00 0.--3. "             CDM_CB     ,Coprocessor Debug Model Support" "Not supported,Reserved,v6,v6.1,v7,?..."
rgroup c14:0x34c--0x34c
line.long 0x00 "ID_MMFR0,Processor Feature Register 0"
bitfld.long 0x00 28.--31. " ISB        ,Innermost shareability bits" "Non-cacheable,Hardware coherency,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Ignored"
bitfld.long 0x00 24.--27. "        FCSE       ,Fast Context Switch Memory Mappings Support" "Not supported,Supported,?..."
textline "                    "
bitfld.long 0x00 20.--23. " ARS        ,Auxiliary Registers Support" "Not supported,Control only,Fault status and Control,?..."
bitfld.long 0x00 16.--19. "  TCM        ,TCM and Associated DMA Support" "Not supported,IMPLEMENTATION DEFINED,?..."
textline "                    "
bitfld.long 0x00 12.--15. " SLS        ,Shareability levels Support" "One level,Two levels,?..."
bitfld.long 0x00 8.--11. "                OSS        ,Outermost shareability Support" "Non-cacheable,Supported,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Ignored"
textline "                    "
bitfld.long 0x00 4.--7. " PMSA       ,Physical Memory System Architecture (PMSA) Support" "Not supported,IMPLEMENTATION DEFINED,PMSAv6,PMSAv7,?..."
bitfld.long 0x00 0.--3. "    VMSA       ,Virtual Memory System Architecture (VMSA) Support" "Not supported,IMPLEMENTATION DEFINED,VMSAv6,VMSAv7,?..."
rgroup c14:0x34d--0x34d
line.long 0x00 "ID_MMFR1,Processor Feature Register 1"
bitfld.long 0x00 28.--31. " BTB        ,Branch Predictor" "Disabled,Required,Required,Required,Not required,?..."
bitfld.long 0x00 24.--27. "              L1TCO      ,Test and Clean Operations on Data Cache/Harvard/Unified Architecture Support" "Not supported,?..."
textline "                    "
bitfld.long 0x00 20.--23. " L1UCMO     ,L1 Cache/All Maintenance Operations/Unified Architecture Support" "Not supported,?..."
bitfld.long 0x00 16.--19. "             L1HCMO     ,L1 Cache/All Maintenance Operations/Harvard Architecture Support" "Not supported,?..."
textline "                    "
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,?..."
rgroup c14:0x34e--0x34e
line.long 0x00 "ID_MMFR2,Processor Feature Register 2"
bitfld.long 0x00 28.--31. " HAF        ,Hardware Access Flag Support" "Not supported,Supported,?..."
bitfld.long 0x00 24.--27. "             WFI        ,Wait for Interrupt Stalling Support" "Not supported,Supported,?..."
textline "                    "
bitfld.long 0x00 20.--23. " MBF        ,Memory Barrier Operations Support" "Not supported,Supported,Supported,?..."
bitfld.long 0x00 16.--19. "             UTLBMO     ,TLB Maintenance Operations/Unified Architecture Support" "Not supported,Supported,Supported,Supported,?..."
textline "                    "
bitfld.long 0x00 12.--15. " HTLBMO     ,TLB Maintenance Operations/Harvard Architecture Support" "Not supported,Supported,Supported,?..."
bitfld.long 0x00 8.--11. "             HL1CMRO    ,Cache Maintenance Range Operations/Harvard Architecture Support" "Not supported,Supported,?..."
textline "                    "
bitfld.long 0x00 4.--7. " HL1BPCRO   ,Background Prefetch Cache Range Operations/Harvard Architecture Support" "Not supported,Supported,?..."
bitfld.long 0x00 0.--3. "             HL1FPCRO   ,Foreground Prefetch Cache Range Operations/Harvard Architecture Support" "Not supported,Supported,?..."
rgroup c14:0x34f--0x34f
line.long 0x00 "ID_MMFR3,Processor Feature Register 3"
bitfld.long 0x00 28.--31. " SS         ,Supersection support" "Supported,?..."
bitfld.long 0x00 20.--23. "                 CW         ,Coherent walk" "Supported,?..."
textline "                    "
bitfld.long 0x00 12.--15. " MB         ,Invalidate broadcast Support" "Reserved,Reserved,Supported,?..."
bitfld.long 0x00 8.--11. "                 BPM        ,Invalidate Branch predictor Support" "Reserved,Supported,?..."
textline "                    "
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,?..."
bitfld.long 0x00 0.--3. "                 HCMOMVA    ,Invalidate Cache MVA Support" "Reserved,Supported,?..."
rgroup c14:0x350--0x350
line.long 0x00 "ID_ISAR0,ISA Feature Register 0"
bitfld.long 0x00 24.--27. " DIVI       ,Divide Instructions Support" "Not supported,Supported,?..."
bitfld.long 0x00 20.--23. "             DEBI       ,Debug Instructions Support" "Not supported,Supported,?..."
textline "                    "
bitfld.long 0x00 16.--19. " CI         ,Coprocessor Instructions Support" "Not supported,Supported,Supported,Supported,Supported,?..."
bitfld.long 0x00 12.--15. "             CBI        ,Combined Compare and Branch Instructions Support" "Not supported,Supported,?..."
textline "                    "
bitfld.long 0x00 8.--11. " BI         ,Bitfield Instructions Support" "Not supported,Supported,?..."
bitfld.long 0x00 4.--7. "             BCI        ,Bit Counting Instructions Support" "Not supported,Supported,?..."
textline "                    "
bitfld.long 0x00 0.--3. " SI         ,Swap Instructions Support" "Not supported,Supported,?..."
rgroup c14:0x351--0x351
line.long 0x00 "ID_ISAR1,ISA Feature Register 1"
bitfld.long 0x00 28.--31. " JI         ,Jazelle Instructions Support" "Not supported,Supported,?..."
bitfld.long 0x00 24.--27. "             INTI       ,Interwork Instructions Support" "Not supported,Supported,Supported,Supported,?..."
textline "                    "
bitfld.long 0x00 20.--23. " IMMI       ,Immediate Instructions Support" "Not supported,Supported,?..."
bitfld.long 0x00 16.--19. "             ITEI       ,If Then Instructions Support" "Not supported,Supported,Supported,?..."
textline "                    "
bitfld.long 0x00 12.--15. " EXTI       ,Extend Instructions Support" "Not supported,Supported,Supported,?..."
bitfld.long 0x00 8.--11. "             E2I        ,Exception 2 Instructions Support" "Not supported,Supported,?..."
textline "                    "
bitfld.long 0x00 4.--7. " E1I        ,Exception 1 Instructions Support" "Not supported,Supported,?..."
bitfld.long 0x00 0.--3. "             ENDI       ,Endian Instructions Support" "Not supported,Supported,?..."
rgroup c14:0x352--0x352
line.long 0x00 "ID_ISAR2,ISA Feature Register 2"
bitfld.long 0x00 28.--31. " RI         ,Reversal Instructions Support" "Not supported,Supported,Supported,?..."
bitfld.long 0x00 24.--27. "             PSRI       ,PSR Instructions Support" "Not supported,Supported,?..."
textline "                    "
bitfld.long 0x00 20.--23. " UMI        ,Advanced Unsigned Multiply Instructions Support" "Not supported,Supported,Supported,?..."
bitfld.long 0x00 16.--19. "             SMI        ,Advanced Signed Multiply Instructions Support" "Not supported,Supported,Supported,Supported,?..."
textline "                    "
bitfld.long 0x00 12.--15. " MI         ,Multiply Instructions Support" "Not supported,Supported,Supported,?..."
bitfld.long 0x00 8.--11. "             II         ,Multi-Access Interruptible Instructions Support" "Not supported,Supported,Supported,?..."
textline "                    "
bitfld.long 0x00 4.--7. " MHI        ,Memory Hint Instructions Support" "Not supported,Supported,Supported,Supported,Supported,?..."
bitfld.long 0x00 0.--3. "             LSI        ,Load and Store Instructions Support" "Not supported,Supported,?..."
rgroup c14:0x353--0x353
line.long 0x00 "ID_ISAR3,ISA Feature Register 3"
bitfld.long 0x00 28.--31. " T2E        ,Thumb-2 Extensions Support" "Not supported,Supported,?..."
bitfld.long 0x00 24.--27. "             NOPI       ,True NOP Instructions Support" "Not supported,Supported,?..."
textline "                    "
bitfld.long 0x00 20.--23. " TCI        ,Thumb Copy Instructions Support" "Not supported,Supported,?..."
bitfld.long 0x00 16.--19. "             TBI        ,Table Branch Instructions Support" "Not supported,Supported,?..."
textline "                    "
bitfld.long 0x00 12.--15. " SPI        ,Synchronization Primitive Instructions Support" "Not supported,Supported,Supported,Supported,?..."
bitfld.long 0x00 8.--11. "             SVCI       ,SVC Instructions Support" "Not supported,Supported,?..."
textline "                    "
bitfld.long 0x00 4.--7. " SIMDI      ,Single Instruction Multiple Data (SIMD) Instructions Support" "Not supported,Supported,Supported,Supported,?..."
bitfld.long 0x00 0.--3. "             SI         ,Saturate Instructions Support" "Not supported,Supported,?..."
rgroup c14:0x354--0x354
line.long 0x00 "ID_ISAR4,ISA Feature Register 4"
bitfld.long 0x00 28.--31. " SWP_frac   ,SWAP_frac" "Not supported,Supported,?..."
bitfld.long 0x00 24.--27. "             PSR_M_I    ,PSR_M Instructions Support" "Not supported,Supported,?..."
textline "                    "
bitfld.long 0x00 20.--23. " SPRI       ,Synchronization Primitive instructions" "Not supported,Reserved,Reserved,Supported,?..."
bitfld.long 0x00 16.--19. "             BI         ,Barrier Instructions Support" "Not supported,Supported,?..."
textline "                    "
bitfld.long 0x00 12.--15. " SMCI       ,SMC Instructions Support" "Not supported,Supported,?..."
bitfld.long 0x00 8.--11. "             WBI        ,Write-Back Instructions Support" "Not supported,Supported,?..."
textline "                    "
bitfld.long 0x00 4.--7. " WSI        ,With-Shift Instructions Support" "Not supported,Supported,Supported,Supported,Supported,?..."
bitfld.long 0x00 0.--3. "             UI         ,Unprivileged Instructions Support" "Not supported,Supported,Supported,?..."
tree.end
tree "Coresight Management Registers"
width 0xC
textline "                     "
group c14:0x3c0--0x3c0
line.long 0x0 "ITCTRL,Integration Mode Control Register"
bitfld.long 0x0 0. " IME             ,Integration Mode Enable" "Disabled,Enabled"
group c14:0x3e8--0x3e8
line.long 0x0 "CLAIMSET,Claim Tag Set Register"
bitfld.long 0x0 7. " CT7             ,Claim Tag 7" "No Effect,Set"
bitfld.long 0x0 6. "        CT6             ,Claim Tag 6" "No Effect,Set"
textline "                     "
bitfld.long 0x0 5. " CT5             ,Claim Tag 5" "No Effect,Set"
bitfld.long 0x0 4. "        CT4             ,Claim Tag 4" "No Effect,Set"
textline "                     "
bitfld.long 0x0 3. " CT3             ,Claim Tag 3" "No Effect,Set"
bitfld.long 0x0 2. "        CT2             ,Claim Tag 2" "No Effect,Set"
textline "                     "
bitfld.long 0x0 1. " CT1             ,Claim Tag 1" "No Effect,Set"
bitfld.long 0x0 0. "        CT0             ,Claim Tag 0" "No Effect,Set"
group c14:0x3e9--0x3e9
line.long 0x0 "CLAIMCLR,Claim Tag Clear Register"
bitfld.long 0x0 7. " CT7             ,Claim Tag 7" "No Effect,Cleared"
bitfld.long 0x0 6. "        CT6             ,Claim Tag 6" "No Effect,Cleared"
textline "                     "
bitfld.long 0x0 5. " CT5             ,Claim Tag 5" "No Effect,Cleared"
bitfld.long 0x0 4. "        CT4             ,Claim Tag 4" "No Effect,Cleared"
textline "                     "
bitfld.long 0x0 3. " CT3             ,Claim Tag 3" "No Effect,Cleared"
bitfld.long 0x0 2. "        CT2             ,Claim Tag 2" "No Effect,Cleared"
textline "                     "
bitfld.long 0x0 1. " CT1             ,Claim Tag 1" "No Effect,Cleared"
bitfld.long 0x0 0. "        CT0             ,Claim Tag 0" "No Effect,Cleared"
wgroup c14:0x3ec--0x3ec
line.long 0x0 "LAR,Lock Access Register"
hexmask.long.long 0x0 0.--31. 1. " LACK            ,Lock Access Control Key"
rgroup c14:0x3ed--0x3ed
line.long 0x0 "LSR,Lock Status Register"
bitfld.long 0x0 2. " 32ACND          ,32-bit Access Needed" "Needed,Not needed"
bitfld.long 0x0 1. "       WLCK            ,Writes Lock" "Permitted,Ignored"
textline "                     "
bitfld.long 0x0 0. " LI              ,Lock Implementation" "Lock ignored,Unlock required"
width 0xc
rgroup c14:0x3ee--0x3ee
line.long 0x0 "AUTHSTATUS,Authentication Status Register"
bitfld.long 0x0 7. " SNIDFI  ,Secure Non-invasive Debug Features Implemented" "Not Implemented,Implemented"
bitfld.long 0x0 6. "  SNIDE  ,Secure Non-invasive Debug Enable" "Disabled,Enabled"
textline "                     "
bitfld.long 0x0 5. " SIDFI   ,Secure Invasive Debug Feauter Implemented" "Not Implemented,Implemented"
bitfld.long 0x0 4. "  SIDE   ,Secure Invasive Debug Enable" "Disabled,Enabled"
textline "                     "
bitfld.long 0x0 3. " NSNIDFI ,Non-secure Non-invasive Debug Feature Implemented" "Not Implemented,Implemented"
bitfld.long 0x0 2. "  NSNIDE ,Non-secure Non-invasive Debug Enable" "Disabled,Enabled"
textline "                     "
bitfld.long 0x0 1. " NSIDFI  ,Non-secure Invasive Debug Implemented" "Not Implemented,Implemented"
bitfld.long 0x0 0. "  NSIDE  ,Non-secure Invasive Debug Enable" "Disabled,Enabled"
width 0xc
rgroup c14:0x3f2--0x3f2
line.long 0x0 "DEVID,Device Identifier"
bitfld.long 0x00 0.--3. " PCSAMPLE ,Level of Program Counter sampling support (DBGPCSR and DBGCIDSR)" "Not implemented,DBGPCSR,Both,?..."
rgroup c14:0x3f3--0x3f3
line.long 0x0 "DEVTYPE,Device Type"
hexmask.long.byte 0x0 4.--7. 1. " STPC     ,Sub Type: Processor Core"
hexmask.long.byte 0x0 0.--3. 1. "               MCDL   ,Main Class: Debug Logic"
rgroup c14:0x3f8--0x3f8
line.long 0x0 "PID0,Peripherial ID0"
hexmask.long.byte 0x0 0.--7. 1. " PN       ,Part Number [7:0]"
rgroup c14:0x3f9--0x3f9
line.long 0x0 "PID1,Peripherial ID1"
hexmask.long.byte 0x0 4.--7. 1. " JEP106   ,JEP106 Identity Code [3:0]"
hexmask.long.byte 0x0 0.--3. 1. "               PN     ,Part Number [11:8]"
rgroup c14:0x3fa--0x3fa
line.long 0x0 "PID2,Peripherial ID2"
hexmask.long.byte 0x0 4.--7. 1. " REV      ,Revision"
bitfld.long 0x00 3. "               JEPCD  ,JEP 106 ID code" "Not used,Used"
textline "                     "
hexmask.long.byte 0x0 0.--2. 1. " JEP106   ,JEP106 Identity Code [6:4]"
rgroup c14:0x3fb--0x3fb
line.long 0x0 "PID3,Peripherial ID3"
hexmask.long.byte 0x0 4.--7. 1. " REVA     ,RevAnd"
hexmask.long.byte 0x0 0.--3. 1. "               CMOD   ,Customer Modified"
rgroup c14:0x3f4--0x3f4
line.long 0x0 "PID4,Peripherial ID4"
bitfld.long 0x0 4.--7. " 4KBC     ,Number of 4KB Blocks Occupied" "1,2,4,8,16,32,64,128,256,512,1024,2048,4096,8192,16384,32768"
bitfld.long 0x0 0.--3. "            JEP106 ,JEP106 Continuation Code" "0000,0001,0010,0011,0100,0101,0110,0111,1000,1001,1010,1011,1100,1101,1110,1111"
rgroup c14:0x3fc--0x3fc
line.long 0x0 "COMPONENTID0,Component ID0"
hexmask.long.byte 0x0 0.--7. 1. " PRBL     ,Preamble"
rgroup c14:0x3fd--0x3fd
line.long 0x0 "COMPONENTID1,Component ID1"
hexmask.long.byte 0x0 4.--7. 1. " CCLASS   ,Component Class (CoreSight Component)"
hexmask.long.byte 0x0 0.--3. 1. "               PRBL   ,Preamble"
rgroup c14:0x3fe--0x3fe
line.long 0x0 "COMPONENTID2,Component ID2"
hexmask.long.byte 0x0 0.--7. 1. " PRBL     ,Preamble"
rgroup c14:0x3ff--0x3ff
line.long 0x0 "COMPONENTID3,Component ID3"
hexmask.long.byte 0x0 0.--7. 1. " PRBL     ,Preamble"
tree.end
textline "                     "
width 0x7
rgroup c14:0x000--0x000
line.long 0x0 "DIDR,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" "Reserved,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 "                "
bitfld.long 0x0 16.--19. " Version ,Debug Architecture Version" "Reserved,ARMv6,ARMv6.1,ARMv7,ARMv7 no ext.,?..."
textline "                "
bitfld.long 0x0 15. " DEVID_IMP ,Debug Device ID Register DBGDEVID implemented" "Not implemented,Implemented"
bitfld.long 0x0 14. "  NSUHD_IMP ,Secure User halting debug implemented" "Not implemented,Implemented"
textline "                "
bitfld.long 0x0 13. " PCSR_IMP  ,Program Counter Sampling Register implemented" "Not implemented,Implemented"
bitfld.long 0x0 12. "  SE_IMP    ,Security Extensions implemented" "Not implemented,Implemented"
textline "                "
bitfld.long 0x0 4.--7. " Variant   ,Implementation-defined Variant Number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x0 0.--3. "               Revision  ,Implementation-defined Revision Number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
width 0x7
group c14:0x22--0x22
line.long 0x0 "DSCR,Debug Status and Control Register"
bitfld.long 0x0 30. " DTRRXfull   ,The DTRRX Full Flag" "Empty,Full"
bitfld.long 0x0 29. "                    DTRTXfull    ,The DTRTX Full Flag" "Empty,Full"
textline "                "
bitfld.long 0x00 27. " DTRRXfull_l ,The DTRRX Full Flag 1" "Empty,Full"
bitfld.long 0x00 26. "                    DTRTXfull_l  ,The DTRTX Full Flag 1" "Empty,Full"
textline "                "
bitfld.long 0x0 25. " PIPEADV     ,Sticky Pipeline Advance" "No effect,Instruction retired"
bitfld.long 0x0 24. "      INSTRCOMPL_L ,Latched Instruction Complete" "Executing,Not executing"
textline "                "
bitfld.long 0x0 20.--21. " EXTDCCMODE  ,External DCC access mode" "Non-blocking,Stall,Fast,?..."
bitfld.long 0x0 19. "             ADADISCARD   ,Asynchronous Data Aborts Discarded" "Not discarded,Discarded"
textline "                "
bitfld.long 0x0 18. " NS          ,Non-secure World Status" "Secured,Not secured"
bitfld.long 0x0 17. "              SPNIDDIS     ,Secure Privileged Non-Invasive Debug Disabled" "No,Yes"
textline "                "
bitfld.long 0x0 16. " SPIDDIS     ,Secure Privileged Invasive Debug Disabled" "No,Yes"
bitfld.long 0x0 15. "                      MDBGEN       ,Monitor Debug-mode enable" "Disabled,Enabled"
textline "                "
bitfld.long 0x0 14. " HDEn        ,Halting Debug-mode enable" "Disabled,Enabled"
bitfld.long 0x0 13. "                 ITREN        ,Execute ARM instruction enable" "Disabled,Enabled"
textline "                "
bitfld.long 0x0 12. " UDCCDIS     ,User mode access to Comms Channel disable" "No,Yes"
bitfld.long 0x0 11. "                      IntDis       ,Disable Interrupts" "No,Yes"
textline "                "
bitfld.long 0x0 10. " DbgAck      ,Force Debug Acknowledge" "Not forced,Forced"
bitfld.long 0x0 8. "               UND_l        ,Sticky Undefined Instruction" "No exception,Exception"
textline "                "
bitfld.long 0x0 7. " ADABORT_l   ,Sticky Asynchronous Data Abort" "Not aborted,Aborted"
bitfld.long 0x0 6. "              SDABORT_l    ,Sticky Synchronous Data Abort" "Not aborted,Aborted"
textline "                "
bitfld.long 0x0 2.--5. " MOE         ,Method of Debug Entry" "Halt request,Breakpoint,Asynchronous Watchpoint,BKPT instruction,External debug,Vector catch,Reserved,Reserved,OS Unlock,Reserved,Synchronous Watchpoint,?..."
bitfld.long 0x0 1. "  RESTARTED    ,Core Restarted" "Debug not exited,Debug exited"
textline "                "
bitfld.long 0x0 0. " HALTED      ,Core Halted" "Normal state,Debug state"
width 0x7
if (((data.long(c14:0x00))&0x01000)==0x00000)
group c14:0x007--0x007
line.long 0x0 "VCR,Vector Catch Register"
bitfld.long 0x0 7. " FIQ     ,Vector Catch Enable FIQ" "Disabled,Enabled"
bitfld.long 0x0 6. "  IRQ     ,Vector Catch Enable IRQ" "Disabled,Enabled"
textline "                "
bitfld.long 0x0 4. " DABORT  ,Vector Catch Enable Data Abort" "Disabled,Enabled"
bitfld.long 0x0 3. "  PABORT  ,Vector Catch Enable Prefetch Abort" "Disabled,Enabled"
textline "                "
bitfld.long 0x0 2. " SWI     ,Vector Catch Enable SWI" "Disabled,Enabled"
bitfld.long 0x0 1. "  UNDEF   ,Vector Catch Enable Undefined Instruction" "Disabled,Enabled"
textline "                "
bitfld.long 0x0 0. " RESET   ,Vector Catch Enable Reset" "Disabled,Enabled"
else
group c14:0x007--0x007
line.long 0x0 "VCR,Vector Catch Register"
bitfld.long 0x0 31. " FIQN    ,Vector Catch Enable FIQ (Non-secure)" "Disabled,Enabled"
bitfld.long 0x0 30. "  IRQN    ,Vector Catch Enable IRQ (Non-secure)" "Disabled,Enabled"
textline "                "
bitfld.long 0x0 28. " DABORTN ,Vector Catch Enable Data Abort (Non-secure)" "Disabled,Enabled"
bitfld.long 0x0 27. "  PABORTN ,Vector Catch Enable Prefetch abort (Non-secure)" "Disabled,Enabled"
textline "                "
bitfld.long 0x0 26. " SWIN    ,Vector Catch Enable SWI (Non-secure)" "Disabled,Enabled"
bitfld.long 0x0 25. "  UNDEFS  ,Vector Catch Enable Undefined (Non-secure)" "Disabled,Enabled"
textline "                "
bitfld.long 0x0 15. " FIQS    ,Vector Catch Enable FIQ (Secure)" "Disabled,Enabled"
bitfld.long 0x0 14. "  IRQS    ,Vector Catch Enable IRQ (Secure)" "Disabled,Enabled"
textline "                "
bitfld.long 0x0 12. " DABORTS ,Vector Catch Enable Data Abort (Secure)" "Disabled,Enabled"
bitfld.long 0x00 11. "  PABORTS ,Vector Catch Enable Prefetch abort (Secure)" "Disabled,Enabled"
textline "                "
bitfld.long 0x0 10. " SMI     ,Vector Catch Enable SMI (Secure)" "Disabled,Enabled"
bitfld.long 0x0 7. "  FIQ     ,Vector Catch Enable FIQ" "Disabled,Enabled"
textline "                "
bitfld.long 0x0 6. " IRQ     ,Vector Catch Enable IRQ" "Disabled,Enabled"
bitfld.long 0x0 4. "  DABORT0 ,Vector Catch Enable Data Abort" "Disabled,Enabled"
textline "                "
bitfld.long 0x0 3. " PABORT  ,Vector Catch Enable Prefetch Abort" "Disabled,Enabled"
bitfld.long 0x0 2. "  SWI     ,Vector Catch Enable SWI" "Disabled,Enabled"
textline "                "
bitfld.long 0x0 1. " UNDEF   ,Vector Catch Enable Undefined Instruction" "Disabled,Enabled"
bitfld.long 0x0 0. "  RESET   ,Vector Catch Enable Reset" "Disabled,Enabled"
endif
;rgroup c14:0x1++0x1
;    line.long 0x0 "DRAR,Debug ROM Address Register"
;        hexmask.long 0x0 12.--31. 0x1000 " DBROMPA ,Debug bus ROM physical address"
;        bitfld.long 0x0 0.--1. "  VB      ,Valid bits" "Not valid,Reserved,Reserved,Valid"
;    line.long 0x4 "DSAR,Debug Self Address Offset Register"
;        hexmask.long 0x4 12.--31. 0x1000 " DBSAOV  ,Debug bus self-address offset value"
;        bitfld.long 0x4 0.--1. "  VB      ,Valid bits" "Not valid,Reserved,Reserved,Valid"
;hgroup c14:0x50++0x0
;    hide.long 0x0 "DTR,Data Transfer Register"
;        in
width 0x7
hgroup c14:0x020--0x020
hide.long 0x0 "DTRRX,Target -> Host Data Transfer Register"
in
group c14:0x023--0x023
line.long 0x0 "DTRTX,Host -> Target Data Transfer Register"
hexmask.long 0x00 0.--31. 1. " HTD   ,Host -> target data"
wgroup c14:0x21++0x00
line.long 0x00 "ITR,Instruction Transfer Register"
hexmask.long 0x00 0.--31. 1. " Data  ,ARM Instruction for the Processor in Debug State Execute"
wgroup c14:0x24++0x00
line.long 0x00 "DRCR,Debug Run Control Register"
bitfld.long 0x00 4. " CBIUR , Cancel Bus Interface Unit Requests" "Not canceled,Canceled"
bitfld.long 0x00 3. "      CSPA ,Clear Sticky Pipeline Advance" "Not cleared,Cleared"
textline "                "
bitfld.long 0x00 2. " CSE   ,Clear Sticky Exceptions" "Not cleared,Cleared"
bitfld.long 0x00 1. "       RR   ,Restart Request" "Not requested,Requested"
textline "                "
bitfld.long 0x00 0. " HR    ,Halt Request" "Not requested,Requested"
rgroup c14:0xc4++0x00
line.long 0x00 "PRCR,Device Power-Down and Reset Control Register"
bitfld.long 0x00 2. " HNDLR ,Hold non-debug logic reset" "No reset,Reset"
bitfld.long 0x00 1. "          WRR  ,Warm reset request" "Not requested,Requested"
textline "                "
bitfld.long 0x00 0. " NPD   ,No Power-Down" "DBGNOPWRDWN low,DBGNOPWRDWN high"
hgroup c14:0xc5++0x00
hide.long 0x00 "PRSR,Device Power-Down and Reset Status Register"
in
tree.end
width 6.
tree "Breakpoint Registers"
group c14:0x40++0x00
line.long 0x00 "BVR0,Breakpoint Value Register 0"
hexmask.long 0x00 0.--31. 1. " BV0 ,Breakpoint Value 0"
group c14:0x50++0x00
line.long 0x00 "BCR0,Breakpoint Control Register 0"
bitfld.long 0x00 24.--28. " BAM ,Breakpoint 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 0x00 20.--22. "  M  ,BVR Meaning" "IVA match,Linked IVA match,Unlinked context ID,Linked context ID,IVA mismatch,Linked IVA mismatch,?..."
bitfld.long 0x00 16.--19. "  LBRP ,Linked BRP Number" "BRP,BRP1,BRP2,BRP3,BRP4,BRP5,BRP6,BRP7,BRP8,BRP9,BRP10,BRP11,BRP12,BRP13,BRP14,BRP15"
bitfld.long 0x00 14.--15. "  SSAC ,Secure state access control" "Both,Nonsecure,Secure,?..."
textline "               "
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"
bitfld.long 0x00 1.--2. "  SP ,Supervisor Access Control" "User/system/supervisor,Privileged,User,Any"
bitfld.long 0x00 0. "  B ,Breakpoint Enable" "Disabled,Enabled"
group c14:0x41++0x00
line.long 0x00 "BVR1,Breakpoint Value Register 1"
hexmask.long 0x00 0.--31. 1. " BV1 ,Breakpoint Value 1"
group c14:0x51++0x00
line.long 0x00 "BCR1,Breakpoint Control Register 1"
bitfld.long 0x00 24.--28. " BAM ,Breakpoint 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 0x00 20.--22. "  M  ,BVR Meaning" "IVA match,Linked IVA match,Unlinked context ID,Linked context ID,IVA mismatch,Linked IVA mismatch,?..."
bitfld.long 0x00 16.--19. "  LBRP ,Linked BRP Number" "BRP,BRP1,BRP2,BRP3,BRP4,BRP5,BRP6,BRP7,BRP8,BRP9,BRP10,BRP11,BRP12,BRP13,BRP14,BRP15"
bitfld.long 0x00 14.--15. "  SSAC ,Secure state access control" "Both,Nonsecure,Secure,?..."
textline "               "
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"
bitfld.long 0x00 1.--2. "  SP ,Supervisor Access Control" "User/system/supervisor,Privileged,User,Any"
bitfld.long 0x00 0. "  B ,Breakpoint Enable" "Disabled,Enabled"
group c14:0x42++0x00
line.long 0x00 "BVR2,Breakpoint Value Register 2"
hexmask.long 0x00 0.--31. 1. " BV2 ,Breakpoint Value 2"
group c14:0x52++0x00
line.long 0x00 "BCR2,Breakpoint Control Register 2"
bitfld.long 0x00 24.--28. " BAM ,Breakpoint 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 0x00 20.--22. "  M  ,BVR Meaning" "IVA match,Linked IVA match,Unlinked context ID,Linked context ID,IVA mismatch,Linked IVA mismatch,?..."
bitfld.long 0x00 16.--19. "  LBRP ,Linked BRP Number" "BRP,BRP1,BRP2,BRP3,BRP4,BRP5,BRP6,BRP7,BRP8,BRP9,BRP10,BRP11,BRP12,BRP13,BRP14,BRP15"
bitfld.long 0x00 14.--15. "  SSAC ,Secure state access control" "Both,Nonsecure,Secure,?..."
textline "               "
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"
bitfld.long 0x00 1.--2. "  SP ,Supervisor Access Control" "User/system/supervisor,Privileged,User,Any"
bitfld.long 0x00 0. "  B ,Breakpoint Enable" "Disabled,Enabled"
group c14:0x43++0x00
line.long 0x00 "BVR3,Breakpoint Value Register 3"
hexmask.long 0x00 0.--31. 1. " BV3 ,Breakpoint Value 3"
group c14:0x53++0x00
line.long 0x00 "BCR3,Breakpoint Control Register 3"
bitfld.long 0x00 24.--28. " BAM ,Breakpoint 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 0x00 20.--22. "  M  ,BVR Meaning" "IVA match,Linked IVA match,Unlinked context ID,Linked context ID,IVA mismatch,Linked IVA mismatch,?..."
bitfld.long 0x00 16.--19. "  LBRP ,Linked BRP Number" "BRP,BRP1,BRP2,BRP3,BRP4,BRP5,BRP6,BRP7,BRP8,BRP9,BRP10,BRP11,BRP12,BRP13,BRP14,BRP15"
bitfld.long 0x00 14.--15. "  SSAC ,Secure state access control" "Both,Nonsecure,Secure,?..."
textline "               "
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"
bitfld.long 0x00 1.--2. "  SP ,Supervisor Access Control" "User/system/supervisor,Privileged,User,Any"
bitfld.long 0x00 0. "  B ,Breakpoint Enable" "Disabled,Enabled"
group c14:0x44++0x00
line.long 0x00 "BVR4,Breakpoint Value Register 4"
hexmask.long 0x00 0.--31. 1. " BV4 ,Breakpoint Value 4"
group c14:0x54++0x00
line.long 0x00 "BCR4,Breakpoint Control Register 4"
bitfld.long 0x00 24.--28. " BAM ,Breakpoint 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 0x00 20.--22. "  M  ,BVR Meaning" "IVA match,Linked IVA match,Unlinked context ID,Linked context ID,IVA mismatch,Linked IVA mismatch,?..."
bitfld.long 0x00 16.--19. "  LBRP ,Linked BRP Number" "BRP,BRP1,BRP2,BRP3,BRP4,BRP5,BRP6,BRP7,BRP8,BRP9,BRP10,BRP11,BRP12,BRP13,BRP14,BRP15"
bitfld.long 0x00 14.--15. "  SSAC ,Secure state access control" "Both,Nonsecure,Secure,?..."
textline "               "
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"
bitfld.long 0x00 1.--2. "  SP ,Supervisor Access Control" "User/system/supervisor,Privileged,User,Any"
bitfld.long 0x00 0. "  B ,Breakpoint Enable" "Disabled,Enabled"
group c14:0x45++0x00
line.long 0x00 "BVR5,Breakpoint Value Register 5"
hexmask.long 0x00 0.--31. 1. " BV5 ,Breakpoint Value 5"
group c14:0x55++0x00
line.long 0x00 "BCR5,Breakpoint Control Register 5"
bitfld.long 0x00 24.--28. " BAM ,Breakpoint 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 0x00 20.--22. "  M  ,BVR Meaning" "IVA match,Linked IVA match,Unlinked context ID,Linked context ID,IVA mismatch,Linked IVA mismatch,?..."
bitfld.long 0x00 16.--19. "  LBRP ,Linked BRP Number" "BRP,BRP1,BRP2,BRP3,BRP4,BRP5,BRP6,BRP7,BRP8,BRP9,BRP10,BRP11,BRP12,BRP13,BRP14,BRP15"
bitfld.long 0x00 14.--15. "  SSAC ,Secure state access control" "Both,Nonsecure,Secure,?..."
textline "               "
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"
bitfld.long 0x00 1.--2. "  SP ,Supervisor Access Control" "User/system/supervisor,Privileged,User,Any"
bitfld.long 0x00 0. "  B ,Breakpoint Enable" "Disabled,Enabled"
tree.end
width 6.
tree "Watchpoint Control Registers"
group c14:0x60++0x00
line.long 0x00 "WVR0,Watchpoint Value Register 0"
hexmask.long 0x00 2.--31. 0x04 " WA0  ,Watchpoint Address 0"
group c14:0x70--0x70
line.long 0x0 "WCR0,Watchpoint Control Register 0"
bitfld.long 0x0 24.--28. " BAM  ,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. "  EL   ,Enable Linking" "Disabled,Enabled"
textline "               "
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"
bitfld.long 0x0 14.--15. "       SWAC ,Secure world access control" "Non-secure & Secure,Non-secure,Secure,?..."
textline "               "
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. " L/S  ,Load/Store access control" "Reserved,Load,Store,Any"
bitfld.long 0x0 1.--2. "    PAC  ,Privileged access control" "Reserved,Privileged,USR,Any"
textline "               "
bitfld.long 0x0 0. " WE   ,Watchpoint enable" "Disabled,Enabled"
group c14:0x61++0x00
line.long 0x00 "WVR1,Watchpoint Value Register 1"
hexmask.long 0x00 2.--31. 0x04 " WA1  ,Watchpoint Address 1"
group c14:0x71--0x71
line.long 0x0 "WCR1,Watchpoint Control Register 1"
bitfld.long 0x0 24.--28. " BAM  ,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. "  EL   ,Enable Linking" "Disabled,Enabled"
textline "               "
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"
bitfld.long 0x0 14.--15. "       SWAC ,Secure world access control" "Non-secure & Secure,Non-secure,Secure,?..."
textline "               "
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. " L/S  ,Load/Store access control" "Reserved,Load,Store,Any"
bitfld.long 0x0 1.--2. "    PAC  ,Privileged access control" "Reserved,Privileged,USR,Any"
textline "               "
bitfld.long 0x0 0. " WE   ,Watchpoint enable" "Disabled,Enabled"
group c14:0x62++0x00
line.long 0x00 "WVR2,Watchpoint Value Register 2"
hexmask.long 0x00 2.--31. 0x04 " WA2  ,Watchpoint Address 2"
group c14:0x72--0x72
line.long 0x0 "WCR2,Watchpoint Control Register 2"
bitfld.long 0x0 24.--28. " BAM  ,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. "  EL   ,Enable Linking" "Disabled,Enabled"
textline "               "
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"
bitfld.long 0x0 14.--15. "       SWAC ,Secure world access control" "Non-secure & Secure,Non-secure,Secure,?..."
textline "               "
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. " L/S  ,Load/Store access control" "Reserved,Load,Store,Any"
bitfld.long 0x0 1.--2. "    PAC  ,Privileged access control" "Reserved,Privileged,USR,Any"
textline "               "
bitfld.long 0x0 0. " WE   ,Watchpoint enable" "Disabled,Enabled"
group c14:0x63++0x00
line.long 0x00 "WVR3,Watchpoint Value Register 3"
hexmask.long 0x00 2.--31. 0x04 " WA3  ,Watchpoint Address 3"
group c14:0x73--0x73
line.long 0x0 "WCR3,Watchpoint Control Register 3"
bitfld.long 0x0 24.--28. " BAM  ,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. "  EL   ,Enable Linking" "Disabled,Enabled"
textline "               "
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"
bitfld.long 0x0 14.--15. "       SWAC ,Secure world access control" "Non-secure & Secure,Non-secure,Secure,?..."
textline "               "
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. " L/S  ,Load/Store access control" "Reserved,Load,Store,Any"
bitfld.long 0x0 1.--2. "    PAC  ,Privileged access control" "Reserved,Privileged,USR,Any"
textline "               "
bitfld.long 0x0 0. " WE   ,Watchpoint enable" "Disabled,Enabled"
group c14:0x006--0x006
line.long 0x0 "WFAR,Watchpoint Fault Address Register"
hexmask.long 0x00 1.--31. 0x02 " WFAR ,Address of the watchpointed instruction"
tree.end
width 0xb
width 9.
base ad:(d.l(c15:0x400f))
tree "Snoop Control Unit (SCU)"
group.long 0x00++0x03
line.long 0x00 "SCUCR,SCU Control Register"
bitfld.long 0x00 6. " ICSE   ,IC standby enable" "Disabled,Enabled"
bitfld.long 0x00 5. "           SCUSE  ,SCU standby enable" "Disabled,Enabled"
bitfld.long 0x00 4. "           FADTP0E ,Force all Device to port0 enable" "Disabled,Enabled"
textline "                  "
bitfld.long 0x00 3. " SCUSLE ,SCU Speculative linefills enable" "Disabled,Enabled"
bitfld.long 0x00 2. "           SCURPE ,SCU RAMs Parity enable" "Disabled,Enabled"
bitfld.long 0x00 1. "           AFE     ,Address filtering enable" "Disabled,Enabled"
textline "                  "
bitfld.long 0x00 0. " SCUE   ,SCU enable" "Disabled,Enabled"
rgroup.long 0x04++0x03
line.long 0x00 "SCUCON,SCU Configuration Register"
bitfld.long 0x00 14.--15. " RAM3   ,Cortex-A9 CPU3 Tag RAM Size" "16KB,32KB,64KB,?..."
bitfld.long 0x00 12.--13. "           RAM2   ,Cortex-A9 CPU2 Tag RAM Size" "16KB,32KB,64KB,?..."
bitfld.long 0x00 10.--11. "           RAM1    ,Cortex-A9 CPU1 Tag RAM Size" "16KB,32KB,64KB,?..."
textline "                  "
bitfld.long 0x00 8.--9. " RAM0   ,Cortex-A9 CPU0 Tag RAM Size" "16KB,32KB,64KB,?..."
bitfld.long 0x00 7. "           MOD3   ,CPU3 Mode" "AMP,SMP"
bitfld.long 0x00 6. "                MOD2    ,CPU2 Mode" "AMP,SMP"
textline "                  "
bitfld.long 0x00 5. " MOD1   ,CPU1 Mode" "AMP,SMP"
bitfld.long 0x00 4. "                MOD0   ,CPU0 Mode" "AMP,SMP"
bitfld.long 0x00 0.--1. "                NUM     ,CPU Number" "CPU0,CPU0-CPU1,CPU0-CPU2,CPU0-CPU3"
group.long 0x08++0x03
line.long 0x00 "SCUSTAT,SCU CPU Power Status Register"
bitfld.long 0x00 24.--25. " STAT3  ,CPU3 Status" "Normal,Reserved,Dormant,Powered-off"
bitfld.long 0x00 16.--17. "        STAT2  ,CPU2 Status" "Normal,Reserved,Dormant,Powered-off"
textline "                  "
bitfld.long 0x00 8.--9. " STAT1  ,CPU1 Status" "Normal,Reserved,Dormant,Powered-off"
bitfld.long 0x00 0.--1. "        STAT0  ,CPU0 Status" "Normal,Reserved,Dormant,Powered-off"
wgroup.long 0x0c++0x03
line.long 0x00 "INV,SCU Invalidate All Register"
bitfld.long 0x00 12.--15. " WAY3   ,Cortex-A9 CPU3 Invalidated Ways" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "                 WAY2   ,Cortex-A9 CPU2 Invalidated Ways" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 4.--7. "                 WAY1    ,Cortex-A9 CPU1 Invalidated Ways" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                  "
bitfld.long 0x00 0.--3. " WAY0   ,Cortex-A9 CPU0 Invalidated Ways" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x40++0x03
line.long 0x00 "FSAR,Filtering Start Address Register"
hexmask.long.word 0x00 20.--31. 0x10 " FSA    ,Filtering start address"
group.long 0x44++0x03
line.long 0x00 "FEAR,Filtering End Address Register"
hexmask.long.word 0x00 20.--31. 0x10 " FEA    ,Filtering end address"
group.long 0x50++0x03
line.long 0x00 "SAC,SCU Access Control Register"
bitfld.long 0x00 3. " CPU3   ,CPU3 Access the SAC" "No access,Access"
bitfld.long 0x00 2. "          CPU2   ,CPU2 Access the SAC" "No access,Access"
bitfld.long 0x00 1. "          CPU1    ,CPU1 Access the SAC" "No access,Access"
textline "                  "
bitfld.long 0x00 0. " CPU0   ,CPU0 Access the SAC" "No access,Access"
group.long 0x54++0x03
line.long 0x00 "SSAC,SCU Secure Access Control Register"
bitfld.long 0x00 11. " GCPU3  ,Global timer for CPU3" "Secure only,Secure/Non-secure"
bitfld.long 0x00 10. "  GCPU2  ,Global timer for CPU2" "Secure only,Secure/Non-secure"
bitfld.long 0x00 9. "  GCPU1   ,Global timer for CPU1" "Secure only,Secure/Non-secure"
textline "                  "
bitfld.long 0x00 8. " GCPU0  ,Global timer for CPU0" "Secure only,Secure/Non-secure"
bitfld.long 0x00 7. "  TCPU3  ,Private timer for CPU3 Access" "Secure only,Secure/Non-secure"
bitfld.long 0x00 6. "  TCPU2   ,Private timer for CPU2 Access" "Secure only,Secure/Non-secure"
textline "                  "
bitfld.long 0x00 5. " TCPU1  ,Private timer for CPU1 Access" "Secure only,Secure/Non-secure"
bitfld.long 0x00 4. "  TCPU0  ,Private timer for CPU0 Access" "Secure only,Secure/Non-secure"
bitfld.long 0x00 3. "  CPU3    ,CPU3 Access the SAC" "No access,Access"
textline "                  "
bitfld.long 0x00 2. " CPU2   ,CPU2 Access the SAC" "No access,Access"
bitfld.long 0x00 1. "          CPU1   ,CPU1 Access the SAC" "No access,Access"
bitfld.long 0x00 0. "          CPU0    ,CPU0 Access the SAC" "No access,Access"
tree.end
width 0xb
width 8.
tree "Timer and Watchdog Blocks"
base ad:(d.l(c15:0x400f))+0x600
group.long 0x00++0xb "Timer"
line.long 0x00 "TLR,Timer Load Register"
line.long 0x04 "TCR,Timer Counter Register"
line.long 0x08 "TCONR,Timer Control Register"
hexmask.long.byte 0x08 8.--15. 1. " PRES  ,Prescaler"
bitfld.long 0x08 2. "         IRQEN ,IRQ Enable" "Disabled,Enabled"
bitfld.long 0x08 1. "        AREL  ,Auto reload" "Single shot,Auto-reload"
bitfld.long 0x08 0. "  TEN    ,Global Timer Enable" "Disabled,Enabled"
group.long 0x0c++0x3
line.long 0x00 "TISR,Timer Interrupt Status Register"
eventfld.long 0x00 0. " EFLAG ,Event Flag" "0,1"
group.long 0x20++0x13 "Watchdog"
line.long 0x00 "WLR,Watchdog Load Register"
line.long 0x04 "WCR,Watchdog Counter Register"
line.long 0x08 "WCONR,Watchdog Control Register"
hexmask.long.byte 0x08 8.--15. 1. " PRES  ,Prescaler"
bitfld.long 0x08 3. "         WDM   ,WD Mode" "Timer,Watchdog"
bitfld.long 0x08 2. "        ITEN  ,IT Enable" "Disabled,Enabled"
bitfld.long 0x08 1. "     AREL   ,Auto-Reload" "Single shot,Auto-reload"
textline "                 "
bitfld.long 0x08 0. " WEN   ,Watchdog Enable" "Disabled,Enabled"
line.long 0x0c "WISR,Watchdog Interrupt Status Register"
eventfld.long 0x0C 0. " EFLAG ,Event Flag" "0,1"
line.long 0x10 "WRSR,Watchdog Reset Sent Register"
eventfld.long 0x10 0. " RFLAG ,Reset Flag" "No effect,Reset"
wgroup.long 0x34++0x3
line.long 0x00 "WDR,Watchdog Disable Register"
base ad:(d.l(c15:0x400f))+0x200
group.long 0x00++0xb "Global Timer"
line.long 0x00 "GTLCR,Lower 32-bit Timer Counter Register"
line.long 0x04 "GTUCR,Upper 32-bit Timer Counter Register"
line.long 0x08 "GTCONR,Timer Control Register"
hexmask.long.byte 0x08 8.--15. 1. " PRES  ,Prescaler"
bitfld.long 0x08 3. "         AINC  ,Auto Increment" "Single shot,Auto increment"
bitfld.long 0x08 2. "  IRQEN ,IRQ Enable" "Disabled,Enabled"
bitfld.long 0x08 1. "     COMPEN ,Comp Enable" "Disabled,Enabled"
textline "                 "
bitfld.long 0x08 0. " TEN   ,Global Timer Enable" "Disabled,Enabled"
group.long 0x0c++0x3
line.long 0x00 "GTSR,Timer Status Register"
eventfld.long 0x00 0. " EFLAG ,Event Flag" "0,1"
group.long 0x10++0xb
line.long 0x00 "GTLCOMR,Lower 32-bit Comparator Register"
line.long 0x04 "GTUCOMR,Upper 32-bit Comparator Register"
line.long 0x08 "GTINCR,Auto-increment Register for Comparator"
tree.end
width 11.
tree.open "Interrupt Controller (PL-390)"
width 17.
base AD:0x48241000
tree "Distributor Interface"
if (((d.l(AD:0x48241000+0x04))&0x400)==0x400)
group.long 0x0000++0x03
line.long 0x00 "GICD_CTLR,Distributor Control Register (Secure access)"
bitfld.long 0x00 1. " ENABLEGRP1    ,Global Interrupt Enable Group 1" "Disabled,Enabled"
bitfld.long 0x00 0. "         ENABLEGRP0    ,Global Interrupt Enable Group 1" "Disabled,Enabled"
else
group.long 0x0000++0x03
line.long 0x00 "GICD_CTLR,Distributor Control Register"
bitfld.long 0x00 0. " ENABLE        ,Global enable for forwarding pending interrupts from the Distributor to the CPU interfaces" "Disabled,Enabled"
endif
if (((d.l(AD:0x48241000+0x04))&0x400)==0x400)
rgroup.long 0x0004++0x03
line.long 0x00 "GICD_TYPER,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" "Not implemented,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,Up to 64,Up to 96,Up to 128,Up to 160,Up to 192,Up to 224,Up to 256,Up to 288,Up to 320,Up to 352,Up to 384,Up to 416,Up to 448,Up to 480,Up to 512,Up to 544,Up to 576,Up to 608,Up to 640,Up to 672,Up to 704,Up to 736,Up to 768,Up to 800,Up to 832,Up to 864,Up to 896,Up to 928,Up to 960,Up to 992,Up to 1020"
else
rgroup.long 0x0004++0x03
line.long 0x00 "GICD_TYPER,Interrupt Controller Type Register"
bitfld.long 0x00 10. " SECURITYEXTN  ,Indicates whether interrupt controller implements the security extensions" "Not implemented,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,Up to 64,Up to 96,Up to 128,Up to 160,Up to 192,Up to 224,Up to 256,Up to 288,Up to 320,Up to 352,Up to 384,Up to 416,Up to 448,Up to 480,Up to 512,Up to 544,Up to 576,Up to 608,Up to 640,Up to 672,Up to 704,Up to 736,Up to 768,Up to 800,Up to 832,Up to 864,Up to 896,Up to 928,Up to 960,Up to 992,Up to 1020"
endif
rgroup.long 0x0008++0x03
line.long 0x00 "GICD_IIDR,Distributor Implementer Identification Register"
bitfld.long 0x00 24.--31. " PRODID        ,Indicates the product ID" "PL390,PL390,GIC400,GIC400,?..."
hexmask.long.word 0x00 12.--23. 1. "           REV_NUM       ,Returns the revision number of the GIC"
textline "                          "
hexmask.long.word 0x00 0.--11. 1. " IMP           ,Implementer"
sif CPU.FEATURE(hypervisor)||CPU.FEATURE(secure)
width 17.
tree "Group/Security Registers"
group.long 0x0080++0x03
line.long 0x0 "GICD_IGROUPR0,Interrupt Group Register 0 (Non-secure access)"
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"
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x01)
group.long 0x0084++0x03
line.long 0x0 "GICD_IGROUPR1,Interrupt Group Register 1 (Non-secure access)"
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"
else
hgroup.long 0x0084++0x03
hide.long 0x0 "GICD_IGROUPR1,Interrupt Group Register 1"
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x02)
group.long 0x0088++0x03
line.long 0x0 "GICD_IGROUPR2,Interrupt Group Register 2 (Non-secure access)"
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"
else
hgroup.long 0x0088++0x03
hide.long 0x0 "GICD_IGROUPR2,Interrupt Group Register 2"
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x03)
group.long 0x008C++0x03
line.long 0x0 "GICD_IGROUPR3,Interrupt Group Register 3 (Non-secure access)"
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"
else
hgroup.long 0x008C++0x03
hide.long 0x0 "GICD_IGROUPR3,Interrupt Group Register 3"
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x04)
group.long 0x0090++0x03
line.long 0x0 "GICD_IGROUPR4,Interrupt Group Register 4 (Non-secure access)"
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"
else
hgroup.long 0x0090++0x03
hide.long 0x0 "GICD_IGROUPR4,Interrupt Group Register 4"
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x05)
group.long 0x0094++0x03
line.long 0x0 "GICD_IGROUPR5,Interrupt Group Register 5 (Non-secure access)"
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"
else
hgroup.long 0x0094++0x03
hide.long 0x0 "GICD_IGROUPR5,Interrupt Group Register 5"
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x06)
group.long 0x0098++0x03
line.long 0x0 "GICD_IGROUPR6,Interrupt Group Register 6 (Non-secure access)"
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"
else
hgroup.long 0x0098++0x03
hide.long 0x0 "GICD_IGROUPR6,Interrupt Group Register 6"
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x07)
group.long 0x009C++0x03
line.long 0x0 "GICD_IGROUPR7,Interrupt Group Register 7 (Non-secure access)"
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"
else
hgroup.long 0x009C++0x03
hide.long 0x0 "GICD_IGROUPR7,Interrupt Group Register 7"
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x08)
group.long 0x00A0++0x03
line.long 0x0 "GICD_IGROUPR8,Interrupt Group Register 8 (Non-secure access)"
bitfld.long 0x00 31. " GSB287  ,Group Status Bit 287" "Group 0,Group 1"
bitfld.long 0x00 30. "  GSB286  ,Group Status Bit 286" "Group 0,Group 1"
bitfld.long 0x00 29. "  GSB285  ,Group Status Bit 285" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 28. " GSB284  ,Group Status Bit 284" "Group 0,Group 1"
bitfld.long 0x00 27. "  GSB283  ,Group Status Bit 283" "Group 0,Group 1"
bitfld.long 0x00 26. "  GSB282  ,Group Status Bit 282" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 25. " GSB281  ,Group Status Bit 281" "Group 0,Group 1"
bitfld.long 0x00 24. "  GSB280  ,Group Status Bit 280" "Group 0,Group 1"
bitfld.long 0x00 23. "  GSB279  ,Group Status Bit 279" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 22. " GSB278  ,Group Status Bit 278" "Group 0,Group 1"
bitfld.long 0x00 21. "  GSB277  ,Group Status Bit 277" "Group 0,Group 1"
bitfld.long 0x00 20. "  GSB276  ,Group Status Bit 276" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 19. " GSB275  ,Group Status Bit 275" "Group 0,Group 1"
bitfld.long 0x00 18. "  GSB274  ,Group Status Bit 274" "Group 0,Group 1"
bitfld.long 0x00 17. "  GSB273  ,Group Status Bit 273" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 16. " GSB272  ,Group Status Bit 272" "Group 0,Group 1"
bitfld.long 0x00 15. "  GSB271  ,Group Status Bit 271" "Group 0,Group 1"
bitfld.long 0x00 14. "  GSB270  ,Group Status Bit 270" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 13. " GSB269  ,Group Status Bit 269" "Group 0,Group 1"
bitfld.long 0x00 12. "  GSB268  ,Group Status Bit 268" "Group 0,Group 1"
bitfld.long 0x00 11. "  GSB267  ,Group Status Bit 267" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 10. " GSB266  ,Group Status Bit 266" "Group 0,Group 1"
bitfld.long 0x00 9. "  GSB265  ,Group Status Bit 265" "Group 0,Group 1"
bitfld.long 0x00 8. "  GSB264  ,Group Status Bit 264" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 7. " GSB263  ,Group Status Bit 263" "Group 0,Group 1"
bitfld.long 0x00 6. "  GSB262  ,Group Status Bit 262" "Group 0,Group 1"
bitfld.long 0x00 5. "  GSB261  ,Group Status Bit 261" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 4. " GSB260  ,Group Status Bit 260" "Group 0,Group 1"
bitfld.long 0x00 3. "  GSB259  ,Group Status Bit 259" "Group 0,Group 1"
bitfld.long 0x00 2. "  GSB258  ,Group Status Bit 258" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 1. " GSB257  ,Group Status Bit 257" "Group 0,Group 1"
bitfld.long 0x00 0. "  GSB256  ,Group Status Bit 256" "Group 0,Group 1"
else
hgroup.long 0x00A0++0x03
hide.long 0x0 "GICD_IGROUPR8,Interrupt Group Register 8"
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x09)
group.long 0x00A4++0x03
line.long 0x0 "GICD_IGROUPR9,Interrupt Group Register 9 (Non-secure access)"
bitfld.long 0x00 31. " GSB319  ,Group Status Bit 319" "Group 0,Group 1"
bitfld.long 0x00 30. "  GSB318  ,Group Status Bit 318" "Group 0,Group 1"
bitfld.long 0x00 29. "  GSB317  ,Group Status Bit 317" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 28. " GSB316  ,Group Status Bit 316" "Group 0,Group 1"
bitfld.long 0x00 27. "  GSB315  ,Group Status Bit 315" "Group 0,Group 1"
bitfld.long 0x00 26. "  GSB314  ,Group Status Bit 314" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 25. " GSB313  ,Group Status Bit 313" "Group 0,Group 1"
bitfld.long 0x00 24. "  GSB312  ,Group Status Bit 312" "Group 0,Group 1"
bitfld.long 0x00 23. "  GSB311  ,Group Status Bit 311" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 22. " GSB310  ,Group Status Bit 310" "Group 0,Group 1"
bitfld.long 0x00 21. "  GSB309  ,Group Status Bit 309" "Group 0,Group 1"
bitfld.long 0x00 20. "  GSB308  ,Group Status Bit 308" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 19. " GSB307  ,Group Status Bit 307" "Group 0,Group 1"
bitfld.long 0x00 18. "  GSB306  ,Group Status Bit 306" "Group 0,Group 1"
bitfld.long 0x00 17. "  GSB305  ,Group Status Bit 305" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 16. " GSB304  ,Group Status Bit 304" "Group 0,Group 1"
bitfld.long 0x00 15. "  GSB303  ,Group Status Bit 303" "Group 0,Group 1"
bitfld.long 0x00 14. "  GSB302  ,Group Status Bit 302" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 13. " GSB301  ,Group Status Bit 301" "Group 0,Group 1"
bitfld.long 0x00 12. "  GSB300  ,Group Status Bit 300" "Group 0,Group 1"
bitfld.long 0x00 11. "  GSB299  ,Group Status Bit 299" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 10. " GSB298  ,Group Status Bit 298" "Group 0,Group 1"
bitfld.long 0x00 9. "  GSB297  ,Group Status Bit 297" "Group 0,Group 1"
bitfld.long 0x00 8. "  GSB296  ,Group Status Bit 296" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 7. " GSB295  ,Group Status Bit 295" "Group 0,Group 1"
bitfld.long 0x00 6. "  GSB294  ,Group Status Bit 294" "Group 0,Group 1"
bitfld.long 0x00 5. "  GSB293  ,Group Status Bit 293" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 4. " GSB292  ,Group Status Bit 292" "Group 0,Group 1"
bitfld.long 0x00 3. "  GSB291  ,Group Status Bit 291" "Group 0,Group 1"
bitfld.long 0x00 2. "  GSB290  ,Group Status Bit 290" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 1. " GSB289  ,Group Status Bit 289" "Group 0,Group 1"
bitfld.long 0x00 0. "  GSB288  ,Group Status Bit 288" "Group 0,Group 1"
else
hgroup.long 0x00A4++0x03
hide.long 0x0 "GICD_IGROUPR9,Interrupt Group Register 9"
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0A)
group.long 0x00A8++0x03
line.long 0x0 "GICD_IGROUPR10,Interrupt Group Register 10 (Non-secure access)"
bitfld.long 0x00 31. " GSB351  ,Group Status Bit 351" "Group 0,Group 1"
bitfld.long 0x00 30. "  GSB350  ,Group Status Bit 350" "Group 0,Group 1"
bitfld.long 0x00 29. "  GSB349  ,Group Status Bit 349" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 28. " GSB348  ,Group Status Bit 348" "Group 0,Group 1"
bitfld.long 0x00 27. "  GSB347  ,Group Status Bit 347" "Group 0,Group 1"
bitfld.long 0x00 26. "  GSB346  ,Group Status Bit 346" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 25. " GSB345  ,Group Status Bit 345" "Group 0,Group 1"
bitfld.long 0x00 24. "  GSB344  ,Group Status Bit 344" "Group 0,Group 1"
bitfld.long 0x00 23. "  GSB343  ,Group Status Bit 343" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 22. " GSB342  ,Group Status Bit 342" "Group 0,Group 1"
bitfld.long 0x00 21. "  GSB341  ,Group Status Bit 341" "Group 0,Group 1"
bitfld.long 0x00 20. "  GSB340  ,Group Status Bit 340" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 19. " GSB339  ,Group Status Bit 339" "Group 0,Group 1"
bitfld.long 0x00 18. "  GSB338  ,Group Status Bit 338" "Group 0,Group 1"
bitfld.long 0x00 17. "  GSB337  ,Group Status Bit 337" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 16. " GSB336  ,Group Status Bit 336" "Group 0,Group 1"
bitfld.long 0x00 15. "  GSB335  ,Group Status Bit 335" "Group 0,Group 1"
bitfld.long 0x00 14. "  GSB334  ,Group Status Bit 334" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 13. " GSB333  ,Group Status Bit 333" "Group 0,Group 1"
bitfld.long 0x00 12. "  GSB332  ,Group Status Bit 332" "Group 0,Group 1"
bitfld.long 0x00 11. "  GSB331  ,Group Status Bit 331" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 10. " GSB330  ,Group Status Bit 330" "Group 0,Group 1"
bitfld.long 0x00 9. "  GSB329  ,Group Status Bit 329" "Group 0,Group 1"
bitfld.long 0x00 8. "  GSB328  ,Group Status Bit 328" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 7. " GSB327  ,Group Status Bit 327" "Group 0,Group 1"
bitfld.long 0x00 6. "  GSB326  ,Group Status Bit 326" "Group 0,Group 1"
bitfld.long 0x00 5. "  GSB325  ,Group Status Bit 325" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 4. " GSB324  ,Group Status Bit 324" "Group 0,Group 1"
bitfld.long 0x00 3. "  GSB323  ,Group Status Bit 323" "Group 0,Group 1"
bitfld.long 0x00 2. "  GSB322  ,Group Status Bit 322" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 1. " GSB321  ,Group Status Bit 321" "Group 0,Group 1"
bitfld.long 0x00 0. "  GSB320  ,Group Status Bit 320" "Group 0,Group 1"
else
hgroup.long 0x00A8++0x03
hide.long 0x0 "GICD_IGROUPR10,Interrupt Group Register 10"
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0B)
group.long 0x00AC++0x03
line.long 0x0 "GICD_IGROUPR11,Interrupt Group Register 11 (Non-secure access)"
bitfld.long 0x00 31. " GSB383  ,Group Status Bit 383" "Group 0,Group 1"
bitfld.long 0x00 30. "  GSB382  ,Group Status Bit 382" "Group 0,Group 1"
bitfld.long 0x00 29. "  GSB381  ,Group Status Bit 381" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 28. " GSB380  ,Group Status Bit 380" "Group 0,Group 1"
bitfld.long 0x00 27. "  GSB379  ,Group Status Bit 379" "Group 0,Group 1"
bitfld.long 0x00 26. "  GSB378  ,Group Status Bit 378" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 25. " GSB377  ,Group Status Bit 377" "Group 0,Group 1"
bitfld.long 0x00 24. "  GSB376  ,Group Status Bit 376" "Group 0,Group 1"
bitfld.long 0x00 23. "  GSB375  ,Group Status Bit 375" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 22. " GSB374  ,Group Status Bit 374" "Group 0,Group 1"
bitfld.long 0x00 21. "  GSB373  ,Group Status Bit 373" "Group 0,Group 1"
bitfld.long 0x00 20. "  GSB372  ,Group Status Bit 372" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 19. " GSB371  ,Group Status Bit 371" "Group 0,Group 1"
bitfld.long 0x00 18. "  GSB370  ,Group Status Bit 370" "Group 0,Group 1"
bitfld.long 0x00 17. "  GSB369  ,Group Status Bit 369" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 16. " GSB368  ,Group Status Bit 368" "Group 0,Group 1"
bitfld.long 0x00 15. "  GSB367  ,Group Status Bit 367" "Group 0,Group 1"
bitfld.long 0x00 14. "  GSB366  ,Group Status Bit 366" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 13. " GSB365  ,Group Status Bit 365" "Group 0,Group 1"
bitfld.long 0x00 12. "  GSB364  ,Group Status Bit 364" "Group 0,Group 1"
bitfld.long 0x00 11. "  GSB363  ,Group Status Bit 363" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 10. " GSB362  ,Group Status Bit 362" "Group 0,Group 1"
bitfld.long 0x00 9. "  GSB361  ,Group Status Bit 361" "Group 0,Group 1"
bitfld.long 0x00 8. "  GSB360  ,Group Status Bit 360" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 7. " GSB359  ,Group Status Bit 359" "Group 0,Group 1"
bitfld.long 0x00 6. "  GSB358  ,Group Status Bit 358" "Group 0,Group 1"
bitfld.long 0x00 5. "  GSB357  ,Group Status Bit 357" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 4. " GSB356  ,Group Status Bit 356" "Group 0,Group 1"
bitfld.long 0x00 3. "  GSB355  ,Group Status Bit 355" "Group 0,Group 1"
bitfld.long 0x00 2. "  GSB354  ,Group Status Bit 354" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 1. " GSB353  ,Group Status Bit 353" "Group 0,Group 1"
bitfld.long 0x00 0. "  GSB352  ,Group Status Bit 352" "Group 0,Group 1"
else
hgroup.long 0x00AC++0x03
hide.long 0x0 "GICD_IGROUPR11,Interrupt Group Register 11"
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0C)
group.long 0x00B0++0x03
line.long 0x0 "GICD_IGROUPR12,Interrupt Group Register 12 (Non-secure access)"
bitfld.long 0x00 31. " GSB415  ,Group Status Bit 415" "Group 0,Group 1"
bitfld.long 0x00 30. "  GSB414  ,Group Status Bit 414" "Group 0,Group 1"
bitfld.long 0x00 29. "  GSB413  ,Group Status Bit 413" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 28. " GSB412  ,Group Status Bit 412" "Group 0,Group 1"
bitfld.long 0x00 27. "  GSB411  ,Group Status Bit 411" "Group 0,Group 1"
bitfld.long 0x00 26. "  GSB410  ,Group Status Bit 410" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 25. " GSB409  ,Group Status Bit 409" "Group 0,Group 1"
bitfld.long 0x00 24. "  GSB408  ,Group Status Bit 408" "Group 0,Group 1"
bitfld.long 0x00 23. "  GSB407  ,Group Status Bit 407" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 22. " GSB406  ,Group Status Bit 406" "Group 0,Group 1"
bitfld.long 0x00 21. "  GSB405  ,Group Status Bit 405" "Group 0,Group 1"
bitfld.long 0x00 20. "  GSB404  ,Group Status Bit 404" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 19. " GSB403  ,Group Status Bit 403" "Group 0,Group 1"
bitfld.long 0x00 18. "  GSB402  ,Group Status Bit 402" "Group 0,Group 1"
bitfld.long 0x00 17. "  GSB401  ,Group Status Bit 401" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 16. " GSB400  ,Group Status Bit 400" "Group 0,Group 1"
bitfld.long 0x00 15. "  GSB399  ,Group Status Bit 399" "Group 0,Group 1"
bitfld.long 0x00 14. "  GSB398  ,Group Status Bit 398" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 13. " GSB397  ,Group Status Bit 397" "Group 0,Group 1"
bitfld.long 0x00 12. "  GSB396  ,Group Status Bit 396" "Group 0,Group 1"
bitfld.long 0x00 11. "  GSB395  ,Group Status Bit 395" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 10. " GSB394  ,Group Status Bit 394" "Group 0,Group 1"
bitfld.long 0x00 9. "  GSB393  ,Group Status Bit 393" "Group 0,Group 1"
bitfld.long 0x00 8. "  GSB392  ,Group Status Bit 392" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 7. " GSB391  ,Group Status Bit 391" "Group 0,Group 1"
bitfld.long 0x00 6. "  GSB390  ,Group Status Bit 390" "Group 0,Group 1"
bitfld.long 0x00 5. "  GSB389  ,Group Status Bit 389" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 4. " GSB388  ,Group Status Bit 388" "Group 0,Group 1"
bitfld.long 0x00 3. "  GSB387  ,Group Status Bit 387" "Group 0,Group 1"
bitfld.long 0x00 2. "  GSB386  ,Group Status Bit 386" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 1. " GSB385  ,Group Status Bit 385" "Group 0,Group 1"
bitfld.long 0x00 0. "  GSB384  ,Group Status Bit 384" "Group 0,Group 1"
else
hgroup.long 0x00B0++0x03
hide.long 0x0 "GICD_IGROUPR12,Interrupt Group Register 12"
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0D)
group.long 0x00B4++0x03
line.long 0x0 "GICD_IGROUPR13,Interrupt Group Register 13 (Non-secure access)"
bitfld.long 0x00 31. " GSB447  ,Group Status Bit 447" "Group 0,Group 1"
bitfld.long 0x00 30. "  GSB446  ,Group Status Bit 446" "Group 0,Group 1"
bitfld.long 0x00 29. "  GSB445  ,Group Status Bit 445" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 28. " GSB444  ,Group Status Bit 444" "Group 0,Group 1"
bitfld.long 0x00 27. "  GSB443  ,Group Status Bit 443" "Group 0,Group 1"
bitfld.long 0x00 26. "  GSB442  ,Group Status Bit 442" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 25. " GSB441  ,Group Status Bit 441" "Group 0,Group 1"
bitfld.long 0x00 24. "  GSB440  ,Group Status Bit 440" "Group 0,Group 1"
bitfld.long 0x00 23. "  GSB439  ,Group Status Bit 439" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 22. " GSB438  ,Group Status Bit 438" "Group 0,Group 1"
bitfld.long 0x00 21. "  GSB437  ,Group Status Bit 437" "Group 0,Group 1"
bitfld.long 0x00 20. "  GSB436  ,Group Status Bit 436" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 19. " GSB435  ,Group Status Bit 435" "Group 0,Group 1"
bitfld.long 0x00 18. "  GSB434  ,Group Status Bit 434" "Group 0,Group 1"
bitfld.long 0x00 17. "  GSB433  ,Group Status Bit 433" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 16. " GSB432  ,Group Status Bit 432" "Group 0,Group 1"
bitfld.long 0x00 15. "  GSB431  ,Group Status Bit 431" "Group 0,Group 1"
bitfld.long 0x00 14. "  GSB430  ,Group Status Bit 430" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 13. " GSB429  ,Group Status Bit 429" "Group 0,Group 1"
bitfld.long 0x00 12. "  GSB428  ,Group Status Bit 428" "Group 0,Group 1"
bitfld.long 0x00 11. "  GSB427  ,Group Status Bit 427" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 10. " GSB426  ,Group Status Bit 426" "Group 0,Group 1"
bitfld.long 0x00 9. "  GSB425  ,Group Status Bit 425" "Group 0,Group 1"
bitfld.long 0x00 8. "  GSB424  ,Group Status Bit 424" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 7. " GSB423  ,Group Status Bit 423" "Group 0,Group 1"
bitfld.long 0x00 6. "  GSB422  ,Group Status Bit 422" "Group 0,Group 1"
bitfld.long 0x00 5. "  GSB421  ,Group Status Bit 421" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 4. " GSB420  ,Group Status Bit 420" "Group 0,Group 1"
bitfld.long 0x00 3. "  GSB419  ,Group Status Bit 419" "Group 0,Group 1"
bitfld.long 0x00 2. "  GSB418  ,Group Status Bit 418" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 1. " GSB417  ,Group Status Bit 417" "Group 0,Group 1"
bitfld.long 0x00 0. "  GSB416  ,Group Status Bit 416" "Group 0,Group 1"
else
hgroup.long 0x00B4++0x03
hide.long 0x0 "GICD_IGROUPR13,Interrupt Group Register 13"
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0E)
group.long 0x00B8++0x03
line.long 0x0 "GICD_IGROUPR14,Interrupt Group Register 14 (Non-secure access)"
bitfld.long 0x00 31. " GSB479  ,Group Status Bit 479" "Group 0,Group 1"
bitfld.long 0x00 30. "  GSB478  ,Group Status Bit 478" "Group 0,Group 1"
bitfld.long 0x00 29. "  GSB477  ,Group Status Bit 477" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 28. " GSB476  ,Group Status Bit 476" "Group 0,Group 1"
bitfld.long 0x00 27. "  GSB475  ,Group Status Bit 475" "Group 0,Group 1"
bitfld.long 0x00 26. "  GSB474  ,Group Status Bit 474" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 25. " GSB473  ,Group Status Bit 473" "Group 0,Group 1"
bitfld.long 0x00 24. "  GSB472  ,Group Status Bit 472" "Group 0,Group 1"
bitfld.long 0x00 23. "  GSB471  ,Group Status Bit 471" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 22. " GSB470  ,Group Status Bit 470" "Group 0,Group 1"
bitfld.long 0x00 21. "  GSB469  ,Group Status Bit 469" "Group 0,Group 1"
bitfld.long 0x00 20. "  GSB468  ,Group Status Bit 468" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 19. " GSB467  ,Group Status Bit 467" "Group 0,Group 1"
bitfld.long 0x00 18. "  GSB466  ,Group Status Bit 466" "Group 0,Group 1"
bitfld.long 0x00 17. "  GSB465  ,Group Status Bit 465" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 16. " GSB464  ,Group Status Bit 464" "Group 0,Group 1"
bitfld.long 0x00 15. "  GSB463  ,Group Status Bit 463" "Group 0,Group 1"
bitfld.long 0x00 14. "  GSB462  ,Group Status Bit 462" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 13. " GSB461  ,Group Status Bit 461" "Group 0,Group 1"
bitfld.long 0x00 12. "  GSB460  ,Group Status Bit 460" "Group 0,Group 1"
bitfld.long 0x00 11. "  GSB459  ,Group Status Bit 459" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 10. " GSB458  ,Group Status Bit 458" "Group 0,Group 1"
bitfld.long 0x00 9. "  GSB457  ,Group Status Bit 457" "Group 0,Group 1"
bitfld.long 0x00 8. "  GSB456  ,Group Status Bit 456" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 7. " GSB455  ,Group Status Bit 455" "Group 0,Group 1"
bitfld.long 0x00 6. "  GSB454  ,Group Status Bit 454" "Group 0,Group 1"
bitfld.long 0x00 5. "  GSB453  ,Group Status Bit 453" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 4. " GSB452  ,Group Status Bit 452" "Group 0,Group 1"
bitfld.long 0x00 3. "  GSB451  ,Group Status Bit 451" "Group 0,Group 1"
bitfld.long 0x00 2. "  GSB450  ,Group Status Bit 450" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 1. " GSB449  ,Group Status Bit 449" "Group 0,Group 1"
bitfld.long 0x00 0. "  GSB448  ,Group Status Bit 448" "Group 0,Group 1"
else
hgroup.long 0x00B8++0x03
hide.long 0x0 "GICD_IGROUPR14,Interrupt Group Register 14"
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0F)
group.long 0x00BC++0x03
line.long 0x0 "GICD_IGROUPR15,Interrupt Group Register 15 (Non-secure access)"
bitfld.long 0x00 31. " GSB511  ,Group Status Bit 511" "Group 0,Group 1"
bitfld.long 0x00 30. "  GSB510  ,Group Status Bit 510" "Group 0,Group 1"
bitfld.long 0x00 29. "  GSB509  ,Group Status Bit 509" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 28. " GSB508  ,Group Status Bit 508" "Group 0,Group 1"
bitfld.long 0x00 27. "  GSB507  ,Group Status Bit 507" "Group 0,Group 1"
bitfld.long 0x00 26. "  GSB506  ,Group Status Bit 506" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 25. " GSB505  ,Group Status Bit 505" "Group 0,Group 1"
bitfld.long 0x00 24. "  GSB504  ,Group Status Bit 504" "Group 0,Group 1"
bitfld.long 0x00 23. "  GSB503  ,Group Status Bit 503" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 22. " GSB502  ,Group Status Bit 502" "Group 0,Group 1"
bitfld.long 0x00 21. "  GSB501  ,Group Status Bit 501" "Group 0,Group 1"
bitfld.long 0x00 20. "  GSB500  ,Group Status Bit 500" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 19. " GSB499  ,Group Status Bit 499" "Group 0,Group 1"
bitfld.long 0x00 18. "  GSB498  ,Group Status Bit 498" "Group 0,Group 1"
bitfld.long 0x00 17. "  GSB497  ,Group Status Bit 497" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 16. " GSB496  ,Group Status Bit 496" "Group 0,Group 1"
bitfld.long 0x00 15. "  GSB495  ,Group Status Bit 495" "Group 0,Group 1"
bitfld.long 0x00 14. "  GSB494  ,Group Status Bit 494" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 13. " GSB493  ,Group Status Bit 493" "Group 0,Group 1"
bitfld.long 0x00 12. "  GSB492  ,Group Status Bit 492" "Group 0,Group 1"
bitfld.long 0x00 11. "  GSB491  ,Group Status Bit 491" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 10. " GSB490  ,Group Status Bit 490" "Group 0,Group 1"
bitfld.long 0x00 9. "  GSB489  ,Group Status Bit 489" "Group 0,Group 1"
bitfld.long 0x00 8. "  GSB488  ,Group Status Bit 488" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 7. " GSB487  ,Group Status Bit 487" "Group 0,Group 1"
bitfld.long 0x00 6. "  GSB486  ,Group Status Bit 486" "Group 0,Group 1"
bitfld.long 0x00 5. "  GSB485  ,Group Status Bit 485" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 4. " GSB484  ,Group Status Bit 484" "Group 0,Group 1"
bitfld.long 0x00 3. "  GSB483  ,Group Status Bit 483" "Group 0,Group 1"
bitfld.long 0x00 2. "  GSB482  ,Group Status Bit 482" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 1. " GSB481  ,Group Status Bit 481" "Group 0,Group 1"
bitfld.long 0x00 0. "  GSB480  ,Group Status Bit 480" "Group 0,Group 1"
else
hgroup.long 0x00BC++0x03
hide.long 0x0 "GICD_IGROUPR15,Interrupt Group Register 15"
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x10)
group.long 0x00C0++0x03
line.long 0x0 "GICD_IGROUPR16,Interrupt Group Register 16 (Non-secure access)"
bitfld.long 0x00 31. " GSB543  ,Group Status Bit 543" "Group 0,Group 1"
bitfld.long 0x00 30. "  GSB542  ,Group Status Bit 542" "Group 0,Group 1"
bitfld.long 0x00 29. "  GSB541  ,Group Status Bit 541" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 28. " GSB540  ,Group Status Bit 540" "Group 0,Group 1"
bitfld.long 0x00 27. "  GSB539  ,Group Status Bit 539" "Group 0,Group 1"
bitfld.long 0x00 26. "  GSB538  ,Group Status Bit 538" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 25. " GSB537  ,Group Status Bit 537" "Group 0,Group 1"
bitfld.long 0x00 24. "  GSB536  ,Group Status Bit 536" "Group 0,Group 1"
bitfld.long 0x00 23. "  GSB535  ,Group Status Bit 535" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 22. " GSB534  ,Group Status Bit 534" "Group 0,Group 1"
bitfld.long 0x00 21. "  GSB533  ,Group Status Bit 533" "Group 0,Group 1"
bitfld.long 0x00 20. "  GSB532  ,Group Status Bit 532" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 19. " GSB531  ,Group Status Bit 531" "Group 0,Group 1"
bitfld.long 0x00 18. "  GSB530  ,Group Status Bit 530" "Group 0,Group 1"
bitfld.long 0x00 17. "  GSB529  ,Group Status Bit 529" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 16. " GSB528  ,Group Status Bit 528" "Group 0,Group 1"
bitfld.long 0x00 15. "  GSB527  ,Group Status Bit 527" "Group 0,Group 1"
bitfld.long 0x00 14. "  GSB526  ,Group Status Bit 526" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 13. " GSB525  ,Group Status Bit 525" "Group 0,Group 1"
bitfld.long 0x00 12. "  GSB524  ,Group Status Bit 524" "Group 0,Group 1"
bitfld.long 0x00 11. "  GSB523  ,Group Status Bit 523" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 10. " GSB522  ,Group Status Bit 522" "Group 0,Group 1"
bitfld.long 0x00 9. "  GSB521  ,Group Status Bit 521" "Group 0,Group 1"
bitfld.long 0x00 8. "  GSB520  ,Group Status Bit 520" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 7. " GSB519  ,Group Status Bit 519" "Group 0,Group 1"
bitfld.long 0x00 6. "  GSB518  ,Group Status Bit 518" "Group 0,Group 1"
bitfld.long 0x00 5. "  GSB517  ,Group Status Bit 517" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 4. " GSB516  ,Group Status Bit 516" "Group 0,Group 1"
bitfld.long 0x00 3. "  GSB515  ,Group Status Bit 515" "Group 0,Group 1"
bitfld.long 0x00 2. "  GSB514  ,Group Status Bit 514" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 1. " GSB513  ,Group Status Bit 513" "Group 0,Group 1"
bitfld.long 0x00 0. "  GSB512  ,Group Status Bit 512" "Group 0,Group 1"
else
hgroup.long 0x00C0++0x03
hide.long 0x0 "GICD_IGROUPR16,Interrupt Group Register 16"
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x11)
group.long 0x00C4++0x03
line.long 0x0 "GICD_IGROUPR17,Interrupt Group Register 17 (Non-secure access)"
bitfld.long 0x00 31. " GSB575  ,Group Status Bit 575" "Group 0,Group 1"
bitfld.long 0x00 30. "  GSB574  ,Group Status Bit 574" "Group 0,Group 1"
bitfld.long 0x00 29. "  GSB573  ,Group Status Bit 573" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 28. " GSB572  ,Group Status Bit 572" "Group 0,Group 1"
bitfld.long 0x00 27. "  GSB571  ,Group Status Bit 571" "Group 0,Group 1"
bitfld.long 0x00 26. "  GSB570  ,Group Status Bit 570" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 25. " GSB569  ,Group Status Bit 569" "Group 0,Group 1"
bitfld.long 0x00 24. "  GSB568  ,Group Status Bit 568" "Group 0,Group 1"
bitfld.long 0x00 23. "  GSB567  ,Group Status Bit 567" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 22. " GSB566  ,Group Status Bit 566" "Group 0,Group 1"
bitfld.long 0x00 21. "  GSB565  ,Group Status Bit 565" "Group 0,Group 1"
bitfld.long 0x00 20. "  GSB564  ,Group Status Bit 564" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 19. " GSB563  ,Group Status Bit 563" "Group 0,Group 1"
bitfld.long 0x00 18. "  GSB562  ,Group Status Bit 562" "Group 0,Group 1"
bitfld.long 0x00 17. "  GSB561  ,Group Status Bit 561" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 16. " GSB560  ,Group Status Bit 560" "Group 0,Group 1"
bitfld.long 0x00 15. "  GSB559  ,Group Status Bit 559" "Group 0,Group 1"
bitfld.long 0x00 14. "  GSB558  ,Group Status Bit 558" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 13. " GSB557  ,Group Status Bit 557" "Group 0,Group 1"
bitfld.long 0x00 12. "  GSB556  ,Group Status Bit 556" "Group 0,Group 1"
bitfld.long 0x00 11. "  GSB555  ,Group Status Bit 555" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 10. " GSB554  ,Group Status Bit 554" "Group 0,Group 1"
bitfld.long 0x00 9. "  GSB553  ,Group Status Bit 553" "Group 0,Group 1"
bitfld.long 0x00 8. "  GSB552  ,Group Status Bit 552" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 7. " GSB551  ,Group Status Bit 551" "Group 0,Group 1"
bitfld.long 0x00 6. "  GSB550  ,Group Status Bit 550" "Group 0,Group 1"
bitfld.long 0x00 5. "  GSB549  ,Group Status Bit 549" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 4. " GSB548  ,Group Status Bit 548" "Group 0,Group 1"
bitfld.long 0x00 3. "  GSB547  ,Group Status Bit 547" "Group 0,Group 1"
bitfld.long 0x00 2. "  GSB546  ,Group Status Bit 546" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 1. " GSB545  ,Group Status Bit 545" "Group 0,Group 1"
bitfld.long 0x00 0. "  GSB544  ,Group Status Bit 544" "Group 0,Group 1"
else
hgroup.long 0x00C4++0x03
hide.long 0x0 "GICD_IGROUPR17,Interrupt Group Register 17"
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x12)
group.long 0x00C8++0x03
line.long 0x0 "GICD_IGROUPR18,Interrupt Group Register 18 (Non-secure access)"
bitfld.long 0x00 31. " GSB607  ,Group Status Bit 607" "Group 0,Group 1"
bitfld.long 0x00 30. "  GSB606  ,Group Status Bit 606" "Group 0,Group 1"
bitfld.long 0x00 29. "  GSB605  ,Group Status Bit 605" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 28. " GSB604  ,Group Status Bit 604" "Group 0,Group 1"
bitfld.long 0x00 27. "  GSB603  ,Group Status Bit 603" "Group 0,Group 1"
bitfld.long 0x00 26. "  GSB602  ,Group Status Bit 602" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 25. " GSB601  ,Group Status Bit 601" "Group 0,Group 1"
bitfld.long 0x00 24. "  GSB600  ,Group Status Bit 600" "Group 0,Group 1"
bitfld.long 0x00 23. "  GSB599  ,Group Status Bit 599" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 22. " GSB598  ,Group Status Bit 598" "Group 0,Group 1"
bitfld.long 0x00 21. "  GSB597  ,Group Status Bit 597" "Group 0,Group 1"
bitfld.long 0x00 20. "  GSB596  ,Group Status Bit 596" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 19. " GSB595  ,Group Status Bit 595" "Group 0,Group 1"
bitfld.long 0x00 18. "  GSB594  ,Group Status Bit 594" "Group 0,Group 1"
bitfld.long 0x00 17. "  GSB593  ,Group Status Bit 593" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 16. " GSB592  ,Group Status Bit 592" "Group 0,Group 1"
bitfld.long 0x00 15. "  GSB591  ,Group Status Bit 591" "Group 0,Group 1"
bitfld.long 0x00 14. "  GSB590  ,Group Status Bit 590" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 13. " GSB589  ,Group Status Bit 589" "Group 0,Group 1"
bitfld.long 0x00 12. "  GSB588  ,Group Status Bit 588" "Group 0,Group 1"
bitfld.long 0x00 11. "  GSB587  ,Group Status Bit 587" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 10. " GSB586  ,Group Status Bit 586" "Group 0,Group 1"
bitfld.long 0x00 9. "  GSB585  ,Group Status Bit 585" "Group 0,Group 1"
bitfld.long 0x00 8. "  GSB584  ,Group Status Bit 584" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 7. " GSB583  ,Group Status Bit 583" "Group 0,Group 1"
bitfld.long 0x00 6. "  GSB582  ,Group Status Bit 582" "Group 0,Group 1"
bitfld.long 0x00 5. "  GSB581  ,Group Status Bit 581" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 4. " GSB580  ,Group Status Bit 580" "Group 0,Group 1"
bitfld.long 0x00 3. "  GSB579  ,Group Status Bit 579" "Group 0,Group 1"
bitfld.long 0x00 2. "  GSB578  ,Group Status Bit 578" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 1. " GSB577  ,Group Status Bit 577" "Group 0,Group 1"
bitfld.long 0x00 0. "  GSB576  ,Group Status Bit 576" "Group 0,Group 1"
else
hgroup.long 0x00C8++0x03
hide.long 0x0 "GICD_IGROUPR18,Interrupt Group Register 18"
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x13)
group.long 0x00CC++0x03
line.long 0x0 "GICD_IGROUPR19,Interrupt Group Register 19 (Non-secure access)"
bitfld.long 0x00 31. " GSB639  ,Group Status Bit 639" "Group 0,Group 1"
bitfld.long 0x00 30. "  GSB638  ,Group Status Bit 638" "Group 0,Group 1"
bitfld.long 0x00 29. "  GSB637  ,Group Status Bit 637" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 28. " GSB636  ,Group Status Bit 636" "Group 0,Group 1"
bitfld.long 0x00 27. "  GSB635  ,Group Status Bit 635" "Group 0,Group 1"
bitfld.long 0x00 26. "  GSB634  ,Group Status Bit 634" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 25. " GSB633  ,Group Status Bit 633" "Group 0,Group 1"
bitfld.long 0x00 24. "  GSB632  ,Group Status Bit 632" "Group 0,Group 1"
bitfld.long 0x00 23. "  GSB631  ,Group Status Bit 631" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 22. " GSB630  ,Group Status Bit 630" "Group 0,Group 1"
bitfld.long 0x00 21. "  GSB629  ,Group Status Bit 629" "Group 0,Group 1"
bitfld.long 0x00 20. "  GSB628  ,Group Status Bit 628" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 19. " GSB627  ,Group Status Bit 627" "Group 0,Group 1"
bitfld.long 0x00 18. "  GSB626  ,Group Status Bit 626" "Group 0,Group 1"
bitfld.long 0x00 17. "  GSB625  ,Group Status Bit 625" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 16. " GSB624  ,Group Status Bit 624" "Group 0,Group 1"
bitfld.long 0x00 15. "  GSB623  ,Group Status Bit 623" "Group 0,Group 1"
bitfld.long 0x00 14. "  GSB622  ,Group Status Bit 622" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 13. " GSB621  ,Group Status Bit 621" "Group 0,Group 1"
bitfld.long 0x00 12. "  GSB620  ,Group Status Bit 620" "Group 0,Group 1"
bitfld.long 0x00 11. "  GSB619  ,Group Status Bit 619" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 10. " GSB618  ,Group Status Bit 618" "Group 0,Group 1"
bitfld.long 0x00 9. "  GSB617  ,Group Status Bit 617" "Group 0,Group 1"
bitfld.long 0x00 8. "  GSB616  ,Group Status Bit 616" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 7. " GSB615  ,Group Status Bit 615" "Group 0,Group 1"
bitfld.long 0x00 6. "  GSB614  ,Group Status Bit 614" "Group 0,Group 1"
bitfld.long 0x00 5. "  GSB613  ,Group Status Bit 613" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 4. " GSB612  ,Group Status Bit 612" "Group 0,Group 1"
bitfld.long 0x00 3. "  GSB611  ,Group Status Bit 611" "Group 0,Group 1"
bitfld.long 0x00 2. "  GSB610  ,Group Status Bit 610" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 1. " GSB609  ,Group Status Bit 609" "Group 0,Group 1"
bitfld.long 0x00 0. "  GSB608  ,Group Status Bit 608" "Group 0,Group 1"
else
hgroup.long 0x00CC++0x03
hide.long 0x0 "GICD_IGROUPR19,Interrupt Group Register 19"
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x14)
group.long 0x00D0++0x03
line.long 0x0 "GICD_IGROUPR20,Interrupt Group Register 20 (Non-secure access)"
bitfld.long 0x00 31. " GSB671  ,Group Status Bit 671" "Group 0,Group 1"
bitfld.long 0x00 30. "  GSB670  ,Group Status Bit 670" "Group 0,Group 1"
bitfld.long 0x00 29. "  GSB669  ,Group Status Bit 669" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 28. " GSB668  ,Group Status Bit 668" "Group 0,Group 1"
bitfld.long 0x00 27. "  GSB667  ,Group Status Bit 667" "Group 0,Group 1"
bitfld.long 0x00 26. "  GSB666  ,Group Status Bit 666" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 25. " GSB665  ,Group Status Bit 665" "Group 0,Group 1"
bitfld.long 0x00 24. "  GSB664  ,Group Status Bit 664" "Group 0,Group 1"
bitfld.long 0x00 23. "  GSB663  ,Group Status Bit 663" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 22. " GSB662  ,Group Status Bit 662" "Group 0,Group 1"
bitfld.long 0x00 21. "  GSB661  ,Group Status Bit 661" "Group 0,Group 1"
bitfld.long 0x00 20. "  GSB660  ,Group Status Bit 660" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 19. " GSB659  ,Group Status Bit 659" "Group 0,Group 1"
bitfld.long 0x00 18. "  GSB658  ,Group Status Bit 658" "Group 0,Group 1"
bitfld.long 0x00 17. "  GSB657  ,Group Status Bit 657" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 16. " GSB656  ,Group Status Bit 656" "Group 0,Group 1"
bitfld.long 0x00 15. "  GSB655  ,Group Status Bit 655" "Group 0,Group 1"
bitfld.long 0x00 14. "  GSB654  ,Group Status Bit 654" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 13. " GSB653  ,Group Status Bit 653" "Group 0,Group 1"
bitfld.long 0x00 12. "  GSB652  ,Group Status Bit 652" "Group 0,Group 1"
bitfld.long 0x00 11. "  GSB651  ,Group Status Bit 651" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 10. " GSB650  ,Group Status Bit 650" "Group 0,Group 1"
bitfld.long 0x00 9. "  GSB649  ,Group Status Bit 649" "Group 0,Group 1"
bitfld.long 0x00 8. "  GSB648  ,Group Status Bit 648" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 7. " GSB647  ,Group Status Bit 647" "Group 0,Group 1"
bitfld.long 0x00 6. "  GSB646  ,Group Status Bit 646" "Group 0,Group 1"
bitfld.long 0x00 5. "  GSB645  ,Group Status Bit 645" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 4. " GSB644  ,Group Status Bit 644" "Group 0,Group 1"
bitfld.long 0x00 3. "  GSB643  ,Group Status Bit 643" "Group 0,Group 1"
bitfld.long 0x00 2. "  GSB642  ,Group Status Bit 642" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 1. " GSB641  ,Group Status Bit 641" "Group 0,Group 1"
bitfld.long 0x00 0. "  GSB640  ,Group Status Bit 640" "Group 0,Group 1"
else
hgroup.long 0x00D0++0x03
hide.long 0x0 "GICD_IGROUPR20,Interrupt Group Register 20"
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x15)
group.long 0x00D4++0x03
line.long 0x0 "GICD_IGROUPR21,Interrupt Group Register 21 (Non-secure access)"
bitfld.long 0x00 31. " GSB703  ,Group Status Bit 703" "Group 0,Group 1"
bitfld.long 0x00 30. "  GSB702  ,Group Status Bit 702" "Group 0,Group 1"
bitfld.long 0x00 29. "  GSB701  ,Group Status Bit 701" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 28. " GSB700  ,Group Status Bit 700" "Group 0,Group 1"
bitfld.long 0x00 27. "  GSB699  ,Group Status Bit 699" "Group 0,Group 1"
bitfld.long 0x00 26. "  GSB698  ,Group Status Bit 698" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 25. " GSB697  ,Group Status Bit 697" "Group 0,Group 1"
bitfld.long 0x00 24. "  GSB696  ,Group Status Bit 696" "Group 0,Group 1"
bitfld.long 0x00 23. "  GSB695  ,Group Status Bit 695" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 22. " GSB694  ,Group Status Bit 694" "Group 0,Group 1"
bitfld.long 0x00 21. "  GSB693  ,Group Status Bit 693" "Group 0,Group 1"
bitfld.long 0x00 20. "  GSB692  ,Group Status Bit 692" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 19. " GSB691  ,Group Status Bit 691" "Group 0,Group 1"
bitfld.long 0x00 18. "  GSB690  ,Group Status Bit 690" "Group 0,Group 1"
bitfld.long 0x00 17. "  GSB689  ,Group Status Bit 689" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 16. " GSB688  ,Group Status Bit 688" "Group 0,Group 1"
bitfld.long 0x00 15. "  GSB687  ,Group Status Bit 687" "Group 0,Group 1"
bitfld.long 0x00 14. "  GSB686  ,Group Status Bit 686" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 13. " GSB685  ,Group Status Bit 685" "Group 0,Group 1"
bitfld.long 0x00 12. "  GSB684  ,Group Status Bit 684" "Group 0,Group 1"
bitfld.long 0x00 11. "  GSB683  ,Group Status Bit 683" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 10. " GSB682  ,Group Status Bit 682" "Group 0,Group 1"
bitfld.long 0x00 9. "  GSB681  ,Group Status Bit 681" "Group 0,Group 1"
bitfld.long 0x00 8. "  GSB680  ,Group Status Bit 680" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 7. " GSB679  ,Group Status Bit 679" "Group 0,Group 1"
bitfld.long 0x00 6. "  GSB678  ,Group Status Bit 678" "Group 0,Group 1"
bitfld.long 0x00 5. "  GSB677  ,Group Status Bit 677" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 4. " GSB676  ,Group Status Bit 676" "Group 0,Group 1"
bitfld.long 0x00 3. "  GSB675  ,Group Status Bit 675" "Group 0,Group 1"
bitfld.long 0x00 2. "  GSB674  ,Group Status Bit 674" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 1. " GSB673  ,Group Status Bit 673" "Group 0,Group 1"
bitfld.long 0x00 0. "  GSB672  ,Group Status Bit 672" "Group 0,Group 1"
else
hgroup.long 0x00D4++0x03
hide.long 0x0 "GICD_IGROUPR21,Interrupt Group Register 21"
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x16)
group.long 0x00D8++0x03
line.long 0x0 "GICD_IGROUPR22,Interrupt Group Register 22 (Non-secure access)"
bitfld.long 0x00 31. " GSB735  ,Group Status Bit 735" "Group 0,Group 1"
bitfld.long 0x00 30. "  GSB734  ,Group Status Bit 734" "Group 0,Group 1"
bitfld.long 0x00 29. "  GSB733  ,Group Status Bit 733" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 28. " GSB732  ,Group Status Bit 732" "Group 0,Group 1"
bitfld.long 0x00 27. "  GSB731  ,Group Status Bit 731" "Group 0,Group 1"
bitfld.long 0x00 26. "  GSB730  ,Group Status Bit 730" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 25. " GSB729  ,Group Status Bit 729" "Group 0,Group 1"
bitfld.long 0x00 24. "  GSB728  ,Group Status Bit 728" "Group 0,Group 1"
bitfld.long 0x00 23. "  GSB727  ,Group Status Bit 727" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 22. " GSB726  ,Group Status Bit 726" "Group 0,Group 1"
bitfld.long 0x00 21. "  GSB725  ,Group Status Bit 725" "Group 0,Group 1"
bitfld.long 0x00 20. "  GSB724  ,Group Status Bit 724" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 19. " GSB723  ,Group Status Bit 723" "Group 0,Group 1"
bitfld.long 0x00 18. "  GSB722  ,Group Status Bit 722" "Group 0,Group 1"
bitfld.long 0x00 17. "  GSB721  ,Group Status Bit 721" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 16. " GSB720  ,Group Status Bit 720" "Group 0,Group 1"
bitfld.long 0x00 15. "  GSB719  ,Group Status Bit 719" "Group 0,Group 1"
bitfld.long 0x00 14. "  GSB718  ,Group Status Bit 718" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 13. " GSB717  ,Group Status Bit 717" "Group 0,Group 1"
bitfld.long 0x00 12. "  GSB716  ,Group Status Bit 716" "Group 0,Group 1"
bitfld.long 0x00 11. "  GSB715  ,Group Status Bit 715" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 10. " GSB714  ,Group Status Bit 714" "Group 0,Group 1"
bitfld.long 0x00 9. "  GSB713  ,Group Status Bit 713" "Group 0,Group 1"
bitfld.long 0x00 8. "  GSB712  ,Group Status Bit 712" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 7. " GSB711  ,Group Status Bit 711" "Group 0,Group 1"
bitfld.long 0x00 6. "  GSB710  ,Group Status Bit 710" "Group 0,Group 1"
bitfld.long 0x00 5. "  GSB709  ,Group Status Bit 709" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 4. " GSB708  ,Group Status Bit 708" "Group 0,Group 1"
bitfld.long 0x00 3. "  GSB707  ,Group Status Bit 707" "Group 0,Group 1"
bitfld.long 0x00 2. "  GSB706  ,Group Status Bit 706" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 1. " GSB705  ,Group Status Bit 705" "Group 0,Group 1"
bitfld.long 0x00 0. "  GSB704  ,Group Status Bit 704" "Group 0,Group 1"
else
hgroup.long 0x00D8++0x03
hide.long 0x0 "GICD_IGROUPR22,Interrupt Group Register 22"
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x17)
group.long 0x00DC++0x03
line.long 0x0 "GICD_IGROUPR23,Interrupt Group Register 23 (Non-secure access)"
bitfld.long 0x00 31. " GSB767  ,Group Status Bit 767" "Group 0,Group 1"
bitfld.long 0x00 30. "  GSB766  ,Group Status Bit 766" "Group 0,Group 1"
bitfld.long 0x00 29. "  GSB765  ,Group Status Bit 765" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 28. " GSB764  ,Group Status Bit 764" "Group 0,Group 1"
bitfld.long 0x00 27. "  GSB763  ,Group Status Bit 763" "Group 0,Group 1"
bitfld.long 0x00 26. "  GSB762  ,Group Status Bit 762" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 25. " GSB761  ,Group Status Bit 761" "Group 0,Group 1"
bitfld.long 0x00 24. "  GSB760  ,Group Status Bit 760" "Group 0,Group 1"
bitfld.long 0x00 23. "  GSB759  ,Group Status Bit 759" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 22. " GSB758  ,Group Status Bit 758" "Group 0,Group 1"
bitfld.long 0x00 21. "  GSB757  ,Group Status Bit 757" "Group 0,Group 1"
bitfld.long 0x00 20. "  GSB756  ,Group Status Bit 756" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 19. " GSB755  ,Group Status Bit 755" "Group 0,Group 1"
bitfld.long 0x00 18. "  GSB754  ,Group Status Bit 754" "Group 0,Group 1"
bitfld.long 0x00 17. "  GSB753  ,Group Status Bit 753" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 16. " GSB752  ,Group Status Bit 752" "Group 0,Group 1"
bitfld.long 0x00 15. "  GSB751  ,Group Status Bit 751" "Group 0,Group 1"
bitfld.long 0x00 14. "  GSB750  ,Group Status Bit 750" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 13. " GSB749  ,Group Status Bit 749" "Group 0,Group 1"
bitfld.long 0x00 12. "  GSB748  ,Group Status Bit 748" "Group 0,Group 1"
bitfld.long 0x00 11. "  GSB747  ,Group Status Bit 747" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 10. " GSB746  ,Group Status Bit 746" "Group 0,Group 1"
bitfld.long 0x00 9. "  GSB745  ,Group Status Bit 745" "Group 0,Group 1"
bitfld.long 0x00 8. "  GSB744  ,Group Status Bit 744" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 7. " GSB743  ,Group Status Bit 743" "Group 0,Group 1"
bitfld.long 0x00 6. "  GSB742  ,Group Status Bit 742" "Group 0,Group 1"
bitfld.long 0x00 5. "  GSB741  ,Group Status Bit 741" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 4. " GSB740  ,Group Status Bit 740" "Group 0,Group 1"
bitfld.long 0x00 3. "  GSB739  ,Group Status Bit 739" "Group 0,Group 1"
bitfld.long 0x00 2. "  GSB738  ,Group Status Bit 738" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 1. " GSB737  ,Group Status Bit 737" "Group 0,Group 1"
bitfld.long 0x00 0. "  GSB736  ,Group Status Bit 736" "Group 0,Group 1"
else
hgroup.long 0x00DC++0x03
hide.long 0x0 "GICD_IGROUPR23,Interrupt Group Register 23"
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x18)
group.long 0x00E0++0x03
line.long 0x0 "GICD_IGROUPR24,Interrupt Group Register 24 (Non-secure access)"
bitfld.long 0x00 31. " GSB799  ,Group Status Bit 799" "Group 0,Group 1"
bitfld.long 0x00 30. "  GSB798  ,Group Status Bit 798" "Group 0,Group 1"
bitfld.long 0x00 29. "  GSB797  ,Group Status Bit 797" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 28. " GSB796  ,Group Status Bit 796" "Group 0,Group 1"
bitfld.long 0x00 27. "  GSB795  ,Group Status Bit 795" "Group 0,Group 1"
bitfld.long 0x00 26. "  GSB794  ,Group Status Bit 794" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 25. " GSB793  ,Group Status Bit 793" "Group 0,Group 1"
bitfld.long 0x00 24. "  GSB792  ,Group Status Bit 792" "Group 0,Group 1"
bitfld.long 0x00 23. "  GSB791  ,Group Status Bit 791" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 22. " GSB790  ,Group Status Bit 790" "Group 0,Group 1"
bitfld.long 0x00 21. "  GSB789  ,Group Status Bit 789" "Group 0,Group 1"
bitfld.long 0x00 20. "  GSB788  ,Group Status Bit 788" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 19. " GSB787  ,Group Status Bit 787" "Group 0,Group 1"
bitfld.long 0x00 18. "  GSB786  ,Group Status Bit 786" "Group 0,Group 1"
bitfld.long 0x00 17. "  GSB785  ,Group Status Bit 785" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 16. " GSB784  ,Group Status Bit 784" "Group 0,Group 1"
bitfld.long 0x00 15. "  GSB783  ,Group Status Bit 783" "Group 0,Group 1"
bitfld.long 0x00 14. "  GSB782  ,Group Status Bit 782" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 13. " GSB781  ,Group Status Bit 781" "Group 0,Group 1"
bitfld.long 0x00 12. "  GSB780  ,Group Status Bit 780" "Group 0,Group 1"
bitfld.long 0x00 11. "  GSB779  ,Group Status Bit 779" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 10. " GSB778  ,Group Status Bit 778" "Group 0,Group 1"
bitfld.long 0x00 9. "  GSB777  ,Group Status Bit 777" "Group 0,Group 1"
bitfld.long 0x00 8. "  GSB776  ,Group Status Bit 776" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 7. " GSB775  ,Group Status Bit 775" "Group 0,Group 1"
bitfld.long 0x00 6. "  GSB774  ,Group Status Bit 774" "Group 0,Group 1"
bitfld.long 0x00 5. "  GSB773  ,Group Status Bit 773" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 4. " GSB772  ,Group Status Bit 772" "Group 0,Group 1"
bitfld.long 0x00 3. "  GSB771  ,Group Status Bit 771" "Group 0,Group 1"
bitfld.long 0x00 2. "  GSB770  ,Group Status Bit 770" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 1. " GSB769  ,Group Status Bit 769" "Group 0,Group 1"
bitfld.long 0x00 0. "  GSB768  ,Group Status Bit 768" "Group 0,Group 1"
else
hgroup.long 0x0E0++0x03
hide.long 0x0 "GICD_IGROUPR24,Interrupt Group Register 24"
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x19)
group.long 0x00E4++0x03
line.long 0x0 "GICD_IGROUPR25,Interrupt Group Register 25 (Non-secure access)"
bitfld.long 0x00 31. " GSB831  ,Group Status Bit 831" "Group 0,Group 1"
bitfld.long 0x00 30. "  GSB830  ,Group Status Bit 830" "Group 0,Group 1"
bitfld.long 0x00 29. "  GSB829  ,Group Status Bit 829" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 28. " GSB828  ,Group Status Bit 828" "Group 0,Group 1"
bitfld.long 0x00 27. "  GSB827  ,Group Status Bit 827" "Group 0,Group 1"
bitfld.long 0x00 26. "  GSB826  ,Group Status Bit 826" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 25. " GSB825  ,Group Status Bit 825" "Group 0,Group 1"
bitfld.long 0x00 24. "  GSB824  ,Group Status Bit 824" "Group 0,Group 1"
bitfld.long 0x00 23. "  GSB823  ,Group Status Bit 823" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 22. " GSB822  ,Group Status Bit 822" "Group 0,Group 1"
bitfld.long 0x00 21. "  GSB821  ,Group Status Bit 821" "Group 0,Group 1"
bitfld.long 0x00 20. "  GSB820  ,Group Status Bit 820" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 19. " GSB819  ,Group Status Bit 819" "Group 0,Group 1"
bitfld.long 0x00 18. "  GSB818  ,Group Status Bit 818" "Group 0,Group 1"
bitfld.long 0x00 17. "  GSB817  ,Group Status Bit 817" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 16. " GSB816  ,Group Status Bit 816" "Group 0,Group 1"
bitfld.long 0x00 15. "  GSB815  ,Group Status Bit 815" "Group 0,Group 1"
bitfld.long 0x00 14. "  GSB814  ,Group Status Bit 814" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 13. " GSB813  ,Group Status Bit 813" "Group 0,Group 1"
bitfld.long 0x00 12. "  GSB812  ,Group Status Bit 812" "Group 0,Group 1"
bitfld.long 0x00 11. "  GSB811  ,Group Status Bit 811" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 10. " GSB810  ,Group Status Bit 810" "Group 0,Group 1"
bitfld.long 0x00 9. "  GSB809  ,Group Status Bit 809" "Group 0,Group 1"
bitfld.long 0x00 8. "  GSB808  ,Group Status Bit 808" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 7. " GSB807  ,Group Status Bit 807" "Group 0,Group 1"
bitfld.long 0x00 6. "  GSB806  ,Group Status Bit 806" "Group 0,Group 1"
bitfld.long 0x00 5. "  GSB805  ,Group Status Bit 805" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 4. " GSB804  ,Group Status Bit 804" "Group 0,Group 1"
bitfld.long 0x00 3. "  GSB803  ,Group Status Bit 803" "Group 0,Group 1"
bitfld.long 0x00 2. "  GSB802  ,Group Status Bit 802" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 1. " GSB801  ,Group Status Bit 801" "Group 0,Group 1"
bitfld.long 0x00 0. "  GSB800  ,Group Status Bit 800" "Group 0,Group 1"
else
hgroup.long 0x00E4++0x03
hide.long 0x0 "GICD_IGROUPR25,Interrupt Group Register 25"
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1A)
group.long 0x00E8++0x03
line.long 0x0 "GICD_IGROUPR26,Interrupt Group Register 26 (Non-secure access)"
bitfld.long 0x00 31. " GSB863  ,Group Status Bit 863" "Group 0,Group 1"
bitfld.long 0x00 30. "  GSB862  ,Group Status Bit 862" "Group 0,Group 1"
bitfld.long 0x00 29. "  GSB861  ,Group Status Bit 861" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 28. " GSB860  ,Group Status Bit 860" "Group 0,Group 1"
bitfld.long 0x00 27. "  GSB859  ,Group Status Bit 859" "Group 0,Group 1"
bitfld.long 0x00 26. "  GSB858  ,Group Status Bit 858" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 25. " GSB857  ,Group Status Bit 857" "Group 0,Group 1"
bitfld.long 0x00 24. "  GSB856  ,Group Status Bit 856" "Group 0,Group 1"
bitfld.long 0x00 23. "  GSB855  ,Group Status Bit 855" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 22. " GSB854  ,Group Status Bit 854" "Group 0,Group 1"
bitfld.long 0x00 21. "  GSB853  ,Group Status Bit 853" "Group 0,Group 1"
bitfld.long 0x00 20. "  GSB852  ,Group Status Bit 852" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 19. " GSB851  ,Group Status Bit 851" "Group 0,Group 1"
bitfld.long 0x00 18. "  GSB850  ,Group Status Bit 850" "Group 0,Group 1"
bitfld.long 0x00 17. "  GSB849  ,Group Status Bit 849" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 16. " GSB848  ,Group Status Bit 848" "Group 0,Group 1"
bitfld.long 0x00 15. "  GSB847  ,Group Status Bit 847" "Group 0,Group 1"
bitfld.long 0x00 14. "  GSB846  ,Group Status Bit 846" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 13. " GSB845  ,Group Status Bit 845" "Group 0,Group 1"
bitfld.long 0x00 12. "  GSB844  ,Group Status Bit 844" "Group 0,Group 1"
bitfld.long 0x00 11. "  GSB843  ,Group Status Bit 843" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 10. " GSB842  ,Group Status Bit 842" "Group 0,Group 1"
bitfld.long 0x00 9. "  GSB841  ,Group Status Bit 841" "Group 0,Group 1"
bitfld.long 0x00 8. "  GSB840  ,Group Status Bit 840" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 7. " GSB839  ,Group Status Bit 839" "Group 0,Group 1"
bitfld.long 0x00 6. "  GSB838  ,Group Status Bit 838" "Group 0,Group 1"
bitfld.long 0x00 5. "  GSB837  ,Group Status Bit 837" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 4. " GSB836  ,Group Status Bit 836" "Group 0,Group 1"
bitfld.long 0x00 3. "  GSB835  ,Group Status Bit 835" "Group 0,Group 1"
bitfld.long 0x00 2. "  GSB834  ,Group Status Bit 834" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 1. " GSB833  ,Group Status Bit 833" "Group 0,Group 1"
bitfld.long 0x00 0. "  GSB832  ,Group Status Bit 832" "Group 0,Group 1"
else
hgroup.long 0x00E8++0x03
hide.long 0x0 "GICD_IGROUPR26,Interrupt Group Register 26"
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1B)
group.long 0x00EC++0x03
line.long 0x0 "GICD_IGROUPR27,Interrupt Group Register 27 (Non-Secure access)"
bitfld.long 0x00 31. " GSB895  ,Group Status Bit 895" "Group 0,Group 1"
bitfld.long 0x00 30. "  GSB894  ,Group Status Bit 894" "Group 0,Group 1"
bitfld.long 0x00 29. "  GSB893  ,Group Status Bit 893" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 28. " GSB892  ,Group Status Bit 892" "Group 0,Group 1"
bitfld.long 0x00 27. "  GSB891  ,Group Status Bit 891" "Group 0,Group 1"
bitfld.long 0x00 26. "  GSB890  ,Group Status Bit 890" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 25. " GSB889  ,Group Status Bit 889" "Group 0,Group 1"
bitfld.long 0x00 24. "  GSB888  ,Group Status Bit 888" "Group 0,Group 1"
bitfld.long 0x00 23. "  GSB887  ,Group Status Bit 887" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 22. " GSB886  ,Group Status Bit 886" "Group 0,Group 1"
bitfld.long 0x00 21. "  GSB885  ,Group Status Bit 885" "Group 0,Group 1"
bitfld.long 0x00 20. "  GSB884  ,Group Status Bit 884" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 19. " GSB883  ,Group Status Bit 883" "Group 0,Group 1"
bitfld.long 0x00 18. "  GSB882  ,Group Status Bit 882" "Group 0,Group 1"
bitfld.long 0x00 17. "  GSB881  ,Group Status Bit 881" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 16. " GSB880  ,Group Status Bit 880" "Group 0,Group 1"
bitfld.long 0x00 15. "  GSB879  ,Group Status Bit 879" "Group 0,Group 1"
bitfld.long 0x00 14. "  GSB878  ,Group Status Bit 878" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 13. " GSB877  ,Group Status Bit 877" "Group 0,Group 1"
bitfld.long 0x00 12. "  GSB876  ,Group Status Bit 876" "Group 0,Group 1"
bitfld.long 0x00 11. "  GSB875  ,Group Status Bit 875" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 10. " GSB874  ,Group Status Bit 874" "Group 0,Group 1"
bitfld.long 0x00 9. "  GSB873  ,Group Status Bit 873" "Group 0,Group 1"
bitfld.long 0x00 8. "  GSB872  ,Group Status Bit 872" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 7. " GSB871  ,Group Status Bit 871" "Group 0,Group 1"
bitfld.long 0x00 6. "  GSB870  ,Group Status Bit 870" "Group 0,Group 1"
bitfld.long 0x00 5. "  GSB869  ,Group Status Bit 869" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 4. " GSB868  ,Group Status Bit 868" "Group 0,Group 1"
bitfld.long 0x00 3. "  GSB867  ,Group Status Bit 867" "Group 0,Group 1"
bitfld.long 0x00 2. "  GSB866  ,Group Status Bit 866" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 1. " GSB865  ,Group Status Bit 865" "Group 0,Group 1"
bitfld.long 0x00 0. "  GSB864  ,Group Status Bit 864" "Group 0,Group 1"
else
hgroup.long 0x00EC++0x03
hide.long 0x0 "GICD_IGROUPR27,Interrupt Group Register 27"
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1C)
group.long 0x00F0++0x03
line.long 0x0 "GICD_IGROUPR28,Interrupt Group Register 28 (Non-secure access)"
bitfld.long 0x00 31. " GSB927  ,Group Status Bit 927" "Group 0,Group 1"
bitfld.long 0x00 30. "  GSB926  ,Group Status Bit 926" "Group 0,Group 1"
bitfld.long 0x00 29. "  GSB925  ,Group Status Bit 925" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 28. " GSB924  ,Group Status Bit 924" "Group 0,Group 1"
bitfld.long 0x00 27. "  GSB923  ,Group Status Bit 923" "Group 0,Group 1"
bitfld.long 0x00 26. "  GSB922  ,Group Status Bit 922" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 25. " GSB921  ,Group Status Bit 921" "Group 0,Group 1"
bitfld.long 0x00 24. "  GSB920  ,Group Status Bit 920" "Group 0,Group 1"
bitfld.long 0x00 23. "  GSB919  ,Group Status Bit 919" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 22. " GSB918  ,Group Status Bit 918" "Group 0,Group 1"
bitfld.long 0x00 21. "  GSB917  ,Group Status Bit 917" "Group 0,Group 1"
bitfld.long 0x00 20. "  GSB916  ,Group Status Bit 916" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 19. " GSB915  ,Group Status Bit 915" "Group 0,Group 1"
bitfld.long 0x00 18. "  GSB914  ,Group Status Bit 914" "Group 0,Group 1"
bitfld.long 0x00 17. "  GSB913  ,Group Status Bit 913" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 16. " GSB912  ,Group Status Bit 912" "Group 0,Group 1"
bitfld.long 0x00 15. "  GSB911  ,Group Status Bit 911" "Group 0,Group 1"
bitfld.long 0x00 14. "  GSB910  ,Group Status Bit 910" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 13. " GSB909  ,Group Status Bit 909" "Group 0,Group 1"
bitfld.long 0x00 12. "  GSB908  ,Group Status Bit 908" "Group 0,Group 1"
bitfld.long 0x00 11. "  GSB907  ,Group Status Bit 907" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 10. " GSB906  ,Group Status Bit 906" "Group 0,Group 1"
bitfld.long 0x00 9. "  GSB905  ,Group Status Bit 905" "Group 0,Group 1"
bitfld.long 0x00 8. "  GSB904  ,Group Status Bit 904" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 7. " GSB903  ,Group Status Bit 903" "Group 0,Group 1"
bitfld.long 0x00 6. "  GSB902  ,Group Status Bit 902" "Group 0,Group 1"
bitfld.long 0x00 5. "  GSB901  ,Group Status Bit 901" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 4. " GSB900  ,Group Status Bit 900" "Group 0,Group 1"
bitfld.long 0x00 3. "  GSB899  ,Group Status Bit 899" "Group 0,Group 1"
bitfld.long 0x00 2. "  GSB898  ,Group Status Bit 898" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 1. " GSB897  ,Group Status Bit 897" "Group 0,Group 1"
bitfld.long 0x00 0. "  GSB896  ,Group Status Bit 896" "Group 0,Group 1"
else
hgroup.long 0x0F0++0x03
hide.long 0x0 "GICD_IGROUPR28,Interrupt Group Register 28"
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1D)
group.long 0x00F4++0x03
line.long 0x0 "GICD_IGROUPR29,Interrupt Group Register 29 (Non-secure access)"
bitfld.long 0x00 31. " GSB959  ,Group Status Bit 959" "Group 0,Group 1"
bitfld.long 0x00 30. "  GSB958  ,Group Status Bit 958" "Group 0,Group 1"
bitfld.long 0x00 29. "  GSB957  ,Group Status Bit 957" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 28. " GSB956  ,Group Status Bit 956" "Group 0,Group 1"
bitfld.long 0x00 27. "  GSB955  ,Group Status Bit 955" "Group 0,Group 1"
bitfld.long 0x00 26. "  GSB954  ,Group Status Bit 954" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 25. " GSB953  ,Group Status Bit 953" "Group 0,Group 1"
bitfld.long 0x00 24. "  GSB952  ,Group Status Bit 952" "Group 0,Group 1"
bitfld.long 0x00 23. "  GSB951  ,Group Status Bit 951" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 22. " GSB950  ,Group Status Bit 950" "Group 0,Group 1"
bitfld.long 0x00 21. "  GSB949  ,Group Status Bit 949" "Group 0,Group 1"
bitfld.long 0x00 20. "  GSB948  ,Group Status Bit 948" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 19. " GSB947  ,Group Status Bit 947" "Group 0,Group 1"
bitfld.long 0x00 18. "  GSB946  ,Group Status Bit 946" "Group 0,Group 1"
bitfld.long 0x00 17. "  GSB945  ,Group Status Bit 945" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 16. " GSB944  ,Group Status Bit 944" "Group 0,Group 1"
bitfld.long 0x00 15. "  GSB943  ,Group Status Bit 943" "Group 0,Group 1"
bitfld.long 0x00 14. "  GSB942  ,Group Status Bit 942" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 13. " GSB941  ,Group Status Bit 941" "Group 0,Group 1"
bitfld.long 0x00 12. "  GSB940  ,Group Status Bit 940" "Group 0,Group 1"
bitfld.long 0x00 11. "  GSB939  ,Group Status Bit 939" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 10. " GSB938  ,Group Status Bit 938" "Group 0,Group 1"
bitfld.long 0x00 9. "  GSB937  ,Group Status Bit 937" "Group 0,Group 1"
bitfld.long 0x00 8. "  GSB936  ,Group Status Bit 936" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 7. " GSB935  ,Group Status Bit 935" "Group 0,Group 1"
bitfld.long 0x00 6. "  GSB934  ,Group Status Bit 934" "Group 0,Group 1"
bitfld.long 0x00 5. "  GSB933  ,Group Status Bit 933" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 4. " GSB932  ,Group Status Bit 932" "Group 0,Group 1"
bitfld.long 0x00 3. "  GSB931  ,Group Status Bit 931" "Group 0,Group 1"
bitfld.long 0x00 2. "  GSB930  ,Group Status Bit 930" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 1. " GSB929  ,Group Status Bit 929" "Group 0,Group 1"
bitfld.long 0x00 0. "  GSB928  ,Group Status Bit 928" "Group 0,Group 1"
else
hgroup.long 0x00F4++0x03
hide.long 0x0 "GICD_IGROUPR29,Interrupt Group Register 29"
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1E)
group.long 0x00F8++0x03
line.long 0x0 "GICD_IGROUPR30,Interrupt Group Register 30 (Non-secure access)"
bitfld.long 0x00 31. " GSB991  ,Group Status Bit 991" "Group 0,Group 1"
bitfld.long 0x00 30. "  GSB990  ,Group Status Bit 990" "Group 0,Group 1"
bitfld.long 0x00 29. "  GSB989  ,Group Status Bit 989" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 28. " GSB988  ,Group Status Bit 988" "Group 0,Group 1"
bitfld.long 0x00 27. "  GSB987  ,Group Status Bit 987" "Group 0,Group 1"
bitfld.long 0x00 26. "  GSB986  ,Group Status Bit 986" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 25. " GSB985  ,Group Status Bit 985" "Group 0,Group 1"
bitfld.long 0x00 24. "  GSB984  ,Group Status Bit 984" "Group 0,Group 1"
bitfld.long 0x00 23. "  GSB983  ,Group Status Bit 983" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 22. " GSB982  ,Group Status Bit 982" "Group 0,Group 1"
bitfld.long 0x00 21. "  GSB981  ,Group Status Bit 981" "Group 0,Group 1"
bitfld.long 0x00 20. "  GSB980  ,Group Status Bit 980" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 19. " GSB979  ,Group Status Bit 979" "Group 0,Group 1"
bitfld.long 0x00 18. "  GSB978  ,Group Status Bit 978" "Group 0,Group 1"
bitfld.long 0x00 17. "  GSB977  ,Group Status Bit 977" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 16. " GSB976  ,Group Status Bit 976" "Group 0,Group 1"
bitfld.long 0x00 15. "  GSB975  ,Group Status Bit 975" "Group 0,Group 1"
bitfld.long 0x00 14. "  GSB974  ,Group Status Bit 974" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 13. " GSB973  ,Group Status Bit 973" "Group 0,Group 1"
bitfld.long 0x00 12. "  GSB972  ,Group Status Bit 972" "Group 0,Group 1"
bitfld.long 0x00 11. "  GSB971  ,Group Status Bit 971" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 10. " GSB970  ,Group Status Bit 970" "Group 0,Group 1"
bitfld.long 0x00 9. "  GSB969  ,Group Status Bit 969" "Group 0,Group 1"
bitfld.long 0x00 8. "  GSB968  ,Group Status Bit 968" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 7. " GSB967  ,Group Status Bit 967" "Group 0,Group 1"
bitfld.long 0x00 6. "  GSB966  ,Group Status Bit 966" "Group 0,Group 1"
bitfld.long 0x00 5. "  GSB965  ,Group Status Bit 965" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 4. " GSB964  ,Group Status Bit 964" "Group 0,Group 1"
bitfld.long 0x00 3. "  GSB963  ,Group Status Bit 963" "Group 0,Group 1"
bitfld.long 0x00 2. "  GSB962  ,Group Status Bit 962" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 1. " GSB961  ,Group Status Bit 961" "Group 0,Group 1"
bitfld.long 0x00 0. "  GSB960  ,Group Status Bit 960" "Group 0,Group 1"
else
hgroup.long 0x00F8++0x03
hide.long 0x0 "GICD_IGROUPR30,Interrupt Group Register 30"
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)==0x1F)
group.long 0x00FC++0x03
line.long 0x0 "GICD_IGROUPR31,Interrupt Group Register 31 (Non-secure access)"
bitfld.long 0x00 27. " GSB1019 ,Group Status Bit 1019" "Group 0,Group 1"
bitfld.long 0x00 26. "  GSB1018 ,Group Status Bit 1018" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 25. " GSB1017 ,Group Status Bit 1017" "Group 0,Group 1"
bitfld.long 0x00 24. "  GSB1016 ,Group Status Bit 1016" "Group 0,Group 1"
bitfld.long 0x00 23. "  GSB1015 ,Group Status Bit 1015" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 22. " GSB1014 ,Group Status Bit 1014" "Group 0,Group 1"
bitfld.long 0x00 21. "  GSB1013 ,Group Status Bit 1013" "Group 0,Group 1"
bitfld.long 0x00 20. "  GSB1012 ,Group Status Bit 1012" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 19. " GSB1011 ,Group Status Bit 1011" "Group 0,Group 1"
bitfld.long 0x00 18. "  GSB1010 ,Group Status Bit 1010" "Group 0,Group 1"
bitfld.long 0x00 17. "  GSB1009 ,Group Status Bit 1009" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 16. " GSB1008 ,Group Status Bit 1008" "Group 0,Group 1"
bitfld.long 0x00 15. "  GSB1007 ,Group Status Bit 1007" "Group 0,Group 1"
bitfld.long 0x00 14. "  GSB1006 ,Group Status Bit 1006" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 13. " GSB1005 ,Group Status Bit 1005" "Group 0,Group 1"
bitfld.long 0x00 12. "  GSB1004 ,Group Status Bit 1004" "Group 0,Group 1"
bitfld.long 0x00 11. "  GSB1003 ,Group Status Bit 1003" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 10. " GSB1002 ,Group Status Bit 1002" "Group 0,Group 1"
bitfld.long 0x00 9. "  GSB1001 ,Group Status Bit 1001" "Group 0,Group 1"
bitfld.long 0x00 8. "  GSB1000 ,Group Status Bit 1000" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 7. " GSB999  ,Group Status Bit 999" "Group 0,Group 1"
bitfld.long 0x00 6. "  GSB998  ,Group Status Bit 998" "Group 0,Group 1"
bitfld.long 0x00 5. "  GSB997  ,Group Status Bit 997" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 4. " GSB996  ,Group Status Bit 996" "Group 0,Group 1"
bitfld.long 0x00 3. "  GSB995  ,Group Status Bit 995" "Group 0,Group 1"
bitfld.long 0x00 2. "  GSB994  ,Group Status Bit 994" "Group 0,Group 1"
textline "                          "
bitfld.long 0x00 1. " GSB993  ,Group Status Bit 993" "Group 0,Group 1"
bitfld.long 0x00 0. "  GSB992  ,Group Status Bit 992" "Group 0,Group 1"
else
hgroup.long 0x00FC++0x03
hide.long 0x0 "GICD_IGROUPR31,Interrupt Group Register 31"
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
textline "                          "
endif
tree.end
endif
width 24.
tree "Set/Clear Enable Registers"
group.long 0x0100++0x03
line.long 0x0 "GICD_SET/CLR_ENABLER0,Interrupt Set/Clear Enable Register 0"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRENB31   ,Set/Clear Enable Bit 31" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRENB30   ,Set/Clear Enable Bit 30" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRENB29   ,Set/Clear Enable Bit 29" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRENB28   ,Set/Clear Enable Bit 28" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRENB27   ,Set/Clear Enable Bit 27" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRENB26   ,Set/Clear Enable Bit 26" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRENB25   ,Set/Clear Enable Bit 25" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRENB24   ,Set/Clear Enable Bit 24" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRENB23   ,Set/Clear Enable Bit 23" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRENB22   ,Set/Clear Enable Bit 22" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRENB21   ,Set/Clear Enable Bit 21" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRENB20   ,Set/Clear Enable Bit 20" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRENB19   ,Set/Clear Enable Bit 19" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRENB18   ,Set/Clear Enable Bit 18" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRENB17   ,Set/Clear Enable Bit 17" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRENB16   ,Set/Clear Enable Bit 16" "Disabled,Enabled"
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x01)
group.long 0x0104++0x03
line.long 0x0 "GICD_SET/CLR_ENABLER1,Interrupt Set/Clear Enable Register 1"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRENB63   ,Set/Clear Enable Bit 63" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRENB62   ,Set/Clear Enable Bit 62" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRENB61   ,Set/Clear Enable Bit 61" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRENB60   ,Set/Clear Enable Bit 60" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRENB59   ,Set/Clear Enable Bit 59" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRENB58   ,Set/Clear Enable Bit 58" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRENB57   ,Set/Clear Enable Bit 57" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRENB56   ,Set/Clear Enable Bit 56" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRENB55   ,Set/Clear Enable Bit 55" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRENB54   ,Set/Clear Enable Bit 54" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRENB53   ,Set/Clear Enable Bit 53" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRENB52   ,Set/Clear Enable Bit 52" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRENB51   ,Set/Clear Enable Bit 51" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRENB50   ,Set/Clear Enable Bit 50" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRENB49   ,Set/Clear Enable Bit 49" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRENB48   ,Set/Clear Enable Bit 48" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRENB47   ,Set/Clear Enable Bit 47" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRENB46   ,Set/Clear Enable Bit 46" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRENB45   ,Set/Clear Enable Bit 45" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRENB44   ,Set/Clear Enable Bit 44" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRENB43   ,Set/Clear Enable Bit 43" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRENB42   ,Set/Clear Enable Bit 42" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRENB41   ,Set/Clear Enable Bit 41" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRENB40   ,Set/Clear Enable Bit 40" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRENB39   ,Set/Clear Enable Bit 39" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRENB38   ,Set/Clear Enable Bit 38" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRENB37   ,Set/Clear Enable Bit 37" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRENB36   ,Set/Clear Enable Bit 36" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRENB35   ,Set/Clear Enable Bit 35" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRENB34   ,Set/Clear Enable Bit 34" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRENB33   ,Set/Clear Enable Bit 33" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRENB32   ,Set/Clear Enable Bit 32" "Disabled,Enabled"
else
hgroup.long 0x0104++0x03
hide.long 0x0 "GICD_SET/CLR_ENABLER1,Interrupt Set/Clear Enable Register 1"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x02)
group.long 0x0108++0x03
line.long 0x0 "GICD_SET/CLR_ENABLER2,Interrupt Set/Clear Enable Register 2"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRENB95   ,Set/Clear Enable Bit 95" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRENB94   ,Set/Clear Enable Bit 94" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRENB93   ,Set/Clear Enable Bit 93" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRENB92   ,Set/Clear Enable Bit 92" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRENB91   ,Set/Clear Enable Bit 91" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRENB90   ,Set/Clear Enable Bit 90" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRENB89   ,Set/Clear Enable Bit 89" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRENB88   ,Set/Clear Enable Bit 88" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRENB87   ,Set/Clear Enable Bit 87" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRENB86   ,Set/Clear Enable Bit 86" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRENB85   ,Set/Clear Enable Bit 85" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRENB84   ,Set/Clear Enable Bit 84" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRENB83   ,Set/Clear Enable Bit 83" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRENB82   ,Set/Clear Enable Bit 82" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRENB81   ,Set/Clear Enable Bit 81" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRENB80   ,Set/Clear Enable Bit 80" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRENB79   ,Set/Clear Enable Bit 79" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRENB78   ,Set/Clear Enable Bit 78" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRENB77   ,Set/Clear Enable Bit 77" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRENB76   ,Set/Clear Enable Bit 76" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRENB75   ,Set/Clear Enable Bit 75" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRENB74   ,Set/Clear Enable Bit 74" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRENB73   ,Set/Clear Enable Bit 73" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRENB72   ,Set/Clear Enable Bit 72" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRENB71   ,Set/Clear Enable Bit 71" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRENB70   ,Set/Clear Enable Bit 70" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRENB69   ,Set/Clear Enable Bit 69" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRENB68   ,Set/Clear Enable Bit 68" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRENB67   ,Set/Clear Enable Bit 67" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRENB66   ,Set/Clear Enable Bit 66" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRENB65   ,Set/Clear Enable Bit 65" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRENB64   ,Set/Clear Enable Bit 64" "Disabled,Enabled"
else
hgroup.long 0x0108++0x03
hide.long 0x0 "GICD_SET/CLR_ENABLER2,Interrupt Set/Clear Enable Register 2"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x03)
group.long 0x010C++0x03
line.long 0x0 "GICD_SET/CLR_ENABLER3,Interrupt Set/Clear Enable Register 3"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRENB127  ,Set/Clear Enable Bit 127" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRENB126  ,Set/Clear Enable Bit 126" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRENB125  ,Set/Clear Enable Bit 125" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRENB124  ,Set/Clear Enable Bit 124" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRENB123  ,Set/Clear Enable Bit 123" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRENB122  ,Set/Clear Enable Bit 122" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRENB121  ,Set/Clear Enable Bit 121" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRENB120  ,Set/Clear Enable Bit 120" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRENB119  ,Set/Clear Enable Bit 119" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRENB118  ,Set/Clear Enable Bit 118" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRENB117  ,Set/Clear Enable Bit 117" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRENB116  ,Set/Clear Enable Bit 116" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRENB115  ,Set/Clear Enable Bit 115" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRENB114  ,Set/Clear Enable Bit 114" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRENB113  ,Set/Clear Enable Bit 113" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRENB112  ,Set/Clear Enable Bit 112" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRENB111  ,Set/Clear Enable Bit 111" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRENB110  ,Set/Clear Enable Bit 110" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRENB109  ,Set/Clear Enable Bit 109" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRENB108  ,Set/Clear Enable Bit 108" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRENB107  ,Set/Clear Enable Bit 107" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRENB106  ,Set/Clear Enable Bit 106" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRENB105  ,Set/Clear Enable Bit 105" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRENB104  ,Set/Clear Enable Bit 104" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRENB103  ,Set/Clear Enable Bit 103" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRENB102  ,Set/Clear Enable Bit 102" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRENB101  ,Set/Clear Enable Bit 101" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRENB100  ,Set/Clear Enable Bit 100" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRENB99   ,Set/Clear Enable Bit 99" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRENB98   ,Set/Clear Enable Bit 98" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRENB97   ,Set/Clear Enable Bit 97" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRENB96   ,Set/Clear Enable Bit 96" "Disabled,Enabled"
else
hgroup.long 0x010C++0x03
hide.long 0x0 "GICD_SET/CLR_ENABLER3,Interrupt Set/Clear Enable Register 3"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x04)
group.long 0x0110++0x03
line.long 0x0 "GICD_SET/CLR_ENABLER4,Interrupt Set/Clear Enable Register 4"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRENB159  ,Set/Clear Enable Bit 159" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRENB158  ,Set/Clear Enable Bit 158" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRENB157  ,Set/Clear Enable Bit 157" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRENB156  ,Set/Clear Enable Bit 156" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRENB155  ,Set/Clear Enable Bit 155" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRENB154  ,Set/Clear Enable Bit 154" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRENB153  ,Set/Clear Enable Bit 153" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRENB152  ,Set/Clear Enable Bit 152" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRENB151  ,Set/Clear Enable Bit 151" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRENB150  ,Set/Clear Enable Bit 150" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRENB149  ,Set/Clear Enable Bit 149" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRENB148  ,Set/Clear Enable Bit 148" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRENB147  ,Set/Clear Enable Bit 147" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRENB146  ,Set/Clear Enable Bit 146" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRENB145  ,Set/Clear Enable Bit 145" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRENB144  ,Set/Clear Enable Bit 144" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRENB143  ,Set/Clear Enable Bit 143" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRENB142  ,Set/Clear Enable Bit 142" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRENB141  ,Set/Clear Enable Bit 141" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRENB140  ,Set/Clear Enable Bit 140" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRENB139  ,Set/Clear Enable Bit 139" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRENB138  ,Set/Clear Enable Bit 138" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRENB137  ,Set/Clear Enable Bit 137" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRENB136  ,Set/Clear Enable Bit 136" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRENB135  ,Set/Clear Enable Bit 135" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRENB134  ,Set/Clear Enable Bit 134" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRENB133  ,Set/Clear Enable Bit 133" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRENB132  ,Set/Clear Enable Bit 132" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRENB131  ,Set/Clear Enable Bit 131" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRENB130  ,Set/Clear Enable Bit 130" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRENB129  ,Set/Clear Enable Bit 129" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRENB128  ,Set/Clear Enable Bit 128" "Disabled,Enabled"
else
hgroup.long 0x0110++0x03
hide.long 0x0 "GICD_SET/CLR_ENABLER4,Interrupt Set/Clear Enable Register 4"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x05)
group.long 0x0114++0x03
line.long 0x0 "GICD_SET/CLR_ENABLER5,Interrupt Set/Clear Enable Register 5"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRENB191  ,Set/Clear Enable Bit 191" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRENB190  ,Set/Clear Enable Bit 190" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRENB189  ,Set/Clear Enable Bit 189" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRENB188  ,Set/Clear Enable Bit 188" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRENB187  ,Set/Clear Enable Bit 187" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRENB186  ,Set/Clear Enable Bit 186" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRENB185  ,Set/Clear Enable Bit 185" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRENB184  ,Set/Clear Enable Bit 184" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRENB183  ,Set/Clear Enable Bit 183" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRENB182  ,Set/Clear Enable Bit 182" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRENB181  ,Set/Clear Enable Bit 181" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRENB180  ,Set/Clear Enable Bit 180" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRENB179  ,Set/Clear Enable Bit 179" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRENB178  ,Set/Clear Enable Bit 178" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRENB177  ,Set/Clear Enable Bit 177" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRENB176  ,Set/Clear Enable Bit 176" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRENB175  ,Set/Clear Enable Bit 175" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRENB174  ,Set/Clear Enable Bit 174" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRENB173  ,Set/Clear Enable Bit 173" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRENB172  ,Set/Clear Enable Bit 172" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRENB171  ,Set/Clear Enable Bit 171" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRENB170  ,Set/Clear Enable Bit 170" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRENB169  ,Set/Clear Enable Bit 169" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRENB168  ,Set/Clear Enable Bit 168" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRENB167  ,Set/Clear Enable Bit 167" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRENB166  ,Set/Clear Enable Bit 166" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRENB165  ,Set/Clear Enable Bit 165" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRENB164  ,Set/Clear Enable Bit 164" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRENB163  ,Set/Clear Enable Bit 163" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRENB162  ,Set/Clear Enable Bit 162" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRENB161  ,Set/Clear Enable Bit 161" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRENB160  ,Set/Clear Enable Bit 160" "Disabled,Enabled"
else
hgroup.long 0x0114++0x03
hide.long 0x0 "GICD_SET/CLR_ENABLER5,Interrupt Set/Clear Enable Register 5"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x06)
group.long 0x0118++0x03
line.long 0x0 "GICD_SET/CLR_ENABLER6,Interrupt Set/Clear Enable Register 6"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRENB223  ,Set/Clear Enable Bit 223" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRENB222  ,Set/Clear Enable Bit 222" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRENB221  ,Set/Clear Enable Bit 221" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRENB220  ,Set/Clear Enable Bit 220" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRENB219  ,Set/Clear Enable Bit 219" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRENB218  ,Set/Clear Enable Bit 218" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRENB217  ,Set/Clear Enable Bit 217" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRENB216  ,Set/Clear Enable Bit 216" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRENB215  ,Set/Clear Enable Bit 215" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRENB214  ,Set/Clear Enable Bit 214" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRENB213  ,Set/Clear Enable Bit 213" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRENB212  ,Set/Clear Enable Bit 212" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRENB211  ,Set/Clear Enable Bit 211" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRENB210  ,Set/Clear Enable Bit 210" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRENB209  ,Set/Clear Enable Bit 209" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRENB208  ,Set/Clear Enable Bit 208" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRENB207  ,Set/Clear Enable Bit 207" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRENB206  ,Set/Clear Enable Bit 206" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRENB205  ,Set/Clear Enable Bit 205" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRENB204  ,Set/Clear Enable Bit 204" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRENB203  ,Set/Clear Enable Bit 203" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRENB202  ,Set/Clear Enable Bit 202" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRENB201  ,Set/Clear Enable Bit 201" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRENB200  ,Set/Clear Enable Bit 200" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRENB199  ,Set/Clear Enable Bit 199" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRENB198  ,Set/Clear Enable Bit 198" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRENB197  ,Set/Clear Enable Bit 197" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRENB196  ,Set/Clear Enable Bit 196" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRENB195  ,Set/Clear Enable Bit 195" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRENB194  ,Set/Clear Enable Bit 194" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRENB193  ,Set/Clear Enable Bit 193" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRENB192  ,Set/Clear Enable Bit 192" "Disabled,Enabled"
else
hgroup.long 0x0118++0x03
hide.long 0x0 "GICD_SET/CLR_ENABLER6,Interrupt Set/Clear Enable Register 6"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x07)
group.long 0x011C++0x03
line.long 0x0 "GICD_SET/CLR_ENABLER7,Interrupt Set/Clear Enable Register 7"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRENB255  ,Set/Clear Enable Bit 255" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRENB254  ,Set/Clear Enable Bit 254" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRENB253  ,Set/Clear Enable Bit 253" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRENB252  ,Set/Clear Enable Bit 252" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRENB251  ,Set/Clear Enable Bit 251" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRENB250  ,Set/Clear Enable Bit 250" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRENB249  ,Set/Clear Enable Bit 249" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRENB248  ,Set/Clear Enable Bit 248" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRENB247  ,Set/Clear Enable Bit 247" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRENB246  ,Set/Clear Enable Bit 246" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRENB245  ,Set/Clear Enable Bit 245" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRENB244  ,Set/Clear Enable Bit 244" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRENB243  ,Set/Clear Enable Bit 243" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRENB242  ,Set/Clear Enable Bit 242" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRENB241  ,Set/Clear Enable Bit 241" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRENB240  ,Set/Clear Enable Bit 240" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRENB239  ,Set/Clear Enable Bit 239" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRENB238  ,Set/Clear Enable Bit 238" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRENB237  ,Set/Clear Enable Bit 237" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRENB236  ,Set/Clear Enable Bit 236" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRENB235  ,Set/Clear Enable Bit 235" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRENB234  ,Set/Clear Enable Bit 234" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRENB233  ,Set/Clear Enable Bit 233" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRENB232  ,Set/Clear Enable Bit 232" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRENB231  ,Set/Clear Enable Bit 231" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRENB230  ,Set/Clear Enable Bit 230" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRENB229  ,Set/Clear Enable Bit 229" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRENB228  ,Set/Clear Enable Bit 228" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRENB227  ,Set/Clear Enable Bit 227" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRENB226  ,Set/Clear Enable Bit 226" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRENB225  ,Set/Clear Enable Bit 225" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRENB224  ,Set/Clear Enable Bit 224" "Disabled,Enabled"
else
hgroup.long 0x011C++0x03
hide.long 0x0 "GICD_SET/CLR_ENABLER7,Interrupt Set/Clear Enable Register 7"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x08)
group.long 0x0120++0x03
line.long 0x0 "GICD_SET/CLR_ENABLER8,Interrupt Set/Clear Enable Register 8"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRENB287  ,Set/Clear Enable Bit 287" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRENB286  ,Set/Clear Enable Bit 286" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRENB285  ,Set/Clear Enable Bit 285" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRENB284  ,Set/Clear Enable Bit 284" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRENB283  ,Set/Clear Enable Bit 283" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRENB282  ,Set/Clear Enable Bit 282" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRENB281  ,Set/Clear Enable Bit 281" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRENB280  ,Set/Clear Enable Bit 280" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRENB279  ,Set/Clear Enable Bit 279" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRENB278  ,Set/Clear Enable Bit 278" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRENB277  ,Set/Clear Enable Bit 277" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRENB276  ,Set/Clear Enable Bit 276" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRENB275  ,Set/Clear Enable Bit 275" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRENB274  ,Set/Clear Enable Bit 274" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRENB273  ,Set/Clear Enable Bit 273" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRENB272  ,Set/Clear Enable Bit 272" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRENB271  ,Set/Clear Enable Bit 271" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRENB270  ,Set/Clear Enable Bit 270" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRENB269  ,Set/Clear Enable Bit 269" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRENB268  ,Set/Clear Enable Bit 268" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRENB267  ,Set/Clear Enable Bit 267" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRENB266  ,Set/Clear Enable Bit 266" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRENB265  ,Set/Clear Enable Bit 265" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRENB264  ,Set/Clear Enable Bit 264" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRENB263  ,Set/Clear Enable Bit 263" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRENB262  ,Set/Clear Enable Bit 262" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRENB261  ,Set/Clear Enable Bit 261" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRENB260  ,Set/Clear Enable Bit 260" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRENB259  ,Set/Clear Enable Bit 259" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRENB258  ,Set/Clear Enable Bit 258" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRENB257  ,Set/Clear Enable Bit 257" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRENB256  ,Set/Clear Enable Bit 256" "Disabled,Enabled"
else
hgroup.long 0x0120++0x03
hide.long 0x0 "GICD_SET/CLR_ENABLER8,Interrupt Set/Clear Enable Register 8"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x09)
group.long 0x0124++0x03
line.long 0x0 "GICD_SET/CLR_ENABLER9,Interrupt Set/Clear Enable Register 9"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRENB319  ,Set/Clear Enable Bit 319" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRENB318  ,Set/Clear Enable Bit 318" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRENB317  ,Set/Clear Enable Bit 317" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRENB316  ,Set/Clear Enable Bit 316" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRENB315  ,Set/Clear Enable Bit 315" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRENB314  ,Set/Clear Enable Bit 314" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRENB313  ,Set/Clear Enable Bit 313" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRENB312  ,Set/Clear Enable Bit 312" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRENB311  ,Set/Clear Enable Bit 311" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRENB310  ,Set/Clear Enable Bit 310" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRENB309  ,Set/Clear Enable Bit 309" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRENB308  ,Set/Clear Enable Bit 308" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRENB307  ,Set/Clear Enable Bit 307" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRENB306  ,Set/Clear Enable Bit 306" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRENB305  ,Set/Clear Enable Bit 305" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRENB304  ,Set/Clear Enable Bit 304" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRENB303  ,Set/Clear Enable Bit 303" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRENB302  ,Set/Clear Enable Bit 302" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRENB301  ,Set/Clear Enable Bit 301" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRENB300  ,Set/Clear Enable Bit 300" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRENB299  ,Set/Clear Enable Bit 299" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRENB298  ,Set/Clear Enable Bit 298" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRENB297  ,Set/Clear Enable Bit 297" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRENB296  ,Set/Clear Enable Bit 296" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRENB295  ,Set/Clear Enable Bit 295" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRENB294  ,Set/Clear Enable Bit 294" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRENB293  ,Set/Clear Enable Bit 293" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRENB292  ,Set/Clear Enable Bit 292" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRENB291  ,Set/Clear Enable Bit 291" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRENB290  ,Set/Clear Enable Bit 290" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRENB289  ,Set/Clear Enable Bit 289" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRENB288  ,Set/Clear Enable Bit 288" "Disabled,Enabled"
else
hgroup.long 0x0124++0x03
hide.long 0x0 "GICD_SET/CLR_ENABLER9,Interrupt Set/Clear Enable Register 9"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0A)
group.long 0x0128++0x03
line.long 0x0 "GICD_SET/CLR_ENABLER10,Interrupt Set/Clear Enable Register 10"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRENB351  ,Set/Clear Enable Bit 351" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRENB350  ,Set/Clear Enable Bit 350" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRENB349  ,Set/Clear Enable Bit 349" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRENB348  ,Set/Clear Enable Bit 348" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRENB347  ,Set/Clear Enable Bit 347" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRENB346  ,Set/Clear Enable Bit 346" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRENB345  ,Set/Clear Enable Bit 345" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRENB344  ,Set/Clear Enable Bit 344" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRENB343  ,Set/Clear Enable Bit 343" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRENB342  ,Set/Clear Enable Bit 342" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRENB341  ,Set/Clear Enable Bit 341" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRENB340  ,Set/Clear Enable Bit 340" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRENB339  ,Set/Clear Enable Bit 339" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRENB338  ,Set/Clear Enable Bit 338" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRENB337  ,Set/Clear Enable Bit 337" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRENB336  ,Set/Clear Enable Bit 336" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRENB335  ,Set/Clear Enable Bit 335" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRENB334  ,Set/Clear Enable Bit 334" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRENB333  ,Set/Clear Enable Bit 333" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRENB332  ,Set/Clear Enable Bit 332" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRENB331  ,Set/Clear Enable Bit 331" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRENB330  ,Set/Clear Enable Bit 330" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRENB329  ,Set/Clear Enable Bit 329" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRENB328  ,Set/Clear Enable Bit 328" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRENB327  ,Set/Clear Enable Bit 327" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRENB326  ,Set/Clear Enable Bit 326" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRENB325  ,Set/Clear Enable Bit 325" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRENB324  ,Set/Clear Enable Bit 324" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRENB323  ,Set/Clear Enable Bit 323" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRENB322  ,Set/Clear Enable Bit 322" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRENB321  ,Set/Clear Enable Bit 321" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRENB320  ,Set/Clear Enable Bit 320" "Disabled,Enabled"
else
hgroup.long 0x0128++0x03
hide.long 0x0 "GICD_SET/CLR_ENABLER10,Interrupt Set/Clear Enable Register 10"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0B)
group.long 0x012C++0x03
line.long 0x0 "GICD_SET/CLR_ENABLER11,Interrupt Set/Clear Enable Register 11"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRENB383  ,Set/Clear Enable Bit 383" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRENB382  ,Set/Clear Enable Bit 382" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRENB381  ,Set/Clear Enable Bit 381" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRENB380  ,Set/Clear Enable Bit 380" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRENB379  ,Set/Clear Enable Bit 379" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRENB378  ,Set/Clear Enable Bit 378" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRENB377  ,Set/Clear Enable Bit 377" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRENB376  ,Set/Clear Enable Bit 376" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRENB375  ,Set/Clear Enable Bit 375" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRENB374  ,Set/Clear Enable Bit 374" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRENB373  ,Set/Clear Enable Bit 373" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRENB372  ,Set/Clear Enable Bit 372" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRENB371  ,Set/Clear Enable Bit 371" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRENB370  ,Set/Clear Enable Bit 370" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRENB369  ,Set/Clear Enable Bit 369" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRENB368  ,Set/Clear Enable Bit 368" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRENB367  ,Set/Clear Enable Bit 367" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRENB366  ,Set/Clear Enable Bit 366" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRENB365  ,Set/Clear Enable Bit 365" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRENB364  ,Set/Clear Enable Bit 364" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRENB363  ,Set/Clear Enable Bit 363" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRENB362  ,Set/Clear Enable Bit 362" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRENB361  ,Set/Clear Enable Bit 361" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRENB360  ,Set/Clear Enable Bit 360" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRENB359  ,Set/Clear Enable Bit 359" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRENB358  ,Set/Clear Enable Bit 358" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRENB357  ,Set/Clear Enable Bit 357" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRENB356  ,Set/Clear Enable Bit 356" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRENB355  ,Set/Clear Enable Bit 355" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRENB354  ,Set/Clear Enable Bit 354" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRENB353  ,Set/Clear Enable Bit 353" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRENB352  ,Set/Clear Enable Bit 352" "Disabled,Enabled"
else
hgroup.long 0x012C++0x03
hide.long 0x0 "GICD_SET/CLR_ENABLER11,Interrupt Set/Clear Enable Register 11"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0C)
group.long 0x0130++0x03
line.long 0x0 "GICD_SET/CLR_ENABLER12,Interrupt Set/Clear Enable Register 12"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRENB415  ,Set/Clear Enable Bit 415" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRENB414  ,Set/Clear Enable Bit 414" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRENB413  ,Set/Clear Enable Bit 413" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRENB412  ,Set/Clear Enable Bit 412" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRENB411  ,Set/Clear Enable Bit 411" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRENB410  ,Set/Clear Enable Bit 410" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRENB409  ,Set/Clear Enable Bit 409" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRENB408  ,Set/Clear Enable Bit 408" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRENB407  ,Set/Clear Enable Bit 407" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRENB406  ,Set/Clear Enable Bit 406" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRENB405  ,Set/Clear Enable Bit 405" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRENB404  ,Set/Clear Enable Bit 404" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRENB403  ,Set/Clear Enable Bit 403" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRENB402  ,Set/Clear Enable Bit 402" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRENB401  ,Set/Clear Enable Bit 401" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRENB400  ,Set/Clear Enable Bit 400" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRENB399  ,Set/Clear Enable Bit 399" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRENB398  ,Set/Clear Enable Bit 398" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRENB397  ,Set/Clear Enable Bit 397" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRENB396  ,Set/Clear Enable Bit 396" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRENB395  ,Set/Clear Enable Bit 395" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRENB394  ,Set/Clear Enable Bit 394" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRENB393  ,Set/Clear Enable Bit 393" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRENB392  ,Set/Clear Enable Bit 392" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRENB391  ,Set/Clear Enable Bit 391" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRENB390  ,Set/Clear Enable Bit 390" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRENB389  ,Set/Clear Enable Bit 389" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRENB388  ,Set/Clear Enable Bit 388" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRENB387  ,Set/Clear Enable Bit 387" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRENB386  ,Set/Clear Enable Bit 386" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRENB385  ,Set/Clear Enable Bit 385" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRENB384  ,Set/Clear Enable Bit 384" "Disabled,Enabled"
else
hgroup.long 0x0130++0x03
hide.long 0x0 "GICD_SET/CLR_ENABLER12,Interrupt Set/Clear Enable Register 12"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0D)
group.long 0x0134++0x03
line.long 0x0 "GICD_SET/CLR_ENABLER13,Interrupt Set/Clear Enable Register 13"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRENB447  ,Set/Clear Enable Bit 447" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRENB446  ,Set/Clear Enable Bit 446" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRENB445  ,Set/Clear Enable Bit 445" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRENB444  ,Set/Clear Enable Bit 444" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRENB443  ,Set/Clear Enable Bit 443" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRENB442  ,Set/Clear Enable Bit 442" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRENB441  ,Set/Clear Enable Bit 441" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRENB440  ,Set/Clear Enable Bit 440" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRENB439  ,Set/Clear Enable Bit 439" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRENB438  ,Set/Clear Enable Bit 438" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRENB437  ,Set/Clear Enable Bit 437" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRENB436  ,Set/Clear Enable Bit 436" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRENB435  ,Set/Clear Enable Bit 435" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRENB434  ,Set/Clear Enable Bit 434" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRENB433  ,Set/Clear Enable Bit 433" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRENB432  ,Set/Clear Enable Bit 432" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRENB431  ,Set/Clear Enable Bit 431" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRENB430  ,Set/Clear Enable Bit 430" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRENB429  ,Set/Clear Enable Bit 429" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRENB428  ,Set/Clear Enable Bit 428" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRENB427  ,Set/Clear Enable Bit 427" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRENB426  ,Set/Clear Enable Bit 426" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRENB425  ,Set/Clear Enable Bit 425" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRENB424  ,Set/Clear Enable Bit 424" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRENB423  ,Set/Clear Enable Bit 423" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRENB422  ,Set/Clear Enable Bit 422" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRENB421  ,Set/Clear Enable Bit 421" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRENB420  ,Set/Clear Enable Bit 420" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRENB419  ,Set/Clear Enable Bit 419" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRENB418  ,Set/Clear Enable Bit 418" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRENB417  ,Set/Clear Enable Bit 417" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRENB416  ,Set/Clear Enable Bit 416" "Disabled,Enabled"
else
hgroup.long 0x0134++0x03
hide.long 0x0 "GICD_SET/CLR_ENABLER13,Interrupt Set/Clear Enable Register 13"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0E)
group.long 0x0138++0x03
line.long 0x0 "GICD_SET/CLR_ENABLER14,Interrupt Set/Clear Enable Register 14"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRENB479  ,Set/Clear Enable Bit 479" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRENB478  ,Set/Clear Enable Bit 478" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRENB477  ,Set/Clear Enable Bit 477" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRENB476  ,Set/Clear Enable Bit 476" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRENB475  ,Set/Clear Enable Bit 475" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRENB474  ,Set/Clear Enable Bit 474" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRENB473  ,Set/Clear Enable Bit 473" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRENB472  ,Set/Clear Enable Bit 472" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRENB471  ,Set/Clear Enable Bit 471" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRENB470  ,Set/Clear Enable Bit 470" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRENB469  ,Set/Clear Enable Bit 469" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRENB468  ,Set/Clear Enable Bit 468" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRENB467  ,Set/Clear Enable Bit 467" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRENB466  ,Set/Clear Enable Bit 466" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRENB465  ,Set/Clear Enable Bit 465" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRENB464  ,Set/Clear Enable Bit 464" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRENB463  ,Set/Clear Enable Bit 463" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRENB462  ,Set/Clear Enable Bit 462" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRENB461  ,Set/Clear Enable Bit 461" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRENB460  ,Set/Clear Enable Bit 460" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRENB459  ,Set/Clear Enable Bit 459" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRENB458  ,Set/Clear Enable Bit 458" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRENB457  ,Set/Clear Enable Bit 457" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRENB456  ,Set/Clear Enable Bit 456" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRENB455  ,Set/Clear Enable Bit 455" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRENB454  ,Set/Clear Enable Bit 454" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRENB453  ,Set/Clear Enable Bit 453" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRENB452  ,Set/Clear Enable Bit 452" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRENB451  ,Set/Clear Enable Bit 451" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRENB450  ,Set/Clear Enable Bit 450" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRENB449  ,Set/Clear Enable Bit 449" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRENB448  ,Set/Clear Enable Bit 448" "Disabled,Enabled"
else
hgroup.long 0x0138++0x03
hide.long 0x0 "GICD_SET/CLR_ENABLER14,Interrupt Set/Clear Enable Register 14"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0F)
group.long 0x013C++0x03
line.long 0x0 "GICD_SET/CLR_ENABLER15,Interrupt Set/Clear Enable Register 15"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRENB511  ,Set/Clear Enable Bit 511" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRENB510  ,Set/Clear Enable Bit 510" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRENB509  ,Set/Clear Enable Bit 509" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRENB508  ,Set/Clear Enable Bit 508" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRENB507  ,Set/Clear Enable Bit 507" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRENB506  ,Set/Clear Enable Bit 506" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRENB505  ,Set/Clear Enable Bit 505" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRENB504  ,Set/Clear Enable Bit 504" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRENB503  ,Set/Clear Enable Bit 503" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRENB502  ,Set/Clear Enable Bit 502" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRENB501  ,Set/Clear Enable Bit 501" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRENB500  ,Set/Clear Enable Bit 500" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRENB499  ,Set/Clear Enable Bit 499" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRENB498  ,Set/Clear Enable Bit 498" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRENB497  ,Set/Clear Enable Bit 497" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRENB496  ,Set/Clear Enable Bit 496" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRENB495  ,Set/Clear Enable Bit 495" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRENB494  ,Set/Clear Enable Bit 494" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRENB493  ,Set/Clear Enable Bit 493" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRENB492  ,Set/Clear Enable Bit 492" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRENB491  ,Set/Clear Enable Bit 491" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRENB490  ,Set/Clear Enable Bit 490" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRENB489  ,Set/Clear Enable Bit 489" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRENB488  ,Set/Clear Enable Bit 488" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRENB487  ,Set/Clear Enable Bit 487" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRENB486  ,Set/Clear Enable Bit 486" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRENB485  ,Set/Clear Enable Bit 485" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRENB484  ,Set/Clear Enable Bit 484" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRENB483  ,Set/Clear Enable Bit 483" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRENB482  ,Set/Clear Enable Bit 482" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRENB481  ,Set/Clear Enable Bit 481" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRENB480  ,Set/Clear Enable Bit 480" "Disabled,Enabled"
else
hgroup.long 0x013C++0x03
hide.long 0x0 "GICD_SET/CLR_ENABLER15,Interrupt Set/Clear Enable Register 15"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x10)
group.long 0x0140++0x03
line.long 0x0 "GICD_SET/CLR_ENABLER16,Interrupt Set/Clear Enable Register 16"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRENB543  ,Set/Clear Enable Bit 543" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRENB542  ,Set/Clear Enable Bit 542" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRENB541  ,Set/Clear Enable Bit 541" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRENB540  ,Set/Clear Enable Bit 540" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRENB539  ,Set/Clear Enable Bit 539" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRENB538  ,Set/Clear Enable Bit 538" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRENB537  ,Set/Clear Enable Bit 537" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRENB536  ,Set/Clear Enable Bit 536" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRENB535  ,Set/Clear Enable Bit 535" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRENB534  ,Set/Clear Enable Bit 534" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRENB533  ,Set/Clear Enable Bit 533" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRENB532  ,Set/Clear Enable Bit 532" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRENB531  ,Set/Clear Enable Bit 531" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRENB530  ,Set/Clear Enable Bit 530" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRENB529  ,Set/Clear Enable Bit 529" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRENB528  ,Set/Clear Enable Bit 528" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRENB527  ,Set/Clear Enable Bit 527" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRENB526  ,Set/Clear Enable Bit 526" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRENB525  ,Set/Clear Enable Bit 525" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRENB524  ,Set/Clear Enable Bit 524" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRENB523  ,Set/Clear Enable Bit 523" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRENB522  ,Set/Clear Enable Bit 522" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRENB521  ,Set/Clear Enable Bit 521" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRENB520  ,Set/Clear Enable Bit 520" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRENB519  ,Set/Clear Enable Bit 519" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRENB518  ,Set/Clear Enable Bit 518" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRENB517  ,Set/Clear Enable Bit 517" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRENB516  ,Set/Clear Enable Bit 516" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRENB515  ,Set/Clear Enable Bit 515" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRENB514  ,Set/Clear Enable Bit 514" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRENB513  ,Set/Clear Enable Bit 513" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRENB512  ,Set/Clear Enable Bit 512" "Disabled,Enabled"
else
hgroup.long 0x0140++0x03
hide.long 0x0 "GICD_SET/CLR_ENABLER16,Interrupt Set/Clear Enable Register 16"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x11)
group.long 0x0144++0x03
line.long 0x0 "GICD_SET/CLR_ENABLER17,Interrupt Set/Clear Enable Register 17"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRENB575  ,Set/Clear Enable Bit 575" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRENB574  ,Set/Clear Enable Bit 574" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRENB573  ,Set/Clear Enable Bit 573" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRENB572  ,Set/Clear Enable Bit 572" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRENB571  ,Set/Clear Enable Bit 571" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRENB570  ,Set/Clear Enable Bit 570" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRENB569  ,Set/Clear Enable Bit 569" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRENB568  ,Set/Clear Enable Bit 568" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRENB567  ,Set/Clear Enable Bit 567" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRENB566  ,Set/Clear Enable Bit 566" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRENB565  ,Set/Clear Enable Bit 565" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRENB564  ,Set/Clear Enable Bit 564" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRENB563  ,Set/Clear Enable Bit 563" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRENB562  ,Set/Clear Enable Bit 562" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRENB561  ,Set/Clear Enable Bit 561" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRENB560  ,Set/Clear Enable Bit 560" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRENB559  ,Set/Clear Enable Bit 559" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRENB558  ,Set/Clear Enable Bit 558" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRENB557  ,Set/Clear Enable Bit 557" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRENB556  ,Set/Clear Enable Bit 556" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRENB555  ,Set/Clear Enable Bit 555" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRENB554  ,Set/Clear Enable Bit 554" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRENB553  ,Set/Clear Enable Bit 553" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRENB552  ,Set/Clear Enable Bit 552" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRENB551  ,Set/Clear Enable Bit 551" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRENB550  ,Set/Clear Enable Bit 550" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRENB549  ,Set/Clear Enable Bit 549" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRENB548  ,Set/Clear Enable Bit 548" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRENB547  ,Set/Clear Enable Bit 547" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRENB546  ,Set/Clear Enable Bit 546" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRENB545  ,Set/Clear Enable Bit 545" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRENB544  ,Set/Clear Enable Bit 544" "Disabled,Enabled"
else
hgroup.long 0x0144++0x03
hide.long 0x0 "GICD_SET/CLR_ENABLER17,Interrupt Set/Clear Enable Register 17"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x12)
group.long 0x0148++0x03
line.long 0x0 "GICD_SET/CLR_ENABLER18,Interrupt Set/Clear Enable Register 18"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRENB607  ,Set/Clear Enable Bit 607" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRENB606  ,Set/Clear Enable Bit 606" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRENB605  ,Set/Clear Enable Bit 605" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRENB604  ,Set/Clear Enable Bit 604" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRENB603  ,Set/Clear Enable Bit 603" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRENB602  ,Set/Clear Enable Bit 602" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRENB601  ,Set/Clear Enable Bit 601" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRENB600  ,Set/Clear Enable Bit 600" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRENB599  ,Set/Clear Enable Bit 599" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRENB598  ,Set/Clear Enable Bit 598" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRENB597  ,Set/Clear Enable Bit 597" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRENB596  ,Set/Clear Enable Bit 596" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRENB595  ,Set/Clear Enable Bit 595" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRENB594  ,Set/Clear Enable Bit 594" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRENB593  ,Set/Clear Enable Bit 593" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRENB592  ,Set/Clear Enable Bit 592" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRENB591  ,Set/Clear Enable Bit 591" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRENB590  ,Set/Clear Enable Bit 590" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRENB589  ,Set/Clear Enable Bit 589" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRENB588  ,Set/Clear Enable Bit 588" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRENB587  ,Set/Clear Enable Bit 587" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRENB586  ,Set/Clear Enable Bit 586" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRENB585  ,Set/Clear Enable Bit 585" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRENB584  ,Set/Clear Enable Bit 584" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRENB583  ,Set/Clear Enable Bit 583" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRENB582  ,Set/Clear Enable Bit 582" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRENB581  ,Set/Clear Enable Bit 581" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRENB580  ,Set/Clear Enable Bit 580" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRENB579  ,Set/Clear Enable Bit 579" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRENB578  ,Set/Clear Enable Bit 578" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRENB577  ,Set/Clear Enable Bit 577" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRENB576  ,Set/Clear Enable Bit 576" "Disabled,Enabled"
else
hgroup.long 0x0148++0x03
hide.long 0x0 "GICD_SET/CLR_ENABLER18,Interrupt Set/Clear Enable Register 18"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x13)
group.long 0x014C++0x03
line.long 0x0 "GICD_SET/CLR_ENABLER19,Interrupt Set/Clear Enable Register 19"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRENB639  ,Set/Clear Enable Bit 639" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRENB638  ,Set/Clear Enable Bit 638" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRENB637  ,Set/Clear Enable Bit 637" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRENB636  ,Set/Clear Enable Bit 636" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRENB635  ,Set/Clear Enable Bit 635" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRENB634  ,Set/Clear Enable Bit 634" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRENB633  ,Set/Clear Enable Bit 633" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRENB632  ,Set/Clear Enable Bit 632" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRENB631  ,Set/Clear Enable Bit 631" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRENB630  ,Set/Clear Enable Bit 630" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRENB629  ,Set/Clear Enable Bit 629" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRENB628  ,Set/Clear Enable Bit 628" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRENB627  ,Set/Clear Enable Bit 627" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRENB626  ,Set/Clear Enable Bit 626" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRENB625  ,Set/Clear Enable Bit 625" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRENB624  ,Set/Clear Enable Bit 624" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRENB623  ,Set/Clear Enable Bit 623" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRENB622  ,Set/Clear Enable Bit 622" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRENB621  ,Set/Clear Enable Bit 621" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRENB620  ,Set/Clear Enable Bit 620" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRENB619  ,Set/Clear Enable Bit 619" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRENB618  ,Set/Clear Enable Bit 618" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRENB617  ,Set/Clear Enable Bit 617" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRENB616  ,Set/Clear Enable Bit 616" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRENB615  ,Set/Clear Enable Bit 615" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRENB614  ,Set/Clear Enable Bit 614" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRENB613  ,Set/Clear Enable Bit 613" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRENB612  ,Set/Clear Enable Bit 612" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRENB611  ,Set/Clear Enable Bit 611" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRENB610  ,Set/Clear Enable Bit 610" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRENB609  ,Set/Clear Enable Bit 609" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRENB608  ,Set/Clear Enable Bit 608" "Disabled,Enabled"
else
hgroup.long 0x014C++0x03
hide.long 0x0 "GICD_SET/CLR_ENABLER19,Interrupt Set/Clear Enable Register 19"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x14)
group.long 0x0150++0x03
line.long 0x0 "GICD_SET/CLR_ENABLER20,Interrupt Set/Clear Enable Register 20"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRENB671  ,Set/Clear Enable Bit 671" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRENB670  ,Set/Clear Enable Bit 670" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRENB669  ,Set/Clear Enable Bit 669" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRENB668  ,Set/Clear Enable Bit 668" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRENB667  ,Set/Clear Enable Bit 667" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRENB666  ,Set/Clear Enable Bit 666" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRENB665  ,Set/Clear Enable Bit 665" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRENB664  ,Set/Clear Enable Bit 664" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRENB663  ,Set/Clear Enable Bit 663" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRENB662  ,Set/Clear Enable Bit 662" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRENB661  ,Set/Clear Enable Bit 661" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRENB660  ,Set/Clear Enable Bit 660" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRENB659  ,Set/Clear Enable Bit 659" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRENB658  ,Set/Clear Enable Bit 658" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRENB657  ,Set/Clear Enable Bit 657" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRENB656  ,Set/Clear Enable Bit 656" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRENB655  ,Set/Clear Enable Bit 655" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRENB654  ,Set/Clear Enable Bit 654" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRENB653  ,Set/Clear Enable Bit 653" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRENB652  ,Set/Clear Enable Bit 652" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRENB651  ,Set/Clear Enable Bit 651" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRENB650  ,Set/Clear Enable Bit 650" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRENB649  ,Set/Clear Enable Bit 649" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRENB648  ,Set/Clear Enable Bit 648" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRENB647  ,Set/Clear Enable Bit 647" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRENB646  ,Set/Clear Enable Bit 646" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRENB645  ,Set/Clear Enable Bit 645" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRENB644  ,Set/Clear Enable Bit 644" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRENB643  ,Set/Clear Enable Bit 643" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRENB642  ,Set/Clear Enable Bit 642" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRENB641  ,Set/Clear Enable Bit 641" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRENB640  ,Set/Clear Enable Bit 640" "Disabled,Enabled"
else
hgroup.long 0x0150++0x03
hide.long 0x0 "GICD_SET/CLR_ENABLER20,Interrupt Set/Clear Enable Register 20"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x15)
group.long 0x0154++0x03
line.long 0x0 "GICD_SET/CLR_ENABLER21,Interrupt Set/Clear Enable Register 21"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRENB703  ,Set/Clear Enable Bit 703" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRENB702  ,Set/Clear Enable Bit 702" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRENB701  ,Set/Clear Enable Bit 701" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRENB700  ,Set/Clear Enable Bit 700" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRENB699  ,Set/Clear Enable Bit 699" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRENB698  ,Set/Clear Enable Bit 698" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRENB697  ,Set/Clear Enable Bit 697" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRENB696  ,Set/Clear Enable Bit 696" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRENB695  ,Set/Clear Enable Bit 695" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRENB694  ,Set/Clear Enable Bit 694" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRENB693  ,Set/Clear Enable Bit 693" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRENB692  ,Set/Clear Enable Bit 692" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRENB691  ,Set/Clear Enable Bit 691" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRENB690  ,Set/Clear Enable Bit 690" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRENB689  ,Set/Clear Enable Bit 689" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRENB688  ,Set/Clear Enable Bit 688" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRENB687  ,Set/Clear Enable Bit 687" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRENB686  ,Set/Clear Enable Bit 686" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRENB685  ,Set/Clear Enable Bit 685" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRENB684  ,Set/Clear Enable Bit 684" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRENB683  ,Set/Clear Enable Bit 683" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRENB682  ,Set/Clear Enable Bit 682" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRENB681  ,Set/Clear Enable Bit 681" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRENB680  ,Set/Clear Enable Bit 680" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRENB679  ,Set/Clear Enable Bit 679" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRENB678  ,Set/Clear Enable Bit 678" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRENB677  ,Set/Clear Enable Bit 677" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRENB676  ,Set/Clear Enable Bit 676" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRENB675  ,Set/Clear Enable Bit 675" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRENB674  ,Set/Clear Enable Bit 674" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRENB673  ,Set/Clear Enable Bit 673" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRENB672  ,Set/Clear Enable Bit 672" "Disabled,Enabled"
else
hgroup.long 0x0154++0x03
hide.long 0x0 "GICD_SET/CLR_ENABLER21,Interrupt Set/Clear Enable Register 21"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x16)
group.long 0x0158++0x03
line.long 0x0 "GICD_SET/CLR_ENABLER22,Interrupt Set/Clear Enable Register 22"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRENB735  ,Set/Clear Enable Bit 735" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRENB734  ,Set/Clear Enable Bit 734" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRENB733  ,Set/Clear Enable Bit 733" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRENB732  ,Set/Clear Enable Bit 732" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRENB731  ,Set/Clear Enable Bit 731" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRENB730  ,Set/Clear Enable Bit 730" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRENB729  ,Set/Clear Enable Bit 729" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRENB728  ,Set/Clear Enable Bit 728" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRENB727  ,Set/Clear Enable Bit 727" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRENB726  ,Set/Clear Enable Bit 726" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRENB725  ,Set/Clear Enable Bit 725" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRENB724  ,Set/Clear Enable Bit 724" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRENB723  ,Set/Clear Enable Bit 723" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRENB722  ,Set/Clear Enable Bit 722" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRENB721  ,Set/Clear Enable Bit 721" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRENB720  ,Set/Clear Enable Bit 720" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRENB719  ,Set/Clear Enable Bit 719" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRENB718  ,Set/Clear Enable Bit 718" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRENB717  ,Set/Clear Enable Bit 717" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRENB716  ,Set/Clear Enable Bit 716" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRENB715  ,Set/Clear Enable Bit 715" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRENB714  ,Set/Clear Enable Bit 714" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRENB713  ,Set/Clear Enable Bit 713" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRENB712  ,Set/Clear Enable Bit 712" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRENB711  ,Set/Clear Enable Bit 711" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRENB710  ,Set/Clear Enable Bit 710" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRENB709  ,Set/Clear Enable Bit 709" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRENB708  ,Set/Clear Enable Bit 708" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRENB707  ,Set/Clear Enable Bit 707" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRENB706  ,Set/Clear Enable Bit 706" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRENB705  ,Set/Clear Enable Bit 705" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRENB704  ,Set/Clear Enable Bit 704" "Disabled,Enabled"
else
hgroup.long 0x0158++0x03
hide.long 0x0 "GICD_SET/CLR_ENABLER22,Interrupt Set/Clear Enable Register 22"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x17)
group.long 0x015C++0x03
line.long 0x0 "GICD_SET/CLR_ENABLER23,Interrupt Set/Clear Enable Register 23"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRENB767  ,Set/Clear Enable Bit 767" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRENB766  ,Set/Clear Enable Bit 766" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRENB765  ,Set/Clear Enable Bit 765" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRENB764  ,Set/Clear Enable Bit 764" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRENB763  ,Set/Clear Enable Bit 763" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRENB762  ,Set/Clear Enable Bit 762" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRENB761  ,Set/Clear Enable Bit 761" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRENB760  ,Set/Clear Enable Bit 760" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRENB759  ,Set/Clear Enable Bit 759" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRENB758  ,Set/Clear Enable Bit 758" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRENB757  ,Set/Clear Enable Bit 757" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRENB756  ,Set/Clear Enable Bit 756" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRENB755  ,Set/Clear Enable Bit 755" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRENB754  ,Set/Clear Enable Bit 754" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRENB753  ,Set/Clear Enable Bit 753" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRENB752  ,Set/Clear Enable Bit 752" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRENB751  ,Set/Clear Enable Bit 751" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRENB750  ,Set/Clear Enable Bit 750" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRENB749  ,Set/Clear Enable Bit 749" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRENB748  ,Set/Clear Enable Bit 748" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRENB747  ,Set/Clear Enable Bit 747" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRENB746  ,Set/Clear Enable Bit 746" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRENB745  ,Set/Clear Enable Bit 745" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRENB744  ,Set/Clear Enable Bit 744" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRENB743  ,Set/Clear Enable Bit 743" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRENB742  ,Set/Clear Enable Bit 742" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRENB741  ,Set/Clear Enable Bit 741" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRENB740  ,Set/Clear Enable Bit 740" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRENB739  ,Set/Clear Enable Bit 739" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRENB738  ,Set/Clear Enable Bit 738" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRENB737  ,Set/Clear Enable Bit 737" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRENB736  ,Set/Clear Enable Bit 736" "Disabled,Enabled"
else
hgroup.long 0x015C++0x03
hide.long 0x0 "GICD_SET/CLR_ENABLER23,Interrupt Set/Clear Enable Register 23"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x18)
group.long 0x0160++0x03
line.long 0x0 "GICD_SET/CLR_ENABLER24,Interrupt Set/Clear Enable Register 24"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRENB799  ,Set/Clear Enable Bit 799" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRENB798  ,Set/Clear Enable Bit 798" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRENB797  ,Set/Clear Enable Bit 797" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRENB796  ,Set/Clear Enable Bit 796" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRENB795  ,Set/Clear Enable Bit 795" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRENB794  ,Set/Clear Enable Bit 794" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRENB793  ,Set/Clear Enable Bit 793" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRENB792  ,Set/Clear Enable Bit 792" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRENB791  ,Set/Clear Enable Bit 791" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRENB790  ,Set/Clear Enable Bit 790" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRENB789  ,Set/Clear Enable Bit 789" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRENB788  ,Set/Clear Enable Bit 788" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRENB787  ,Set/Clear Enable Bit 787" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRENB786  ,Set/Clear Enable Bit 786" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRENB785  ,Set/Clear Enable Bit 785" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRENB784  ,Set/Clear Enable Bit 784" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRENB783  ,Set/Clear Enable Bit 783" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRENB782  ,Set/Clear Enable Bit 782" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRENB781  ,Set/Clear Enable Bit 781" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRENB780  ,Set/Clear Enable Bit 780" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRENB779  ,Set/Clear Enable Bit 779" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRENB778  ,Set/Clear Enable Bit 778" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRENB777  ,Set/Clear Enable Bit 777" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRENB776  ,Set/Clear Enable Bit 776" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRENB775  ,Set/Clear Enable Bit 775" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRENB774  ,Set/Clear Enable Bit 774" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRENB773  ,Set/Clear Enable Bit 773" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRENB772  ,Set/Clear Enable Bit 772" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRENB771  ,Set/Clear Enable Bit 771" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRENB770  ,Set/Clear Enable Bit 770" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRENB769  ,Set/Clear Enable Bit 769" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRENB768  ,Set/Clear Enable Bit 768" "Disabled,Enabled"
else
hgroup.long 0x0160++0x03
hide.long 0x0 "GICD_SET/CLR_ENABLER24,Interrupt Set/Clear Enable Register 24"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x19)
group.long 0x0164++0x03
line.long 0x0 "GICD_SET/CLR_ENABLER25,Interrupt Set/Clear Enable Register 25"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRENB831  ,Set/Clear Enable Bit 831" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRENB830  ,Set/Clear Enable Bit 830" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRENB829  ,Set/Clear Enable Bit 829" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRENB828  ,Set/Clear Enable Bit 828" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRENB827  ,Set/Clear Enable Bit 827" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRENB826  ,Set/Clear Enable Bit 826" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRENB825  ,Set/Clear Enable Bit 825" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRENB824  ,Set/Clear Enable Bit 824" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRENB823  ,Set/Clear Enable Bit 823" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRENB822  ,Set/Clear Enable Bit 822" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRENB821  ,Set/Clear Enable Bit 821" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRENB820  ,Set/Clear Enable Bit 820" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRENB819  ,Set/Clear Enable Bit 819" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRENB818  ,Set/Clear Enable Bit 818" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRENB817  ,Set/Clear Enable Bit 817" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRENB816  ,Set/Clear Enable Bit 816" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRENB815  ,Set/Clear Enable Bit 815" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRENB814  ,Set/Clear Enable Bit 814" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRENB813  ,Set/Clear Enable Bit 813" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRENB812  ,Set/Clear Enable Bit 812" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRENB811  ,Set/Clear Enable Bit 811" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRENB810  ,Set/Clear Enable Bit 810" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRENB809  ,Set/Clear Enable Bit 809" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRENB808  ,Set/Clear Enable Bit 808" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRENB807  ,Set/Clear Enable Bit 807" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRENB806  ,Set/Clear Enable Bit 806" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRENB805  ,Set/Clear Enable Bit 805" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRENB804  ,Set/Clear Enable Bit 804" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRENB803  ,Set/Clear Enable Bit 803" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRENB802  ,Set/Clear Enable Bit 802" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRENB801  ,Set/Clear Enable Bit 801" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRENB800  ,Set/Clear Enable Bit 800" "Disabled,Enabled"
else
hgroup.long 0x0164++0x03
hide.long 0x0 "GICD_SET/CLR_ENABLER25,Interrupt Set/Clear Enable Register 25"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1A)
group.long 0x0168++0x03
line.long 0x0 "GICD_SET/CLR_ENABLER26,Interrupt Set/Clear Enable Register 26"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRENB863  ,Set/Clear Enable Bit 863" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRENB862  ,Set/Clear Enable Bit 862" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRENB861  ,Set/Clear Enable Bit 861" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRENB860  ,Set/Clear Enable Bit 860" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRENB859  ,Set/Clear Enable Bit 859" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRENB858  ,Set/Clear Enable Bit 858" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRENB857  ,Set/Clear Enable Bit 857" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRENB856  ,Set/Clear Enable Bit 856" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRENB855  ,Set/Clear Enable Bit 855" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRENB854  ,Set/Clear Enable Bit 854" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRENB853  ,Set/Clear Enable Bit 853" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRENB852  ,Set/Clear Enable Bit 852" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRENB851  ,Set/Clear Enable Bit 851" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRENB850  ,Set/Clear Enable Bit 850" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRENB849  ,Set/Clear Enable Bit 849" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRENB848  ,Set/Clear Enable Bit 848" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRENB847  ,Set/Clear Enable Bit 847" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRENB846  ,Set/Clear Enable Bit 846" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRENB845  ,Set/Clear Enable Bit 845" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRENB844  ,Set/Clear Enable Bit 844" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRENB843  ,Set/Clear Enable Bit 843" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRENB842  ,Set/Clear Enable Bit 842" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRENB841  ,Set/Clear Enable Bit 841" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRENB840  ,Set/Clear Enable Bit 840" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRENB839  ,Set/Clear Enable Bit 839" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRENB838  ,Set/Clear Enable Bit 838" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRENB837  ,Set/Clear Enable Bit 837" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRENB836  ,Set/Clear Enable Bit 836" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRENB835  ,Set/Clear Enable Bit 835" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRENB834  ,Set/Clear Enable Bit 834" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRENB833  ,Set/Clear Enable Bit 833" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRENB832  ,Set/Clear Enable Bit 832" "Disabled,Enabled"
else
hgroup.long 0x0168++0x03
hide.long 0x0 "GICD_SET/CLR_ENABLER26,Interrupt Set/Clear Enable Register 26"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1B)
group.long 0x016C++0x03
line.long 0x0 "GICD_SET/CLR_ENABLER27,Interrupt Set/Clear Enable Register 27"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRENB895  ,Set/Clear Enable Bit 895" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRENB894  ,Set/Clear Enable Bit 894" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRENB893  ,Set/Clear Enable Bit 893" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRENB892  ,Set/Clear Enable Bit 892" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRENB891  ,Set/Clear Enable Bit 891" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRENB890  ,Set/Clear Enable Bit 890" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRENB889  ,Set/Clear Enable Bit 889" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRENB888  ,Set/Clear Enable Bit 888" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRENB887  ,Set/Clear Enable Bit 887" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRENB886  ,Set/Clear Enable Bit 886" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRENB885  ,Set/Clear Enable Bit 885" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRENB884  ,Set/Clear Enable Bit 884" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRENB883  ,Set/Clear Enable Bit 883" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRENB882  ,Set/Clear Enable Bit 882" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRENB881  ,Set/Clear Enable Bit 881" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRENB880  ,Set/Clear Enable Bit 880" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRENB879  ,Set/Clear Enable Bit 879" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRENB878  ,Set/Clear Enable Bit 878" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRENB877  ,Set/Clear Enable Bit 877" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRENB876  ,Set/Clear Enable Bit 876" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRENB875  ,Set/Clear Enable Bit 875" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRENB874  ,Set/Clear Enable Bit 874" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRENB873  ,Set/Clear Enable Bit 873" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRENB872  ,Set/Clear Enable Bit 872" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRENB871  ,Set/Clear Enable Bit 871" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRENB870  ,Set/Clear Enable Bit 870" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRENB869  ,Set/Clear Enable Bit 869" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRENB868  ,Set/Clear Enable Bit 868" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRENB867  ,Set/Clear Enable Bit 867" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRENB866  ,Set/Clear Enable Bit 866" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRENB865  ,Set/Clear Enable Bit 865" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRENB864  ,Set/Clear Enable Bit 864" "Disabled,Enabled"
else
hgroup.long 0x016C++0x03
hide.long 0x0 "GICD_SET/CLR_ENABLER27,Interrupt Set/Clear Enable Register 27"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1C)
group.long 0x0170++0x03
line.long 0x0 "GICD_SET/CLR_ENABLER28,Interrupt Set/Clear Enable Register 28"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRENB927  ,Set/Clear Enable Bit 927" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRENB926  ,Set/Clear Enable Bit 926" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRENB925  ,Set/Clear Enable Bit 925" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRENB924  ,Set/Clear Enable Bit 924" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRENB923  ,Set/Clear Enable Bit 923" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRENB922  ,Set/Clear Enable Bit 922" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRENB921  ,Set/Clear Enable Bit 921" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRENB920  ,Set/Clear Enable Bit 920" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRENB919  ,Set/Clear Enable Bit 919" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRENB918  ,Set/Clear Enable Bit 918" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRENB917  ,Set/Clear Enable Bit 917" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRENB916  ,Set/Clear Enable Bit 916" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRENB915  ,Set/Clear Enable Bit 915" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRENB914  ,Set/Clear Enable Bit 914" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRENB913  ,Set/Clear Enable Bit 913" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRENB912  ,Set/Clear Enable Bit 912" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRENB911  ,Set/Clear Enable Bit 911" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRENB910  ,Set/Clear Enable Bit 910" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRENB909  ,Set/Clear Enable Bit 909" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRENB908  ,Set/Clear Enable Bit 908" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRENB907  ,Set/Clear Enable Bit 907" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRENB906  ,Set/Clear Enable Bit 906" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRENB905  ,Set/Clear Enable Bit 905" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRENB904  ,Set/Clear Enable Bit 904" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRENB903  ,Set/Clear Enable Bit 903" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRENB902  ,Set/Clear Enable Bit 902" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRENB901  ,Set/Clear Enable Bit 901" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRENB900  ,Set/Clear Enable Bit 900" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRENB899  ,Set/Clear Enable Bit 899" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRENB898  ,Set/Clear Enable Bit 898" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRENB897  ,Set/Clear Enable Bit 897" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRENB896  ,Set/Clear Enable Bit 896" "Disabled,Enabled"
else
hgroup.long 0x0170++0x03
hide.long 0x0 "GICD_SET/CLR_ENABLER28,Interrupt Set/Clear Enable Register 28"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1D)
group.long 0x0174++0x03
line.long 0x0 "GICD_SET/CLR_ENABLER29,Interrupt Set/Clear Enable Register 29"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRENB959  ,Set/Clear Enable Bit 959" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRENB958  ,Set/Clear Enable Bit 958" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRENB957  ,Set/Clear Enable Bit 957" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRENB956  ,Set/Clear Enable Bit 956" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRENB955  ,Set/Clear Enable Bit 955" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRENB954  ,Set/Clear Enable Bit 954" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRENB953  ,Set/Clear Enable Bit 953" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRENB952  ,Set/Clear Enable Bit 952" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRENB951  ,Set/Clear Enable Bit 951" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRENB950  ,Set/Clear Enable Bit 950" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRENB949  ,Set/Clear Enable Bit 949" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRENB948  ,Set/Clear Enable Bit 948" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRENB947  ,Set/Clear Enable Bit 947" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRENB946  ,Set/Clear Enable Bit 946" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRENB945  ,Set/Clear Enable Bit 945" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRENB944  ,Set/Clear Enable Bit 944" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRENB943  ,Set/Clear Enable Bit 943" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRENB942  ,Set/Clear Enable Bit 942" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRENB941  ,Set/Clear Enable Bit 941" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRENB940  ,Set/Clear Enable Bit 940" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRENB939  ,Set/Clear Enable Bit 939" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRENB938  ,Set/Clear Enable Bit 938" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRENB937  ,Set/Clear Enable Bit 937" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRENB936  ,Set/Clear Enable Bit 936" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRENB935  ,Set/Clear Enable Bit 935" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRENB934  ,Set/Clear Enable Bit 934" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRENB933  ,Set/Clear Enable Bit 933" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRENB932  ,Set/Clear Enable Bit 932" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRENB931  ,Set/Clear Enable Bit 931" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRENB930  ,Set/Clear Enable Bit 930" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRENB929  ,Set/Clear Enable Bit 929" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRENB928  ,Set/Clear Enable Bit 928" "Disabled,Enabled"
else
hgroup.long 0x0174++0x03
hide.long 0x0 "GICD_SET/CLR_ENABLER29,Interrupt Set/Clear Enable Register 29"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1E)
group.long 0x0178++0x03
line.long 0x0 "GICD_SET/CLR_ENABLER30,Interrupt Set/Clear Enable Register 30"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRENB991  ,Set/Clear Enable Bit 991" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRENB990  ,Set/Clear Enable Bit 990" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRENB989  ,Set/Clear Enable Bit 989" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRENB988  ,Set/Clear Enable Bit 988" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRENB987  ,Set/Clear Enable Bit 987" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRENB986  ,Set/Clear Enable Bit 986" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRENB985  ,Set/Clear Enable Bit 985" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRENB984  ,Set/Clear Enable Bit 984" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRENB983  ,Set/Clear Enable Bit 983" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRENB982  ,Set/Clear Enable Bit 982" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRENB981  ,Set/Clear Enable Bit 981" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRENB980  ,Set/Clear Enable Bit 980" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRENB979  ,Set/Clear Enable Bit 979" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRENB978  ,Set/Clear Enable Bit 978" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRENB977  ,Set/Clear Enable Bit 977" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRENB976  ,Set/Clear Enable Bit 976" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRENB975  ,Set/Clear Enable Bit 975" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRENB974  ,Set/Clear Enable Bit 974" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRENB973  ,Set/Clear Enable Bit 973" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRENB972  ,Set/Clear Enable Bit 972" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRENB971  ,Set/Clear Enable Bit 971" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRENB970  ,Set/Clear Enable Bit 970" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRENB969  ,Set/Clear Enable Bit 969" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRENB968  ,Set/Clear Enable Bit 968" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRENB967  ,Set/Clear Enable Bit 967" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRENB966  ,Set/Clear Enable Bit 966" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRENB965  ,Set/Clear Enable Bit 965" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRENB964  ,Set/Clear Enable Bit 964" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRENB963  ,Set/Clear Enable Bit 963" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRENB962  ,Set/Clear Enable Bit 962" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRENB961  ,Set/Clear Enable Bit 961" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRENB960  ,Set/Clear Enable Bit 960" "Disabled,Enabled"
else
hgroup.long 0x0178++0x03
hide.long 0x0 "GICD_SET/CLR_ENABLER30,Interrupt Set/Clear Enable Register 30"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)==0x1F)
group.long 0x017C++0x03
line.long 0x0 "GICD_SET/CLR_ENABLER31,Interrupt Set/Clear Enable Register 31"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRENB1019 ,Set/Clear Enable Bit 1019" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRENB1018 ,Set/Clear Enable Bit 1018" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRENB1017 ,Set/Clear Enable Bit 1017" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRENB1016 ,Set/Clear Enable Bit 1016" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRENB1015 ,Set/Clear Enable Bit 1015" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRENB1014 ,Set/Clear Enable Bit 1014" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRENB1013 ,Set/Clear Enable Bit 1013" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRENB1012 ,Set/Clear Enable Bit 1012" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRENB1011 ,Set/Clear Enable Bit 1011" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRENB1010 ,Set/Clear Enable Bit 1010" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRENB1009 ,Set/Clear Enable Bit 1009" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRENB1008 ,Set/Clear Enable Bit 1008" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRENB1007 ,Set/Clear Enable Bit 1007" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRENB1006 ,Set/Clear Enable Bit 1006" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRENB1005 ,Set/Clear Enable Bit 1005" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRENB1004 ,Set/Clear Enable Bit 1004" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRENB1003 ,Set/Clear Enable Bit 1003" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRENB1002 ,Set/Clear Enable Bit 1002" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRENB1001 ,Set/Clear Enable Bit 1001" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRENB1000 ,Set/Clear Enable Bit 1000" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRENB999  ,Set/Clear Enable Bit 999" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRENB998  ,Set/Clear Enable Bit 998" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRENB997  ,Set/Clear Enable Bit 997" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRENB996  ,Set/Clear Enable Bit 996" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRENB995  ,Set/Clear Enable Bit 995" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRENB994  ,Set/Clear Enable Bit 994" "Disabled,Enabled"
textline "                                 "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRENB993  ,Set/Clear Enable Bit 993" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRENB992  ,Set/Clear Enable Bit 992" "Disabled,Enabled"
else
hgroup.long 0x017C++0x03
hide.long 0x0 "GICD_SET/CLR_ENABLER31,Interrupt Set/Clear Enable Register 31"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
tree.end
width 22.
tree "Set/Clear Pending Registers"
group.long 0x0200++0x03
line.long 0x0 "GICD_SET/CLR_PENDR0,Interrupt Set/Clear Pending Register 0"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRPEND31   ,Set/Clear Pending Bit 31" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRPEND30   ,Set/Clear Pending Bit 30" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRPEND29   ,Set/Clear Pending Bit 29" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND28   ,Set/Clear Pending Bit 28" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRPEND27   ,Set/Clear Pending Bit 27" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRPEND26   ,Set/Clear Pending Bit 26" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND25   ,Set/Clear Pending Bit 25" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRPEND24   ,Set/Clear Pending Bit 24" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRPEND23   ,Set/Clear Pending Bit 23" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND22   ,Set/Clear Pending Bit 22" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRPEND21   ,Set/Clear Pending Bit 21" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRPEND20   ,Set/Clear Pending Bit 20" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND19   ,Set/Clear Pending Bit 19" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRPEND18   ,Set/Clear Pending Bit 18" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRPEND17   ,Set/Clear Pending Bit 17" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND16   ,Set/Clear Pending Bit 16" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRPEND15   ,Set/Clear Pending Bit 15" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRPEND14   ,Set/Clear Pending Bit 14" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND13   ,Set/Clear Pending Bit 13" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRPEND12   ,Set/Clear Pending Bit 12" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRPEND11   ,Set/Clear Pending Bit 11" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND10   ,Set/Clear Pending Bit 10" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRPEND9    ,Set/Clear Pending Bit 9" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRPEND8    ,Set/Clear Pending Bit 8" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND7    ,Set/Clear Pending Bit 7" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRPEND6    ,Set/Clear Pending Bit 6" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRPEND5    ,Set/Clear Pending Bit 5" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND4    ,Set/Clear Pending Bit 4" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRPEND3    ,Set/Clear Pending Bit 3" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRPEND2    ,Set/Clear Pending Bit 2" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND1    ,Set/Clear Pending Bit 1" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRPEND0    ,Set/Clear Pending Bit 0" "Disabled,Enabled"
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x01)
group.long 0x0204++0x03
line.long 0x0 "GICD_SET/CLR_PENDR1,Interrupt Set/Clear Pending Register 1"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRPEND63   ,Set/Clear Pending Bit 63" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRPEND62   ,Set/Clear Pending Bit 62" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRPEND61   ,Set/Clear Pending Bit 61" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND60   ,Set/Clear Pending Bit 60" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRPEND59   ,Set/Clear Pending Bit 59" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRPEND58   ,Set/Clear Pending Bit 58" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND57   ,Set/Clear Pending Bit 57" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRPEND56   ,Set/Clear Pending Bit 56" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRPEND55   ,Set/Clear Pending Bit 55" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND54   ,Set/Clear Pending Bit 54" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRPEND53   ,Set/Clear Pending Bit 53" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRPEND52   ,Set/Clear Pending Bit 52" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND51   ,Set/Clear Pending Bit 51" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRPEND50   ,Set/Clear Pending Bit 50" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRPEND49   ,Set/Clear Pending Bit 49" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND48   ,Set/Clear Pending Bit 48" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRPEND47   ,Set/Clear Pending Bit 47" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRPEND46   ,Set/Clear Pending Bit 46" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND45   ,Set/Clear Pending Bit 45" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRPEND44   ,Set/Clear Pending Bit 44" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRPEND43   ,Set/Clear Pending Bit 43" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND42   ,Set/Clear Pending Bit 42" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRPEND41   ,Set/Clear Pending Bit 41" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRPEND40   ,Set/Clear Pending Bit 40" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND39   ,Set/Clear Pending Bit 39" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRPEND38   ,Set/Clear Pending Bit 38" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRPEND37   ,Set/Clear Pending Bit 37" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND36   ,Set/Clear Pending Bit 36" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRPEND35   ,Set/Clear Pending Bit 35" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRPEND34   ,Set/Clear Pending Bit 34" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND33   ,Set/Clear Pending Bit 33" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRPEND32   ,Set/Clear Pending Bit 32" "Disabled,Enabled"
else
hgroup.long 0x0204++0x03
hide.long 0x0 "GICD_SET/CLR_PENDR1,Interrupt Set/Clear Pending Register 1"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x02)
group.long 0x0208++0x03
line.long 0x0 "GICD_SET/CLR_PENDR2,Interrupt Set/Clear Pending Register 2"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRPEND95   ,Set/Clear Pending Bit 95" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRPEND94   ,Set/Clear Pending Bit 94" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRPEND93   ,Set/Clear Pending Bit 93" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND92   ,Set/Clear Pending Bit 92" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRPEND91   ,Set/Clear Pending Bit 91" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRPEND90   ,Set/Clear Pending Bit 90" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND89   ,Set/Clear Pending Bit 89" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRPEND88   ,Set/Clear Pending Bit 88" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRPEND87   ,Set/Clear Pending Bit 87" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND86   ,Set/Clear Pending Bit 86" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRPEND85   ,Set/Clear Pending Bit 85" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRPEND84   ,Set/Clear Pending Bit 84" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND83   ,Set/Clear Pending Bit 83" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRPEND82   ,Set/Clear Pending Bit 82" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRPEND81   ,Set/Clear Pending Bit 81" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND80   ,Set/Clear Pending Bit 80" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRPEND79   ,Set/Clear Pending Bit 79" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRPEND78   ,Set/Clear Pending Bit 78" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND77   ,Set/Clear Pending Bit 77" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRPEND76   ,Set/Clear Pending Bit 76" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRPEND75   ,Set/Clear Pending Bit 75" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND74   ,Set/Clear Pending Bit 74" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRPEND73   ,Set/Clear Pending Bit 73" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRPEND72   ,Set/Clear Pending Bit 72" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND71   ,Set/Clear Pending Bit 71" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRPEND70   ,Set/Clear Pending Bit 70" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRPEND69   ,Set/Clear Pending Bit 69" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND68   ,Set/Clear Pending Bit 68" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRPEND67   ,Set/Clear Pending Bit 67" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRPEND66   ,Set/Clear Pending Bit 66" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND65   ,Set/Clear Pending Bit 65" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRPEND64   ,Set/Clear Pending Bit 64" "Disabled,Enabled"
else
hgroup.long 0x0208++0x03
hide.long 0x0 "GICD_SET/CLR_PENDR2,Interrupt Set/Clear Pending Register 2"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x03)
group.long 0x020C++0x03
line.long 0x0 "GICD_SET/CLR_PENDR3,Interrupt Set/Clear Pending Register 3"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRPEND127  ,Set/Clear Pending Bit 127" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRPEND126  ,Set/Clear Pending Bit 126" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRPEND125  ,Set/Clear Pending Bit 125" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND124  ,Set/Clear Pending Bit 124" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRPEND123  ,Set/Clear Pending Bit 123" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRPEND122  ,Set/Clear Pending Bit 122" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND121  ,Set/Clear Pending Bit 121" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRPEND120  ,Set/Clear Pending Bit 120" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRPEND119  ,Set/Clear Pending Bit 119" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND118  ,Set/Clear Pending Bit 118" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRPEND117  ,Set/Clear Pending Bit 117" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRPEND116  ,Set/Clear Pending Bit 116" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND115  ,Set/Clear Pending Bit 115" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRPEND114  ,Set/Clear Pending Bit 114" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRPEND113  ,Set/Clear Pending Bit 113" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND112  ,Set/Clear Pending Bit 112" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRPEND111  ,Set/Clear Pending Bit 111" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRPEND110  ,Set/Clear Pending Bit 110" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND109  ,Set/Clear Pending Bit 109" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRPEND108  ,Set/Clear Pending Bit 108" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRPEND107  ,Set/Clear Pending Bit 107" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND106  ,Set/Clear Pending Bit 106" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRPEND105  ,Set/Clear Pending Bit 105" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRPEND104  ,Set/Clear Pending Bit 104" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND103  ,Set/Clear Pending Bit 103" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRPEND102  ,Set/Clear Pending Bit 102" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRPEND101  ,Set/Clear Pending Bit 101" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND100  ,Set/Clear Pending Bit 100" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRPEND99   ,Set/Clear Pending Bit 99" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRPEND98   ,Set/Clear Pending Bit 98" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND97   ,Set/Clear Pending Bit 97" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRPEND96   ,Set/Clear Pending Bit 96" "Disabled,Enabled"
else
hgroup.long 0x020C++0x03
hide.long 0x0 "GICD_SET/CLR_PENDR3,Interrupt Set/Clear Pending Register 3"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x04)
group.long 0x0210++0x03
line.long 0x0 "GICD_SET/CLR_PENDR4,Interrupt Set/Clear Pending Register 4"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRPEND159  ,Set/Clear Pending Bit 159" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRPEND158  ,Set/Clear Pending Bit 158" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRPEND157  ,Set/Clear Pending Bit 157" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND156  ,Set/Clear Pending Bit 156" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRPEND155  ,Set/Clear Pending Bit 155" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRPEND154  ,Set/Clear Pending Bit 154" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND153  ,Set/Clear Pending Bit 153" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRPEND152  ,Set/Clear Pending Bit 152" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRPEND151  ,Set/Clear Pending Bit 151" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND150  ,Set/Clear Pending Bit 150" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRPEND149  ,Set/Clear Pending Bit 149" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRPEND148  ,Set/Clear Pending Bit 148" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND147  ,Set/Clear Pending Bit 147" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRPEND146  ,Set/Clear Pending Bit 146" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRPEND145  ,Set/Clear Pending Bit 145" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND144  ,Set/Clear Pending Bit 144" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRPEND143  ,Set/Clear Pending Bit 143" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRPEND142  ,Set/Clear Pending Bit 142" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND141  ,Set/Clear Pending Bit 141" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRPEND140  ,Set/Clear Pending Bit 140" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRPEND139  ,Set/Clear Pending Bit 139" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND138  ,Set/Clear Pending Bit 138" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRPEND137  ,Set/Clear Pending Bit 137" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRPEND136  ,Set/Clear Pending Bit 136" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND135  ,Set/Clear Pending Bit 135" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRPEND134  ,Set/Clear Pending Bit 134" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRPEND133  ,Set/Clear Pending Bit 133" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND132  ,Set/Clear Pending Bit 132" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRPEND131  ,Set/Clear Pending Bit 131" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRPEND130  ,Set/Clear Pending Bit 130" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND129  ,Set/Clear Pending Bit 129" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRPEND128  ,Set/Clear Pending Bit 128" "Disabled,Enabled"
else
hgroup.long 0x0210++0x03
hide.long 0x0 "GICD_SET/CLR_PENDR4,Interrupt Set/Clear Pending Register 4"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x05)
group.long 0x0214++0x03
line.long 0x0 "GICD_SET/CLR_PENDR5,Interrupt Set/Clear Pending Register 5"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRPEND191  ,Set/Clear Pending Bit 191" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRPEND190  ,Set/Clear Pending Bit 190" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRPEND189  ,Set/Clear Pending Bit 189" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND188  ,Set/Clear Pending Bit 188" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRPEND187  ,Set/Clear Pending Bit 187" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRPEND186  ,Set/Clear Pending Bit 186" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND185  ,Set/Clear Pending Bit 185" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRPEND184  ,Set/Clear Pending Bit 184" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRPEND183  ,Set/Clear Pending Bit 183" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND182  ,Set/Clear Pending Bit 182" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRPEND181  ,Set/Clear Pending Bit 181" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRPEND180  ,Set/Clear Pending Bit 180" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND179  ,Set/Clear Pending Bit 179" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRPEND178  ,Set/Clear Pending Bit 178" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRPEND177  ,Set/Clear Pending Bit 177" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND176  ,Set/Clear Pending Bit 176" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRPEND175  ,Set/Clear Pending Bit 175" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRPEND174  ,Set/Clear Pending Bit 174" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND173  ,Set/Clear Pending Bit 173" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRPEND172  ,Set/Clear Pending Bit 172" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRPEND171  ,Set/Clear Pending Bit 171" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND170  ,Set/Clear Pending Bit 170" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRPEND169  ,Set/Clear Pending Bit 169" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRPEND168  ,Set/Clear Pending Bit 168" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND167  ,Set/Clear Pending Bit 167" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRPEND166  ,Set/Clear Pending Bit 166" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRPEND165  ,Set/Clear Pending Bit 165" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND164  ,Set/Clear Pending Bit 164" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRPEND163  ,Set/Clear Pending Bit 163" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRPEND162  ,Set/Clear Pending Bit 162" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND161  ,Set/Clear Pending Bit 161" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRPEND160  ,Set/Clear Pending Bit 160" "Disabled,Enabled"
else
hgroup.long 0x0214++0x03
hide.long 0x0 "GICD_SET/CLR_PENDR5,Interrupt Set/Clear Pending Register 5"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x06)
group.long 0x0218++0x03
line.long 0x0 "GICD_SET/CLR_PENDR6,Interrupt Set/Clear Pending Register 6"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRPEND223  ,Set/Clear Pending Bit 223" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRPEND222  ,Set/Clear Pending Bit 222" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRPEND221  ,Set/Clear Pending Bit 221" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND220  ,Set/Clear Pending Bit 220" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRPEND219  ,Set/Clear Pending Bit 219" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRPEND218  ,Set/Clear Pending Bit 218" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND217  ,Set/Clear Pending Bit 217" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRPEND216  ,Set/Clear Pending Bit 216" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRPEND215  ,Set/Clear Pending Bit 215" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND214  ,Set/Clear Pending Bit 214" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRPEND213  ,Set/Clear Pending Bit 213" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRPEND212  ,Set/Clear Pending Bit 212" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND211  ,Set/Clear Pending Bit 211" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRPEND210  ,Set/Clear Pending Bit 210" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRPEND209  ,Set/Clear Pending Bit 209" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND208  ,Set/Clear Pending Bit 208" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRPEND207  ,Set/Clear Pending Bit 207" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRPEND206  ,Set/Clear Pending Bit 206" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND205  ,Set/Clear Pending Bit 205" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRPEND204  ,Set/Clear Pending Bit 204" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRPEND203  ,Set/Clear Pending Bit 203" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND202  ,Set/Clear Pending Bit 202" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRPEND201  ,Set/Clear Pending Bit 201" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRPEND200  ,Set/Clear Pending Bit 200" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND199  ,Set/Clear Pending Bit 199" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRPEND198  ,Set/Clear Pending Bit 198" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRPEND197  ,Set/Clear Pending Bit 197" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND196  ,Set/Clear Pending Bit 196" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRPEND195  ,Set/Clear Pending Bit 195" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRPEND194  ,Set/Clear Pending Bit 194" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND193  ,Set/Clear Pending Bit 193" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRPEND192  ,Set/Clear Pending Bit 192" "Disabled,Enabled"
else
hgroup.long 0x0218++0x03
hide.long 0x0 "GICD_SET/CLR_PENDR6,Interrupt Set/Clear Pending Register 6"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x07)
group.long 0x021C++0x03
line.long 0x0 "GICD_SET/CLR_PENDR7,Interrupt Set/Clear Pending Register 7"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRPEND255  ,Set/Clear Pending Bit 255" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRPEND254  ,Set/Clear Pending Bit 254" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRPEND253  ,Set/Clear Pending Bit 253" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND252  ,Set/Clear Pending Bit 252" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRPEND251  ,Set/Clear Pending Bit 251" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRPEND250  ,Set/Clear Pending Bit 250" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND249  ,Set/Clear Pending Bit 249" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRPEND248  ,Set/Clear Pending Bit 248" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRPEND247  ,Set/Clear Pending Bit 247" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND246  ,Set/Clear Pending Bit 246" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRPEND245  ,Set/Clear Pending Bit 245" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRPEND244  ,Set/Clear Pending Bit 244" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND243  ,Set/Clear Pending Bit 243" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRPEND242  ,Set/Clear Pending Bit 242" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRPEND241  ,Set/Clear Pending Bit 241" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND240  ,Set/Clear Pending Bit 240" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRPEND239  ,Set/Clear Pending Bit 239" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRPEND238  ,Set/Clear Pending Bit 238" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND237  ,Set/Clear Pending Bit 237" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRPEND236  ,Set/Clear Pending Bit 236" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRPEND235  ,Set/Clear Pending Bit 235" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND234  ,Set/Clear Pending Bit 234" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRPEND233  ,Set/Clear Pending Bit 233" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRPEND232  ,Set/Clear Pending Bit 232" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND231  ,Set/Clear Pending Bit 231" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRPEND230  ,Set/Clear Pending Bit 230" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRPEND229  ,Set/Clear Pending Bit 229" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND228  ,Set/Clear Pending Bit 228" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRPEND227  ,Set/Clear Pending Bit 227" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRPEND226  ,Set/Clear Pending Bit 226" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND225  ,Set/Clear Pending Bit 225" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRPEND224  ,Set/Clear Pending Bit 224" "Disabled,Enabled"
else
hgroup.long 0x021C++0x03
hide.long 0x0 "GICD_SET/CLR_PENDR7,Interrupt Set/Clear Pending Register 7"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x08)
group.long 0x0220++0x03
line.long 0x0 "GICD_SET/CLR_PENDR8,Interrupt Set/Clear Pending Register 8"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRPEND287  ,Set/Clear Pending Bit 287" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRPEND286  ,Set/Clear Pending Bit 286" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRPEND285  ,Set/Clear Pending Bit 285" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND284  ,Set/Clear Pending Bit 284" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRPEND283  ,Set/Clear Pending Bit 283" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRPEND282  ,Set/Clear Pending Bit 282" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND281  ,Set/Clear Pending Bit 281" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRPEND280  ,Set/Clear Pending Bit 280" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRPEND279  ,Set/Clear Pending Bit 279" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND278  ,Set/Clear Pending Bit 278" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRPEND277  ,Set/Clear Pending Bit 277" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRPEND276  ,Set/Clear Pending Bit 276" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND275  ,Set/Clear Pending Bit 275" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRPEND274  ,Set/Clear Pending Bit 274" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRPEND273  ,Set/Clear Pending Bit 273" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND272  ,Set/Clear Pending Bit 272" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRPEND271  ,Set/Clear Pending Bit 271" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRPEND270  ,Set/Clear Pending Bit 270" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND269  ,Set/Clear Pending Bit 269" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRPEND268  ,Set/Clear Pending Bit 268" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRPEND267  ,Set/Clear Pending Bit 267" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND266  ,Set/Clear Pending Bit 266" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRPEND265  ,Set/Clear Pending Bit 265" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRPEND264  ,Set/Clear Pending Bit 264" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND263  ,Set/Clear Pending Bit 263" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRPEND262  ,Set/Clear Pending Bit 262" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRPEND261  ,Set/Clear Pending Bit 261" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND260  ,Set/Clear Pending Bit 260" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRPEND259  ,Set/Clear Pending Bit 259" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRPEND258  ,Set/Clear Pending Bit 258" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND257  ,Set/Clear Pending Bit 257" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRPEND256  ,Set/Clear Pending Bit 256" "Disabled,Enabled"
else
hgroup.long 0x0220++0x03
hide.long 0x0 "GICD_SET/CLR_PENDR8,Interrupt Set/Clear Pending Register 8"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x09)
group.long 0x0224++0x03
line.long 0x0 "GICD_SET/CLR_PENDR9,Interrupt Set/Clear Pending Register 9"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRPEND319  ,Set/Clear Pending Bit 319" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRPEND318  ,Set/Clear Pending Bit 318" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRPEND317  ,Set/Clear Pending Bit 317" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND316  ,Set/Clear Pending Bit 316" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRPEND315  ,Set/Clear Pending Bit 315" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRPEND314  ,Set/Clear Pending Bit 314" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND313  ,Set/Clear Pending Bit 313" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRPEND312  ,Set/Clear Pending Bit 312" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRPEND311  ,Set/Clear Pending Bit 311" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND310  ,Set/Clear Pending Bit 310" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRPEND309  ,Set/Clear Pending Bit 309" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRPEND308  ,Set/Clear Pending Bit 308" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND307  ,Set/Clear Pending Bit 307" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRPEND306  ,Set/Clear Pending Bit 306" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRPEND305  ,Set/Clear Pending Bit 305" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND304  ,Set/Clear Pending Bit 304" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRPEND303  ,Set/Clear Pending Bit 303" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRPEND302  ,Set/Clear Pending Bit 302" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND301  ,Set/Clear Pending Bit 301" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRPEND300  ,Set/Clear Pending Bit 300" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRPEND299  ,Set/Clear Pending Bit 299" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND298  ,Set/Clear Pending Bit 298" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRPEND297  ,Set/Clear Pending Bit 297" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRPEND296  ,Set/Clear Pending Bit 296" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND295  ,Set/Clear Pending Bit 295" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRPEND294  ,Set/Clear Pending Bit 294" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRPEND293  ,Set/Clear Pending Bit 293" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND292  ,Set/Clear Pending Bit 292" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRPEND291  ,Set/Clear Pending Bit 291" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRPEND290  ,Set/Clear Pending Bit 290" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND289  ,Set/Clear Pending Bit 289" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRPEND288  ,Set/Clear Pending Bit 288" "Disabled,Enabled"
else
hgroup.long 0x0224++0x03
hide.long 0x0 "GICD_SET/CLR_PENDR9,Interrupt Set/Clear Pending Register 9"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0A)
group.long 0x0228++0x03
line.long 0x0 "GICD_SET/CLR_PENDR10,Interrupt Set/Clear Pending Register 10"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRPEND351  ,Set/Clear Pending Bit 351" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRPEND350  ,Set/Clear Pending Bit 350" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRPEND349  ,Set/Clear Pending Bit 349" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND348  ,Set/Clear Pending Bit 348" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRPEND347  ,Set/Clear Pending Bit 347" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRPEND346  ,Set/Clear Pending Bit 346" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND345  ,Set/Clear Pending Bit 345" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRPEND344  ,Set/Clear Pending Bit 344" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRPEND343  ,Set/Clear Pending Bit 343" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND342  ,Set/Clear Pending Bit 342" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRPEND341  ,Set/Clear Pending Bit 341" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRPEND340  ,Set/Clear Pending Bit 340" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND339  ,Set/Clear Pending Bit 339" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRPEND338  ,Set/Clear Pending Bit 338" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRPEND337  ,Set/Clear Pending Bit 337" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND336  ,Set/Clear Pending Bit 336" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRPEND335  ,Set/Clear Pending Bit 335" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRPEND334  ,Set/Clear Pending Bit 334" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND333  ,Set/Clear Pending Bit 333" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRPEND332  ,Set/Clear Pending Bit 332" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRPEND331  ,Set/Clear Pending Bit 331" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND330  ,Set/Clear Pending Bit 330" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRPEND329  ,Set/Clear Pending Bit 329" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRPEND328  ,Set/Clear Pending Bit 328" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND327  ,Set/Clear Pending Bit 327" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRPEND326  ,Set/Clear Pending Bit 326" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRPEND325  ,Set/Clear Pending Bit 325" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND324  ,Set/Clear Pending Bit 324" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRPEND323  ,Set/Clear Pending Bit 323" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRPEND322  ,Set/Clear Pending Bit 322" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND321  ,Set/Clear Pending Bit 321" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRPEND320  ,Set/Clear Pending Bit 320" "Disabled,Enabled"
else
hgroup.long 0x0228++0x03
hide.long 0x0 "GICD_SET/CLR_PENDR10,Interrupt Set/Clear Pending Register 10"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0B)
group.long 0x022C++0x03
line.long 0x0 "GICD_SET/CLR_PENDR11,Interrupt Set/Clear Pending Register 11"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRPEND383  ,Set/Clear Pending Bit 383" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRPEND382  ,Set/Clear Pending Bit 382" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRPEND381  ,Set/Clear Pending Bit 381" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND380  ,Set/Clear Pending Bit 380" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRPEND379  ,Set/Clear Pending Bit 379" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRPEND378  ,Set/Clear Pending Bit 378" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND377  ,Set/Clear Pending Bit 377" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRPEND376  ,Set/Clear Pending Bit 376" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRPEND375  ,Set/Clear Pending Bit 375" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND374  ,Set/Clear Pending Bit 374" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRPEND373  ,Set/Clear Pending Bit 373" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRPEND372  ,Set/Clear Pending Bit 372" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND371  ,Set/Clear Pending Bit 371" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRPEND370  ,Set/Clear Pending Bit 370" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRPEND369  ,Set/Clear Pending Bit 369" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND368  ,Set/Clear Pending Bit 368" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRPEND367  ,Set/Clear Pending Bit 367" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRPEND366  ,Set/Clear Pending Bit 366" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND365  ,Set/Clear Pending Bit 365" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRPEND364  ,Set/Clear Pending Bit 364" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRPEND363  ,Set/Clear Pending Bit 363" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND362  ,Set/Clear Pending Bit 362" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRPEND361  ,Set/Clear Pending Bit 361" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRPEND360  ,Set/Clear Pending Bit 360" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND359  ,Set/Clear Pending Bit 359" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRPEND358  ,Set/Clear Pending Bit 358" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRPEND357  ,Set/Clear Pending Bit 357" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND356  ,Set/Clear Pending Bit 356" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRPEND355  ,Set/Clear Pending Bit 355" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRPEND354  ,Set/Clear Pending Bit 354" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND353  ,Set/Clear Pending Bit 353" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRPEND352  ,Set/Clear Pending Bit 352" "Disabled,Enabled"
else
hgroup.long 0x022C++0x03
hide.long 0x0 "GICD_SET/CLR_PENDR11,Interrupt Set/Clear Pending Register 11"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0C)
group.long 0x0230++0x03
line.long 0x0 "GICD_SET/CLR_PENDR12,Interrupt Set/Clear Pending Register 12"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRPEND415  ,Set/Clear Pending Bit 415" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRPEND414  ,Set/Clear Pending Bit 414" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRPEND413  ,Set/Clear Pending Bit 413" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND412  ,Set/Clear Pending Bit 412" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRPEND411  ,Set/Clear Pending Bit 411" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRPEND410  ,Set/Clear Pending Bit 410" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND409  ,Set/Clear Pending Bit 409" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRPEND408  ,Set/Clear Pending Bit 408" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRPEND407  ,Set/Clear Pending Bit 407" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND406  ,Set/Clear Pending Bit 406" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRPEND405  ,Set/Clear Pending Bit 405" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRPEND404  ,Set/Clear Pending Bit 404" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND403  ,Set/Clear Pending Bit 403" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRPEND402  ,Set/Clear Pending Bit 402" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRPEND401  ,Set/Clear Pending Bit 401" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND400  ,Set/Clear Pending Bit 400" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRPEND399  ,Set/Clear Pending Bit 399" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRPEND398  ,Set/Clear Pending Bit 398" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND397  ,Set/Clear Pending Bit 397" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRPEND396  ,Set/Clear Pending Bit 396" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRPEND395  ,Set/Clear Pending Bit 395" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND394  ,Set/Clear Pending Bit 394" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRPEND393  ,Set/Clear Pending Bit 393" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRPEND392  ,Set/Clear Pending Bit 392" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND391  ,Set/Clear Pending Bit 391" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRPEND390  ,Set/Clear Pending Bit 390" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRPEND389  ,Set/Clear Pending Bit 389" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND388  ,Set/Clear Pending Bit 388" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRPEND387  ,Set/Clear Pending Bit 387" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRPEND386  ,Set/Clear Pending Bit 386" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND385  ,Set/Clear Pending Bit 385" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRPEND384  ,Set/Clear Pending Bit 384" "Disabled,Enabled"
else
hgroup.long 0x0230++0x03
hide.long 0x0 "GICD_SET/CLR_PENDR12,Interrupt Set/Clear Pending Register 12"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0D)
group.long 0x0234++0x03
line.long 0x0 "GICD_SET/CLR_PENDR13,Interrupt Set/Clear Pending Register 13"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRPEND447  ,Set/Clear Pending Bit 447" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRPEND446  ,Set/Clear Pending Bit 446" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRPEND445  ,Set/Clear Pending Bit 445" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND444  ,Set/Clear Pending Bit 444" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRPEND443  ,Set/Clear Pending Bit 443" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRPEND442  ,Set/Clear Pending Bit 442" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND441  ,Set/Clear Pending Bit 441" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRPEND440  ,Set/Clear Pending Bit 440" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRPEND439  ,Set/Clear Pending Bit 439" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND438  ,Set/Clear Pending Bit 438" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRPEND437  ,Set/Clear Pending Bit 437" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRPEND436  ,Set/Clear Pending Bit 436" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND435  ,Set/Clear Pending Bit 435" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRPEND434  ,Set/Clear Pending Bit 434" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRPEND433  ,Set/Clear Pending Bit 433" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND432  ,Set/Clear Pending Bit 432" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRPEND431  ,Set/Clear Pending Bit 431" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRPEND430  ,Set/Clear Pending Bit 430" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND429  ,Set/Clear Pending Bit 429" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRPEND428  ,Set/Clear Pending Bit 428" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRPEND427  ,Set/Clear Pending Bit 427" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND426  ,Set/Clear Pending Bit 426" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRPEND425  ,Set/Clear Pending Bit 425" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRPEND424  ,Set/Clear Pending Bit 424" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND423  ,Set/Clear Pending Bit 423" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRPEND422  ,Set/Clear Pending Bit 422" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRPEND421  ,Set/Clear Pending Bit 421" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND420  ,Set/Clear Pending Bit 420" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRPEND419  ,Set/Clear Pending Bit 419" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRPEND418  ,Set/Clear Pending Bit 418" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND417  ,Set/Clear Pending Bit 417" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRPEND416  ,Set/Clear Pending Bit 416" "Disabled,Enabled"
else
hgroup.long 0x0234++0x03
hide.long 0x0 "GICD_SET/CLR_PENDR13,Interrupt Set/Clear Pending Register 13"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0E)
group.long 0x0238++0x03
line.long 0x0 "GICD_SET/CLR_PENDR14,Interrupt Set/Clear Pending Register 14"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRPEND479  ,Set/Clear Pending Bit 479" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRPEND478  ,Set/Clear Pending Bit 478" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRPEND477  ,Set/Clear Pending Bit 477" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND476  ,Set/Clear Pending Bit 476" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRPEND475  ,Set/Clear Pending Bit 475" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRPEND474  ,Set/Clear Pending Bit 474" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND473  ,Set/Clear Pending Bit 473" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRPEND472  ,Set/Clear Pending Bit 472" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRPEND471  ,Set/Clear Pending Bit 471" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND470  ,Set/Clear Pending Bit 470" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRPEND469  ,Set/Clear Pending Bit 469" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRPEND468  ,Set/Clear Pending Bit 468" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND467  ,Set/Clear Pending Bit 467" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRPEND466  ,Set/Clear Pending Bit 466" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRPEND465  ,Set/Clear Pending Bit 465" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND464  ,Set/Clear Pending Bit 464" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRPEND463  ,Set/Clear Pending Bit 463" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRPEND462  ,Set/Clear Pending Bit 462" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND461  ,Set/Clear Pending Bit 461" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRPEND460  ,Set/Clear Pending Bit 460" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRPEND459  ,Set/Clear Pending Bit 459" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND458  ,Set/Clear Pending Bit 458" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRPEND457  ,Set/Clear Pending Bit 457" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRPEND456  ,Set/Clear Pending Bit 456" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND455  ,Set/Clear Pending Bit 455" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRPEND454  ,Set/Clear Pending Bit 454" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRPEND453  ,Set/Clear Pending Bit 453" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND452  ,Set/Clear Pending Bit 452" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRPEND451  ,Set/Clear Pending Bit 451" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRPEND450  ,Set/Clear Pending Bit 450" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND449  ,Set/Clear Pending Bit 449" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRPEND448  ,Set/Clear Pending Bit 448" "Disabled,Enabled"
else
hgroup.long 0x0238++0x03
hide.long 0x0 "GICD_SET/CLR_PENDR14,Interrupt Set/Clear Pending Register 14"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0F)
group.long 0x023C++0x03
line.long 0x0 "GICD_SET/CLR_PENDR15,Interrupt Set/Clear Pending Register 15"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRPEND511  ,Set/Clear Pending Bit 511" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRPEND510  ,Set/Clear Pending Bit 510" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRPEND509  ,Set/Clear Pending Bit 509" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND508  ,Set/Clear Pending Bit 508" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRPEND507  ,Set/Clear Pending Bit 507" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRPEND506  ,Set/Clear Pending Bit 506" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND505  ,Set/Clear Pending Bit 505" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRPEND504  ,Set/Clear Pending Bit 504" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRPEND503  ,Set/Clear Pending Bit 503" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND502  ,Set/Clear Pending Bit 502" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRPEND501  ,Set/Clear Pending Bit 501" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRPEND500  ,Set/Clear Pending Bit 500" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND499  ,Set/Clear Pending Bit 499" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRPEND498  ,Set/Clear Pending Bit 498" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRPEND497  ,Set/Clear Pending Bit 497" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND496  ,Set/Clear Pending Bit 496" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRPEND495  ,Set/Clear Pending Bit 495" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRPEND494  ,Set/Clear Pending Bit 494" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND493  ,Set/Clear Pending Bit 493" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRPEND492  ,Set/Clear Pending Bit 492" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRPEND491  ,Set/Clear Pending Bit 491" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND490  ,Set/Clear Pending Bit 490" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRPEND489  ,Set/Clear Pending Bit 489" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRPEND488  ,Set/Clear Pending Bit 488" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND487  ,Set/Clear Pending Bit 487" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRPEND486  ,Set/Clear Pending Bit 486" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRPEND485  ,Set/Clear Pending Bit 485" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND484  ,Set/Clear Pending Bit 484" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRPEND483  ,Set/Clear Pending Bit 483" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRPEND482  ,Set/Clear Pending Bit 482" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND481  ,Set/Clear Pending Bit 481" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRPEND480  ,Set/Clear Pending Bit 480" "Disabled,Enabled"
else
hgroup.long 0x023C++0x03
hide.long 0x0 "GICD_SET/CLR_PENDR15,Interrupt Set/Clear Pending Register 15"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x10)
group.long 0x0240++0x03
line.long 0x0 "GICD_SET/CLR_PENDR16,Interrupt Set/Clear Pending Register 16"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRPEND543  ,Set/Clear Pending Bit 543" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRPEND542  ,Set/Clear Pending Bit 542" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRPEND541  ,Set/Clear Pending Bit 541" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND540  ,Set/Clear Pending Bit 540" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRPEND539  ,Set/Clear Pending Bit 539" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRPEND538  ,Set/Clear Pending Bit 538" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND537  ,Set/Clear Pending Bit 537" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRPEND536  ,Set/Clear Pending Bit 536" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRPEND535  ,Set/Clear Pending Bit 535" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND534  ,Set/Clear Pending Bit 534" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRPEND533  ,Set/Clear Pending Bit 533" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRPEND532  ,Set/Clear Pending Bit 532" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND531  ,Set/Clear Pending Bit 531" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRPEND530  ,Set/Clear Pending Bit 530" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRPEND529  ,Set/Clear Pending Bit 529" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND528  ,Set/Clear Pending Bit 528" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRPEND527  ,Set/Clear Pending Bit 527" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRPEND526  ,Set/Clear Pending Bit 526" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND525  ,Set/Clear Pending Bit 525" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRPEND524  ,Set/Clear Pending Bit 524" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRPEND523  ,Set/Clear Pending Bit 523" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND522  ,Set/Clear Pending Bit 522" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRPEND521  ,Set/Clear Pending Bit 521" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRPEND520  ,Set/Clear Pending Bit 520" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND519  ,Set/Clear Pending Bit 519" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRPEND518  ,Set/Clear Pending Bit 518" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRPEND517  ,Set/Clear Pending Bit 517" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND516  ,Set/Clear Pending Bit 516" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRPEND515  ,Set/Clear Pending Bit 515" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRPEND514  ,Set/Clear Pending Bit 514" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND513  ,Set/Clear Pending Bit 513" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRPEND512  ,Set/Clear Pending Bit 512" "Disabled,Enabled"
else
hgroup.long 0x0240++0x03
hide.long 0x0 "GICD_SET/CLR_PENDR16,Interrupt Set/Clear Pending Register 16"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x11)
group.long 0x0244++0x03
line.long 0x0 "GICD_SET/CLR_PENDR17,Interrupt Set/Clear Pending Register 17"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRPEND575  ,Set/Clear Pending Bit 575" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRPEND574  ,Set/Clear Pending Bit 574" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRPEND573  ,Set/Clear Pending Bit 573" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND572  ,Set/Clear Pending Bit 572" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRPEND571  ,Set/Clear Pending Bit 571" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRPEND570  ,Set/Clear Pending Bit 570" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND569  ,Set/Clear Pending Bit 569" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRPEND568  ,Set/Clear Pending Bit 568" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRPEND567  ,Set/Clear Pending Bit 567" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND566  ,Set/Clear Pending Bit 566" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRPEND565  ,Set/Clear Pending Bit 565" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRPEND564  ,Set/Clear Pending Bit 564" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND563  ,Set/Clear Pending Bit 563" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRPEND562  ,Set/Clear Pending Bit 562" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRPEND561  ,Set/Clear Pending Bit 561" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND560  ,Set/Clear Pending Bit 560" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRPEND559  ,Set/Clear Pending Bit 559" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRPEND558  ,Set/Clear Pending Bit 558" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND557  ,Set/Clear Pending Bit 557" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRPEND556  ,Set/Clear Pending Bit 556" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRPEND555  ,Set/Clear Pending Bit 555" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND554  ,Set/Clear Pending Bit 554" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRPEND553  ,Set/Clear Pending Bit 553" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRPEND552  ,Set/Clear Pending Bit 552" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND551  ,Set/Clear Pending Bit 551" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRPEND550  ,Set/Clear Pending Bit 550" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRPEND549  ,Set/Clear Pending Bit 549" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND548  ,Set/Clear Pending Bit 548" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRPEND547  ,Set/Clear Pending Bit 547" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRPEND546  ,Set/Clear Pending Bit 546" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND545  ,Set/Clear Pending Bit 545" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRPEND544  ,Set/Clear Pending Bit 544" "Disabled,Enabled"
else
hgroup.long 0x0244++0x03
hide.long 0x0 "GICD_SET/CLR_PENDR17,Interrupt Set/Clear Pending Register 17"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x12)
group.long 0x0248++0x03
line.long 0x0 "GICD_SET/CLR_PENDR18,Interrupt Set/Clear Pending Register 18"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRPEND607  ,Set/Clear Pending Bit 607" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRPEND606  ,Set/Clear Pending Bit 606" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRPEND605  ,Set/Clear Pending Bit 605" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND604  ,Set/Clear Pending Bit 604" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRPEND603  ,Set/Clear Pending Bit 603" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRPEND602  ,Set/Clear Pending Bit 602" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND601  ,Set/Clear Pending Bit 601" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRPEND600  ,Set/Clear Pending Bit 600" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRPEND599  ,Set/Clear Pending Bit 599" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND598  ,Set/Clear Pending Bit 598" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRPEND597  ,Set/Clear Pending Bit 597" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRPEND596  ,Set/Clear Pending Bit 596" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND595  ,Set/Clear Pending Bit 595" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRPEND594  ,Set/Clear Pending Bit 594" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRPEND593  ,Set/Clear Pending Bit 593" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND592  ,Set/Clear Pending Bit 592" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRPEND591  ,Set/Clear Pending Bit 591" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRPEND590  ,Set/Clear Pending Bit 590" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND589  ,Set/Clear Pending Bit 589" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRPEND588  ,Set/Clear Pending Bit 588" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRPEND587  ,Set/Clear Pending Bit 587" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND586  ,Set/Clear Pending Bit 586" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRPEND585  ,Set/Clear Pending Bit 585" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRPEND584  ,Set/Clear Pending Bit 584" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND583  ,Set/Clear Pending Bit 583" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRPEND582  ,Set/Clear Pending Bit 582" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRPEND581  ,Set/Clear Pending Bit 581" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND580  ,Set/Clear Pending Bit 580" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRPEND579  ,Set/Clear Pending Bit 579" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRPEND578  ,Set/Clear Pending Bit 578" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND577  ,Set/Clear Pending Bit 577" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRPEND576  ,Set/Clear Pending Bit 576" "Disabled,Enabled"
else
hgroup.long 0x0248++0x03
hide.long 0x0 "GICD_SET/CLR_PENDR18,Interrupt Set/Clear Pending Register 18"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x13)
group.long 0x024C++0x03
line.long 0x0 "GICD_SET/CLR_PENDR19,Interrupt Set/Clear Pending Register 19"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRPEND639  ,Set/Clear Pending Bit 639" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRPEND638  ,Set/Clear Pending Bit 638" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRPEND637  ,Set/Clear Pending Bit 637" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND636  ,Set/Clear Pending Bit 636" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRPEND635  ,Set/Clear Pending Bit 635" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRPEND634  ,Set/Clear Pending Bit 634" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND633  ,Set/Clear Pending Bit 633" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRPEND632  ,Set/Clear Pending Bit 632" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRPEND631  ,Set/Clear Pending Bit 631" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND630  ,Set/Clear Pending Bit 630" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRPEND629  ,Set/Clear Pending Bit 629" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRPEND628  ,Set/Clear Pending Bit 628" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND627  ,Set/Clear Pending Bit 627" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRPEND626  ,Set/Clear Pending Bit 626" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRPEND625  ,Set/Clear Pending Bit 625" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND624  ,Set/Clear Pending Bit 624" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRPEND623  ,Set/Clear Pending Bit 623" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRPEND622  ,Set/Clear Pending Bit 622" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND621  ,Set/Clear Pending Bit 621" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRPEND620  ,Set/Clear Pending Bit 620" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRPEND619  ,Set/Clear Pending Bit 619" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND618  ,Set/Clear Pending Bit 618" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRPEND617  ,Set/Clear Pending Bit 617" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRPEND616  ,Set/Clear Pending Bit 616" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND615  ,Set/Clear Pending Bit 615" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRPEND614  ,Set/Clear Pending Bit 614" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRPEND613  ,Set/Clear Pending Bit 613" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND612  ,Set/Clear Pending Bit 612" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRPEND611  ,Set/Clear Pending Bit 611" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRPEND610  ,Set/Clear Pending Bit 610" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND609  ,Set/Clear Pending Bit 609" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRPEND608  ,Set/Clear Pending Bit 608" "Disabled,Enabled"
else
hgroup.long 0x024C++0x03
hide.long 0x0 "GICD_SET/CLR_PENDR19,Interrupt Set/Clear Pending Register 19"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x14)
group.long 0x0250++0x03
line.long 0x0 "GICD_SET/CLR_PENDR20,Interrupt Set/Clear Pending Register 20"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRPEND671  ,Set/Clear Pending Bit 671" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRPEND670  ,Set/Clear Pending Bit 670" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRPEND669  ,Set/Clear Pending Bit 669" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND668  ,Set/Clear Pending Bit 668" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRPEND667  ,Set/Clear Pending Bit 667" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRPEND666  ,Set/Clear Pending Bit 666" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND665  ,Set/Clear Pending Bit 665" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRPEND664  ,Set/Clear Pending Bit 664" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRPEND663  ,Set/Clear Pending Bit 663" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND662  ,Set/Clear Pending Bit 662" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRPEND661  ,Set/Clear Pending Bit 661" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRPEND660  ,Set/Clear Pending Bit 660" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND659  ,Set/Clear Pending Bit 659" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRPEND658  ,Set/Clear Pending Bit 658" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRPEND657  ,Set/Clear Pending Bit 657" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND656  ,Set/Clear Pending Bit 656" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRPEND655  ,Set/Clear Pending Bit 655" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRPEND654  ,Set/Clear Pending Bit 654" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND653  ,Set/Clear Pending Bit 653" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRPEND652  ,Set/Clear Pending Bit 652" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRPEND651  ,Set/Clear Pending Bit 651" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND650  ,Set/Clear Pending Bit 650" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRPEND649  ,Set/Clear Pending Bit 649" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRPEND648  ,Set/Clear Pending Bit 648" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND647  ,Set/Clear Pending Bit 647" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRPEND646  ,Set/Clear Pending Bit 646" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRPEND645  ,Set/Clear Pending Bit 645" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND644  ,Set/Clear Pending Bit 644" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRPEND643  ,Set/Clear Pending Bit 643" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRPEND642  ,Set/Clear Pending Bit 642" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND641  ,Set/Clear Pending Bit 641" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRPEND640  ,Set/Clear Pending Bit 640" "Disabled,Enabled"
else
hgroup.long 0x0250++0x03
hide.long 0x0 "GICD_SET/CLR_PENDR20,Interrupt Set/Clear Pending Register 20"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x15)
group.long 0x0254++0x03
line.long 0x0 "GICD_SET/CLR_PENDR21,Interrupt Set/Clear Pending Register 21"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRPEND703  ,Set/Clear Pending Bit 703" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRPEND702  ,Set/Clear Pending Bit 702" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRPEND701  ,Set/Clear Pending Bit 701" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND700  ,Set/Clear Pending Bit 700" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRPEND699  ,Set/Clear Pending Bit 699" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRPEND698  ,Set/Clear Pending Bit 698" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND697  ,Set/Clear Pending Bit 697" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRPEND696  ,Set/Clear Pending Bit 696" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRPEND695  ,Set/Clear Pending Bit 695" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND694  ,Set/Clear Pending Bit 694" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRPEND693  ,Set/Clear Pending Bit 693" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRPEND692  ,Set/Clear Pending Bit 692" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND691  ,Set/Clear Pending Bit 691" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRPEND690  ,Set/Clear Pending Bit 690" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRPEND689  ,Set/Clear Pending Bit 689" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND688  ,Set/Clear Pending Bit 688" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRPEND687  ,Set/Clear Pending Bit 687" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRPEND686  ,Set/Clear Pending Bit 686" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND685  ,Set/Clear Pending Bit 685" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRPEND684  ,Set/Clear Pending Bit 684" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRPEND683  ,Set/Clear Pending Bit 683" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND682  ,Set/Clear Pending Bit 682" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRPEND681  ,Set/Clear Pending Bit 681" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRPEND680  ,Set/Clear Pending Bit 680" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND679  ,Set/Clear Pending Bit 679" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRPEND678  ,Set/Clear Pending Bit 678" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRPEND677  ,Set/Clear Pending Bit 677" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND676  ,Set/Clear Pending Bit 676" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRPEND675  ,Set/Clear Pending Bit 675" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRPEND674  ,Set/Clear Pending Bit 674" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND673  ,Set/Clear Pending Bit 673" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRPEND672  ,Set/Clear Pending Bit 672" "Disabled,Enabled"
else
hgroup.long 0x0254++0x03
hide.long 0x0 "GICD_SET/CLR_PENDR21,Interrupt Set/Clear Pending Register 21"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x16)
group.long 0x0258++0x03
line.long 0x0 "GICD_SET/CLR_PENDR22,Interrupt Set/Clear Pending Register 22"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRPEND735  ,Set/Clear Pending Bit 735" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRPEND734  ,Set/Clear Pending Bit 734" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRPEND733  ,Set/Clear Pending Bit 733" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND732  ,Set/Clear Pending Bit 732" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRPEND731  ,Set/Clear Pending Bit 731" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRPEND730  ,Set/Clear Pending Bit 730" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND729  ,Set/Clear Pending Bit 729" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRPEND728  ,Set/Clear Pending Bit 728" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRPEND727  ,Set/Clear Pending Bit 727" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND726  ,Set/Clear Pending Bit 726" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRPEND725  ,Set/Clear Pending Bit 725" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRPEND724  ,Set/Clear Pending Bit 724" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND723  ,Set/Clear Pending Bit 723" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRPEND722  ,Set/Clear Pending Bit 722" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRPEND721  ,Set/Clear Pending Bit 721" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND720  ,Set/Clear Pending Bit 720" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRPEND719  ,Set/Clear Pending Bit 719" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRPEND718  ,Set/Clear Pending Bit 718" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND717  ,Set/Clear Pending Bit 717" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRPEND716  ,Set/Clear Pending Bit 716" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRPEND715  ,Set/Clear Pending Bit 715" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND714  ,Set/Clear Pending Bit 714" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRPEND713  ,Set/Clear Pending Bit 713" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRPEND712  ,Set/Clear Pending Bit 712" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND711  ,Set/Clear Pending Bit 711" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRPEND710  ,Set/Clear Pending Bit 710" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRPEND709  ,Set/Clear Pending Bit 709" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND708  ,Set/Clear Pending Bit 708" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRPEND707  ,Set/Clear Pending Bit 707" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRPEND706  ,Set/Clear Pending Bit 706" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND705  ,Set/Clear Pending Bit 705" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRPEND704  ,Set/Clear Pending Bit 704" "Disabled,Enabled"
else
hgroup.long 0x0258++0x03
hide.long 0x0 "GICD_SET/CLR_PENDR22,Interrupt Set/Clear Pending Register 22"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x17)
group.long 0x025C++0x03
line.long 0x0 "GICD_SET/CLR_PENDR23,Interrupt Set/Clear Pending Register 23"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRPEND767  ,Set/Clear Pending Bit 767" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRPEND766  ,Set/Clear Pending Bit 766" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRPEND765  ,Set/Clear Pending Bit 765" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND764  ,Set/Clear Pending Bit 764" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRPEND763  ,Set/Clear Pending Bit 763" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRPEND762  ,Set/Clear Pending Bit 762" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND761  ,Set/Clear Pending Bit 761" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRPEND760  ,Set/Clear Pending Bit 760" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRPEND759  ,Set/Clear Pending Bit 759" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND758  ,Set/Clear Pending Bit 758" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRPEND757  ,Set/Clear Pending Bit 757" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRPEND756  ,Set/Clear Pending Bit 756" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND755  ,Set/Clear Pending Bit 755" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRPEND754  ,Set/Clear Pending Bit 754" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRPEND753  ,Set/Clear Pending Bit 753" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND752  ,Set/Clear Pending Bit 752" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRPEND751  ,Set/Clear Pending Bit 751" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRPEND750  ,Set/Clear Pending Bit 750" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND749  ,Set/Clear Pending Bit 749" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRPEND748  ,Set/Clear Pending Bit 748" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRPEND747  ,Set/Clear Pending Bit 747" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND746  ,Set/Clear Pending Bit 746" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRPEND745  ,Set/Clear Pending Bit 745" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRPEND744  ,Set/Clear Pending Bit 744" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND743  ,Set/Clear Pending Bit 743" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRPEND742  ,Set/Clear Pending Bit 742" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRPEND741  ,Set/Clear Pending Bit 741" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND740  ,Set/Clear Pending Bit 740" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRPEND739  ,Set/Clear Pending Bit 739" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRPEND738  ,Set/Clear Pending Bit 738" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND737  ,Set/Clear Pending Bit 737" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRPEND736  ,Set/Clear Pending Bit 736" "Disabled,Enabled"
else
hgroup.long 0x025C++0x03
hide.long 0x0 "GICD_SET/CLR_PENDR23,Interrupt Set/Clear Pending Register 23"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x18)
group.long 0x0260++0x03
line.long 0x0 "GICD_SET/CLR_PENDR24,Interrupt Set/Clear Pending Register 24"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRPEND799  ,Set/Clear Pending Bit 799" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRPEND798  ,Set/Clear Pending Bit 798" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRPEND797  ,Set/Clear Pending Bit 797" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND796  ,Set/Clear Pending Bit 796" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRPEND795  ,Set/Clear Pending Bit 795" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRPEND794  ,Set/Clear Pending Bit 794" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND793  ,Set/Clear Pending Bit 793" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRPEND792  ,Set/Clear Pending Bit 792" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRPEND791  ,Set/Clear Pending Bit 791" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND790  ,Set/Clear Pending Bit 790" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRPEND789  ,Set/Clear Pending Bit 789" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRPEND788  ,Set/Clear Pending Bit 788" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND787  ,Set/Clear Pending Bit 787" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRPEND786  ,Set/Clear Pending Bit 786" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRPEND785  ,Set/Clear Pending Bit 785" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND784  ,Set/Clear Pending Bit 784" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRPEND783  ,Set/Clear Pending Bit 783" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRPEND782  ,Set/Clear Pending Bit 782" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND781  ,Set/Clear Pending Bit 781" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRPEND780  ,Set/Clear Pending Bit 780" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRPEND779  ,Set/Clear Pending Bit 779" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND778  ,Set/Clear Pending Bit 778" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRPEND777  ,Set/Clear Pending Bit 777" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRPEND776  ,Set/Clear Pending Bit 776" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND775  ,Set/Clear Pending Bit 775" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRPEND774  ,Set/Clear Pending Bit 774" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRPEND773  ,Set/Clear Pending Bit 773" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND772  ,Set/Clear Pending Bit 772" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRPEND771  ,Set/Clear Pending Bit 771" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRPEND770  ,Set/Clear Pending Bit 770" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND769  ,Set/Clear Pending Bit 769" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRPEND768  ,Set/Clear Pending Bit 768" "Disabled,Enabled"
else
hgroup.long 0x0260++0x03
hide.long 0x0 "GICD_SET/CLR_PENDR24,Interrupt Set/Clear Pending Register 24"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x19)
group.long 0x0264++0x03
line.long 0x0 "GICD_SET/CLR_PENDR25,Interrupt Set/Clear Pending Register 25"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRPEND831  ,Set/Clear Pending Bit 831" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRPEND830  ,Set/Clear Pending Bit 830" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRPEND829  ,Set/Clear Pending Bit 829" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND828  ,Set/Clear Pending Bit 828" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRPEND827  ,Set/Clear Pending Bit 827" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRPEND826  ,Set/Clear Pending Bit 826" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND825  ,Set/Clear Pending Bit 825" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRPEND824  ,Set/Clear Pending Bit 824" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRPEND823  ,Set/Clear Pending Bit 823" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND822  ,Set/Clear Pending Bit 822" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRPEND821  ,Set/Clear Pending Bit 821" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRPEND820  ,Set/Clear Pending Bit 820" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND819  ,Set/Clear Pending Bit 819" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRPEND818  ,Set/Clear Pending Bit 818" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRPEND817  ,Set/Clear Pending Bit 817" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND816  ,Set/Clear Pending Bit 816" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRPEND815  ,Set/Clear Pending Bit 815" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRPEND814  ,Set/Clear Pending Bit 814" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND813  ,Set/Clear Pending Bit 813" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRPEND812  ,Set/Clear Pending Bit 812" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRPEND811  ,Set/Clear Pending Bit 811" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND810  ,Set/Clear Pending Bit 810" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRPEND809  ,Set/Clear Pending Bit 809" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRPEND808  ,Set/Clear Pending Bit 808" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND807  ,Set/Clear Pending Bit 807" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRPEND806  ,Set/Clear Pending Bit 806" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRPEND805  ,Set/Clear Pending Bit 805" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND804  ,Set/Clear Pending Bit 804" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRPEND803  ,Set/Clear Pending Bit 803" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRPEND802  ,Set/Clear Pending Bit 802" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND801  ,Set/Clear Pending Bit 801" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRPEND800  ,Set/Clear Pending Bit 800" "Disabled,Enabled"
else
hgroup.long 0x0264++0x03
hide.long 0x0 "GICD_SET/CLR_PENDR25,Interrupt Set/Clear Pending Register 25"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1A)
group.long 0x0268++0x03
line.long 0x0 "GICD_SET/CLR_PENDR26,Interrupt Set/Clear Pending Register 26"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRPEND863  ,Set/Clear Pending Bit 863" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRPEND862  ,Set/Clear Pending Bit 862" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRPEND861  ,Set/Clear Pending Bit 861" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND860  ,Set/Clear Pending Bit 860" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRPEND859  ,Set/Clear Pending Bit 859" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRPEND858  ,Set/Clear Pending Bit 858" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND857  ,Set/Clear Pending Bit 857" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRPEND856  ,Set/Clear Pending Bit 856" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRPEND855  ,Set/Clear Pending Bit 855" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND854  ,Set/Clear Pending Bit 854" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRPEND853  ,Set/Clear Pending Bit 853" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRPEND852  ,Set/Clear Pending Bit 852" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND851  ,Set/Clear Pending Bit 851" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRPEND850  ,Set/Clear Pending Bit 850" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRPEND849  ,Set/Clear Pending Bit 849" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND848  ,Set/Clear Pending Bit 848" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRPEND847  ,Set/Clear Pending Bit 847" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRPEND846  ,Set/Clear Pending Bit 846" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND845  ,Set/Clear Pending Bit 845" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRPEND844  ,Set/Clear Pending Bit 844" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRPEND843  ,Set/Clear Pending Bit 843" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND842  ,Set/Clear Pending Bit 842" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRPEND841  ,Set/Clear Pending Bit 841" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRPEND840  ,Set/Clear Pending Bit 840" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND839  ,Set/Clear Pending Bit 839" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRPEND838  ,Set/Clear Pending Bit 838" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRPEND837  ,Set/Clear Pending Bit 837" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND836  ,Set/Clear Pending Bit 836" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRPEND835  ,Set/Clear Pending Bit 835" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRPEND834  ,Set/Clear Pending Bit 834" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND833  ,Set/Clear Pending Bit 833" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRPEND832  ,Set/Clear Pending Bit 832" "Disabled,Enabled"
else
hgroup.long 0x0268++0x03
hide.long 0x0 "GICD_SET/CLR_PENDR26,Interrupt Set/Clear Pending Register 26"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1B)
group.long 0x026C++0x03
line.long 0x0 "GICD_SET/CLR_PENDR27,Interrupt Set/Clear Pending Register 27"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRPEND895  ,Set/Clear Pending Bit 895" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRPEND894  ,Set/Clear Pending Bit 894" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRPEND893  ,Set/Clear Pending Bit 893" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND892  ,Set/Clear Pending Bit 892" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRPEND891  ,Set/Clear Pending Bit 891" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRPEND890  ,Set/Clear Pending Bit 890" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND889  ,Set/Clear Pending Bit 889" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRPEND888  ,Set/Clear Pending Bit 888" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRPEND887  ,Set/Clear Pending Bit 887" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND886  ,Set/Clear Pending Bit 886" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRPEND885  ,Set/Clear Pending Bit 885" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRPEND884  ,Set/Clear Pending Bit 884" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND883  ,Set/Clear Pending Bit 883" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRPEND882  ,Set/Clear Pending Bit 882" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRPEND881  ,Set/Clear Pending Bit 881" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND880  ,Set/Clear Pending Bit 880" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRPEND879  ,Set/Clear Pending Bit 879" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRPEND878  ,Set/Clear Pending Bit 878" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND877  ,Set/Clear Pending Bit 877" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRPEND876  ,Set/Clear Pending Bit 876" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRPEND875  ,Set/Clear Pending Bit 875" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND874  ,Set/Clear Pending Bit 874" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRPEND873  ,Set/Clear Pending Bit 873" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRPEND872  ,Set/Clear Pending Bit 872" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND871  ,Set/Clear Pending Bit 871" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRPEND870  ,Set/Clear Pending Bit 870" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRPEND869  ,Set/Clear Pending Bit 869" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND868  ,Set/Clear Pending Bit 868" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRPEND867  ,Set/Clear Pending Bit 867" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRPEND866  ,Set/Clear Pending Bit 866" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND865  ,Set/Clear Pending Bit 865" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRPEND864  ,Set/Clear Pending Bit 864" "Disabled,Enabled"
else
hgroup.long 0x026C++0x03
hide.long 0x0 "GICD_SET/CLR_PENDR27,Interrupt Set/Clear Pending Register 27"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1C)
group.long 0x0270++0x03
line.long 0x0 "GICD_SET/CLR_PENDR28,Interrupt Set/Clear Pending Register 28"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRPEND927  ,Set/Clear Pending Bit 927" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRPEND926  ,Set/Clear Pending Bit 926" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRPEND925  ,Set/Clear Pending Bit 925" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND924  ,Set/Clear Pending Bit 924" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRPEND923  ,Set/Clear Pending Bit 923" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRPEND922  ,Set/Clear Pending Bit 922" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND921  ,Set/Clear Pending Bit 921" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRPEND920  ,Set/Clear Pending Bit 920" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRPEND919  ,Set/Clear Pending Bit 919" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND918  ,Set/Clear Pending Bit 918" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRPEND917  ,Set/Clear Pending Bit 917" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRPEND916  ,Set/Clear Pending Bit 916" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND915  ,Set/Clear Pending Bit 915" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRPEND914  ,Set/Clear Pending Bit 914" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRPEND913  ,Set/Clear Pending Bit 913" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND912  ,Set/Clear Pending Bit 912" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRPEND911  ,Set/Clear Pending Bit 911" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRPEND910  ,Set/Clear Pending Bit 910" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND909  ,Set/Clear Pending Bit 909" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRPEND908  ,Set/Clear Pending Bit 908" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRPEND907  ,Set/Clear Pending Bit 907" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND906  ,Set/Clear Pending Bit 906" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRPEND905  ,Set/Clear Pending Bit 905" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRPEND904  ,Set/Clear Pending Bit 904" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND903  ,Set/Clear Pending Bit 903" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRPEND902  ,Set/Clear Pending Bit 902" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRPEND901  ,Set/Clear Pending Bit 901" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND900  ,Set/Clear Pending Bit 900" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRPEND899  ,Set/Clear Pending Bit 899" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRPEND898  ,Set/Clear Pending Bit 898" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND897  ,Set/Clear Pending Bit 897" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRPEND896  ,Set/Clear Pending Bit 896" "Disabled,Enabled"
else
hgroup.long 0x0270++0x03
hide.long 0x0 "GICD_SET/CLR_PENDR28,Interrupt Set/Clear Pending Register 28"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1D)
group.long 0x0274++0x03
line.long 0x0 "GICD_SET/CLR_PENDR29,Interrupt Set/Clear Pending Register 29"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRPEND959  ,Set/Clear Pending Bit 959" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRPEND958  ,Set/Clear Pending Bit 958" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRPEND957  ,Set/Clear Pending Bit 957" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND956  ,Set/Clear Pending Bit 956" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRPEND955  ,Set/Clear Pending Bit 955" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRPEND954  ,Set/Clear Pending Bit 954" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND953  ,Set/Clear Pending Bit 953" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRPEND952  ,Set/Clear Pending Bit 952" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRPEND951  ,Set/Clear Pending Bit 951" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND950  ,Set/Clear Pending Bit 950" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRPEND949  ,Set/Clear Pending Bit 949" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRPEND948  ,Set/Clear Pending Bit 948" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND947  ,Set/Clear Pending Bit 947" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRPEND946  ,Set/Clear Pending Bit 946" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRPEND945  ,Set/Clear Pending Bit 945" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND944  ,Set/Clear Pending Bit 944" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRPEND943  ,Set/Clear Pending Bit 943" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRPEND942  ,Set/Clear Pending Bit 942" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND941  ,Set/Clear Pending Bit 941" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRPEND940  ,Set/Clear Pending Bit 940" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRPEND939  ,Set/Clear Pending Bit 939" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND938  ,Set/Clear Pending Bit 938" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRPEND937  ,Set/Clear Pending Bit 937" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRPEND936  ,Set/Clear Pending Bit 936" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND935  ,Set/Clear Pending Bit 935" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRPEND934  ,Set/Clear Pending Bit 934" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRPEND933  ,Set/Clear Pending Bit 933" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND932  ,Set/Clear Pending Bit 932" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRPEND931  ,Set/Clear Pending Bit 931" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRPEND930  ,Set/Clear Pending Bit 930" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND929  ,Set/Clear Pending Bit 929" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRPEND928  ,Set/Clear Pending Bit 928" "Disabled,Enabled"
else
hgroup.long 0x0274++0x03
hide.long 0x0 "GICD_SET/CLR_PENDR29,Interrupt Set/Clear Pending Register 29"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1E)
group.long 0x0278++0x03
line.long 0x0 "GICD_SET/CLR_PENDR30,Interrupt Set/Clear Pending Register 30"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " SET/CLRPEND991  ,Set/Clear Pending Bit 991" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. "  SET/CLRPEND990  ,Set/Clear Pending Bit 990" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. "  SET/CLRPEND989  ,Set/Clear Pending Bit 989" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " SET/CLRPEND988  ,Set/Clear Pending Bit 988" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. "  SET/CLRPEND987  ,Set/Clear Pending Bit 987" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRPEND986  ,Set/Clear Pending Bit 986" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND985  ,Set/Clear Pending Bit 985" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRPEND984  ,Set/Clear Pending Bit 984" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRPEND983  ,Set/Clear Pending Bit 983" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND982  ,Set/Clear Pending Bit 982" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRPEND981  ,Set/Clear Pending Bit 981" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRPEND980  ,Set/Clear Pending Bit 980" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND979  ,Set/Clear Pending Bit 979" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRPEND978  ,Set/Clear Pending Bit 978" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRPEND977  ,Set/Clear Pending Bit 977" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND976  ,Set/Clear Pending Bit 976" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRPEND975  ,Set/Clear Pending Bit 975" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRPEND974  ,Set/Clear Pending Bit 974" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND973  ,Set/Clear Pending Bit 973" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRPEND972  ,Set/Clear Pending Bit 972" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRPEND971  ,Set/Clear Pending Bit 971" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND970  ,Set/Clear Pending Bit 970" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRPEND969  ,Set/Clear Pending Bit 969" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRPEND968  ,Set/Clear Pending Bit 968" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND967  ,Set/Clear Pending Bit 967" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRPEND966  ,Set/Clear Pending Bit 966" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRPEND965  ,Set/Clear Pending Bit 965" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND964  ,Set/Clear Pending Bit 964" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRPEND963  ,Set/Clear Pending Bit 963" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRPEND962  ,Set/Clear Pending Bit 962" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND961  ,Set/Clear Pending Bit 961" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRPEND960  ,Set/Clear Pending Bit 960" "Disabled,Enabled"
else
hgroup.long 0x0278++0x03
hide.long 0x0 "GICD_SET/CLR_PENDR30,Interrupt Set/Clear Pending Register 30"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)==0x1F)
group.long 0x027C++0x03
line.long 0x0 "GICD_SET/CLR_PENDR31,Interrupt Set/Clear Pending Register 31"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. " SET/CLRPEND1019 ,Set/Clear Pending Bit 1019" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. "  SET/CLRPEND1018 ,Set/Clear Pending Bit 1018" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " SET/CLRPEND1017 ,Set/Clear Pending Bit 1017" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. "  SET/CLRPEND1016 ,Set/Clear Pending Bit 1016" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. "  SET/CLRPEND1015 ,Set/Clear Pending Bit 1015" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " SET/CLRPEND1014 ,Set/Clear Pending Bit 1014" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. "  SET/CLRPEND1013 ,Set/Clear Pending Bit 1013" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. "  SET/CLRPEND1012 ,Set/Clear Pending Bit 1012" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " SET/CLRPEND1011 ,Set/Clear Pending Bit 1011" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. "  SET/CLRPEND1010 ,Set/Clear Pending Bit 1010" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. "  SET/CLRPEND1009 ,Set/Clear Pending Bit 1009" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " SET/CLRPEND1008 ,Set/Clear Pending Bit 1008" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. "  SET/CLRPEND1007 ,Set/Clear Pending Bit 1007" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. "  SET/CLRPEND1006 ,Set/Clear Pending Bit 1006" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " SET/CLRPEND1005 ,Set/Clear Pending Bit 1005" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. "  SET/CLRPEND1004 ,Set/Clear Pending Bit 1004" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. "  SET/CLRPEND1003 ,Set/Clear Pending Bit 1003" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " SET/CLRPEND1002 ,Set/Clear Pending Bit 1002" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. "  SET/CLRPEND1001 ,Set/Clear Pending Bit 1001" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. "  SET/CLRPEND1000 ,Set/Clear Pending Bit 1000" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " SET/CLRPEND999  ,Set/Clear Pending Bit 999" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. "  SET/CLRPEND998  ,Set/Clear Pending Bit 998" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. "  SET/CLRPEND997  ,Set/Clear Pending Bit 997" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " SET/CLRPEND996  ,Set/Clear Pending Bit 996" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. "  SET/CLRPEND995  ,Set/Clear Pending Bit 995" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. "  SET/CLRPEND994  ,Set/Clear Pending Bit 994" "Disabled,Enabled"
textline "                               "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " SET/CLRPEND993  ,Set/Clear Pending Bit 993" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. "  SET/CLRPEND992  ,Set/Clear Pending Bit 992" "Disabled,Enabled"
else
hgroup.long 0x027C++0x03
hide.long 0x0 "GICD_SET/CLR_PENDR31,Interrupt Set/Clear Pending Register 31"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
tree.end
width 24.
tree "Set/Clear Active Registers"
rgroup.long 0x0300++0x03
line.long 0x0 "GICD_ICDABR0,Active Status Register 0"
bitfld.long 0x00 31. " ASB31   ,Active Status Bit 31" "Not active,Active"
bitfld.long 0x00 30. "  ASB30   ,Active Status Bit 30" "Not active,Active"
bitfld.long 0x00 29. "  ASB29   ,Active Status Bit 29" "Not active,Active"
textline "                                 "
bitfld.long 0x00 28. " ASB28   ,Active Status Bit 28" "Not active,Active"
bitfld.long 0x00 27. "  ASB27   ,Active Status Bit 27" "Not active,Active"
bitfld.long 0x00 26. "  ASB26   ,Active Status Bit 26" "Not active,Active"
textline "                                 "
bitfld.long 0x00 25. " ASB25   ,Active Status Bit 25" "Not active,Active"
bitfld.long 0x00 24. "  ASB24   ,Active Status Bit 24" "Not active,Active"
bitfld.long 0x00 23. "  ASB23   ,Active Status Bit 23" "Not active,Active"
textline "                                 "
bitfld.long 0x00 22. " ASB22   ,Active Status Bit 22" "Not active,Active"
bitfld.long 0x00 21. "  ASB21   ,Active Status Bit 21" "Not active,Active"
bitfld.long 0x00 20. "  ASB20   ,Active Status Bit 20" "Not active,Active"
textline "                                 "
bitfld.long 0x00 19. " ASB19   ,Active Status Bit 19" "Not active,Active"
bitfld.long 0x00 18. "  ASB18   ,Active Status Bit 18" "Not active,Active"
bitfld.long 0x00 17. "  ASB17   ,Active Status Bit 17" "Not active,Active"
textline "                                 "
bitfld.long 0x00 16. " ASB16   ,Active Status Bit 16" "Not active,Active"
bitfld.long 0x00 15. "  ASB15   ,Active Status Bit 15" "Not active,Active"
bitfld.long 0x00 14. "  ASB14   ,Active Status Bit 14" "Not active,Active"
textline "                                 "
bitfld.long 0x00 13. " ASB13   ,Active Status Bit 13" "Not active,Active"
bitfld.long 0x00 12. "  ASB12   ,Active Status Bit 12" "Not active,Active"
bitfld.long 0x00 11. "  ASB11   ,Active Status Bit 11" "Not active,Active"
textline "                                 "
bitfld.long 0x00 10. " ASB10   ,Active Status Bit 10" "Not active,Active"
bitfld.long 0x00 9. "  ASB9    ,Active Status Bit 9" "Not active,Active"
bitfld.long 0x00 8. "  ASB8    ,Active Status Bit 8" "Not active,Active"
textline "                                 "
bitfld.long 0x00 7. " ASB7    ,Active Status Bit 7" "Not active,Active"
bitfld.long 0x00 6. "  ASB6    ,Active Status Bit 6" "Not active,Active"
bitfld.long 0x00 5. "  ASB5    ,Active Status Bit 5" "Not active,Active"
textline "                                 "
bitfld.long 0x00 4. " ASB4    ,Active Status Bit 4" "Not active,Active"
bitfld.long 0x00 3. "  ASB3    ,Active Status Bit 3" "Not active,Active"
bitfld.long 0x00 2. "  ASB2    ,Active Status Bit 2" "Not active,Active"
textline "                                 "
bitfld.long 0x00 1. " ASB1    ,Active Status Bit 1" "Not active,Active"
bitfld.long 0x00 0. "  ASB0    ,Active Status Bit 0" "Not active,Active"
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x01)
rgroup.long 0x0304++0x03
line.long 0x0 "GICD_ICDABR1,Active Status Register 1"
bitfld.long 0x00 31. " ASB63   ,Active Status Bit 63" "Not active,Active"
bitfld.long 0x00 30. "  ASB62   ,Active Status Bit 62" "Not active,Active"
bitfld.long 0x00 29. "  ASB61   ,Active Status Bit 61" "Not active,Active"
textline "                                 "
bitfld.long 0x00 28. " ASB60   ,Active Status Bit 60" "Not active,Active"
bitfld.long 0x00 27. "  ASB59   ,Active Status Bit 59" "Not active,Active"
bitfld.long 0x00 26. "  ASB58   ,Active Status Bit 58" "Not active,Active"
textline "                                 "
bitfld.long 0x00 25. " ASB57   ,Active Status Bit 57" "Not active,Active"
bitfld.long 0x00 24. "  ASB56   ,Active Status Bit 56" "Not active,Active"
bitfld.long 0x00 23. "  ASB55   ,Active Status Bit 55" "Not active,Active"
textline "                                 "
bitfld.long 0x00 22. " ASB54   ,Active Status Bit 54" "Not active,Active"
bitfld.long 0x00 21. "  ASB53   ,Active Status Bit 53" "Not active,Active"
bitfld.long 0x00 20. "  ASB52   ,Active Status Bit 52" "Not active,Active"
textline "                                 "
bitfld.long 0x00 19. " ASB51   ,Active Status Bit 51" "Not active,Active"
bitfld.long 0x00 18. "  ASB50   ,Active Status Bit 50" "Not active,Active"
bitfld.long 0x00 17. "  ASB49   ,Active Status Bit 49" "Not active,Active"
textline "                                 "
bitfld.long 0x00 16. " ASB48   ,Active Status Bit 48" "Not active,Active"
bitfld.long 0x00 15. "  ASB47   ,Active Status Bit 47" "Not active,Active"
bitfld.long 0x00 14. "  ASB46   ,Active Status Bit 46" "Not active,Active"
textline "                                 "
bitfld.long 0x00 13. " ASB45   ,Active Status Bit 45" "Not active,Active"
bitfld.long 0x00 12. "  ASB44   ,Active Status Bit 44" "Not active,Active"
bitfld.long 0x00 11. "  ASB43   ,Active Status Bit 43" "Not active,Active"
textline "                                 "
bitfld.long 0x00 10. " ASB42   ,Active Status Bit 42" "Not active,Active"
bitfld.long 0x00 9. "  ASB41   ,Active Status Bit 41" "Not active,Active"
bitfld.long 0x00 8. "  ASB40   ,Active Status Bit 40" "Not active,Active"
textline "                                 "
bitfld.long 0x00 7. " ASB39   ,Active Status Bit 39" "Not active,Active"
bitfld.long 0x00 6. "  ASB38   ,Active Status Bit 38" "Not active,Active"
bitfld.long 0x00 5. "  ASB37   ,Active Status Bit 37" "Not active,Active"
textline "                                 "
bitfld.long 0x00 4. " ASB36   ,Active Status Bit 36" "Not active,Active"
bitfld.long 0x00 3. "  ASB35   ,Active Status Bit 35" "Not active,Active"
bitfld.long 0x00 2. "  ASB34   ,Active Status Bit 34" "Not active,Active"
textline "                                 "
bitfld.long 0x00 1. " ASB33   ,Active Status Bit 33" "Not active,Active"
bitfld.long 0x00 0. "  ASB32   ,Active Status Bit 32" "Not active,Active"
else
hgroup.long 0x0304++0x03
hide.long 0x0 "GICD_ICDABR1,Active Status Register 1"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x02)
rgroup.long 0x0308++0x03
line.long 0x0 "GICD_ICDABR2,Active Status Register 2"
bitfld.long 0x00 31. " ASB95   ,Active Status Bit 95" "Not active,Active"
bitfld.long 0x00 30. "  ASB94   ,Active Status Bit 94" "Not active,Active"
bitfld.long 0x00 29. "  ASB93   ,Active Status Bit 93" "Not active,Active"
textline "                                 "
bitfld.long 0x00 28. " ASB92   ,Active Status Bit 92" "Not active,Active"
bitfld.long 0x00 27. "  ASB91   ,Active Status Bit 91" "Not active,Active"
bitfld.long 0x00 26. "  ASB90   ,Active Status Bit 90" "Not active,Active"
textline "                                 "
bitfld.long 0x00 25. " ASB89   ,Active Status Bit 89" "Not active,Active"
bitfld.long 0x00 24. "  ASB88   ,Active Status Bit 88" "Not active,Active"
bitfld.long 0x00 23. "  ASB87   ,Active Status Bit 87" "Not active,Active"
textline "                                 "
bitfld.long 0x00 22. " ASB86   ,Active Status Bit 86" "Not active,Active"
bitfld.long 0x00 21. "  ASB85   ,Active Status Bit 85" "Not active,Active"
bitfld.long 0x00 20. "  ASB84   ,Active Status Bit 84" "Not active,Active"
textline "                                 "
bitfld.long 0x00 19. " ASB83   ,Active Status Bit 83" "Not active,Active"
bitfld.long 0x00 18. "  ASB82   ,Active Status Bit 82" "Not active,Active"
bitfld.long 0x00 17. "  ASB81   ,Active Status Bit 81" "Not active,Active"
textline "                                 "
bitfld.long 0x00 16. " ASB80   ,Active Status Bit 80" "Not active,Active"
bitfld.long 0x00 15. "  ASB79   ,Active Status Bit 79" "Not active,Active"
bitfld.long 0x00 14. "  ASB78   ,Active Status Bit 78" "Not active,Active"
textline "                                 "
bitfld.long 0x00 13. " ASB77   ,Active Status Bit 77" "Not active,Active"
bitfld.long 0x00 12. "  ASB76   ,Active Status Bit 76" "Not active,Active"
bitfld.long 0x00 11. "  ASB75   ,Active Status Bit 75" "Not active,Active"
textline "                                 "
bitfld.long 0x00 10. " ASB74   ,Active Status Bit 74" "Not active,Active"
bitfld.long 0x00 9. "  ASB73   ,Active Status Bit 73" "Not active,Active"
bitfld.long 0x00 8. "  ASB72   ,Active Status Bit 72" "Not active,Active"
textline "                                 "
bitfld.long 0x00 7. " ASB71   ,Active Status Bit 71" "Not active,Active"
bitfld.long 0x00 6. "  ASB70   ,Active Status Bit 70" "Not active,Active"
bitfld.long 0x00 5. "  ASB69   ,Active Status Bit 69" "Not active,Active"
textline "                                 "
bitfld.long 0x00 4. " ASB68   ,Active Status Bit 68" "Not active,Active"
bitfld.long 0x00 3. "  ASB67   ,Active Status Bit 67" "Not active,Active"
bitfld.long 0x00 2. "  ASB66   ,Active Status Bit 66" "Not active,Active"
textline "                                 "
bitfld.long 0x00 1. " ASB65   ,Active Status Bit 65" "Not active,Active"
bitfld.long 0x00 0. "  ASB64   ,Active Status Bit 64" "Not active,Active"
else
hgroup.long 0x0308++0x03
hide.long 0x0 "GICD_ICDABR2,Active Status Register 2"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x03)
rgroup.long 0x030C++0x03
line.long 0x0 "GICD_ICDABR3,Active Status Register 3"
bitfld.long 0x00 31. " ASB127  ,Active Status Bit 127" "Not active,Active"
bitfld.long 0x00 30. "  ASB126  ,Active Status Bit 126" "Not active,Active"
bitfld.long 0x00 29. "  ASB125  ,Active Status Bit 125" "Not active,Active"
textline "                                 "
bitfld.long 0x00 28. " ASB124  ,Active Status Bit 124" "Not active,Active"
bitfld.long 0x00 27. "  ASB123  ,Active Status Bit 123" "Not active,Active"
bitfld.long 0x00 26. "  ASB122  ,Active Status Bit 122" "Not active,Active"
textline "                                 "
bitfld.long 0x00 25. " ASB121  ,Active Status Bit 121" "Not active,Active"
bitfld.long 0x00 24. "  ASB120  ,Active Status Bit 120" "Not active,Active"
bitfld.long 0x00 23. "  ASB119  ,Active Status Bit 119" "Not active,Active"
textline "                                 "
bitfld.long 0x00 22. " ASB118  ,Active Status Bit 118" "Not active,Active"
bitfld.long 0x00 21. "  ASB117  ,Active Status Bit 117" "Not active,Active"
bitfld.long 0x00 20. "  ASB116  ,Active Status Bit 116" "Not active,Active"
textline "                                 "
bitfld.long 0x00 19. " ASB115  ,Active Status Bit 115" "Not active,Active"
bitfld.long 0x00 18. "  ASB114  ,Active Status Bit 114" "Not active,Active"
bitfld.long 0x00 17. "  ASB113  ,Active Status Bit 113" "Not active,Active"
textline "                                 "
bitfld.long 0x00 16. " ASB112  ,Active Status Bit 112" "Not active,Active"
bitfld.long 0x00 15. "  ASB111  ,Active Status Bit 111" "Not active,Active"
bitfld.long 0x00 14. "  ASB110  ,Active Status Bit 110" "Not active,Active"
textline "                                 "
bitfld.long 0x00 13. " ASB109  ,Active Status Bit 109" "Not active,Active"
bitfld.long 0x00 12. "  ASB108  ,Active Status Bit 108" "Not active,Active"
bitfld.long 0x00 11. "  ASB107  ,Active Status Bit 107" "Not active,Active"
textline "                                 "
bitfld.long 0x00 10. " ASB106  ,Active Status Bit 106" "Not active,Active"
bitfld.long 0x00 9. "  ASB105  ,Active Status Bit 105" "Not active,Active"
bitfld.long 0x00 8. "  ASB104  ,Active Status Bit 104" "Not active,Active"
textline "                                 "
bitfld.long 0x00 7. " ASB103  ,Active Status Bit 103" "Not active,Active"
bitfld.long 0x00 6. "  ASB102  ,Active Status Bit 102" "Not active,Active"
bitfld.long 0x00 5. "  ASB101  ,Active Status Bit 101" "Not active,Active"
textline "                                 "
bitfld.long 0x00 4. " ASB100  ,Active Status Bit 100" "Not active,Active"
bitfld.long 0x00 3. "  ASB99   ,Active Status Bit 99" "Not active,Active"
bitfld.long 0x00 2. "  ASB98   ,Active Status Bit 98" "Not active,Active"
textline "                                 "
bitfld.long 0x00 1. " ASB97   ,Active Status Bit 97" "Not active,Active"
bitfld.long 0x00 0. "  ASB96   ,Active Status Bit 96" "Not active,Active"
else
hgroup.long 0x030C++0x03
hide.long 0x0 "GICD_ICDABR3,Active Status Register 3"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x04)
rgroup.long 0x0310++0x03
line.long 0x0 "GICD_ICDABR4,Active Status Register 4"
bitfld.long 0x00 31. " ASB159  ,Active Status Bit 159" "Not active,Active"
bitfld.long 0x00 30. "  ASB158  ,Active Status Bit 158" "Not active,Active"
bitfld.long 0x00 29. "  ASB157  ,Active Status Bit 157" "Not active,Active"
textline "                                 "
bitfld.long 0x00 28. " ASB156  ,Active Status Bit 156" "Not active,Active"
bitfld.long 0x00 27. "  ASB155  ,Active Status Bit 155" "Not active,Active"
bitfld.long 0x00 26. "  ASB154  ,Active Status Bit 154" "Not active,Active"
textline "                                 "
bitfld.long 0x00 25. " ASB153  ,Active Status Bit 153" "Not active,Active"
bitfld.long 0x00 24. "  ASB152  ,Active Status Bit 152" "Not active,Active"
bitfld.long 0x00 23. "  ASB151  ,Active Status Bit 151" "Not active,Active"
textline "                                 "
bitfld.long 0x00 22. " ASB150  ,Active Status Bit 150" "Not active,Active"
bitfld.long 0x00 21. "  ASB149  ,Active Status Bit 149" "Not active,Active"
bitfld.long 0x00 20. "  ASB148  ,Active Status Bit 148" "Not active,Active"
textline "                                 "
bitfld.long 0x00 19. " ASB147  ,Active Status Bit 147" "Not active,Active"
bitfld.long 0x00 18. "  ASB146  ,Active Status Bit 146" "Not active,Active"
bitfld.long 0x00 17. "  ASB145  ,Active Status Bit 145" "Not active,Active"
textline "                                 "
bitfld.long 0x00 16. " ASB144  ,Active Status Bit 144" "Not active,Active"
bitfld.long 0x00 15. "  ASB143  ,Active Status Bit 143" "Not active,Active"
bitfld.long 0x00 14. "  ASB142  ,Active Status Bit 142" "Not active,Active"
textline "                                 "
bitfld.long 0x00 13. " ASB141  ,Active Status Bit 141" "Not active,Active"
bitfld.long 0x00 12. "  ASB140  ,Active Status Bit 140" "Not active,Active"
bitfld.long 0x00 11. "  ASB139  ,Active Status Bit 139" "Not active,Active"
textline "                                 "
bitfld.long 0x00 10. " ASB138  ,Active Status Bit 138" "Not active,Active"
bitfld.long 0x00 9. "  ASB137  ,Active Status Bit 137" "Not active,Active"
bitfld.long 0x00 8. "  ASB136  ,Active Status Bit 136" "Not active,Active"
textline "                                 "
bitfld.long 0x00 7. " ASB135  ,Active Status Bit 135" "Not active,Active"
bitfld.long 0x00 6. "  ASB134  ,Active Status Bit 134" "Not active,Active"
bitfld.long 0x00 5. "  ASB133  ,Active Status Bit 133" "Not active,Active"
textline "                                 "
bitfld.long 0x00 4. " ASB132  ,Active Status Bit 132" "Not active,Active"
bitfld.long 0x00 3. "  ASB131  ,Active Status Bit 131" "Not active,Active"
bitfld.long 0x00 2. "  ASB130  ,Active Status Bit 130" "Not active,Active"
textline "                                 "
bitfld.long 0x00 1. " ASB129  ,Active Status Bit 129" "Not active,Active"
bitfld.long 0x00 0. "  ASB128  ,Active Status Bit 128" "Not active,Active"
else
hgroup.long 0x0310++0x03
hide.long 0x0 "GICD_ICDABR4,Active Status Register 4"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x05)
rgroup.long 0x0314++0x03
line.long 0x0 "GICD_ICDABR5,Active Status Register 5"
bitfld.long 0x00 31. " ASB191  ,Active Status Bit 191" "Not active,Active"
bitfld.long 0x00 30. "  ASB190  ,Active Status Bit 190" "Not active,Active"
bitfld.long 0x00 29. "  ASB189  ,Active Status Bit 189" "Not active,Active"
textline "                                 "
bitfld.long 0x00 28. " ASB188  ,Active Status Bit 188" "Not active,Active"
bitfld.long 0x00 27. "  ASB187  ,Active Status Bit 187" "Not active,Active"
bitfld.long 0x00 26. "  ASB186  ,Active Status Bit 186" "Not active,Active"
textline "                                 "
bitfld.long 0x00 25. " ASB185  ,Active Status Bit 185" "Not active,Active"
bitfld.long 0x00 24. "  ASB184  ,Active Status Bit 184" "Not active,Active"
bitfld.long 0x00 23. "  ASB183  ,Active Status Bit 183" "Not active,Active"
textline "                                 "
bitfld.long 0x00 22. " ASB182  ,Active Status Bit 182" "Not active,Active"
bitfld.long 0x00 21. "  ASB181  ,Active Status Bit 181" "Not active,Active"
bitfld.long 0x00 20. "  ASB180  ,Active Status Bit 180" "Not active,Active"
textline "                                 "
bitfld.long 0x00 19. " ASB179  ,Active Status Bit 179" "Not active,Active"
bitfld.long 0x00 18. "  ASB178  ,Active Status Bit 178" "Not active,Active"
bitfld.long 0x00 17. "  ASB177  ,Active Status Bit 177" "Not active,Active"
textline "                                 "
bitfld.long 0x00 16. " ASB176  ,Active Status Bit 176" "Not active,Active"
bitfld.long 0x00 15. "  ASB175  ,Active Status Bit 175" "Not active,Active"
bitfld.long 0x00 14. "  ASB174  ,Active Status Bit 174" "Not active,Active"
textline "                                 "
bitfld.long 0x00 13. " ASB173  ,Active Status Bit 173" "Not active,Active"
bitfld.long 0x00 12. "  ASB172  ,Active Status Bit 172" "Not active,Active"
bitfld.long 0x00 11. "  ASB171  ,Active Status Bit 171" "Not active,Active"
textline "                                 "
bitfld.long 0x00 10. " ASB170  ,Active Status Bit 170" "Not active,Active"
bitfld.long 0x00 9. "  ASB169  ,Active Status Bit 169" "Not active,Active"
bitfld.long 0x00 8. "  ASB168  ,Active Status Bit 168" "Not active,Active"
textline "                                 "
bitfld.long 0x00 7. " ASB167  ,Active Status Bit 167" "Not active,Active"
bitfld.long 0x00 6. "  ASB166  ,Active Status Bit 166" "Not active,Active"
bitfld.long 0x00 5. "  ASB165  ,Active Status Bit 165" "Not active,Active"
textline "                                 "
bitfld.long 0x00 4. " ASB164  ,Active Status Bit 164" "Not active,Active"
bitfld.long 0x00 3. "  ASB163  ,Active Status Bit 163" "Not active,Active"
bitfld.long 0x00 2. "  ASB162  ,Active Status Bit 162" "Not active,Active"
textline "                                 "
bitfld.long 0x00 1. " ASB161  ,Active Status Bit 161" "Not active,Active"
bitfld.long 0x00 0. "  ASB160  ,Active Status Bit 160" "Not active,Active"
else
hgroup.long 0x0314++0x03
hide.long 0x0 "GICD_ICDABR5,Active Status Register 5"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x06)
rgroup.long 0x0318++0x03
line.long 0x0 "GICD_ICDABR6,Active Status Register 6"
bitfld.long 0x00 31. " ASB223  ,Active Status Bit 223" "Not active,Active"
bitfld.long 0x00 30. "  ASB222  ,Active Status Bit 222" "Not active,Active"
bitfld.long 0x00 29. "  ASB221  ,Active Status Bit 221" "Not active,Active"
textline "                                 "
bitfld.long 0x00 28. " ASB220  ,Active Status Bit 220" "Not active,Active"
bitfld.long 0x00 27. "  ASB219  ,Active Status Bit 219" "Not active,Active"
bitfld.long 0x00 26. "  ASB218  ,Active Status Bit 218" "Not active,Active"
textline "                                 "
bitfld.long 0x00 25. " ASB217  ,Active Status Bit 217" "Not active,Active"
bitfld.long 0x00 24. "  ASB216  ,Active Status Bit 216" "Not active,Active"
bitfld.long 0x00 23. "  ASB215  ,Active Status Bit 215" "Not active,Active"
textline "                                 "
bitfld.long 0x00 22. " ASB214  ,Active Status Bit 214" "Not active,Active"
bitfld.long 0x00 21. "  ASB213  ,Active Status Bit 213" "Not active,Active"
bitfld.long 0x00 20. "  ASB212  ,Active Status Bit 212" "Not active,Active"
textline "                                 "
bitfld.long 0x00 19. " ASB211  ,Active Status Bit 211" "Not active,Active"
bitfld.long 0x00 18. "  ASB210  ,Active Status Bit 210" "Not active,Active"
bitfld.long 0x00 17. "  ASB209  ,Active Status Bit 209" "Not active,Active"
textline "                                 "
bitfld.long 0x00 16. " ASB208  ,Active Status Bit 208" "Not active,Active"
bitfld.long 0x00 15. "  ASB207  ,Active Status Bit 207" "Not active,Active"
bitfld.long 0x00 14. "  ASB206  ,Active Status Bit 206" "Not active,Active"
textline "                                 "
bitfld.long 0x00 13. " ASB205  ,Active Status Bit 205" "Not active,Active"
bitfld.long 0x00 12. "  ASB204  ,Active Status Bit 204" "Not active,Active"
bitfld.long 0x00 11. "  ASB203  ,Active Status Bit 203" "Not active,Active"
textline "                                 "
bitfld.long 0x00 10. " ASB202  ,Active Status Bit 202" "Not active,Active"
bitfld.long 0x00 9. "  ASB201  ,Active Status Bit 201" "Not active,Active"
bitfld.long 0x00 8. "  ASB200  ,Active Status Bit 200" "Not active,Active"
textline "                                 "
bitfld.long 0x00 7. " ASB199  ,Active Status Bit 199" "Not active,Active"
bitfld.long 0x00 6. "  ASB198  ,Active Status Bit 198" "Not active,Active"
bitfld.long 0x00 5. "  ASB197  ,Active Status Bit 197" "Not active,Active"
textline "                                 "
bitfld.long 0x00 4. " ASB196  ,Active Status Bit 196" "Not active,Active"
bitfld.long 0x00 3. "  ASB195  ,Active Status Bit 195" "Not active,Active"
bitfld.long 0x00 2. "  ASB194  ,Active Status Bit 194" "Not active,Active"
textline "                                 "
bitfld.long 0x00 1. " ASB193  ,Active Status Bit 193" "Not active,Active"
bitfld.long 0x00 0. "  ASB192  ,Active Status Bit 192" "Not active,Active"
else
hgroup.long 0x0318++0x03
hide.long 0x0 "GICD_ICDABR6,Active Status Register 6"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x07)
rgroup.long 0x031C++0x03
line.long 0x0 "GICD_ICDABR7,Active Status Register 7"
bitfld.long 0x00 31. " ASB255  ,Active Status Bit 255" "Not active,Active"
bitfld.long 0x00 30. "  ASB254  ,Active Status Bit 254" "Not active,Active"
bitfld.long 0x00 29. "  ASB253  ,Active Status Bit 253" "Not active,Active"
textline "                                 "
bitfld.long 0x00 28. " ASB252  ,Active Status Bit 252" "Not active,Active"
bitfld.long 0x00 27. "  ASB251  ,Active Status Bit 251" "Not active,Active"
bitfld.long 0x00 26. "  ASB250  ,Active Status Bit 250" "Not active,Active"
textline "                                 "
bitfld.long 0x00 25. " ASB249  ,Active Status Bit 249" "Not active,Active"
bitfld.long 0x00 24. "  ASB248  ,Active Status Bit 248" "Not active,Active"
bitfld.long 0x00 23. "  ASB247  ,Active Status Bit 247" "Not active,Active"
textline "                                 "
bitfld.long 0x00 22. " ASB246  ,Active Status Bit 246" "Not active,Active"
bitfld.long 0x00 21. "  ASB245  ,Active Status Bit 245" "Not active,Active"
bitfld.long 0x00 20. "  ASB244  ,Active Status Bit 244" "Not active,Active"
textline "                                 "
bitfld.long 0x00 19. " ASB243  ,Active Status Bit 243" "Not active,Active"
bitfld.long 0x00 18. "  ASB242  ,Active Status Bit 242" "Not active,Active"
bitfld.long 0x00 17. "  ASB241  ,Active Status Bit 241" "Not active,Active"
textline "                                 "
bitfld.long 0x00 16. " ASB240  ,Active Status Bit 240" "Not active,Active"
bitfld.long 0x00 15. "  ASB239  ,Active Status Bit 239" "Not active,Active"
bitfld.long 0x00 14. "  ASB238  ,Active Status Bit 238" "Not active,Active"
textline "                                 "
bitfld.long 0x00 13. " ASB237  ,Active Status Bit 237" "Not active,Active"
bitfld.long 0x00 12. "  ASB236  ,Active Status Bit 236" "Not active,Active"
bitfld.long 0x00 11. "  ASB235  ,Active Status Bit 235" "Not active,Active"
textline "                                 "
bitfld.long 0x00 10. " ASB234  ,Active Status Bit 234" "Not active,Active"
bitfld.long 0x00 9. "  ASB233  ,Active Status Bit 233" "Not active,Active"
bitfld.long 0x00 8. "  ASB232  ,Active Status Bit 232" "Not active,Active"
textline "                                 "
bitfld.long 0x00 7. " ASB231  ,Active Status Bit 231" "Not active,Active"
bitfld.long 0x00 6. "  ASB230  ,Active Status Bit 230" "Not active,Active"
bitfld.long 0x00 5. "  ASB229  ,Active Status Bit 229" "Not active,Active"
textline "                                 "
bitfld.long 0x00 4. " ASB228  ,Active Status Bit 228" "Not active,Active"
bitfld.long 0x00 3. "  ASB227  ,Active Status Bit 227" "Not active,Active"
bitfld.long 0x00 2. "  ASB226  ,Active Status Bit 226" "Not active,Active"
textline "                                 "
bitfld.long 0x00 1. " ASB225  ,Active Status Bit 225" "Not active,Active"
bitfld.long 0x00 0. "  ASB224  ,Active Status Bit 224" "Not active,Active"
else
hgroup.long 0x031C++0x03
hide.long 0x0 "GICD_ICDABR7,Active Status Register 7"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x08)
rgroup.long 0x0320++0x03
line.long 0x0 "GICD_ICDABR8,Active Status Register 8"
bitfld.long 0x00 31. " ASB287  ,Active Status Bit 287" "Not active,Active"
bitfld.long 0x00 30. "  ASB286  ,Active Status Bit 286" "Not active,Active"
bitfld.long 0x00 29. "  ASB285  ,Active Status Bit 285" "Not active,Active"
textline "                                 "
bitfld.long 0x00 28. " ASB284  ,Active Status Bit 284" "Not active,Active"
bitfld.long 0x00 27. "  ASB283  ,Active Status Bit 283" "Not active,Active"
bitfld.long 0x00 26. "  ASB282  ,Active Status Bit 282" "Not active,Active"
textline "                                 "
bitfld.long 0x00 25. " ASB281  ,Active Status Bit 281" "Not active,Active"
bitfld.long 0x00 24. "  ASB280  ,Active Status Bit 280" "Not active,Active"
bitfld.long 0x00 23. "  ASB279  ,Active Status Bit 279" "Not active,Active"
textline "                                 "
bitfld.long 0x00 22. " ASB278  ,Active Status Bit 278" "Not active,Active"
bitfld.long 0x00 21. "  ASB277  ,Active Status Bit 277" "Not active,Active"
bitfld.long 0x00 20. "  ASB276  ,Active Status Bit 276" "Not active,Active"
textline "                                 "
bitfld.long 0x00 19. " ASB275  ,Active Status Bit 275" "Not active,Active"
bitfld.long 0x00 18. "  ASB274  ,Active Status Bit 274" "Not active,Active"
bitfld.long 0x00 17. "  ASB273  ,Active Status Bit 273" "Not active,Active"
textline "                                 "
bitfld.long 0x00 16. " ASB272  ,Active Status Bit 272" "Not active,Active"
bitfld.long 0x00 15. "  ASB271  ,Active Status Bit 271" "Not active,Active"
bitfld.long 0x00 14. "  ASB270  ,Active Status Bit 270" "Not active,Active"
textline "                                 "
bitfld.long 0x00 13. " ASB269  ,Active Status Bit 269" "Not active,Active"
bitfld.long 0x00 12. "  ASB268  ,Active Status Bit 268" "Not active,Active"
bitfld.long 0x00 11. "  ASB267  ,Active Status Bit 267" "Not active,Active"
textline "                                 "
bitfld.long 0x00 10. " ASB266  ,Active Status Bit 266" "Not active,Active"
bitfld.long 0x00 9. "  ASB265  ,Active Status Bit 265" "Not active,Active"
bitfld.long 0x00 8. "  ASB264  ,Active Status Bit 264" "Not active,Active"
textline "                                 "
bitfld.long 0x00 7. " ASB263  ,Active Status Bit 263" "Not active,Active"
bitfld.long 0x00 6. "  ASB262  ,Active Status Bit 262" "Not active,Active"
bitfld.long 0x00 5. "  ASB261  ,Active Status Bit 261" "Not active,Active"
textline "                                 "
bitfld.long 0x00 4. " ASB260  ,Active Status Bit 260" "Not active,Active"
bitfld.long 0x00 3. "  ASB259  ,Active Status Bit 259" "Not active,Active"
bitfld.long 0x00 2. "  ASB258  ,Active Status Bit 258" "Not active,Active"
textline "                                 "
bitfld.long 0x00 1. " ASB257  ,Active Status Bit 257" "Not active,Active"
bitfld.long 0x00 0. "  ASB256  ,Active Status Bit 256" "Not active,Active"
else
hgroup.long 0x0320++0x03
hide.long 0x0 "GICD_ICDABR8,Active Status Register 8"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x09)
rgroup.long 0x0324++0x03
line.long 0x0 "GICD_ICDABR9,Active Status Register 9"
bitfld.long 0x00 31. " ASB319  ,Active Status Bit 319" "Not active,Active"
bitfld.long 0x00 30. "  ASB318  ,Active Status Bit 318" "Not active,Active"
bitfld.long 0x00 29. "  ASB317  ,Active Status Bit 317" "Not active,Active"
textline "                                 "
bitfld.long 0x00 28. " ASB316  ,Active Status Bit 316" "Not active,Active"
bitfld.long 0x00 27. "  ASB315  ,Active Status Bit 315" "Not active,Active"
bitfld.long 0x00 26. "  ASB314  ,Active Status Bit 314" "Not active,Active"
textline "                                 "
bitfld.long 0x00 25. " ASB313  ,Active Status Bit 313" "Not active,Active"
bitfld.long 0x00 24. "  ASB312  ,Active Status Bit 312" "Not active,Active"
bitfld.long 0x00 23. "  ASB311  ,Active Status Bit 311" "Not active,Active"
textline "                                 "
bitfld.long 0x00 22. " ASB310  ,Active Status Bit 310" "Not active,Active"
bitfld.long 0x00 21. "  ASB309  ,Active Status Bit 309" "Not active,Active"
bitfld.long 0x00 20. "  ASB308  ,Active Status Bit 308" "Not active,Active"
textline "                                 "
bitfld.long 0x00 19. " ASB307  ,Active Status Bit 307" "Not active,Active"
bitfld.long 0x00 18. "  ASB306  ,Active Status Bit 306" "Not active,Active"
bitfld.long 0x00 17. "  ASB305  ,Active Status Bit 305" "Not active,Active"
textline "                                 "
bitfld.long 0x00 16. " ASB304  ,Active Status Bit 304" "Not active,Active"
bitfld.long 0x00 15. "  ASB303  ,Active Status Bit 303" "Not active,Active"
bitfld.long 0x00 14. "  ASB302  ,Active Status Bit 302" "Not active,Active"
textline "                                 "
bitfld.long 0x00 13. " ASB301  ,Active Status Bit 301" "Not active,Active"
bitfld.long 0x00 12. "  ASB300  ,Active Status Bit 300" "Not active,Active"
bitfld.long 0x00 11. "  ASB299  ,Active Status Bit 299" "Not active,Active"
textline "                                 "
bitfld.long 0x00 10. " ASB298  ,Active Status Bit 298" "Not active,Active"
bitfld.long 0x00 9. "  ASB297  ,Active Status Bit 297" "Not active,Active"
bitfld.long 0x00 8. "  ASB296  ,Active Status Bit 296" "Not active,Active"
textline "                                 "
bitfld.long 0x00 7. " ASB295  ,Active Status Bit 295" "Not active,Active"
bitfld.long 0x00 6. "  ASB294  ,Active Status Bit 294" "Not active,Active"
bitfld.long 0x00 5. "  ASB293  ,Active Status Bit 293" "Not active,Active"
textline "                                 "
bitfld.long 0x00 4. " ASB292  ,Active Status Bit 292" "Not active,Active"
bitfld.long 0x00 3. "  ASB291  ,Active Status Bit 291" "Not active,Active"
bitfld.long 0x00 2. "  ASB290  ,Active Status Bit 290" "Not active,Active"
textline "                                 "
bitfld.long 0x00 1. " ASB289  ,Active Status Bit 289" "Not active,Active"
bitfld.long 0x00 0. "  ASB288  ,Active Status Bit 288" "Not active,Active"
else
hgroup.long 0x0324++0x03
hide.long 0x0 "GICD_ICDABR9,Active Status Register 9"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0A)
rgroup.long 0x0328++0x03
line.long 0x0 "GICD_ICDABR10,Active Status Register 10"
bitfld.long 0x00 31. " ASB351  ,Active Status Bit 351" "Not active,Active"
bitfld.long 0x00 30. "  ASB350  ,Active Status Bit 350" "Not active,Active"
bitfld.long 0x00 29. "  ASB349  ,Active Status Bit 349" "Not active,Active"
textline "                                 "
bitfld.long 0x00 28. " ASB348  ,Active Status Bit 348" "Not active,Active"
bitfld.long 0x00 27. "  ASB347  ,Active Status Bit 347" "Not active,Active"
bitfld.long 0x00 26. "  ASB346  ,Active Status Bit 346" "Not active,Active"
textline "                                 "
bitfld.long 0x00 25. " ASB345  ,Active Status Bit 345" "Not active,Active"
bitfld.long 0x00 24. "  ASB344  ,Active Status Bit 344" "Not active,Active"
bitfld.long 0x00 23. "  ASB343  ,Active Status Bit 343" "Not active,Active"
textline "                                 "
bitfld.long 0x00 22. " ASB342  ,Active Status Bit 342" "Not active,Active"
bitfld.long 0x00 21. "  ASB341  ,Active Status Bit 341" "Not active,Active"
bitfld.long 0x00 20. "  ASB340  ,Active Status Bit 340" "Not active,Active"
textline "                                 "
bitfld.long 0x00 19. " ASB339  ,Active Status Bit 339" "Not active,Active"
bitfld.long 0x00 18. "  ASB338  ,Active Status Bit 338" "Not active,Active"
bitfld.long 0x00 17. "  ASB337  ,Active Status Bit 337" "Not active,Active"
textline "                                 "
bitfld.long 0x00 16. " ASB336  ,Active Status Bit 336" "Not active,Active"
bitfld.long 0x00 15. "  ASB335  ,Active Status Bit 335" "Not active,Active"
bitfld.long 0x00 14. "  ASB334  ,Active Status Bit 334" "Not active,Active"
textline "                                 "
bitfld.long 0x00 13. " ASB333  ,Active Status Bit 333" "Not active,Active"
bitfld.long 0x00 12. "  ASB332  ,Active Status Bit 332" "Not active,Active"
bitfld.long 0x00 11. "  ASB331  ,Active Status Bit 331" "Not active,Active"
textline "                                 "
bitfld.long 0x00 10. " ASB330  ,Active Status Bit 330" "Not active,Active"
bitfld.long 0x00 9. "  ASB329  ,Active Status Bit 329" "Not active,Active"
bitfld.long 0x00 8. "  ASB328  ,Active Status Bit 328" "Not active,Active"
textline "                                 "
bitfld.long 0x00 7. " ASB327  ,Active Status Bit 327" "Not active,Active"
bitfld.long 0x00 6. "  ASB326  ,Active Status Bit 326" "Not active,Active"
bitfld.long 0x00 5. "  ASB325  ,Active Status Bit 325" "Not active,Active"
textline "                                 "
bitfld.long 0x00 4. " ASB324  ,Active Status Bit 324" "Not active,Active"
bitfld.long 0x00 3. "  ASB323  ,Active Status Bit 323" "Not active,Active"
bitfld.long 0x00 2. "  ASB322  ,Active Status Bit 322" "Not active,Active"
textline "                                 "
bitfld.long 0x00 1. " ASB321  ,Active Status Bit 321" "Not active,Active"
bitfld.long 0x00 0. "  ASB320  ,Active Status Bit 320" "Not active,Active"
else
hgroup.long 0x0328++0x03
hide.long 0x0 "GICD_ICDABR10,Active Status Register 10"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0B)
rgroup.long 0x032C++0x03
line.long 0x0 "GICD_ICDABR11,Active Status Register 11"
bitfld.long 0x00 31. " ASB383  ,Active Status Bit 383" "Not active,Active"
bitfld.long 0x00 30. "  ASB382  ,Active Status Bit 382" "Not active,Active"
bitfld.long 0x00 29. "  ASB381  ,Active Status Bit 381" "Not active,Active"
textline "                                 "
bitfld.long 0x00 28. " ASB380  ,Active Status Bit 380" "Not active,Active"
bitfld.long 0x00 27. "  ASB379  ,Active Status Bit 379" "Not active,Active"
bitfld.long 0x00 26. "  ASB378  ,Active Status Bit 378" "Not active,Active"
textline "                                 "
bitfld.long 0x00 25. " ASB377  ,Active Status Bit 377" "Not active,Active"
bitfld.long 0x00 24. "  ASB376  ,Active Status Bit 376" "Not active,Active"
bitfld.long 0x00 23. "  ASB375  ,Active Status Bit 375" "Not active,Active"
textline "                                 "
bitfld.long 0x00 22. " ASB374  ,Active Status Bit 374" "Not active,Active"
bitfld.long 0x00 21. "  ASB373  ,Active Status Bit 373" "Not active,Active"
bitfld.long 0x00 20. "  ASB372  ,Active Status Bit 372" "Not active,Active"
textline "                                 "
bitfld.long 0x00 19. " ASB371  ,Active Status Bit 371" "Not active,Active"
bitfld.long 0x00 18. "  ASB370  ,Active Status Bit 370" "Not active,Active"
bitfld.long 0x00 17. "  ASB369  ,Active Status Bit 369" "Not active,Active"
textline "                                 "
bitfld.long 0x00 16. " ASB368  ,Active Status Bit 368" "Not active,Active"
bitfld.long 0x00 15. "  ASB367  ,Active Status Bit 367" "Not active,Active"
bitfld.long 0x00 14. "  ASB366  ,Active Status Bit 366" "Not active,Active"
textline "                                 "
bitfld.long 0x00 13. " ASB365  ,Active Status Bit 365" "Not active,Active"
bitfld.long 0x00 12. "  ASB364  ,Active Status Bit 364" "Not active,Active"
bitfld.long 0x00 11. "  ASB363  ,Active Status Bit 363" "Not active,Active"
textline "                                 "
bitfld.long 0x00 10. " ASB362  ,Active Status Bit 362" "Not active,Active"
bitfld.long 0x00 9. "  ASB361  ,Active Status Bit 361" "Not active,Active"
bitfld.long 0x00 8. "  ASB360  ,Active Status Bit 360" "Not active,Active"
textline "                                 "
bitfld.long 0x00 7. " ASB359  ,Active Status Bit 359" "Not active,Active"
bitfld.long 0x00 6. "  ASB358  ,Active Status Bit 358" "Not active,Active"
bitfld.long 0x00 5. "  ASB357  ,Active Status Bit 357" "Not active,Active"
textline "                                 "
bitfld.long 0x00 4. " ASB356  ,Active Status Bit 356" "Not active,Active"
bitfld.long 0x00 3. "  ASB355  ,Active Status Bit 355" "Not active,Active"
bitfld.long 0x00 2. "  ASB354  ,Active Status Bit 354" "Not active,Active"
textline "                                 "
bitfld.long 0x00 1. " ASB353  ,Active Status Bit 353" "Not active,Active"
bitfld.long 0x00 0. "  ASB352  ,Active Status Bit 352" "Not active,Active"
else
hgroup.long 0x032C++0x03
hide.long 0x0 "GICD_ICDABR11,Active Status Register 11"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0C)
rgroup.long 0x0330++0x03
line.long 0x0 "GICD_ICDABR12,Active Status Register 12"
bitfld.long 0x00 31. " ASB415  ,Active Status Bit 415" "Not active,Active"
bitfld.long 0x00 30. "  ASB414  ,Active Status Bit 414" "Not active,Active"
bitfld.long 0x00 29. "  ASB413  ,Active Status Bit 413" "Not active,Active"
textline "                                 "
bitfld.long 0x00 28. " ASB412  ,Active Status Bit 412" "Not active,Active"
bitfld.long 0x00 27. "  ASB411  ,Active Status Bit 411" "Not active,Active"
bitfld.long 0x00 26. "  ASB410  ,Active Status Bit 410" "Not active,Active"
textline "                                 "
bitfld.long 0x00 25. " ASB409  ,Active Status Bit 409" "Not active,Active"
bitfld.long 0x00 24. "  ASB408  ,Active Status Bit 408" "Not active,Active"
bitfld.long 0x00 23. "  ASB407  ,Active Status Bit 407" "Not active,Active"
textline "                                 "
bitfld.long 0x00 22. " ASB406  ,Active Status Bit 406" "Not active,Active"
bitfld.long 0x00 21. "  ASB405  ,Active Status Bit 405" "Not active,Active"
bitfld.long 0x00 20. "  ASB404  ,Active Status Bit 404" "Not active,Active"
textline "                                 "
bitfld.long 0x00 19. " ASB403  ,Active Status Bit 403" "Not active,Active"
bitfld.long 0x00 18. "  ASB402  ,Active Status Bit 402" "Not active,Active"
bitfld.long 0x00 17. "  ASB401  ,Active Status Bit 401" "Not active,Active"
textline "                                 "
bitfld.long 0x00 16. " ASB400  ,Active Status Bit 400" "Not active,Active"
bitfld.long 0x00 15. "  ASB399  ,Active Status Bit 399" "Not active,Active"
bitfld.long 0x00 14. "  ASB398  ,Active Status Bit 398" "Not active,Active"
textline "                                 "
bitfld.long 0x00 13. " ASB397  ,Active Status Bit 397" "Not active,Active"
bitfld.long 0x00 12. "  ASB396  ,Active Status Bit 396" "Not active,Active"
bitfld.long 0x00 11. "  ASB395  ,Active Status Bit 395" "Not active,Active"
textline "                                 "
bitfld.long 0x00 10. " ASB394  ,Active Status Bit 394" "Not active,Active"
bitfld.long 0x00 9. "  ASB393  ,Active Status Bit 393" "Not active,Active"
bitfld.long 0x00 8. "  ASB392  ,Active Status Bit 392" "Not active,Active"
textline "                                 "
bitfld.long 0x00 7. " ASB391  ,Active Status Bit 391" "Not active,Active"
bitfld.long 0x00 6. "  ASB390  ,Active Status Bit 390" "Not active,Active"
bitfld.long 0x00 5. "  ASB389  ,Active Status Bit 389" "Not active,Active"
textline "                                 "
bitfld.long 0x00 4. " ASB388  ,Active Status Bit 388" "Not active,Active"
bitfld.long 0x00 3. "  ASB387  ,Active Status Bit 387" "Not active,Active"
bitfld.long 0x00 2. "  ASB386  ,Active Status Bit 386" "Not active,Active"
textline "                                 "
bitfld.long 0x00 1. " ASB385  ,Active Status Bit 385" "Not active,Active"
bitfld.long 0x00 0. "  ASB384  ,Active Status Bit 384" "Not active,Active"
else
hgroup.long 0x0330++0x03
hide.long 0x0 "GICD_ICDABR12,Active Status Register 12"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0D)
rgroup.long 0x0334++0x03
line.long 0x0 "GICD_ICDABR13,Active Status Register 13"
bitfld.long 0x00 31. " ASB447  ,Active Status Bit 447" "Not active,Active"
bitfld.long 0x00 30. "  ASB446  ,Active Status Bit 446" "Not active,Active"
bitfld.long 0x00 29. "  ASB445  ,Active Status Bit 445" "Not active,Active"
textline "                                 "
bitfld.long 0x00 28. " ASB444  ,Active Status Bit 444" "Not active,Active"
bitfld.long 0x00 27. "  ASB443  ,Active Status Bit 443" "Not active,Active"
bitfld.long 0x00 26. "  ASB442  ,Active Status Bit 442" "Not active,Active"
textline "                                 "
bitfld.long 0x00 25. " ASB441  ,Active Status Bit 441" "Not active,Active"
bitfld.long 0x00 24. "  ASB440  ,Active Status Bit 440" "Not active,Active"
bitfld.long 0x00 23. "  ASB439  ,Active Status Bit 439" "Not active,Active"
textline "                                 "
bitfld.long 0x00 22. " ASB438  ,Active Status Bit 438" "Not active,Active"
bitfld.long 0x00 21. "  ASB437  ,Active Status Bit 437" "Not active,Active"
bitfld.long 0x00 20. "  ASB436  ,Active Status Bit 436" "Not active,Active"
textline "                                 "
bitfld.long 0x00 19. " ASB435  ,Active Status Bit 435" "Not active,Active"
bitfld.long 0x00 18. "  ASB434  ,Active Status Bit 434" "Not active,Active"
bitfld.long 0x00 17. "  ASB433  ,Active Status Bit 433" "Not active,Active"
textline "                                 "
bitfld.long 0x00 16. " ASB432  ,Active Status Bit 432" "Not active,Active"
bitfld.long 0x00 15. "  ASB431  ,Active Status Bit 431" "Not active,Active"
bitfld.long 0x00 14. "  ASB430  ,Active Status Bit 430" "Not active,Active"
textline "                                 "
bitfld.long 0x00 13. " ASB429  ,Active Status Bit 429" "Not active,Active"
bitfld.long 0x00 12. "  ASB428  ,Active Status Bit 428" "Not active,Active"
bitfld.long 0x00 11. "  ASB427  ,Active Status Bit 427" "Not active,Active"
textline "                                 "
bitfld.long 0x00 10. " ASB426  ,Active Status Bit 426" "Not active,Active"
bitfld.long 0x00 9. "  ASB425  ,Active Status Bit 425" "Not active,Active"
bitfld.long 0x00 8. "  ASB424  ,Active Status Bit 424" "Not active,Active"
textline "                                 "
bitfld.long 0x00 7. " ASB423  ,Active Status Bit 423" "Not active,Active"
bitfld.long 0x00 6. "  ASB422  ,Active Status Bit 422" "Not active,Active"
bitfld.long 0x00 5. "  ASB421  ,Active Status Bit 421" "Not active,Active"
textline "                                 "
bitfld.long 0x00 4. " ASB420  ,Active Status Bit 420" "Not active,Active"
bitfld.long 0x00 3. "  ASB419  ,Active Status Bit 419" "Not active,Active"
bitfld.long 0x00 2. "  ASB418  ,Active Status Bit 418" "Not active,Active"
textline "                                 "
bitfld.long 0x00 1. " ASB417  ,Active Status Bit 417" "Not active,Active"
bitfld.long 0x00 0. "  ASB416  ,Active Status Bit 416" "Not active,Active"
else
hgroup.long 0x0334++0x03
hide.long 0x0 "GICD_ICDABR13,Active Status Register 13"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0E)
rgroup.long 0x0338++0x03
line.long 0x0 "GICD_ICDABR14,Active Status Register 14"
bitfld.long 0x00 31. " ASB479  ,Active Status Bit 479" "Not active,Active"
bitfld.long 0x00 30. "  ASB478  ,Active Status Bit 478" "Not active,Active"
bitfld.long 0x00 29. "  ASB477  ,Active Status Bit 477" "Not active,Active"
textline "                                 "
bitfld.long 0x00 28. " ASB476  ,Active Status Bit 476" "Not active,Active"
bitfld.long 0x00 27. "  ASB475  ,Active Status Bit 475" "Not active,Active"
bitfld.long 0x00 26. "  ASB474  ,Active Status Bit 474" "Not active,Active"
textline "                                 "
bitfld.long 0x00 25. " ASB473  ,Active Status Bit 473" "Not active,Active"
bitfld.long 0x00 24. "  ASB472  ,Active Status Bit 472" "Not active,Active"
bitfld.long 0x00 23. "  ASB471  ,Active Status Bit 471" "Not active,Active"
textline "                                 "
bitfld.long 0x00 22. " ASB470  ,Active Status Bit 470" "Not active,Active"
bitfld.long 0x00 21. "  ASB469  ,Active Status Bit 469" "Not active,Active"
bitfld.long 0x00 20. "  ASB468  ,Active Status Bit 468" "Not active,Active"
textline "                                 "
bitfld.long 0x00 19. " ASB467  ,Active Status Bit 467" "Not active,Active"
bitfld.long 0x00 18. "  ASB466  ,Active Status Bit 466" "Not active,Active"
bitfld.long 0x00 17. "  ASB465  ,Active Status Bit 465" "Not active,Active"
textline "                                 "
bitfld.long 0x00 16. " ASB464  ,Active Status Bit 464" "Not active,Active"
bitfld.long 0x00 15. "  ASB463  ,Active Status Bit 463" "Not active,Active"
bitfld.long 0x00 14. "  ASB462  ,Active Status Bit 462" "Not active,Active"
textline "                                 "
bitfld.long 0x00 13. " ASB461  ,Active Status Bit 461" "Not active,Active"
bitfld.long 0x00 12. "  ASB460  ,Active Status Bit 460" "Not active,Active"
bitfld.long 0x00 11. "  ASB459  ,Active Status Bit 459" "Not active,Active"
textline "                                 "
bitfld.long 0x00 10. " ASB458  ,Active Status Bit 458" "Not active,Active"
bitfld.long 0x00 9. "  ASB457  ,Active Status Bit 457" "Not active,Active"
bitfld.long 0x00 8. "  ASB456  ,Active Status Bit 456" "Not active,Active"
textline "                                 "
bitfld.long 0x00 7. " ASB455  ,Active Status Bit 455" "Not active,Active"
bitfld.long 0x00 6. "  ASB454  ,Active Status Bit 454" "Not active,Active"
bitfld.long 0x00 5. "  ASB453  ,Active Status Bit 453" "Not active,Active"
textline "                                 "
bitfld.long 0x00 4. " ASB452  ,Active Status Bit 452" "Not active,Active"
bitfld.long 0x00 3. "  ASB451  ,Active Status Bit 451" "Not active,Active"
bitfld.long 0x00 2. "  ASB450  ,Active Status Bit 450" "Not active,Active"
textline "                                 "
bitfld.long 0x00 1. " ASB449  ,Active Status Bit 449" "Not active,Active"
bitfld.long 0x00 0. "  ASB448  ,Active Status Bit 448" "Not active,Active"
else
hgroup.long 0x0338++0x03
hide.long 0x0 "GICD_ICDABR14,Active Status Register 14"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0F)
rgroup.long 0x033C++0x03
line.long 0x0 "GICD_ICDABR15,Active Status Register 15"
bitfld.long 0x00 31. " ASB511  ,Active Status Bit 511" "Not active,Active"
bitfld.long 0x00 30. "  ASB510  ,Active Status Bit 510" "Not active,Active"
bitfld.long 0x00 29. "  ASB509  ,Active Status Bit 509" "Not active,Active"
textline "                                 "
bitfld.long 0x00 28. " ASB508  ,Active Status Bit 508" "Not active,Active"
bitfld.long 0x00 27. "  ASB507  ,Active Status Bit 507" "Not active,Active"
bitfld.long 0x00 26. "  ASB506  ,Active Status Bit 506" "Not active,Active"
textline "                                 "
bitfld.long 0x00 25. " ASB505  ,Active Status Bit 505" "Not active,Active"
bitfld.long 0x00 24. "  ASB504  ,Active Status Bit 504" "Not active,Active"
bitfld.long 0x00 23. "  ASB503  ,Active Status Bit 503" "Not active,Active"
textline "                                 "
bitfld.long 0x00 22. " ASB502  ,Active Status Bit 502" "Not active,Active"
bitfld.long 0x00 21. "  ASB501  ,Active Status Bit 501" "Not active,Active"
bitfld.long 0x00 20. "  ASB500  ,Active Status Bit 500" "Not active,Active"
textline "                                 "
bitfld.long 0x00 19. " ASB499  ,Active Status Bit 499" "Not active,Active"
bitfld.long 0x00 18. "  ASB498  ,Active Status Bit 498" "Not active,Active"
bitfld.long 0x00 17. "  ASB497  ,Active Status Bit 497" "Not active,Active"
textline "                                 "
bitfld.long 0x00 16. " ASB496  ,Active Status Bit 496" "Not active,Active"
bitfld.long 0x00 15. "  ASB495  ,Active Status Bit 495" "Not active,Active"
bitfld.long 0x00 14. "  ASB494  ,Active Status Bit 494" "Not active,Active"
textline "                                 "
bitfld.long 0x00 13. " ASB493  ,Active Status Bit 493" "Not active,Active"
bitfld.long 0x00 12. "  ASB492  ,Active Status Bit 492" "Not active,Active"
bitfld.long 0x00 11. "  ASB491  ,Active Status Bit 491" "Not active,Active"
textline "                                 "
bitfld.long 0x00 10. " ASB490  ,Active Status Bit 490" "Not active,Active"
bitfld.long 0x00 9. "  ASB489  ,Active Status Bit 489" "Not active,Active"
bitfld.long 0x00 8. "  ASB488  ,Active Status Bit 488" "Not active,Active"
textline "                                 "
bitfld.long 0x00 7. " ASB487  ,Active Status Bit 487" "Not active,Active"
bitfld.long 0x00 6. "  ASB486  ,Active Status Bit 486" "Not active,Active"
bitfld.long 0x00 5. "  ASB485  ,Active Status Bit 485" "Not active,Active"
textline "                                 "
bitfld.long 0x00 4. " ASB484  ,Active Status Bit 484" "Not active,Active"
bitfld.long 0x00 3. "  ASB483  ,Active Status Bit 483" "Not active,Active"
bitfld.long 0x00 2. "  ASB482  ,Active Status Bit 482" "Not active,Active"
textline "                                 "
bitfld.long 0x00 1. " ASB481  ,Active Status Bit 481" "Not active,Active"
bitfld.long 0x00 0. "  ASB480  ,Active Status Bit 480" "Not active,Active"
else
hgroup.long 0x033C++0x03
hide.long 0x0 "GICD_ICDABR15,Active Status Register 15"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x10)
rgroup.long 0x0340++0x03
line.long 0x0 "GICD_ICDABR16,Active Status Register 16"
bitfld.long 0x00 31. " ASB543  ,Active Status Bit 543" "Not active,Active"
bitfld.long 0x00 30. "  ASB542  ,Active Status Bit 542" "Not active,Active"
bitfld.long 0x00 29. "  ASB541  ,Active Status Bit 541" "Not active,Active"
textline "                                 "
bitfld.long 0x00 28. " ASB540  ,Active Status Bit 540" "Not active,Active"
bitfld.long 0x00 27. "  ASB539  ,Active Status Bit 539" "Not active,Active"
bitfld.long 0x00 26. "  ASB538  ,Active Status Bit 538" "Not active,Active"
textline "                                 "
bitfld.long 0x00 25. " ASB537  ,Active Status Bit 537" "Not active,Active"
bitfld.long 0x00 24. "  ASB536  ,Active Status Bit 536" "Not active,Active"
bitfld.long 0x00 23. "  ASB535  ,Active Status Bit 535" "Not active,Active"
textline "                                 "
bitfld.long 0x00 22. " ASB534  ,Active Status Bit 534" "Not active,Active"
bitfld.long 0x00 21. "  ASB533  ,Active Status Bit 533" "Not active,Active"
bitfld.long 0x00 20. "  ASB532  ,Active Status Bit 532" "Not active,Active"
textline "                                 "
bitfld.long 0x00 19. " ASB531  ,Active Status Bit 531" "Not active,Active"
bitfld.long 0x00 18. "  ASB530  ,Active Status Bit 530" "Not active,Active"
bitfld.long 0x00 17. "  ASB529  ,Active Status Bit 529" "Not active,Active"
textline "                                 "
bitfld.long 0x00 16. " ASB528  ,Active Status Bit 528" "Not active,Active"
bitfld.long 0x00 15. "  ASB527  ,Active Status Bit 527" "Not active,Active"
bitfld.long 0x00 14. "  ASB526  ,Active Status Bit 526" "Not active,Active"
textline "                                 "
bitfld.long 0x00 13. " ASB525  ,Active Status Bit 525" "Not active,Active"
bitfld.long 0x00 12. "  ASB524  ,Active Status Bit 524" "Not active,Active"
bitfld.long 0x00 11. "  ASB523  ,Active Status Bit 523" "Not active,Active"
textline "                                 "
bitfld.long 0x00 10. " ASB522  ,Active Status Bit 522" "Not active,Active"
bitfld.long 0x00 9. "  ASB521  ,Active Status Bit 521" "Not active,Active"
bitfld.long 0x00 8. "  ASB520  ,Active Status Bit 520" "Not active,Active"
textline "                                 "
bitfld.long 0x00 7. " ASB519  ,Active Status Bit 519" "Not active,Active"
bitfld.long 0x00 6. "  ASB518  ,Active Status Bit 518" "Not active,Active"
bitfld.long 0x00 5. "  ASB517  ,Active Status Bit 517" "Not active,Active"
textline "                                 "
bitfld.long 0x00 4. " ASB516  ,Active Status Bit 516" "Not active,Active"
bitfld.long 0x00 3. "  ASB515  ,Active Status Bit 515" "Not active,Active"
bitfld.long 0x00 2. "  ASB514  ,Active Status Bit 514" "Not active,Active"
textline "                                 "
bitfld.long 0x00 1. " ASB513  ,Active Status Bit 513" "Not active,Active"
bitfld.long 0x00 0. "  ASB512  ,Active Status Bit 512" "Not active,Active"
else
hgroup.long 0x0340++0x03
hide.long 0x0 "GICD_ICDABR16,Active Status Register 16"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x11)
rgroup.long 0x0344++0x03
line.long 0x0 "GICD_ICDABR17,Active Status Register 17"
bitfld.long 0x00 31. " ASB575  ,Active Status Bit 575" "Not active,Active"
bitfld.long 0x00 30. "  ASB574  ,Active Status Bit 574" "Not active,Active"
bitfld.long 0x00 29. "  ASB573  ,Active Status Bit 573" "Not active,Active"
textline "                                 "
bitfld.long 0x00 28. " ASB572  ,Active Status Bit 572" "Not active,Active"
bitfld.long 0x00 27. "  ASB571  ,Active Status Bit 571" "Not active,Active"
bitfld.long 0x00 26. "  ASB570  ,Active Status Bit 570" "Not active,Active"
textline "                                 "
bitfld.long 0x00 25. " ASB569  ,Active Status Bit 569" "Not active,Active"
bitfld.long 0x00 24. "  ASB568  ,Active Status Bit 568" "Not active,Active"
bitfld.long 0x00 23. "  ASB567  ,Active Status Bit 567" "Not active,Active"
textline "                                 "
bitfld.long 0x00 22. " ASB566  ,Active Status Bit 566" "Not active,Active"
bitfld.long 0x00 21. "  ASB565  ,Active Status Bit 565" "Not active,Active"
bitfld.long 0x00 20. "  ASB564  ,Active Status Bit 564" "Not active,Active"
textline "                                 "
bitfld.long 0x00 19. " ASB563  ,Active Status Bit 563" "Not active,Active"
bitfld.long 0x00 18. "  ASB562  ,Active Status Bit 562" "Not active,Active"
bitfld.long 0x00 17. "  ASB561  ,Active Status Bit 561" "Not active,Active"
textline "                                 "
bitfld.long 0x00 16. " ASB560  ,Active Status Bit 560" "Not active,Active"
bitfld.long 0x00 15. "  ASB559  ,Active Status Bit 559" "Not active,Active"
bitfld.long 0x00 14. "  ASB558  ,Active Status Bit 558" "Not active,Active"
textline "                                 "
bitfld.long 0x00 13. " ASB557  ,Active Status Bit 557" "Not active,Active"
bitfld.long 0x00 12. "  ASB556  ,Active Status Bit 556" "Not active,Active"
bitfld.long 0x00 11. "  ASB555  ,Active Status Bit 555" "Not active,Active"
textline "                                 "
bitfld.long 0x00 10. " ASB554  ,Active Status Bit 554" "Not active,Active"
bitfld.long 0x00 9. "  ASB553  ,Active Status Bit 553" "Not active,Active"
bitfld.long 0x00 8. "  ASB552  ,Active Status Bit 552" "Not active,Active"
textline "                                 "
bitfld.long 0x00 7. " ASB551  ,Active Status Bit 551" "Not active,Active"
bitfld.long 0x00 6. "  ASB550  ,Active Status Bit 550" "Not active,Active"
bitfld.long 0x00 5. "  ASB549  ,Active Status Bit 549" "Not active,Active"
textline "                                 "
bitfld.long 0x00 4. " ASB548  ,Active Status Bit 548" "Not active,Active"
bitfld.long 0x00 3. "  ASB547  ,Active Status Bit 547" "Not active,Active"
bitfld.long 0x00 2. "  ASB546  ,Active Status Bit 546" "Not active,Active"
textline "                                 "
bitfld.long 0x00 1. " ASB545  ,Active Status Bit 545" "Not active,Active"
bitfld.long 0x00 0. "  ASB544  ,Active Status Bit 544" "Not active,Active"
else
hgroup.long 0x0344++0x03
hide.long 0x0 "GICD_ICDABR17,Active Status Register 17"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x12)
rgroup.long 0x0348++0x03
line.long 0x0 "GICD_ICDABR18,Active Status Register 18"
bitfld.long 0x00 31. " ASB607  ,Active Status Bit 607" "Not active,Active"
bitfld.long 0x00 30. "  ASB606  ,Active Status Bit 606" "Not active,Active"
bitfld.long 0x00 29. "  ASB605  ,Active Status Bit 605" "Not active,Active"
textline "                                 "
bitfld.long 0x00 28. " ASB604  ,Active Status Bit 604" "Not active,Active"
bitfld.long 0x00 27. "  ASB603  ,Active Status Bit 603" "Not active,Active"
bitfld.long 0x00 26. "  ASB602  ,Active Status Bit 602" "Not active,Active"
textline "                                 "
bitfld.long 0x00 25. " ASB601  ,Active Status Bit 601" "Not active,Active"
bitfld.long 0x00 24. "  ASB600  ,Active Status Bit 600" "Not active,Active"
bitfld.long 0x00 23. "  ASB599  ,Active Status Bit 599" "Not active,Active"
textline "                                 "
bitfld.long 0x00 22. " ASB598  ,Active Status Bit 598" "Not active,Active"
bitfld.long 0x00 21. "  ASB597  ,Active Status Bit 597" "Not active,Active"
bitfld.long 0x00 20. "  ASB596  ,Active Status Bit 596" "Not active,Active"
textline "                                 "
bitfld.long 0x00 19. " ASB595  ,Active Status Bit 595" "Not active,Active"
bitfld.long 0x00 18. "  ASB594  ,Active Status Bit 594" "Not active,Active"
bitfld.long 0x00 17. "  ASB593  ,Active Status Bit 593" "Not active,Active"
textline "                                 "
bitfld.long 0x00 16. " ASB592  ,Active Status Bit 592" "Not active,Active"
bitfld.long 0x00 15. "  ASB591  ,Active Status Bit 591" "Not active,Active"
bitfld.long 0x00 14. "  ASB590  ,Active Status Bit 590" "Not active,Active"
textline "                                 "
bitfld.long 0x00 13. " ASB589  ,Active Status Bit 589" "Not active,Active"
bitfld.long 0x00 12. "  ASB588  ,Active Status Bit 588" "Not active,Active"
bitfld.long 0x00 11. "  ASB587  ,Active Status Bit 587" "Not active,Active"
textline "                                 "
bitfld.long 0x00 10. " ASB586  ,Active Status Bit 586" "Not active,Active"
bitfld.long 0x00 9. "  ASB585  ,Active Status Bit 585" "Not active,Active"
bitfld.long 0x00 8. "  ASB584  ,Active Status Bit 584" "Not active,Active"
textline "                                 "
bitfld.long 0x00 7. " ASB583  ,Active Status Bit 583" "Not active,Active"
bitfld.long 0x00 6. "  ASB582  ,Active Status Bit 582" "Not active,Active"
bitfld.long 0x00 5. "  ASB581  ,Active Status Bit 581" "Not active,Active"
textline "                                 "
bitfld.long 0x00 4. " ASB580  ,Active Status Bit 580" "Not active,Active"
bitfld.long 0x00 3. "  ASB579  ,Active Status Bit 579" "Not active,Active"
bitfld.long 0x00 2. "  ASB578  ,Active Status Bit 578" "Not active,Active"
textline "                                 "
bitfld.long 0x00 1. " ASB577  ,Active Status Bit 577" "Not active,Active"
bitfld.long 0x00 0. "  ASB576  ,Active Status Bit 576" "Not active,Active"
else
hgroup.long 0x0348++0x03
hide.long 0x0 "GICD_ICDABR18,Active Status Register 18"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x13)
rgroup.long 0x034C++0x03
line.long 0x0 "GICD_ICDABR19,Active Status Register 19"
bitfld.long 0x00 31. " ASB639  ,Active Status Bit 639" "Not active,Active"
bitfld.long 0x00 30. "  ASB638  ,Active Status Bit 638" "Not active,Active"
bitfld.long 0x00 29. "  ASB637  ,Active Status Bit 637" "Not active,Active"
textline "                                 "
bitfld.long 0x00 28. " ASB636  ,Active Status Bit 636" "Not active,Active"
bitfld.long 0x00 27. "  ASB635  ,Active Status Bit 635" "Not active,Active"
bitfld.long 0x00 26. "  ASB634  ,Active Status Bit 634" "Not active,Active"
textline "                                 "
bitfld.long 0x00 25. " ASB633  ,Active Status Bit 633" "Not active,Active"
bitfld.long 0x00 24. "  ASB632  ,Active Status Bit 632" "Not active,Active"
bitfld.long 0x00 23. "  ASB631  ,Active Status Bit 631" "Not active,Active"
textline "                                 "
bitfld.long 0x00 22. " ASB630  ,Active Status Bit 630" "Not active,Active"
bitfld.long 0x00 21. "  ASB629  ,Active Status Bit 629" "Not active,Active"
bitfld.long 0x00 20. "  ASB628  ,Active Status Bit 628" "Not active,Active"
textline "                                 "
bitfld.long 0x00 19. " ASB627  ,Active Status Bit 627" "Not active,Active"
bitfld.long 0x00 18. "  ASB626  ,Active Status Bit 626" "Not active,Active"
bitfld.long 0x00 17. "  ASB625  ,Active Status Bit 625" "Not active,Active"
textline "                                 "
bitfld.long 0x00 16. " ASB624  ,Active Status Bit 624" "Not active,Active"
bitfld.long 0x00 15. "  ASB623  ,Active Status Bit 623" "Not active,Active"
bitfld.long 0x00 14. "  ASB622  ,Active Status Bit 622" "Not active,Active"
textline "                                 "
bitfld.long 0x00 13. " ASB621  ,Active Status Bit 621" "Not active,Active"
bitfld.long 0x00 12. "  ASB620  ,Active Status Bit 620" "Not active,Active"
bitfld.long 0x00 11. "  ASB619  ,Active Status Bit 619" "Not active,Active"
textline "                                 "
bitfld.long 0x00 10. " ASB618  ,Active Status Bit 618" "Not active,Active"
bitfld.long 0x00 9. "  ASB617  ,Active Status Bit 617" "Not active,Active"
bitfld.long 0x00 8. "  ASB616  ,Active Status Bit 616" "Not active,Active"
textline "                                 "
bitfld.long 0x00 7. " ASB615  ,Active Status Bit 615" "Not active,Active"
bitfld.long 0x00 6. "  ASB614  ,Active Status Bit 614" "Not active,Active"
bitfld.long 0x00 5. "  ASB613  ,Active Status Bit 613" "Not active,Active"
textline "                                 "
bitfld.long 0x00 4. " ASB612  ,Active Status Bit 612" "Not active,Active"
bitfld.long 0x00 3. "  ASB611  ,Active Status Bit 611" "Not active,Active"
bitfld.long 0x00 2. "  ASB610  ,Active Status Bit 610" "Not active,Active"
textline "                                 "
bitfld.long 0x00 1. " ASB609  ,Active Status Bit 609" "Not active,Active"
bitfld.long 0x00 0. "  ASB608  ,Active Status Bit 608" "Not active,Active"
else
hgroup.long 0x034C++0x03
hide.long 0x0 "GICD_ICDABR19,Active Status Register 19"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x14)
rgroup.long 0x0350++0x03
line.long 0x0 "GICD_ICDABR20,Active Status Register 20"
bitfld.long 0x00 31. " ASB671  ,Active Status Bit 671" "Not active,Active"
bitfld.long 0x00 30. "  ASB670  ,Active Status Bit 670" "Not active,Active"
bitfld.long 0x00 29. "  ASB669  ,Active Status Bit 669" "Not active,Active"
textline "                                 "
bitfld.long 0x00 28. " ASB668  ,Active Status Bit 668" "Not active,Active"
bitfld.long 0x00 27. "  ASB667  ,Active Status Bit 667" "Not active,Active"
bitfld.long 0x00 26. "  ASB666  ,Active Status Bit 666" "Not active,Active"
textline "                                 "
bitfld.long 0x00 25. " ASB665  ,Active Status Bit 665" "Not active,Active"
bitfld.long 0x00 24. "  ASB664  ,Active Status Bit 664" "Not active,Active"
bitfld.long 0x00 23. "  ASB663  ,Active Status Bit 663" "Not active,Active"
textline "                                 "
bitfld.long 0x00 22. " ASB662  ,Active Status Bit 662" "Not active,Active"
bitfld.long 0x00 21. "  ASB661  ,Active Status Bit 661" "Not active,Active"
bitfld.long 0x00 20. "  ASB660  ,Active Status Bit 660" "Not active,Active"
textline "                                 "
bitfld.long 0x00 19. " ASB659  ,Active Status Bit 659" "Not active,Active"
bitfld.long 0x00 18. "  ASB658  ,Active Status Bit 658" "Not active,Active"
bitfld.long 0x00 17. "  ASB657  ,Active Status Bit 657" "Not active,Active"
textline "                                 "
bitfld.long 0x00 16. " ASB656  ,Active Status Bit 656" "Not active,Active"
bitfld.long 0x00 15. "  ASB655  ,Active Status Bit 655" "Not active,Active"
bitfld.long 0x00 14. "  ASB654  ,Active Status Bit 654" "Not active,Active"
textline "                                 "
bitfld.long 0x00 13. " ASB653  ,Active Status Bit 653" "Not active,Active"
bitfld.long 0x00 12. "  ASB652  ,Active Status Bit 652" "Not active,Active"
bitfld.long 0x00 11. "  ASB651  ,Active Status Bit 651" "Not active,Active"
textline "                                 "
bitfld.long 0x00 10. " ASB650  ,Active Status Bit 650" "Not active,Active"
bitfld.long 0x00 9. "  ASB649  ,Active Status Bit 649" "Not active,Active"
bitfld.long 0x00 8. "  ASB648  ,Active Status Bit 648" "Not active,Active"
textline "                                 "
bitfld.long 0x00 7. " ASB647  ,Active Status Bit 647" "Not active,Active"
bitfld.long 0x00 6. "  ASB646  ,Active Status Bit 646" "Not active,Active"
bitfld.long 0x00 5. "  ASB645  ,Active Status Bit 645" "Not active,Active"
textline "                                 "
bitfld.long 0x00 4. " ASB644  ,Active Status Bit 644" "Not active,Active"
bitfld.long 0x00 3. "  ASB643  ,Active Status Bit 643" "Not active,Active"
bitfld.long 0x00 2. "  ASB642  ,Active Status Bit 642" "Not active,Active"
textline "                                 "
bitfld.long 0x00 1. " ASB641  ,Active Status Bit 641" "Not active,Active"
bitfld.long 0x00 0. "  ASB640  ,Active Status Bit 640" "Not active,Active"
else
hgroup.long 0x0350++0x03
hide.long 0x0 "GICD_ICDABR20,Active Status Register 20"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x15)
rgroup.long 0x0354++0x03
line.long 0x0 "GICD_ICDABR21,Active Status Register 21"
bitfld.long 0x00 31. " ASB703  ,Active Status Bit 703" "Not active,Active"
bitfld.long 0x00 30. "  ASB702  ,Active Status Bit 702" "Not active,Active"
bitfld.long 0x00 29. "  ASB701  ,Active Status Bit 701" "Not active,Active"
textline "                                 "
bitfld.long 0x00 28. " ASB700  ,Active Status Bit 700" "Not active,Active"
bitfld.long 0x00 27. "  ASB699  ,Active Status Bit 699" "Not active,Active"
bitfld.long 0x00 26. "  ASB698  ,Active Status Bit 698" "Not active,Active"
textline "                                 "
bitfld.long 0x00 25. " ASB697  ,Active Status Bit 697" "Not active,Active"
bitfld.long 0x00 24. "  ASB696  ,Active Status Bit 696" "Not active,Active"
bitfld.long 0x00 23. "  ASB695  ,Active Status Bit 695" "Not active,Active"
textline "                                 "
bitfld.long 0x00 22. " ASB694  ,Active Status Bit 694" "Not active,Active"
bitfld.long 0x00 21. "  ASB693  ,Active Status Bit 693" "Not active,Active"
bitfld.long 0x00 20. "  ASB692  ,Active Status Bit 692" "Not active,Active"
textline "                                 "
bitfld.long 0x00 19. " ASB691  ,Active Status Bit 691" "Not active,Active"
bitfld.long 0x00 18. "  ASB690  ,Active Status Bit 690" "Not active,Active"
bitfld.long 0x00 17. "  ASB689  ,Active Status Bit 689" "Not active,Active"
textline "                                 "
bitfld.long 0x00 16. " ASB688  ,Active Status Bit 688" "Not active,Active"
bitfld.long 0x00 15. "  ASB687  ,Active Status Bit 687" "Not active,Active"
bitfld.long 0x00 14. "  ASB686  ,Active Status Bit 686" "Not active,Active"
textline "                                 "
bitfld.long 0x00 13. " ASB685  ,Active Status Bit 685" "Not active,Active"
bitfld.long 0x00 12. "  ASB684  ,Active Status Bit 684" "Not active,Active"
bitfld.long 0x00 11. "  ASB683  ,Active Status Bit 683" "Not active,Active"
textline "                                 "
bitfld.long 0x00 10. " ASB682  ,Active Status Bit 682" "Not active,Active"
bitfld.long 0x00 9. "  ASB681  ,Active Status Bit 681" "Not active,Active"
bitfld.long 0x00 8. "  ASB680  ,Active Status Bit 680" "Not active,Active"
textline "                                 "
bitfld.long 0x00 7. " ASB679  ,Active Status Bit 679" "Not active,Active"
bitfld.long 0x00 6. "  ASB678  ,Active Status Bit 678" "Not active,Active"
bitfld.long 0x00 5. "  ASB677  ,Active Status Bit 677" "Not active,Active"
textline "                                 "
bitfld.long 0x00 4. " ASB676  ,Active Status Bit 676" "Not active,Active"
bitfld.long 0x00 3. "  ASB675  ,Active Status Bit 675" "Not active,Active"
bitfld.long 0x00 2. "  ASB674  ,Active Status Bit 674" "Not active,Active"
textline "                                 "
bitfld.long 0x00 1. " ASB673  ,Active Status Bit 673" "Not active,Active"
bitfld.long 0x00 0. "  ASB672  ,Active Status Bit 672" "Not active,Active"
else
hgroup.long 0x0354++0x03
hide.long 0x0 "GICD_ICDABR21,Active Status Register 21"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x16)
rgroup.long 0x0358++0x03
line.long 0x0 "GICD_ICDABR22,Active Status Register 22"
bitfld.long 0x00 31. " ASB735  ,Active Status Bit 735" "Not active,Active"
bitfld.long 0x00 30. "  ASB734  ,Active Status Bit 734" "Not active,Active"
bitfld.long 0x00 29. "  ASB733  ,Active Status Bit 733" "Not active,Active"
textline "                                 "
bitfld.long 0x00 28. " ASB732  ,Active Status Bit 732" "Not active,Active"
bitfld.long 0x00 27. "  ASB731  ,Active Status Bit 731" "Not active,Active"
bitfld.long 0x00 26. "  ASB730  ,Active Status Bit 730" "Not active,Active"
textline "                                 "
bitfld.long 0x00 25. " ASB729  ,Active Status Bit 729" "Not active,Active"
bitfld.long 0x00 24. "  ASB728  ,Active Status Bit 728" "Not active,Active"
bitfld.long 0x00 23. "  ASB727  ,Active Status Bit 727" "Not active,Active"
textline "                                 "
bitfld.long 0x00 22. " ASB726  ,Active Status Bit 726" "Not active,Active"
bitfld.long 0x00 21. "  ASB725  ,Active Status Bit 725" "Not active,Active"
bitfld.long 0x00 20. "  ASB724  ,Active Status Bit 724" "Not active,Active"
textline "                                 "
bitfld.long 0x00 19. " ASB723  ,Active Status Bit 723" "Not active,Active"
bitfld.long 0x00 18. "  ASB722  ,Active Status Bit 722" "Not active,Active"
bitfld.long 0x00 17. "  ASB721  ,Active Status Bit 721" "Not active,Active"
textline "                                 "
bitfld.long 0x00 16. " ASB720  ,Active Status Bit 720" "Not active,Active"
bitfld.long 0x00 15. "  ASB719  ,Active Status Bit 719" "Not active,Active"
bitfld.long 0x00 14. "  ASB718  ,Active Status Bit 718" "Not active,Active"
textline "                                 "
bitfld.long 0x00 13. " ASB717  ,Active Status Bit 717" "Not active,Active"
bitfld.long 0x00 12. "  ASB716  ,Active Status Bit 716" "Not active,Active"
bitfld.long 0x00 11. "  ASB715  ,Active Status Bit 715" "Not active,Active"
textline "                                 "
bitfld.long 0x00 10. " ASB714  ,Active Status Bit 714" "Not active,Active"
bitfld.long 0x00 9. "  ASB713  ,Active Status Bit 713" "Not active,Active"
bitfld.long 0x00 8. "  ASB712  ,Active Status Bit 712" "Not active,Active"
textline "                                 "
bitfld.long 0x00 7. " ASB711  ,Active Status Bit 711" "Not active,Active"
bitfld.long 0x00 6. "  ASB710  ,Active Status Bit 710" "Not active,Active"
bitfld.long 0x00 5. "  ASB709  ,Active Status Bit 709" "Not active,Active"
textline "                                 "
bitfld.long 0x00 4. " ASB708  ,Active Status Bit 708" "Not active,Active"
bitfld.long 0x00 3. "  ASB707  ,Active Status Bit 707" "Not active,Active"
bitfld.long 0x00 2. "  ASB706  ,Active Status Bit 706" "Not active,Active"
textline "                                 "
bitfld.long 0x00 1. " ASB705  ,Active Status Bit 705" "Not active,Active"
bitfld.long 0x00 0. "  ASB704  ,Active Status Bit 704" "Not active,Active"
else
hgroup.long 0x0358++0x03
hide.long 0x0 "GICD_ICDABR22,Active Status Register 22"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x17)
rgroup.long 0x035C++0x03
line.long 0x0 "GICD_ICDABR23,Active Status Register 23"
bitfld.long 0x00 31. " ASB767  ,Active Status Bit 767" "Not active,Active"
bitfld.long 0x00 30. "  ASB766  ,Active Status Bit 766" "Not active,Active"
bitfld.long 0x00 29. "  ASB765  ,Active Status Bit 765" "Not active,Active"
textline "                                 "
bitfld.long 0x00 28. " ASB764  ,Active Status Bit 764" "Not active,Active"
bitfld.long 0x00 27. "  ASB763  ,Active Status Bit 763" "Not active,Active"
bitfld.long 0x00 26. "  ASB762  ,Active Status Bit 762" "Not active,Active"
textline "                                 "
bitfld.long 0x00 25. " ASB761  ,Active Status Bit 761" "Not active,Active"
bitfld.long 0x00 24. "  ASB760  ,Active Status Bit 760" "Not active,Active"
bitfld.long 0x00 23. "  ASB759  ,Active Status Bit 759" "Not active,Active"
textline "                                 "
bitfld.long 0x00 22. " ASB758  ,Active Status Bit 758" "Not active,Active"
bitfld.long 0x00 21. "  ASB757  ,Active Status Bit 757" "Not active,Active"
bitfld.long 0x00 20. "  ASB756  ,Active Status Bit 756" "Not active,Active"
textline "                                 "
bitfld.long 0x00 19. " ASB755  ,Active Status Bit 755" "Not active,Active"
bitfld.long 0x00 18. "  ASB754  ,Active Status Bit 754" "Not active,Active"
bitfld.long 0x00 17. "  ASB753  ,Active Status Bit 753" "Not active,Active"
textline "                                 "
bitfld.long 0x00 16. " ASB752  ,Active Status Bit 752" "Not active,Active"
bitfld.long 0x00 15. "  ASB751  ,Active Status Bit 751" "Not active,Active"
bitfld.long 0x00 14. "  ASB750  ,Active Status Bit 750" "Not active,Active"
textline "                                 "
bitfld.long 0x00 13. " ASB749  ,Active Status Bit 749" "Not active,Active"
bitfld.long 0x00 12. "  ASB748  ,Active Status Bit 748" "Not active,Active"
bitfld.long 0x00 11. "  ASB747  ,Active Status Bit 747" "Not active,Active"
textline "                                 "
bitfld.long 0x00 10. " ASB746  ,Active Status Bit 746" "Not active,Active"
bitfld.long 0x00 9. "  ASB745  ,Active Status Bit 745" "Not active,Active"
bitfld.long 0x00 8. "  ASB744  ,Active Status Bit 744" "Not active,Active"
textline "                                 "
bitfld.long 0x00 7. " ASB743  ,Active Status Bit 743" "Not active,Active"
bitfld.long 0x00 6. "  ASB742  ,Active Status Bit 742" "Not active,Active"
bitfld.long 0x00 5. "  ASB741  ,Active Status Bit 741" "Not active,Active"
textline "                                 "
bitfld.long 0x00 4. " ASB740  ,Active Status Bit 740" "Not active,Active"
bitfld.long 0x00 3. "  ASB739  ,Active Status Bit 739" "Not active,Active"
bitfld.long 0x00 2. "  ASB738  ,Active Status Bit 738" "Not active,Active"
textline "                                 "
bitfld.long 0x00 1. " ASB737  ,Active Status Bit 737" "Not active,Active"
bitfld.long 0x00 0. "  ASB736  ,Active Status Bit 736" "Not active,Active"
else
hgroup.long 0x035C++0x03
hide.long 0x0 "GICD_ICDABR23,Active Status Register 23"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x18)
rgroup.long 0x0360++0x03
line.long 0x0 "GICD_ICDABR24,Active Status Register 24"
bitfld.long 0x00 31. " ASB799  ,Active Status Bit 799" "Not active,Active"
bitfld.long 0x00 30. "  ASB798  ,Active Status Bit 798" "Not active,Active"
bitfld.long 0x00 29. "  ASB797  ,Active Status Bit 797" "Not active,Active"
textline "                                 "
bitfld.long 0x00 28. " ASB796  ,Active Status Bit 796" "Not active,Active"
bitfld.long 0x00 27. "  ASB795  ,Active Status Bit 795" "Not active,Active"
bitfld.long 0x00 26. "  ASB794  ,Active Status Bit 794" "Not active,Active"
textline "                                 "
bitfld.long 0x00 25. " ASB793  ,Active Status Bit 793" "Not active,Active"
bitfld.long 0x00 24. "  ASB792  ,Active Status Bit 792" "Not active,Active"
bitfld.long 0x00 23. "  ASB791  ,Active Status Bit 791" "Not active,Active"
textline "                                 "
bitfld.long 0x00 22. " ASB790  ,Active Status Bit 790" "Not active,Active"
bitfld.long 0x00 21. "  ASB789  ,Active Status Bit 789" "Not active,Active"
bitfld.long 0x00 20. "  ASB788  ,Active Status Bit 788" "Not active,Active"
textline "                                 "
bitfld.long 0x00 19. " ASB787  ,Active Status Bit 787" "Not active,Active"
bitfld.long 0x00 18. "  ASB786  ,Active Status Bit 786" "Not active,Active"
bitfld.long 0x00 17. "  ASB785  ,Active Status Bit 785" "Not active,Active"
textline "                                 "
bitfld.long 0x00 16. " ASB784  ,Active Status Bit 784" "Not active,Active"
bitfld.long 0x00 15. "  ASB783  ,Active Status Bit 783" "Not active,Active"
bitfld.long 0x00 14. "  ASB782  ,Active Status Bit 782" "Not active,Active"
textline "                                 "
bitfld.long 0x00 13. " ASB781  ,Active Status Bit 781" "Not active,Active"
bitfld.long 0x00 12. "  ASB780  ,Active Status Bit 780" "Not active,Active"
bitfld.long 0x00 11. "  ASB779  ,Active Status Bit 779" "Not active,Active"
textline "                                 "
bitfld.long 0x00 10. " ASB778  ,Active Status Bit 778" "Not active,Active"
bitfld.long 0x00 9. "  ASB777  ,Active Status Bit 777" "Not active,Active"
bitfld.long 0x00 8. "  ASB776  ,Active Status Bit 776" "Not active,Active"
textline "                                 "
bitfld.long 0x00 7. " ASB775  ,Active Status Bit 775" "Not active,Active"
bitfld.long 0x00 6. "  ASB774  ,Active Status Bit 774" "Not active,Active"
bitfld.long 0x00 5. "  ASB773  ,Active Status Bit 773" "Not active,Active"
textline "                                 "
bitfld.long 0x00 4. " ASB772  ,Active Status Bit 772" "Not active,Active"
bitfld.long 0x00 3. "  ASB771  ,Active Status Bit 771" "Not active,Active"
bitfld.long 0x00 2. "  ASB770  ,Active Status Bit 770" "Not active,Active"
textline "                                 "
bitfld.long 0x00 1. " ASB769  ,Active Status Bit 769" "Not active,Active"
bitfld.long 0x00 0. "  ASB768  ,Active Status Bit 768" "Not active,Active"
else
hgroup.long 0x0360++0x03
hide.long 0x0 "GICD_ICDABR24,Active Status Register 24"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x19)
rgroup.long 0x0364++0x03
line.long 0x0 "GICD_ICDABR25,Active Status Register 25"
bitfld.long 0x00 31. " ASB831  ,Active Status Bit 831" "Not active,Active"
bitfld.long 0x00 30. "  ASB830  ,Active Status Bit 830" "Not active,Active"
bitfld.long 0x00 29. "  ASB829  ,Active Status Bit 829" "Not active,Active"
textline "                                 "
bitfld.long 0x00 28. " ASB828  ,Active Status Bit 828" "Not active,Active"
bitfld.long 0x00 27. "  ASB827  ,Active Status Bit 827" "Not active,Active"
bitfld.long 0x00 26. "  ASB826  ,Active Status Bit 826" "Not active,Active"
textline "                                 "
bitfld.long 0x00 25. " ASB825  ,Active Status Bit 825" "Not active,Active"
bitfld.long 0x00 24. "  ASB824  ,Active Status Bit 824" "Not active,Active"
bitfld.long 0x00 23. "  ASB823  ,Active Status Bit 823" "Not active,Active"
textline "                                 "
bitfld.long 0x00 22. " ASB822  ,Active Status Bit 822" "Not active,Active"
bitfld.long 0x00 21. "  ASB821  ,Active Status Bit 821" "Not active,Active"
bitfld.long 0x00 20. "  ASB820  ,Active Status Bit 820" "Not active,Active"
textline "                                 "
bitfld.long 0x00 19. " ASB819  ,Active Status Bit 819" "Not active,Active"
bitfld.long 0x00 18. "  ASB818  ,Active Status Bit 818" "Not active,Active"
bitfld.long 0x00 17. "  ASB817  ,Active Status Bit 817" "Not active,Active"
textline "                                 "
bitfld.long 0x00 16. " ASB816  ,Active Status Bit 816" "Not active,Active"
bitfld.long 0x00 15. "  ASB815  ,Active Status Bit 815" "Not active,Active"
bitfld.long 0x00 14. "  ASB814  ,Active Status Bit 814" "Not active,Active"
textline "                                 "
bitfld.long 0x00 13. " ASB813  ,Active Status Bit 813" "Not active,Active"
bitfld.long 0x00 12. "  ASB812  ,Active Status Bit 812" "Not active,Active"
bitfld.long 0x00 11. "  ASB811  ,Active Status Bit 811" "Not active,Active"
textline "                                 "
bitfld.long 0x00 10. " ASB810  ,Active Status Bit 810" "Not active,Active"
bitfld.long 0x00 9. "  ASB809  ,Active Status Bit 809" "Not active,Active"
bitfld.long 0x00 8. "  ASB808  ,Active Status Bit 808" "Not active,Active"
textline "                                 "
bitfld.long 0x00 7. " ASB807  ,Active Status Bit 807" "Not active,Active"
bitfld.long 0x00 6. "  ASB806  ,Active Status Bit 806" "Not active,Active"
bitfld.long 0x00 5. "  ASB805  ,Active Status Bit 805" "Not active,Active"
textline "                                 "
bitfld.long 0x00 4. " ASB804  ,Active Status Bit 804" "Not active,Active"
bitfld.long 0x00 3. "  ASB803  ,Active Status Bit 803" "Not active,Active"
bitfld.long 0x00 2. "  ASB802  ,Active Status Bit 802" "Not active,Active"
textline "                                 "
bitfld.long 0x00 1. " ASB801  ,Active Status Bit 801" "Not active,Active"
bitfld.long 0x00 0. "  ASB800  ,Active Status Bit 800" "Not active,Active"
else
hgroup.long 0x0364++0x03
hide.long 0x0 "GICD_ICDABR25,Active Status Register 25"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1A)
rgroup.long 0x0368++0x03
line.long 0x0 "GICD_ICDABR26,Active Status Register 26"
bitfld.long 0x00 31. " ASB863  ,Active Status Bit 863" "Not active,Active"
bitfld.long 0x00 30. "  ASB862  ,Active Status Bit 862" "Not active,Active"
bitfld.long 0x00 29. "  ASB861  ,Active Status Bit 861" "Not active,Active"
textline "                                 "
bitfld.long 0x00 28. " ASB860  ,Active Status Bit 860" "Not active,Active"
bitfld.long 0x00 27. "  ASB859  ,Active Status Bit 859" "Not active,Active"
bitfld.long 0x00 26. "  ASB858  ,Active Status Bit 858" "Not active,Active"
textline "                                 "
bitfld.long 0x00 25. " ASB857  ,Active Status Bit 857" "Not active,Active"
bitfld.long 0x00 24. "  ASB856  ,Active Status Bit 856" "Not active,Active"
bitfld.long 0x00 23. "  ASB855  ,Active Status Bit 855" "Not active,Active"
textline "                                 "
bitfld.long 0x00 22. " ASB854  ,Active Status Bit 854" "Not active,Active"
bitfld.long 0x00 21. "  ASB853  ,Active Status Bit 853" "Not active,Active"
bitfld.long 0x00 20. "  ASB852  ,Active Status Bit 852" "Not active,Active"
textline "                                 "
bitfld.long 0x00 19. " ASB851  ,Active Status Bit 851" "Not active,Active"
bitfld.long 0x00 18. "  ASB850  ,Active Status Bit 850" "Not active,Active"
bitfld.long 0x00 17. "  ASB849  ,Active Status Bit 849" "Not active,Active"
textline "                                 "
bitfld.long 0x00 16. " ASB848  ,Active Status Bit 848" "Not active,Active"
bitfld.long 0x00 15. "  ASB847  ,Active Status Bit 847" "Not active,Active"
bitfld.long 0x00 14. "  ASB846  ,Active Status Bit 846" "Not active,Active"
textline "                                 "
bitfld.long 0x00 13. " ASB845  ,Active Status Bit 845" "Not active,Active"
bitfld.long 0x00 12. "  ASB844  ,Active Status Bit 844" "Not active,Active"
bitfld.long 0x00 11. "  ASB843  ,Active Status Bit 843" "Not active,Active"
textline "                                 "
bitfld.long 0x00 10. " ASB842  ,Active Status Bit 842" "Not active,Active"
bitfld.long 0x00 9. "  ASB841  ,Active Status Bit 841" "Not active,Active"
bitfld.long 0x00 8. "  ASB840  ,Active Status Bit 840" "Not active,Active"
textline "                                 "
bitfld.long 0x00 7. " ASB839  ,Active Status Bit 839" "Not active,Active"
bitfld.long 0x00 6. "  ASB838  ,Active Status Bit 838" "Not active,Active"
bitfld.long 0x00 5. "  ASB837  ,Active Status Bit 837" "Not active,Active"
textline "                                 "
bitfld.long 0x00 4. " ASB836  ,Active Status Bit 836" "Not active,Active"
bitfld.long 0x00 3. "  ASB835  ,Active Status Bit 835" "Not active,Active"
bitfld.long 0x00 2. "  ASB834  ,Active Status Bit 834" "Not active,Active"
textline "                                 "
bitfld.long 0x00 1. " ASB833  ,Active Status Bit 833" "Not active,Active"
bitfld.long 0x00 0. "  ASB832  ,Active Status Bit 832" "Not active,Active"
else
hgroup.long 0x0368++0x03
hide.long 0x0 "GICD_ICDABR26,Active Status Register 26"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1B)
rgroup.long 0x036C++0x03
line.long 0x0 "GICD_ICDABR27,Active Status Register 27"
bitfld.long 0x00 31. " ASB895  ,Active Status Bit 895" "Not active,Active"
bitfld.long 0x00 30. "  ASB894  ,Active Status Bit 894" "Not active,Active"
bitfld.long 0x00 29. "  ASB893  ,Active Status Bit 893" "Not active,Active"
textline "                                 "
bitfld.long 0x00 28. " ASB892  ,Active Status Bit 892" "Not active,Active"
bitfld.long 0x00 27. "  ASB891  ,Active Status Bit 891" "Not active,Active"
bitfld.long 0x00 26. "  ASB890  ,Active Status Bit 890" "Not active,Active"
textline "                                 "
bitfld.long 0x00 25. " ASB889  ,Active Status Bit 889" "Not active,Active"
bitfld.long 0x00 24. "  ASB888  ,Active Status Bit 888" "Not active,Active"
bitfld.long 0x00 23. "  ASB887  ,Active Status Bit 887" "Not active,Active"
textline "                                 "
bitfld.long 0x00 22. " ASB886  ,Active Status Bit 886" "Not active,Active"
bitfld.long 0x00 21. "  ASB885  ,Active Status Bit 885" "Not active,Active"
bitfld.long 0x00 20. "  ASB884  ,Active Status Bit 884" "Not active,Active"
textline "                                 "
bitfld.long 0x00 19. " ASB883  ,Active Status Bit 883" "Not active,Active"
bitfld.long 0x00 18. "  ASB882  ,Active Status Bit 882" "Not active,Active"
bitfld.long 0x00 17. "  ASB881  ,Active Status Bit 881" "Not active,Active"
textline "                                 "
bitfld.long 0x00 16. " ASB880  ,Active Status Bit 880" "Not active,Active"
bitfld.long 0x00 15. "  ASB879  ,Active Status Bit 879" "Not active,Active"
bitfld.long 0x00 14. "  ASB878  ,Active Status Bit 878" "Not active,Active"
textline "                                 "
bitfld.long 0x00 13. " ASB877  ,Active Status Bit 877" "Not active,Active"
bitfld.long 0x00 12. "  ASB876  ,Active Status Bit 876" "Not active,Active"
bitfld.long 0x00 11. "  ASB875  ,Active Status Bit 875" "Not active,Active"
textline "                                 "
bitfld.long 0x00 10. " ASB874  ,Active Status Bit 874" "Not active,Active"
bitfld.long 0x00 9. "  ASB873  ,Active Status Bit 873" "Not active,Active"
bitfld.long 0x00 8. "  ASB872  ,Active Status Bit 872" "Not active,Active"
textline "                                 "
bitfld.long 0x00 7. " ASB871  ,Active Status Bit 871" "Not active,Active"
bitfld.long 0x00 6. "  ASB870  ,Active Status Bit 870" "Not active,Active"
bitfld.long 0x00 5. "  ASB869  ,Active Status Bit 869" "Not active,Active"
textline "                                 "
bitfld.long 0x00 4. " ASB868  ,Active Status Bit 868" "Not active,Active"
bitfld.long 0x00 3. "  ASB867  ,Active Status Bit 867" "Not active,Active"
bitfld.long 0x00 2. "  ASB866  ,Active Status Bit 866" "Not active,Active"
textline "                                 "
bitfld.long 0x00 1. " ASB865  ,Active Status Bit 865" "Not active,Active"
bitfld.long 0x00 0. "  ASB864  ,Active Status Bit 864" "Not active,Active"
else
hgroup.long 0x036C++0x03
hide.long 0x0 "GICD_ICDABR27,Active Status Register 27"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1C)
rgroup.long 0x0370++0x03
line.long 0x0 "GICD_ICDABR28,Active Status Register 28"
bitfld.long 0x00 31. " ASB927  ,Active Status Bit 927" "Not active,Active"
bitfld.long 0x00 30. "  ASB926  ,Active Status Bit 926" "Not active,Active"
bitfld.long 0x00 29. "  ASB925  ,Active Status Bit 925" "Not active,Active"
textline "                                 "
bitfld.long 0x00 28. " ASB924  ,Active Status Bit 924" "Not active,Active"
bitfld.long 0x00 27. "  ASB923  ,Active Status Bit 923" "Not active,Active"
bitfld.long 0x00 26. "  ASB922  ,Active Status Bit 922" "Not active,Active"
textline "                                 "
bitfld.long 0x00 25. " ASB921  ,Active Status Bit 921" "Not active,Active"
bitfld.long 0x00 24. "  ASB920  ,Active Status Bit 920" "Not active,Active"
bitfld.long 0x00 23. "  ASB919  ,Active Status Bit 919" "Not active,Active"
textline "                                 "
bitfld.long 0x00 22. " ASB918  ,Active Status Bit 918" "Not active,Active"
bitfld.long 0x00 21. "  ASB917  ,Active Status Bit 917" "Not active,Active"
bitfld.long 0x00 20. "  ASB916  ,Active Status Bit 916" "Not active,Active"
textline "                                 "
bitfld.long 0x00 19. " ASB915  ,Active Status Bit 915" "Not active,Active"
bitfld.long 0x00 18. "  ASB914  ,Active Status Bit 914" "Not active,Active"
bitfld.long 0x00 17. "  ASB913  ,Active Status Bit 913" "Not active,Active"
textline "                                 "
bitfld.long 0x00 16. " ASB912  ,Active Status Bit 912" "Not active,Active"
bitfld.long 0x00 15. "  ASB911  ,Active Status Bit 911" "Not active,Active"
bitfld.long 0x00 14. "  ASB910  ,Active Status Bit 910" "Not active,Active"
textline "                                 "
bitfld.long 0x00 13. " ASB909  ,Active Status Bit 909" "Not active,Active"
bitfld.long 0x00 12. "  ASB908  ,Active Status Bit 908" "Not active,Active"
bitfld.long 0x00 11. "  ASB907  ,Active Status Bit 907" "Not active,Active"
textline "                                 "
bitfld.long 0x00 10. " ASB906  ,Active Status Bit 906" "Not active,Active"
bitfld.long 0x00 9. "  ASB905  ,Active Status Bit 905" "Not active,Active"
bitfld.long 0x00 8. "  ASB904  ,Active Status Bit 904" "Not active,Active"
textline "                                 "
bitfld.long 0x00 7. " ASB903  ,Active Status Bit 903" "Not active,Active"
bitfld.long 0x00 6. "  ASB902  ,Active Status Bit 902" "Not active,Active"
bitfld.long 0x00 5. "  ASB901  ,Active Status Bit 901" "Not active,Active"
textline "                                 "
bitfld.long 0x00 4. " ASB900  ,Active Status Bit 900" "Not active,Active"
bitfld.long 0x00 3. "  ASB899  ,Active Status Bit 899" "Not active,Active"
bitfld.long 0x00 2. "  ASB898  ,Active Status Bit 898" "Not active,Active"
textline "                                 "
bitfld.long 0x00 1. " ASB897  ,Active Status Bit 897" "Not active,Active"
bitfld.long 0x00 0. "  ASB896  ,Active Status Bit 896" "Not active,Active"
else
hgroup.long 0x0370++0x03
hide.long 0x0 "GICD_ICDABR28,Active Status Register 28"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1D)
rgroup.long 0x0374++0x03
line.long 0x0 "GICD_ICDABR29,Active Status Register 29"
bitfld.long 0x00 31. " ASB959  ,Active Status Bit 959" "Not active,Active"
bitfld.long 0x00 30. "  ASB958  ,Active Status Bit 958" "Not active,Active"
bitfld.long 0x00 29. "  ASB957  ,Active Status Bit 957" "Not active,Active"
textline "                                 "
bitfld.long 0x00 28. " ASB956  ,Active Status Bit 956" "Not active,Active"
bitfld.long 0x00 27. "  ASB955  ,Active Status Bit 955" "Not active,Active"
bitfld.long 0x00 26. "  ASB954  ,Active Status Bit 954" "Not active,Active"
textline "                                 "
bitfld.long 0x00 25. " ASB953  ,Active Status Bit 953" "Not active,Active"
bitfld.long 0x00 24. "  ASB952  ,Active Status Bit 952" "Not active,Active"
bitfld.long 0x00 23. "  ASB951  ,Active Status Bit 951" "Not active,Active"
textline "                                 "
bitfld.long 0x00 22. " ASB950  ,Active Status Bit 950" "Not active,Active"
bitfld.long 0x00 21. "  ASB949  ,Active Status Bit 949" "Not active,Active"
bitfld.long 0x00 20. "  ASB948  ,Active Status Bit 948" "Not active,Active"
textline "                                 "
bitfld.long 0x00 19. " ASB947  ,Active Status Bit 947" "Not active,Active"
bitfld.long 0x00 18. "  ASB946  ,Active Status Bit 946" "Not active,Active"
bitfld.long 0x00 17. "  ASB945  ,Active Status Bit 945" "Not active,Active"
textline "                                 "
bitfld.long 0x00 16. " ASB944  ,Active Status Bit 944" "Not active,Active"
bitfld.long 0x00 15. "  ASB943  ,Active Status Bit 943" "Not active,Active"
bitfld.long 0x00 14. "  ASB942  ,Active Status Bit 942" "Not active,Active"
textline "                                 "
bitfld.long 0x00 13. " ASB941  ,Active Status Bit 941" "Not active,Active"
bitfld.long 0x00 12. "  ASB940  ,Active Status Bit 940" "Not active,Active"
bitfld.long 0x00 11. "  ASB939  ,Active Status Bit 939" "Not active,Active"
textline "                                 "
bitfld.long 0x00 10. " ASB938  ,Active Status Bit 938" "Not active,Active"
bitfld.long 0x00 9. "  ASB937  ,Active Status Bit 937" "Not active,Active"
bitfld.long 0x00 8. "  ASB936  ,Active Status Bit 936" "Not active,Active"
textline "                                 "
bitfld.long 0x00 7. " ASB935  ,Active Status Bit 935" "Not active,Active"
bitfld.long 0x00 6. "  ASB934  ,Active Status Bit 934" "Not active,Active"
bitfld.long 0x00 5. "  ASB933  ,Active Status Bit 933" "Not active,Active"
textline "                                 "
bitfld.long 0x00 4. " ASB932  ,Active Status Bit 932" "Not active,Active"
bitfld.long 0x00 3. "  ASB931  ,Active Status Bit 931" "Not active,Active"
bitfld.long 0x00 2. "  ASB930  ,Active Status Bit 930" "Not active,Active"
textline "                                 "
bitfld.long 0x00 1. " ASB929  ,Active Status Bit 929" "Not active,Active"
bitfld.long 0x00 0. "  ASB928  ,Active Status Bit 928" "Not active,Active"
else
hgroup.long 0x0374++0x03
hide.long 0x0 "GICD_ICDABR29,Active Status Register 29"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1E)
rgroup.long 0x0378++0x03
line.long 0x0 "GICD_ICDABR30,Active Status Register 30"
bitfld.long 0x00 31. " ASB991  ,Active Status Bit 991" "Not active,Active"
bitfld.long 0x00 30. "  ASB990  ,Active Status Bit 990" "Not active,Active"
bitfld.long 0x00 29. "  ASB989  ,Active Status Bit 989" "Not active,Active"
textline "                                 "
bitfld.long 0x00 28. " ASB988  ,Active Status Bit 988" "Not active,Active"
bitfld.long 0x00 27. "  ASB987  ,Active Status Bit 987" "Not active,Active"
bitfld.long 0x00 26. "  ASB986  ,Active Status Bit 986" "Not active,Active"
textline "                                 "
bitfld.long 0x00 25. " ASB985  ,Active Status Bit 985" "Not active,Active"
bitfld.long 0x00 24. "  ASB984  ,Active Status Bit 984" "Not active,Active"
bitfld.long 0x00 23. "  ASB983  ,Active Status Bit 983" "Not active,Active"
textline "                                 "
bitfld.long 0x00 22. " ASB982  ,Active Status Bit 982" "Not active,Active"
bitfld.long 0x00 21. "  ASB981  ,Active Status Bit 981" "Not active,Active"
bitfld.long 0x00 20. "  ASB980  ,Active Status Bit 980" "Not active,Active"
textline "                                 "
bitfld.long 0x00 19. " ASB979  ,Active Status Bit 979" "Not active,Active"
bitfld.long 0x00 18. "  ASB978  ,Active Status Bit 978" "Not active,Active"
bitfld.long 0x00 17. "  ASB977  ,Active Status Bit 977" "Not active,Active"
textline "                                 "
bitfld.long 0x00 16. " ASB976  ,Active Status Bit 976" "Not active,Active"
bitfld.long 0x00 15. "  ASB975  ,Active Status Bit 975" "Not active,Active"
bitfld.long 0x00 14. "  ASB974  ,Active Status Bit 974" "Not active,Active"
textline "                                 "
bitfld.long 0x00 13. " ASB973  ,Active Status Bit 973" "Not active,Active"
bitfld.long 0x00 12. "  ASB972  ,Active Status Bit 972" "Not active,Active"
bitfld.long 0x00 11. "  ASB971  ,Active Status Bit 971" "Not active,Active"
textline "                                 "
bitfld.long 0x00 10. " ASB970  ,Active Status Bit 970" "Not active,Active"
bitfld.long 0x00 9. "  ASB969  ,Active Status Bit 969" "Not active,Active"
bitfld.long 0x00 8. "  ASB968  ,Active Status Bit 968" "Not active,Active"
textline "                                 "
bitfld.long 0x00 7. " ASB967  ,Active Status Bit 967" "Not active,Active"
bitfld.long 0x00 6. "  ASB966  ,Active Status Bit 966" "Not active,Active"
bitfld.long 0x00 5. "  ASB965  ,Active Status Bit 965" "Not active,Active"
textline "                                 "
bitfld.long 0x00 4. " ASB964  ,Active Status Bit 964" "Not active,Active"
bitfld.long 0x00 3. "  ASB963  ,Active Status Bit 963" "Not active,Active"
bitfld.long 0x00 2. "  ASB962  ,Active Status Bit 962" "Not active,Active"
textline "                                 "
bitfld.long 0x00 1. " ASB961  ,Active Status Bit 961" "Not active,Active"
bitfld.long 0x00 0. "  ASB960  ,Active Status Bit 960" "Not active,Active"
else
hgroup.long 0x0378++0x03
hide.long 0x0 "GICD_ICDABR30,Active Status Register 30"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)==0x1F)
rgroup.long 0x037C++0x03
line.long 0x0 "GICD_ICDABR31,Active Status Register 31"
bitfld.long 0x00 27. " ASB1019 ,Active Status Bit 1019" "Not active,Active"
bitfld.long 0x00 26. "  ASB1018 ,Active Status Bit 1018" "Not active,Active"
textline "                                 "
bitfld.long 0x00 25. " ASB1017 ,Active Status Bit 1017" "Not active,Active"
bitfld.long 0x00 24. "  ASB1016 ,Active Status Bit 1016" "Not active,Active"
bitfld.long 0x00 23. "  ASB1015 ,Active Status Bit 1015" "Not active,Active"
textline "                                 "
bitfld.long 0x00 22. " ASB1014 ,Active Status Bit 1014" "Not active,Active"
bitfld.long 0x00 21. "  ASB1013 ,Active Status Bit 1013" "Not active,Active"
bitfld.long 0x00 20. "  ASB1012 ,Active Status Bit 1012" "Not active,Active"
textline "                                 "
bitfld.long 0x00 19. " ASB1011 ,Active Status Bit 1011" "Not active,Active"
bitfld.long 0x00 18. "  ASB1010 ,Active Status Bit 1010" "Not active,Active"
bitfld.long 0x00 17. "  ASB1009 ,Active Status Bit 1009" "Not active,Active"
textline "                                 "
bitfld.long 0x00 16. " ASB1008 ,Active Status Bit 1008" "Not active,Active"
bitfld.long 0x00 15. "  ASB1007 ,Active Status Bit 1007" "Not active,Active"
bitfld.long 0x00 14. "  ASB1006 ,Active Status Bit 1006" "Not active,Active"
textline "                                 "
bitfld.long 0x00 13. " ASB1005 ,Active Status Bit 1005" "Not active,Active"
bitfld.long 0x00 12. "  ASB1004 ,Active Status Bit 1004" "Not active,Active"
bitfld.long 0x00 11. "  ASB1003 ,Active Status Bit 1003" "Not active,Active"
textline "                                 "
bitfld.long 0x00 10. " ASB1002 ,Active Status Bit 1002" "Not active,Active"
bitfld.long 0x00 9. "  ASB1001 ,Active Status Bit 1001" "Not active,Active"
bitfld.long 0x00 8. "  ASB1000 ,Active Status Bit 1000" "Not active,Active"
textline "                                 "
bitfld.long 0x00 7. " ASB999  ,Active Status Bit 999" "Not active,Active"
bitfld.long 0x00 6. "  ASB998  ,Active Status Bit 998" "Not active,Active"
bitfld.long 0x00 5. "  ASB997  ,Active Status Bit 997" "Not active,Active"
textline "                                 "
bitfld.long 0x00 4. " ASB996  ,Active Status Bit 996" "Not active,Active"
bitfld.long 0x00 3. "  ASB995  ,Active Status Bit 995" "Not active,Active"
bitfld.long 0x00 2. "  ASB994  ,Active Status Bit 994" "Not active,Active"
textline "                                 "
bitfld.long 0x00 1. " ASB993  ,Active Status Bit 993" "Not active,Active"
bitfld.long 0x00 0. "  ASB992  ,Active Status Bit 992" "Not active,Active"
else
hgroup.long 0x037C++0x03
hide.long 0x0 "GICD_ICDABR31,Active Status Register 31"
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
textline "                                 "
endif
tree.end
width 20.
tree "Priority Registers"
group.long 0x400++0x03
line.long 0x00 "GICD_IPRIORITYR0,Interrupt Priority Register 0"
hexmask.long.byte 0x00 24.--31. 1. " INTID3    ,Interrupt ID3    Priority/Priority Byte Offset 3   "
hexmask.long.byte 0x00 16.--23. 1. "  INTID2    ,Interrupt ID2     Priority/Priority Byte Offset 2   "
hexmask.long.byte 0x00 8.--15. 1. "  INTID1    ,Interrupt ID1    Priority/Priority Byte Offset 1   "
hexmask.long.byte 0x00 0.--7. 1. "  INTID0    ,Interrupt ID0     Priority/Priority Byte Offset 0   "
group.long 0x404++0x03
line.long 0x00 "GICD_IPRIORITYR1,Interrupt Priority Register 1"
hexmask.long.byte 0x00 24.--31. 1. " INTID7    ,Interrupt ID7    Priority/Priority Byte Offset 7   "
hexmask.long.byte 0x00 16.--23. 1. "  INTID6    ,Interrupt ID6     Priority/Priority Byte Offset 6   "
hexmask.long.byte 0x00 8.--15. 1. "  INTID5    ,Interrupt ID5    Priority/Priority Byte Offset 5   "
hexmask.long.byte 0x00 0.--7. 1. "  INTID4    ,Interrupt ID4     Priority/Priority Byte Offset 4   "
group.long 0x408++0x03
line.long 0x00 "GICD_IPRIORITYR2,Interrupt Priority Register 2"
hexmask.long.byte 0x00 24.--31. 1. " INTID11   ,Interrupt ID11   Priority/Priority Byte Offset 11  "
hexmask.long.byte 0x00 16.--23. 1. "  INTID10   ,Interrupt ID10    Priority/Priority Byte Offset 10  "
hexmask.long.byte 0x00 8.--15. 1. "  INTID9    ,Interrupt ID9    Priority/Priority Byte Offset 9   "
hexmask.long.byte 0x00 0.--7. 1. "  INTID8    ,Interrupt ID8     Priority/Priority Byte Offset 8   "
group.long 0x40C++0x03
line.long 0x00 "GICD_IPRIORITYR3,Interrupt Priority Register 3"
hexmask.long.byte 0x00 24.--31. 1. " INTID15   ,Interrupt ID15   Priority/Priority Byte Offset 15  "
hexmask.long.byte 0x00 16.--23. 1. "  INTID14   ,Interrupt ID14    Priority/Priority Byte Offset 14  "
hexmask.long.byte 0x00 8.--15. 1. "  INTID13   ,Interrupt ID13   Priority/Priority Byte Offset 13  "
hexmask.long.byte 0x00 0.--7. 1. "  INTID12   ,Interrupt ID12    Priority/Priority Byte Offset 12  "
group.long 0x410++0x03
line.long 0x00 "GICD_IPRIORITYR4,Interrupt Priority Register 4"
hexmask.long.byte 0x00 24.--31. 1. " INTID19   ,Interrupt ID19   Priority/Priority Byte Offset 19  "
hexmask.long.byte 0x00 16.--23. 1. "  INTID18   ,Interrupt ID18    Priority/Priority Byte Offset 18  "
hexmask.long.byte 0x00 8.--15. 1. "  INTID17   ,Interrupt ID17   Priority/Priority Byte Offset 17  "
hexmask.long.byte 0x00 0.--7. 1. "  INTID16   ,Interrupt ID16    Priority/Priority Byte Offset 16  "
group.long 0x414++0x03
line.long 0x00 "GICD_IPRIORITYR5,Interrupt Priority Register 5"
hexmask.long.byte 0x00 24.--31. 1. " INTID23   ,Interrupt ID23   Priority/Priority Byte Offset 23  "
hexmask.long.byte 0x00 16.--23. 1. "  INTID22   ,Interrupt ID22    Priority/Priority Byte Offset 22  "
hexmask.long.byte 0x00 8.--15. 1. "  INTID21   ,Interrupt ID21   Priority/Priority Byte Offset 21  "
hexmask.long.byte 0x00 0.--7. 1. "  INTID20   ,Interrupt ID20    Priority/Priority Byte Offset 20  "
group.long 0x418++0x03
line.long 0x00 "GICD_IPRIORITYR6,Interrupt Priority Register 6"
hexmask.long.byte 0x00 24.--31. 1. " INTID27   ,Interrupt ID27   Priority/Priority Byte Offset 27  "
hexmask.long.byte 0x00 16.--23. 1. "  INTID26   ,Interrupt ID26    Priority/Priority Byte Offset 26  "
hexmask.long.byte 0x00 8.--15. 1. "  INTID25   ,Interrupt ID25   Priority/Priority Byte Offset 25  "
hexmask.long.byte 0x00 0.--7. 1. "  INTID24   ,Interrupt ID24    Priority/Priority Byte Offset 24  "
group.long 0x41C++0x03
line.long 0x00 "GICD_IPRIORITYR7,Interrupt Priority Register 7"
hexmask.long.byte 0x00 24.--31. 1. " INTID31   ,Interrupt ID31   Priority/Priority Byte Offset 31  "
hexmask.long.byte 0x00 16.--23. 1. "  INTID30   ,Interrupt ID30    Priority/Priority Byte Offset 30  "
hexmask.long.byte 0x00 8.--15. 1. "  INTID29   ,Interrupt ID29   Priority/Priority Byte Offset 29  "
hexmask.long.byte 0x00 0.--7. 1. "  INTID28   ,Interrupt ID28    Priority/Priority Byte Offset 28  "
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x01)
group.long 0x420++0x03
line.long 0x00 "GICD_IPRIORITYR8,Interrupt Priority Register 8"
hexmask.long.byte 0x00 24.--31. 1. " INTID35   ,Interrupt ID35   Priority/Priority Byte Offset 35  "
hexmask.long.byte 0x00 16.--23. 1. "  INTID34   ,Interrupt ID34    Priority/Priority Byte Offset 34  "
hexmask.long.byte 0x00 8.--15. 1. "  INTID33   ,Interrupt ID33   Priority/Priority Byte Offset 33  "
hexmask.long.byte 0x00 0.--7. 1. "  INTID32   ,Interrupt ID32    Priority/Priority Byte Offset 32  "
group.long 0x424++0x03
line.long 0x00 "GICD_IPRIORITYR9,Interrupt Priority Register 9"
hexmask.long.byte 0x00 24.--31. 1. " INTID39   ,Interrupt ID39   Priority/Priority Byte Offset 39  "
hexmask.long.byte 0x00 16.--23. 1. "  INTID38   ,Interrupt ID38    Priority/Priority Byte Offset 38  "
hexmask.long.byte 0x00 8.--15. 1. "  INTID37   ,Interrupt ID37   Priority/Priority Byte Offset 37  "
hexmask.long.byte 0x00 0.--7. 1. "  INTID36   ,Interrupt ID36    Priority/Priority Byte Offset 36  "
group.long 0x428++0x03
line.long 0x00 "GICD_IPRIORITYR10,Interrupt Priority Register 10"
hexmask.long.byte 0x00 24.--31. 1. " INTID43   ,Interrupt ID43   Priority/Priority Byte Offset 43  "
hexmask.long.byte 0x00 16.--23. 1. "  INTID42   ,Interrupt ID42    Priority/Priority Byte Offset 42  "
hexmask.long.byte 0x00 8.--15. 1. "  INTID41   ,Interrupt ID41   Priority/Priority Byte Offset 41  "
hexmask.long.byte 0x00 0.--7. 1. "  INTID40   ,Interrupt ID40    Priority/Priority Byte Offset 40  "
group.long 0x42C++0x03
line.long 0x00 "GICD_IPRIORITYR11,Interrupt Priority Register 11"
hexmask.long.byte 0x00 24.--31. 1. " INTID47   ,Interrupt ID47   Priority/Priority Byte Offset 47  "
hexmask.long.byte 0x00 16.--23. 1. "  INTID46   ,Interrupt ID46    Priority/Priority Byte Offset 46  "
hexmask.long.byte 0x00 8.--15. 1. "  INTID45   ,Interrupt ID45   Priority/Priority Byte Offset 45  "
hexmask.long.byte 0x00 0.--7. 1. "  INTID44   ,Interrupt ID44    Priority/Priority Byte Offset 44  "
group.long 0x430++0x03
line.long 0x00 "GICD_IPRIORITYR12,Interrupt Priority Register 12"
hexmask.long.byte 0x00 24.--31. 1. " INTID51   ,Interrupt ID51   Priority/Priority Byte Offset 51  "
hexmask.long.byte 0x00 16.--23. 1. "  INTID50   ,Interrupt ID50    Priority/Priority Byte Offset 50  "
hexmask.long.byte 0x00 8.--15. 1. "  INTID49   ,Interrupt ID49   Priority/Priority Byte Offset 49  "
hexmask.long.byte 0x00 0.--7. 1. "  INTID48   ,Interrupt ID48    Priority/Priority Byte Offset 48  "
group.long 0x434++0x03
line.long 0x00 "GICD_IPRIORITYR13,Interrupt Priority Register 13"
hexmask.long.byte 0x00 24.--31. 1. " INTID55   ,Interrupt ID55   Priority/Priority Byte Offset 55  "
hexmask.long.byte 0x00 16.--23. 1. "  INTID54   ,Interrupt ID54    Priority/Priority Byte Offset 54  "
hexmask.long.byte 0x00 8.--15. 1. "  INTID53   ,Interrupt ID53   Priority/Priority Byte Offset 53  "
hexmask.long.byte 0x00 0.--7. 1. "  INTID52   ,Interrupt ID52    Priority/Priority Byte Offset 52  "
group.long 0x438++0x03
line.long 0x00 "GICD_IPRIORITYR14,Interrupt Priority Register 14"
hexmask.long.byte 0x00 24.--31. 1. " INTID59   ,Interrupt ID59   Priority/Priority Byte Offset 59  "
hexmask.long.byte 0x00 16.--23. 1. "  INTID58   ,Interrupt ID58    Priority/Priority Byte Offset 58  "
hexmask.long.byte 0x00 8.--15. 1. "  INTID57   ,Interrupt ID57   Priority/Priority Byte Offset 57  "
hexmask.long.byte 0x00 0.--7. 1. "  INTID56   ,Interrupt ID56    Priority/Priority Byte Offset 56  "
group.long 0x43C++0x03
line.long 0x00 "GICD_IPRIORITYR15,Interrupt Priority Register 15"
hexmask.long.byte 0x00 24.--31. 1. " INTID63   ,Interrupt ID63   Priority/Priority Byte Offset 63  "
hexmask.long.byte 0x00 16.--23. 1. "  INTID62   ,Interrupt ID62    Priority/Priority Byte Offset 62  "
hexmask.long.byte 0x00 8.--15. 1. "  INTID61   ,Interrupt ID61   Priority/Priority Byte Offset 61  "
hexmask.long.byte 0x00 0.--7. 1. "  INTID60   ,Interrupt ID60    Priority/Priority Byte Offset 60  "
else
hgroup.long 0x420++0x03
hide.long 0x00 "GICD_IPRIORITYR8,Interrupt Priority Register 8"
hgroup.long 0x424++0x03
hide.long 0x00 "GICD_IPRIORITYR9,Interrupt Priority Register 9"
hgroup.long 0x428++0x03
hide.long 0x00 "GICD_IPRIORITYR10,Interrupt Priority Register 10"
hgroup.long 0x42C++0x03
hide.long 0x00 "GICD_IPRIORITYR11,Interrupt Priority Register 11"
hgroup.long 0x430++0x03
hide.long 0x00 "GICD_IPRIORITYR12,Interrupt Priority Register 12"
hgroup.long 0x434++0x03
hide.long 0x00 "GICD_IPRIORITYR13,Interrupt Priority Register 13"
hgroup.long 0x438++0x03
hide.long 0x00 "GICD_IPRIORITYR14,Interrupt Priority Register 14"
hgroup.long 0x43C++0x03
hide.long 0x00 "GICD_IPRIORITYR15,Interrupt Priority Register 15"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x02)
group.long 0x440++0x03
line.long 0x00 "GICD_IPRIORITYR16,Interrupt Priority Register 16"
hexmask.long.byte 0x00 24.--31. 1. " INTID67   ,Interrupt ID67   Priority/Priority Byte Offset 67  "
hexmask.long.byte 0x00 16.--23. 1. "  INTID66   ,Interrupt ID66    Priority/Priority Byte Offset 66  "
hexmask.long.byte 0x00 8.--15. 1. "  INTID65   ,Interrupt ID65   Priority/Priority Byte Offset 65  "
hexmask.long.byte 0x00 0.--7. 1. "  INTID64   ,Interrupt ID64    Priority/Priority Byte Offset 64  "
group.long 0x444++0x03
line.long 0x00 "GICD_IPRIORITYR17,Interrupt Priority Register 17"
hexmask.long.byte 0x00 24.--31. 1. " INTID71   ,Interrupt ID71   Priority/Priority Byte Offset 71  "
hexmask.long.byte 0x00 16.--23. 1. "  INTID70   ,Interrupt ID70    Priority/Priority Byte Offset 70  "
hexmask.long.byte 0x00 8.--15. 1. "  INTID69   ,Interrupt ID69   Priority/Priority Byte Offset 69  "
hexmask.long.byte 0x00 0.--7. 1. "  INTID68   ,Interrupt ID68    Priority/Priority Byte Offset 68  "
group.long 0x448++0x03
line.long 0x00 "GICD_IPRIORITYR18,Interrupt Priority Register 18"
hexmask.long.byte 0x00 24.--31. 1. " INTID75   ,Interrupt ID75   Priority/Priority Byte Offset 75  "
hexmask.long.byte 0x00 16.--23. 1. "  INTID74   ,Interrupt ID74    Priority/Priority Byte Offset 74  "
hexmask.long.byte 0x00 8.--15. 1. "  INTID73   ,Interrupt ID73   Priority/Priority Byte Offset 73  "
hexmask.long.byte 0x00 0.--7. 1. "  INTID72   ,Interrupt ID72    Priority/Priority Byte Offset 72  "
group.long 0x44C++0x03
line.long 0x00 "GICD_IPRIORITYR19,Interrupt Priority Register 19"
hexmask.long.byte 0x00 24.--31. 1. " INTID79   ,Interrupt ID79   Priority/Priority Byte Offset 79  "
hexmask.long.byte 0x00 16.--23. 1. "  INTID78   ,Interrupt ID78    Priority/Priority Byte Offset 78  "
hexmask.long.byte 0x00 8.--15. 1. "  INTID77   ,Interrupt ID77   Priority/Priority Byte Offset 77  "
hexmask.long.byte 0x00 0.--7. 1. "  INTID76   ,Interrupt ID76    Priority/Priority Byte Offset 76  "
group.long 0x450++0x03
line.long 0x00 "GICD_IPRIORITYR20,Interrupt Priority Register 20"
hexmask.long.byte 0x00 24.--31. 1. " INTID83   ,Interrupt ID83   Priority/Priority Byte Offset 83  "
hexmask.long.byte 0x00 16.--23. 1. "  INTID82   ,Interrupt ID82    Priority/Priority Byte Offset 82  "
hexmask.long.byte 0x00 8.--15. 1. "  INTID81   ,Interrupt ID81   Priority/Priority Byte Offset 81  "
hexmask.long.byte 0x00 0.--7. 1. "  INTID80   ,Interrupt ID80    Priority/Priority Byte Offset 80  "
group.long 0x454++0x03
line.long 0x00 "GICD_IPRIORITYR21,Interrupt Priority Register 21"
hexmask.long.byte 0x00 24.--31. 1. " INTID87   ,Interrupt ID87   Priority/Priority Byte Offset 87  "
hexmask.long.byte 0x00 16.--23. 1. "  INTID86   ,Interrupt ID86    Priority/Priority Byte Offset 86  "
hexmask.long.byte 0x00 8.--15. 1. "  INTID85   ,Interrupt ID85   Priority/Priority Byte Offset 85  "
hexmask.long.byte 0x00 0.--7. 1. "  INTID84   ,Interrupt ID84    Priority/Priority Byte Offset 84  "
group.long 0x458++0x03
line.long 0x00 "GICD_IPRIORITYR22,Interrupt Priority Register 22"
hexmask.long.byte 0x00 24.--31. 1. " INTID91   ,Interrupt ID91   Priority/Priority Byte Offset 91  "
hexmask.long.byte 0x00 16.--23. 1. "  INTID90   ,Interrupt ID90    Priority/Priority Byte Offset 90  "
hexmask.long.byte 0x00 8.--15. 1. "  INTID89   ,Interrupt ID89   Priority/Priority Byte Offset 89  "
hexmask.long.byte 0x00 0.--7. 1. "  INTID88   ,Interrupt ID88    Priority/Priority Byte Offset 88  "
group.long 0x45C++0x03
line.long 0x00 "GICD_IPRIORITYR23,Interrupt Priority Register 23"
hexmask.long.byte 0x00 24.--31. 1. " INTID95   ,Interrupt ID95   Priority/Priority Byte Offset 95  "
hexmask.long.byte 0x00 16.--23. 1. "  INTID94   ,Interrupt ID94    Priority/Priority Byte Offset 94  "
hexmask.long.byte 0x00 8.--15. 1. "  INTID93   ,Interrupt ID93   Priority/Priority Byte Offset 93  "
hexmask.long.byte 0x00 0.--7. 1. "  INTID92   ,Interrupt ID92    Priority/Priority Byte Offset 92  "
else
hgroup.long 0x440++0x03
hide.long 0x00 "GICD_IPRIORITYR16,Interrupt Priority Register 16"
hgroup.long 0x444++0x03
hide.long 0x00 "GICD_IPRIORITYR17,Interrupt Priority Register 17"
hgroup.long 0x448++0x03
hide.long 0x00 "GICD_IPRIORITYR18,Interrupt Priority Register 18"
hgroup.long 0x44C++0x03
hide.long 0x00 "GICD_IPRIORITYR19,Interrupt Priority Register 19"
hgroup.long 0x450++0x03
hide.long 0x00 "GICD_IPRIORITYR20,Interrupt Priority Register 20"
hgroup.long 0x454++0x03
hide.long 0x00 "GICD_IPRIORITYR21,Interrupt Priority Register 21"
hgroup.long 0x458++0x03
hide.long 0x00 "GICD_IPRIORITYR22,Interrupt Priority Register 22"
hgroup.long 0x45C++0x03
hide.long 0x00 "GICD_IPRIORITYR23,Interrupt Priority Register 23"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x03)
group.long 0x460++0x03
line.long 0x00 "GICD_IPRIORITYR24,Interrupt Priority Register 24"
hexmask.long.byte 0x00 24.--31. 1. " INTID99   ,Interrupt ID99   Priority/Priority Byte Offset 99  "
hexmask.long.byte 0x00 16.--23. 1. "  INTID98   ,Interrupt ID98    Priority/Priority Byte Offset 98  "
hexmask.long.byte 0x00 8.--15. 1. "  INTID97   ,Interrupt ID97   Priority/Priority Byte Offset 97  "
hexmask.long.byte 0x00 0.--7. 1. "  INTID96   ,Interrupt ID96    Priority/Priority Byte Offset 96  "
group.long 0x464++0x03
line.long 0x00 "GICD_IPRIORITYR25,Interrupt Priority Register 25"
hexmask.long.byte 0x00 24.--31. 1. " INTID103  ,Interrupt ID103  Priority/Priority Byte Offset 103 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID102  ,Interrupt ID102   Priority/Priority Byte Offset 102 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID101  ,Interrupt ID101  Priority/Priority Byte Offset 101 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID100  ,Interrupt ID100   Priority/Priority Byte Offset 100 "
group.long 0x468++0x03
line.long 0x00 "GICD_IPRIORITYR26,Interrupt Priority Register 26"
hexmask.long.byte 0x00 24.--31. 1. " INTID107  ,Interrupt ID107  Priority/Priority Byte Offset 107 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID106  ,Interrupt ID106   Priority/Priority Byte Offset 106 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID105  ,Interrupt ID105  Priority/Priority Byte Offset 105 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID104  ,Interrupt ID104   Priority/Priority Byte Offset 104 "
group.long 0x46C++0x03
line.long 0x00 "GICD_IPRIORITYR27,Interrupt Priority Register 27"
hexmask.long.byte 0x00 24.--31. 1. " INTID111  ,Interrupt ID111  Priority/Priority Byte Offset 111 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID110  ,Interrupt ID110   Priority/Priority Byte Offset 110 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID109  ,Interrupt ID109  Priority/Priority Byte Offset 109 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID108  ,Interrupt ID108   Priority/Priority Byte Offset 108 "
group.long 0x470++0x03
line.long 0x00 "GICD_IPRIORITYR28,Interrupt Priority Register 28"
hexmask.long.byte 0x00 24.--31. 1. " INTID115  ,Interrupt ID115  Priority/Priority Byte Offset 115 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID114  ,Interrupt ID114   Priority/Priority Byte Offset 114 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID113  ,Interrupt ID113  Priority/Priority Byte Offset 113 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID112  ,Interrupt ID112   Priority/Priority Byte Offset 112 "
group.long 0x474++0x03
line.long 0x00 "GICD_IPRIORITYR29,Interrupt Priority Register 29"
hexmask.long.byte 0x00 24.--31. 1. " INTID119  ,Interrupt ID119  Priority/Priority Byte Offset 119 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID118  ,Interrupt ID118   Priority/Priority Byte Offset 118 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID117  ,Interrupt ID117  Priority/Priority Byte Offset 117 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID116  ,Interrupt ID116   Priority/Priority Byte Offset 116 "
group.long 0x478++0x03
line.long 0x00 "GICD_IPRIORITYR30,Interrupt Priority Register 30"
hexmask.long.byte 0x00 24.--31. 1. " INTID123  ,Interrupt ID123  Priority/Priority Byte Offset 123 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID122  ,Interrupt ID122   Priority/Priority Byte Offset 122 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID121  ,Interrupt ID121  Priority/Priority Byte Offset 121 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID120  ,Interrupt ID120   Priority/Priority Byte Offset 120 "
group.long 0x47C++0x03
line.long 0x00 "GICD_IPRIORITYR31,Interrupt Priority Register 31"
hexmask.long.byte 0x00 24.--31. 1. " INTID127  ,Interrupt ID127  Priority/Priority Byte Offset 127 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID126  ,Interrupt ID126   Priority/Priority Byte Offset 126 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID125  ,Interrupt ID125  Priority/Priority Byte Offset 125 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID124  ,Interrupt ID124   Priority/Priority Byte Offset 124 "
else
hgroup.long 0x460++0x03
hide.long 0x00 "GICD_IPRIORITYR24,Interrupt Priority Register 24"
hgroup.long 0x464++0x03
hide.long 0x00 "GICD_IPRIORITYR25,Interrupt Priority Register 25"
hgroup.long 0x468++0x03
hide.long 0x00 "GICD_IPRIORITYR26,Interrupt Priority Register 26"
hgroup.long 0x46C++0x03
hide.long 0x00 "GICD_IPRIORITYR27,Interrupt Priority Register 27"
hgroup.long 0x470++0x03
hide.long 0x00 "GICD_IPRIORITYR28,Interrupt Priority Register 28"
hgroup.long 0x474++0x03
hide.long 0x00 "GICD_IPRIORITYR29,Interrupt Priority Register 29"
hgroup.long 0x478++0x03
hide.long 0x00 "GICD_IPRIORITYR30,Interrupt Priority Register 30"
hgroup.long 0x47C++0x03
hide.long 0x00 "GICD_IPRIORITYR31,Interrupt Priority Register 31"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x04)
group.long 0x480++0x03
line.long 0x00 "GICD_IPRIORITYR32,Interrupt Priority Register 32"
hexmask.long.byte 0x00 24.--31. 1. " INTID131  ,Interrupt ID131  Priority/Priority Byte Offset 131 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID130  ,Interrupt ID130   Priority/Priority Byte Offset 130 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID129  ,Interrupt ID129  Priority/Priority Byte Offset 129 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID128  ,Interrupt ID128   Priority/Priority Byte Offset 128 "
group.long 0x484++0x03
line.long 0x00 "GICD_IPRIORITYR33,Interrupt Priority Register 33"
hexmask.long.byte 0x00 24.--31. 1. " INTID135  ,Interrupt ID135  Priority/Priority Byte Offset 135 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID134  ,Interrupt ID134   Priority/Priority Byte Offset 134 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID133  ,Interrupt ID133  Priority/Priority Byte Offset 133 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID132  ,Interrupt ID132   Priority/Priority Byte Offset 132 "
group.long 0x488++0x03
line.long 0x00 "GICD_IPRIORITYR34,Interrupt Priority Register 34"
hexmask.long.byte 0x00 24.--31. 1. " INTID139  ,Interrupt ID139  Priority/Priority Byte Offset 139 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID138  ,Interrupt ID138   Priority/Priority Byte Offset 138 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID137  ,Interrupt ID137  Priority/Priority Byte Offset 137 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID136  ,Interrupt ID136   Priority/Priority Byte Offset 136 "
group.long 0x48C++0x03
line.long 0x00 "GICD_IPRIORITYR35,Interrupt Priority Register 35"
hexmask.long.byte 0x00 24.--31. 1. " INTID143  ,Interrupt ID143  Priority/Priority Byte Offset 143 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID142  ,Interrupt ID142   Priority/Priority Byte Offset 142 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID141  ,Interrupt ID141  Priority/Priority Byte Offset 141 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID140  ,Interrupt ID140   Priority/Priority Byte Offset 140 "
group.long 0x490++0x03
line.long 0x00 "GICD_IPRIORITYR36,Interrupt Priority Register 36"
hexmask.long.byte 0x00 24.--31. 1. " INTID147  ,Interrupt ID147  Priority/Priority Byte Offset 147 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID146  ,Interrupt ID146   Priority/Priority Byte Offset 146 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID145  ,Interrupt ID145  Priority/Priority Byte Offset 145 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID144  ,Interrupt ID144   Priority/Priority Byte Offset 144 "
group.long 0x494++0x03
line.long 0x00 "GICD_IPRIORITYR37,Interrupt Priority Register 37"
hexmask.long.byte 0x00 24.--31. 1. " INTID151  ,Interrupt ID151  Priority/Priority Byte Offset 151 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID150  ,Interrupt ID150   Priority/Priority Byte Offset 150 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID149  ,Interrupt ID149  Priority/Priority Byte Offset 149 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID148  ,Interrupt ID148   Priority/Priority Byte Offset 148 "
group.long 0x498++0x03
line.long 0x00 "GICD_IPRIORITYR38,Interrupt Priority Register 38"
hexmask.long.byte 0x00 24.--31. 1. " INTID155  ,Interrupt ID155  Priority/Priority Byte Offset 155 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID154  ,Interrupt ID154   Priority/Priority Byte Offset 154 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID153  ,Interrupt ID153  Priority/Priority Byte Offset 153 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID152  ,Interrupt ID152   Priority/Priority Byte Offset 152 "
group.long 0x49C++0x03
line.long 0x00 "GICD_IPRIORITYR39,Interrupt Priority Register 39"
hexmask.long.byte 0x00 24.--31. 1. " INTID159  ,Interrupt ID159  Priority/Priority Byte Offset 159 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID158  ,Interrupt ID158   Priority/Priority Byte Offset 158 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID157  ,Interrupt ID157  Priority/Priority Byte Offset 157 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID156  ,Interrupt ID156   Priority/Priority Byte Offset 156 "
else
hgroup.long 0x480++0x03
hide.long 0x00 "GICD_IPRIORITYR32,Interrupt Priority Register 32"
hgroup.long 0x484++0x03
hide.long 0x00 "GICD_IPRIORITYR33,Interrupt Priority Register 33"
hgroup.long 0x488++0x03
hide.long 0x00 "GICD_IPRIORITYR34,Interrupt Priority Register 34"
hgroup.long 0x48C++0x03
hide.long 0x00 "GICD_IPRIORITYR35,Interrupt Priority Register 35"
hgroup.long 0x490++0x03
hide.long 0x00 "GICD_IPRIORITYR36,Interrupt Priority Register 36"
hgroup.long 0x494++0x03
hide.long 0x00 "GICD_IPRIORITYR37,Interrupt Priority Register 37"
hgroup.long 0x498++0x03
hide.long 0x00 "GICD_IPRIORITYR38,Interrupt Priority Register 38"
hgroup.long 0x49C++0x03
hide.long 0x00 "GICD_IPRIORITYR39,Interrupt Priority Register 39"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x05)
group.long 0x4A0++0x03
line.long 0x00 "GICD_IPRIORITYR40,Interrupt Priority Register 40"
hexmask.long.byte 0x00 24.--31. 1. " INTID163  ,Interrupt ID163  Priority/Priority Byte Offset 163 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID162  ,Interrupt ID162   Priority/Priority Byte Offset 162 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID161  ,Interrupt ID161  Priority/Priority Byte Offset 161 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID160  ,Interrupt ID160   Priority/Priority Byte Offset 160 "
group.long 0x4A4++0x03
line.long 0x00 "GICD_IPRIORITYR41,Interrupt Priority Register 41"
hexmask.long.byte 0x00 24.--31. 1. " INTID167  ,Interrupt ID167  Priority/Priority Byte Offset 167 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID166  ,Interrupt ID166   Priority/Priority Byte Offset 166 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID165  ,Interrupt ID165  Priority/Priority Byte Offset 165 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID164  ,Interrupt ID164   Priority/Priority Byte Offset 164 "
group.long 0x4A8++0x03
line.long 0x00 "GICD_IPRIORITYR42,Interrupt Priority Register 42"
hexmask.long.byte 0x00 24.--31. 1. " INTID171  ,Interrupt ID171  Priority/Priority Byte Offset 171 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID170  ,Interrupt ID170   Priority/Priority Byte Offset 170 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID169  ,Interrupt ID169  Priority/Priority Byte Offset 169 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID168  ,Interrupt ID168   Priority/Priority Byte Offset 168 "
group.long 0x4AC++0x03
line.long 0x00 "GICD_IPRIORITYR43,Interrupt Priority Register 43"
hexmask.long.byte 0x00 24.--31. 1. " INTID175  ,Interrupt ID175  Priority/Priority Byte Offset 175 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID174  ,Interrupt ID174   Priority/Priority Byte Offset 174 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID173  ,Interrupt ID173  Priority/Priority Byte Offset 173 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID172  ,Interrupt ID172   Priority/Priority Byte Offset 172 "
group.long 0x4B0++0x03
line.long 0x00 "GICD_IPRIORITYR44,Interrupt Priority Register 44"
hexmask.long.byte 0x00 24.--31. 1. " INTID179  ,Interrupt ID179  Priority/Priority Byte Offset 179 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID178  ,Interrupt ID178   Priority/Priority Byte Offset 178 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID177  ,Interrupt ID177  Priority/Priority Byte Offset 177 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID176  ,Interrupt ID176   Priority/Priority Byte Offset 176 "
group.long 0x4B4++0x03
line.long 0x00 "GICD_IPRIORITYR45,Interrupt Priority Register 45"
hexmask.long.byte 0x00 24.--31. 1. " INTID183  ,Interrupt ID183  Priority/Priority Byte Offset 183 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID182  ,Interrupt ID182   Priority/Priority Byte Offset 182 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID181  ,Interrupt ID181  Priority/Priority Byte Offset 181 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID180  ,Interrupt ID180   Priority/Priority Byte Offset 180 "
group.long 0x4B8++0x03
line.long 0x00 "GICD_IPRIORITYR46,Interrupt Priority Register 46"
hexmask.long.byte 0x00 24.--31. 1. " INTID187  ,Interrupt ID187  Priority/Priority Byte Offset 187 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID186  ,Interrupt ID186   Priority/Priority Byte Offset 186 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID185  ,Interrupt ID185  Priority/Priority Byte Offset 185 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID184  ,Interrupt ID184   Priority/Priority Byte Offset 184 "
group.long 0x4BC++0x03
line.long 0x00 "GICD_IPRIORITYR47,Interrupt Priority Register 47"
hexmask.long.byte 0x00 24.--31. 1. " INTID191  ,Interrupt ID191  Priority/Priority Byte Offset 191 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID190  ,Interrupt ID190   Priority/Priority Byte Offset 190 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID189  ,Interrupt ID189  Priority/Priority Byte Offset 189 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID188  ,Interrupt ID188   Priority/Priority Byte Offset 188 "
else
hgroup.long 0x4A0++0x03
hide.long 0x00 "GICD_IPRIORITYR40,Interrupt Priority Register 40"
hgroup.long 0x4A4++0x03
hide.long 0x00 "GICD_IPRIORITYR41,Interrupt Priority Register 41"
hgroup.long 0x4A8++0x03
hide.long 0x00 "GICD_IPRIORITYR42,Interrupt Priority Register 42"
hgroup.long 0x4AC++0x03
hide.long 0x00 "GICD_IPRIORITYR43,Interrupt Priority Register 43"
hgroup.long 0x4B0++0x03
hide.long 0x00 "GICD_IPRIORITYR44,Interrupt Priority Register 44"
hgroup.long 0x4B4++0x03
hide.long 0x00 "GICD_IPRIORITYR45,Interrupt Priority Register 45"
hgroup.long 0x4B8++0x03
hide.long 0x00 "GICD_IPRIORITYR46,Interrupt Priority Register 46"
hgroup.long 0x4BC++0x03
hide.long 0x00 "GICD_IPRIORITYR47,Interrupt Priority Register 47"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x06)
group.long 0x4C0++0x03
line.long 0x00 "GICD_IPRIORITYR48,Interrupt Priority Register 48"
hexmask.long.byte 0x00 24.--31. 1. " INTID195  ,Interrupt ID195  Priority/Priority Byte Offset 195 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID194  ,Interrupt ID194   Priority/Priority Byte Offset 194 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID193  ,Interrupt ID193  Priority/Priority Byte Offset 193 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID192  ,Interrupt ID192   Priority/Priority Byte Offset 192 "
group.long 0x4C4++0x03
line.long 0x00 "GICD_IPRIORITYR49,Interrupt Priority Register 49"
hexmask.long.byte 0x00 24.--31. 1. " INTID199  ,Interrupt ID199  Priority/Priority Byte Offset 199 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID198  ,Interrupt ID198   Priority/Priority Byte Offset 198 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID197  ,Interrupt ID197  Priority/Priority Byte Offset 197 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID196  ,Interrupt ID196   Priority/Priority Byte Offset 196 "
group.long 0x4C8++0x03
line.long 0x00 "GICD_IPRIORITYR50,Interrupt Priority Register 50"
hexmask.long.byte 0x00 24.--31. 1. " INTID203  ,Interrupt ID203  Priority/Priority Byte Offset 203 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID202  ,Interrupt ID202   Priority/Priority Byte Offset 202 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID201  ,Interrupt ID201  Priority/Priority Byte Offset 201 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID200  ,Interrupt ID200   Priority/Priority Byte Offset 200 "
group.long 0x4CC++0x03
line.long 0x00 "GICD_IPRIORITYR51,Interrupt Priority Register 51"
hexmask.long.byte 0x00 24.--31. 1. " INTID207  ,Interrupt ID207  Priority/Priority Byte Offset 207 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID206  ,Interrupt ID206   Priority/Priority Byte Offset 206 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID205  ,Interrupt ID205  Priority/Priority Byte Offset 205 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID204  ,Interrupt ID204   Priority/Priority Byte Offset 204 "
group.long 0x4D0++0x03
line.long 0x00 "GICD_IPRIORITYR52,Interrupt Priority Register 52"
hexmask.long.byte 0x00 24.--31. 1. " INTID211  ,Interrupt ID211  Priority/Priority Byte Offset 211 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID210  ,Interrupt ID210   Priority/Priority Byte Offset 210 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID209  ,Interrupt ID209  Priority/Priority Byte Offset 209 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID208  ,Interrupt ID208   Priority/Priority Byte Offset 208 "
group.long 0x4D4++0x03
line.long 0x00 "GICD_IPRIORITYR53,Interrupt Priority Register 53"
hexmask.long.byte 0x00 24.--31. 1. " INTID215  ,Interrupt ID215  Priority/Priority Byte Offset 215 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID214  ,Interrupt ID214   Priority/Priority Byte Offset 214 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID213  ,Interrupt ID213  Priority/Priority Byte Offset 213 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID212  ,Interrupt ID212   Priority/Priority Byte Offset 212 "
group.long 0x4D8++0x03
line.long 0x00 "GICD_IPRIORITYR54,Interrupt Priority Register 54"
hexmask.long.byte 0x00 24.--31. 1. " INTID219  ,Interrupt ID219  Priority/Priority Byte Offset 219 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID218  ,Interrupt ID218   Priority/Priority Byte Offset 218 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID217  ,Interrupt ID217  Priority/Priority Byte Offset 217 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID216  ,Interrupt ID216   Priority/Priority Byte Offset 216 "
group.long 0x4DC++0x03
line.long 0x00 "GICD_IPRIORITYR55,Interrupt Priority Register 55"
hexmask.long.byte 0x00 24.--31. 1. " INTID223  ,Interrupt ID223  Priority/Priority Byte Offset 223 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID222  ,Interrupt ID222   Priority/Priority Byte Offset 222 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID221  ,Interrupt ID221  Priority/Priority Byte Offset 221 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID220  ,Interrupt ID220   Priority/Priority Byte Offset 220 "
else
hgroup.long 0x4C0++0x03
hide.long 0x00 "GICD_IPRIORITYR48,Interrupt Priority Register 48"
hgroup.long 0x4C4++0x03
hide.long 0x00 "GICD_IPRIORITYR49,Interrupt Priority Register 49"
hgroup.long 0x4C8++0x03
hide.long 0x00 "GICD_IPRIORITYR50,Interrupt Priority Register 50"
hgroup.long 0x4CC++0x03
hide.long 0x00 "GICD_IPRIORITYR51,Interrupt Priority Register 51"
hgroup.long 0x4D0++0x03
hide.long 0x00 "GICD_IPRIORITYR52,Interrupt Priority Register 52"
hgroup.long 0x4D4++0x03
hide.long 0x00 "GICD_IPRIORITYR53,Interrupt Priority Register 53"
hgroup.long 0x4D8++0x03
hide.long 0x00 "GICD_IPRIORITYR54,Interrupt Priority Register 54"
hgroup.long 0x4DC++0x03
hide.long 0x00 "GICD_IPRIORITYR55,Interrupt Priority Register 55"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x07)
group.long 0x4E0++0x03
line.long 0x00 "GICD_IPRIORITYR56,Interrupt Priority Register 56"
hexmask.long.byte 0x00 24.--31. 1. " INTID227  ,Interrupt ID227  Priority/Priority Byte Offset 227 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID226  ,Interrupt ID226   Priority/Priority Byte Offset 226 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID225  ,Interrupt ID225  Priority/Priority Byte Offset 225 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID224  ,Interrupt ID224   Priority/Priority Byte Offset 224 "
group.long 0x4E4++0x03
line.long 0x00 "GICD_IPRIORITYR57,Interrupt Priority Register 57"
hexmask.long.byte 0x00 24.--31. 1. " INTID231  ,Interrupt ID231  Priority/Priority Byte Offset 231 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID230  ,Interrupt ID230   Priority/Priority Byte Offset 230 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID229  ,Interrupt ID229  Priority/Priority Byte Offset 229 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID228  ,Interrupt ID228   Priority/Priority Byte Offset 228 "
group.long 0x4E8++0x03
line.long 0x00 "GICD_IPRIORITYR58,Interrupt Priority Register 58"
hexmask.long.byte 0x00 24.--31. 1. " INTID235  ,Interrupt ID235  Priority/Priority Byte Offset 235 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID234  ,Interrupt ID234   Priority/Priority Byte Offset 234 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID233  ,Interrupt ID233  Priority/Priority Byte Offset 233 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID232  ,Interrupt ID232   Priority/Priority Byte Offset 232 "
group.long 0x4EC++0x03
line.long 0x00 "GICD_IPRIORITYR59,Interrupt Priority Register 59"
hexmask.long.byte 0x00 24.--31. 1. " INTID239  ,Interrupt ID239  Priority/Priority Byte Offset 239 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID238  ,Interrupt ID238   Priority/Priority Byte Offset 238 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID237  ,Interrupt ID237  Priority/Priority Byte Offset 237 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID236  ,Interrupt ID236   Priority/Priority Byte Offset 236 "
group.long 0x4F0++0x03
line.long 0x00 "GICD_IPRIORITYR60,Interrupt Priority Register 60"
hexmask.long.byte 0x00 24.--31. 1. " INTID243  ,Interrupt ID243  Priority/Priority Byte Offset 243 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID242  ,Interrupt ID242   Priority/Priority Byte Offset 242 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID241  ,Interrupt ID241  Priority/Priority Byte Offset 241 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID240  ,Interrupt ID240   Priority/Priority Byte Offset 240 "
group.long 0x4F4++0x03
line.long 0x00 "GICD_IPRIORITYR61,Interrupt Priority Register 61"
hexmask.long.byte 0x00 24.--31. 1. " INTID247  ,Interrupt ID247  Priority/Priority Byte Offset 247 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID246  ,Interrupt ID246   Priority/Priority Byte Offset 246 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID245  ,Interrupt ID245  Priority/Priority Byte Offset 245 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID244  ,Interrupt ID244   Priority/Priority Byte Offset 244 "
group.long 0x4F8++0x03
line.long 0x00 "GICD_IPRIORITYR62,Interrupt Priority Register 62"
hexmask.long.byte 0x00 24.--31. 1. " INTID251  ,Interrupt ID251  Priority/Priority Byte Offset 251 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID250  ,Interrupt ID250   Priority/Priority Byte Offset 250 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID249  ,Interrupt ID249  Priority/Priority Byte Offset 249 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID248  ,Interrupt ID248   Priority/Priority Byte Offset 248 "
group.long 0x4FC++0x03
line.long 0x00 "GICD_IPRIORITYR63,Interrupt Priority Register 63"
hexmask.long.byte 0x00 24.--31. 1. " INTID255  ,Interrupt ID255  Priority/Priority Byte Offset 255 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID254  ,Interrupt ID254   Priority/Priority Byte Offset 254 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID253  ,Interrupt ID253  Priority/Priority Byte Offset 253 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID252  ,Interrupt ID252   Priority/Priority Byte Offset 252 "
else
hgroup.long 0x4E0++0x03
hide.long 0x00 "GICD_IPRIORITYR56,Interrupt Priority Register 56"
hgroup.long 0x4E4++0x03
hide.long 0x00 "GICD_IPRIORITYR57,Interrupt Priority Register 57"
hgroup.long 0x4E8++0x03
hide.long 0x00 "GICD_IPRIORITYR58,Interrupt Priority Register 58"
hgroup.long 0x4EC++0x03
hide.long 0x00 "GICD_IPRIORITYR59,Interrupt Priority Register 59"
hgroup.long 0x4F0++0x03
hide.long 0x00 "GICD_IPRIORITYR60,Interrupt Priority Register 60"
hgroup.long 0x4F4++0x03
hide.long 0x00 "GICD_IPRIORITYR61,Interrupt Priority Register 61"
hgroup.long 0x4F8++0x03
hide.long 0x00 "GICD_IPRIORITYR62,Interrupt Priority Register 62"
hgroup.long 0x4FC++0x03
hide.long 0x00 "GICD_IPRIORITYR63,Interrupt Priority Register 63"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x08)
group.long 0x500++0x03
line.long 0x00 "GICD_IPRIORITYR64,Interrupt Priority Register 64"
hexmask.long.byte 0x00 24.--31. 1. " INTID259  ,Interrupt ID259  Priority/Priority Byte Offset 259 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID258  ,Interrupt ID258   Priority/Priority Byte Offset 258 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID257  ,Interrupt ID257  Priority/Priority Byte Offset 257 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID256  ,Interrupt ID256   Priority/Priority Byte Offset 256 "
group.long 0x504++0x03
line.long 0x00 "GICD_IPRIORITYR65,Interrupt Priority Register 65"
hexmask.long.byte 0x00 24.--31. 1. " INTID263  ,Interrupt ID263  Priority/Priority Byte Offset 263 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID262  ,Interrupt ID262   Priority/Priority Byte Offset 262 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID261  ,Interrupt ID261  Priority/Priority Byte Offset 261 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID260  ,Interrupt ID260   Priority/Priority Byte Offset 260 "
group.long 0x508++0x03
line.long 0x00 "GICD_IPRIORITYR66,Interrupt Priority Register 66"
hexmask.long.byte 0x00 24.--31. 1. " INTID267  ,Interrupt ID267  Priority/Priority Byte Offset 267 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID266  ,Interrupt ID266   Priority/Priority Byte Offset 266 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID265  ,Interrupt ID265  Priority/Priority Byte Offset 265 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID264  ,Interrupt ID264   Priority/Priority Byte Offset 264 "
group.long 0x50C++0x03
line.long 0x00 "GICD_IPRIORITYR67,Interrupt Priority Register 67"
hexmask.long.byte 0x00 24.--31. 1. " INTID271  ,Interrupt ID271  Priority/Priority Byte Offset 271 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID270  ,Interrupt ID270   Priority/Priority Byte Offset 270 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID269  ,Interrupt ID269  Priority/Priority Byte Offset 269 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID268  ,Interrupt ID268   Priority/Priority Byte Offset 268 "
group.long 0x510++0x03
line.long 0x00 "GICD_IPRIORITYR68,Interrupt Priority Register 68"
hexmask.long.byte 0x00 24.--31. 1. " INTID275  ,Interrupt ID275  Priority/Priority Byte Offset 275 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID274  ,Interrupt ID274   Priority/Priority Byte Offset 274 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID273  ,Interrupt ID273  Priority/Priority Byte Offset 273 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID272  ,Interrupt ID272   Priority/Priority Byte Offset 272 "
group.long 0x514++0x03
line.long 0x00 "GICD_IPRIORITYR69,Interrupt Priority Register 69"
hexmask.long.byte 0x00 24.--31. 1. " INTID279  ,Interrupt ID279  Priority/Priority Byte Offset 279 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID278  ,Interrupt ID278   Priority/Priority Byte Offset 278 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID277  ,Interrupt ID277  Priority/Priority Byte Offset 277 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID276  ,Interrupt ID276   Priority/Priority Byte Offset 276 "
group.long 0x518++0x03
line.long 0x00 "GICD_IPRIORITYR70,Interrupt Priority Register 70"
hexmask.long.byte 0x00 24.--31. 1. " INTID283  ,Interrupt ID283  Priority/Priority Byte Offset 283 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID282  ,Interrupt ID282   Priority/Priority Byte Offset 282 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID281  ,Interrupt ID281  Priority/Priority Byte Offset 281 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID280  ,Interrupt ID280   Priority/Priority Byte Offset 280 "
group.long 0x51C++0x03
line.long 0x00 "GICD_IPRIORITYR71,Interrupt Priority Register 71"
hexmask.long.byte 0x00 24.--31. 1. " INTID287  ,Interrupt ID287  Priority/Priority Byte Offset 287 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID286  ,Interrupt ID286   Priority/Priority Byte Offset 286 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID285  ,Interrupt ID285  Priority/Priority Byte Offset 285 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID284  ,Interrupt ID284   Priority/Priority Byte Offset 284 "
else
hgroup.long 0x500++0x03
hide.long 0x00 "GICD_IPRIORITYR64,Interrupt Priority Register 64"
hgroup.long 0x504++0x03
hide.long 0x00 "GICD_IPRIORITYR65,Interrupt Priority Register 65"
hgroup.long 0x508++0x03
hide.long 0x00 "GICD_IPRIORITYR66,Interrupt Priority Register 66"
hgroup.long 0x50C++0x03
hide.long 0x00 "GICD_IPRIORITYR67,Interrupt Priority Register 67"
hgroup.long 0x510++0x03
hide.long 0x00 "GICD_IPRIORITYR68,Interrupt Priority Register 68"
hgroup.long 0x514++0x03
hide.long 0x00 "GICD_IPRIORITYR69,Interrupt Priority Register 69"
hgroup.long 0x518++0x03
hide.long 0x00 "GICD_IPRIORITYR70,Interrupt Priority Register 70"
hgroup.long 0x51C++0x03
hide.long 0x00 "GICD_IPRIORITYR71,Interrupt Priority Register 71"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x09)
group.long 0x520++0x03
line.long 0x00 "GICD_IPRIORITYR72,Interrupt Priority Register 72"
hexmask.long.byte 0x00 24.--31. 1. " INTID291  ,Interrupt ID291  Priority/Priority Byte Offset 291 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID290  ,Interrupt ID290   Priority/Priority Byte Offset 290 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID289  ,Interrupt ID289  Priority/Priority Byte Offset 289 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID288  ,Interrupt ID288   Priority/Priority Byte Offset 288 "
group.long 0x524++0x03
line.long 0x00 "GICD_IPRIORITYR73,Interrupt Priority Register 73"
hexmask.long.byte 0x00 24.--31. 1. " INTID295  ,Interrupt ID295  Priority/Priority Byte Offset 295 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID294  ,Interrupt ID294   Priority/Priority Byte Offset 294 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID293  ,Interrupt ID293  Priority/Priority Byte Offset 293 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID292  ,Interrupt ID292   Priority/Priority Byte Offset 292 "
group.long 0x528++0x03
line.long 0x00 "GICD_IPRIORITYR74,Interrupt Priority Register 74"
hexmask.long.byte 0x00 24.--31. 1. " INTID299  ,Interrupt ID299  Priority/Priority Byte Offset 299 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID298  ,Interrupt ID298   Priority/Priority Byte Offset 298 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID297  ,Interrupt ID297  Priority/Priority Byte Offset 297 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID296  ,Interrupt ID296   Priority/Priority Byte Offset 296 "
group.long 0x52C++0x03
line.long 0x00 "GICD_IPRIORITYR75,Interrupt Priority Register 75"
hexmask.long.byte 0x00 24.--31. 1. " INTID303  ,Interrupt ID303  Priority/Priority Byte Offset 303 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID302  ,Interrupt ID302   Priority/Priority Byte Offset 302 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID301  ,Interrupt ID301  Priority/Priority Byte Offset 301 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID300  ,Interrupt ID300   Priority/Priority Byte Offset 300 "
group.long 0x530++0x03
line.long 0x00 "GICD_IPRIORITYR76,Interrupt Priority Register 76"
hexmask.long.byte 0x00 24.--31. 1. " INTID307  ,Interrupt ID307  Priority/Priority Byte Offset 307 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID306  ,Interrupt ID306   Priority/Priority Byte Offset 306 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID305  ,Interrupt ID305  Priority/Priority Byte Offset 305 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID304  ,Interrupt ID304   Priority/Priority Byte Offset 304 "
group.long 0x534++0x03
line.long 0x00 "GICD_IPRIORITYR77,Interrupt Priority Register 77"
hexmask.long.byte 0x00 24.--31. 1. " INTID311  ,Interrupt ID311  Priority/Priority Byte Offset 311 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID310  ,Interrupt ID310   Priority/Priority Byte Offset 310 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID309  ,Interrupt ID309  Priority/Priority Byte Offset 309 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID308  ,Interrupt ID308   Priority/Priority Byte Offset 308 "
group.long 0x538++0x03
line.long 0x00 "GICD_IPRIORITYR78,Interrupt Priority Register 78"
hexmask.long.byte 0x00 24.--31. 1. " INTID315  ,Interrupt ID315  Priority/Priority Byte Offset 315 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID314  ,Interrupt ID314   Priority/Priority Byte Offset 314 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID313  ,Interrupt ID313  Priority/Priority Byte Offset 313 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID312  ,Interrupt ID312   Priority/Priority Byte Offset 312 "
group.long 0x53C++0x03
line.long 0x00 "GICD_IPRIORITYR79,Interrupt Priority Register 79"
hexmask.long.byte 0x00 24.--31. 1. " INTID319  ,Interrupt ID319  Priority/Priority Byte Offset 319 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID318  ,Interrupt ID318   Priority/Priority Byte Offset 318 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID317  ,Interrupt ID317  Priority/Priority Byte Offset 317 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID316  ,Interrupt ID316   Priority/Priority Byte Offset 316 "
else
hgroup.long 0x520++0x03
hide.long 0x00 "GICD_IPRIORITYR72,Interrupt Priority Register 72"
hgroup.long 0x524++0x03
hide.long 0x00 "GICD_IPRIORITYR73,Interrupt Priority Register 73"
hgroup.long 0x528++0x03
hide.long 0x00 "GICD_IPRIORITYR74,Interrupt Priority Register 74"
hgroup.long 0x52C++0x03
hide.long 0x00 "GICD_IPRIORITYR75,Interrupt Priority Register 75"
hgroup.long 0x530++0x03
hide.long 0x00 "GICD_IPRIORITYR76,Interrupt Priority Register 76"
hgroup.long 0x534++0x03
hide.long 0x00 "GICD_IPRIORITYR77,Interrupt Priority Register 77"
hgroup.long 0x538++0x03
hide.long 0x00 "GICD_IPRIORITYR78,Interrupt Priority Register 78"
hgroup.long 0x53C++0x03
hide.long 0x00 "GICD_IPRIORITYR79,Interrupt Priority Register 79"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0A)
group.long 0x540++0x03
line.long 0x00 "GICD_IPRIORITYR80,Interrupt Priority Register 80"
hexmask.long.byte 0x00 24.--31. 1. " INTID323  ,Interrupt ID323  Priority/Priority Byte Offset 323 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID322  ,Interrupt ID322   Priority/Priority Byte Offset 322 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID321  ,Interrupt ID321  Priority/Priority Byte Offset 321 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID320  ,Interrupt ID320   Priority/Priority Byte Offset 320 "
group.long 0x544++0x03
line.long 0x00 "GICD_IPRIORITYR81,Interrupt Priority Register 81"
hexmask.long.byte 0x00 24.--31. 1. " INTID327  ,Interrupt ID327  Priority/Priority Byte Offset 327 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID326  ,Interrupt ID326   Priority/Priority Byte Offset 326 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID325  ,Interrupt ID325  Priority/Priority Byte Offset 325 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID324  ,Interrupt ID324   Priority/Priority Byte Offset 324 "
group.long 0x548++0x03
line.long 0x00 "GICD_IPRIORITYR82,Interrupt Priority Register 82"
hexmask.long.byte 0x00 24.--31. 1. " INTID331  ,Interrupt ID331  Priority/Priority Byte Offset 331 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID330  ,Interrupt ID330   Priority/Priority Byte Offset 330 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID329  ,Interrupt ID329  Priority/Priority Byte Offset 329 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID328  ,Interrupt ID328   Priority/Priority Byte Offset 328 "
group.long 0x54C++0x03
line.long 0x00 "GICD_IPRIORITYR83,Interrupt Priority Register 83"
hexmask.long.byte 0x00 24.--31. 1. " INTID335  ,Interrupt ID335  Priority/Priority Byte Offset 335 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID334  ,Interrupt ID334   Priority/Priority Byte Offset 334 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID333  ,Interrupt ID333  Priority/Priority Byte Offset 333 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID332  ,Interrupt ID332   Priority/Priority Byte Offset 332 "
group.long 0x550++0x03
line.long 0x00 "GICD_IPRIORITYR84,Interrupt Priority Register 84"
hexmask.long.byte 0x00 24.--31. 1. " INTID339  ,Interrupt ID339  Priority/Priority Byte Offset 339 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID338  ,Interrupt ID338   Priority/Priority Byte Offset 338 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID337  ,Interrupt ID337  Priority/Priority Byte Offset 337 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID336  ,Interrupt ID336   Priority/Priority Byte Offset 336 "
group.long 0x554++0x03
line.long 0x00 "GICD_IPRIORITYR85,Interrupt Priority Register 85"
hexmask.long.byte 0x00 24.--31. 1. " INTID343  ,Interrupt ID343  Priority/Priority Byte Offset 343 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID342  ,Interrupt ID342   Priority/Priority Byte Offset 342 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID341  ,Interrupt ID341  Priority/Priority Byte Offset 341 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID340  ,Interrupt ID340   Priority/Priority Byte Offset 340 "
group.long 0x558++0x03
line.long 0x00 "GICD_IPRIORITYR86,Interrupt Priority Register 86"
hexmask.long.byte 0x00 24.--31. 1. " INTID347  ,Interrupt ID347  Priority/Priority Byte Offset 347 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID346  ,Interrupt ID346   Priority/Priority Byte Offset 346 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID345  ,Interrupt ID345  Priority/Priority Byte Offset 345 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID344  ,Interrupt ID344   Priority/Priority Byte Offset 344 "
group.long 0x55C++0x03
line.long 0x00 "GICD_IPRIORITYR87,Interrupt Priority Register 87"
hexmask.long.byte 0x00 24.--31. 1. " INTID351  ,Interrupt ID351  Priority/Priority Byte Offset 351 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID350  ,Interrupt ID350   Priority/Priority Byte Offset 350 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID349  ,Interrupt ID349  Priority/Priority Byte Offset 349 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID348  ,Interrupt ID348   Priority/Priority Byte Offset 348 "
else
hgroup.long 0x540++0x03
hide.long 0x00 "GICD_IPRIORITYR80,Interrupt Priority Register 80"
hgroup.long 0x544++0x03
hide.long 0x00 "GICD_IPRIORITYR81,Interrupt Priority Register 81"
hgroup.long 0x548++0x03
hide.long 0x00 "GICD_IPRIORITYR82,Interrupt Priority Register 82"
hgroup.long 0x54C++0x03
hide.long 0x00 "GICD_IPRIORITYR83,Interrupt Priority Register 83"
hgroup.long 0x550++0x03
hide.long 0x00 "GICD_IPRIORITYR84,Interrupt Priority Register 84"
hgroup.long 0x554++0x03
hide.long 0x00 "GICD_IPRIORITYR85,Interrupt Priority Register 85"
hgroup.long 0x558++0x03
hide.long 0x00 "GICD_IPRIORITYR86,Interrupt Priority Register 86"
hgroup.long 0x55C++0x03
hide.long 0x00 "GICD_IPRIORITYR87,Interrupt Priority Register 87"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0B)
group.long 0x560++0x03
line.long 0x00 "GICD_IPRIORITYR88,Interrupt Priority Register 88"
hexmask.long.byte 0x00 24.--31. 1. " INTID355  ,Interrupt ID355  Priority/Priority Byte Offset 355 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID354  ,Interrupt ID354   Priority/Priority Byte Offset 354 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID353  ,Interrupt ID353  Priority/Priority Byte Offset 353 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID352  ,Interrupt ID352   Priority/Priority Byte Offset 352 "
group.long 0x564++0x03
line.long 0x00 "GICD_IPRIORITYR89,Interrupt Priority Register 89"
hexmask.long.byte 0x00 24.--31. 1. " INTID359  ,Interrupt ID359  Priority/Priority Byte Offset 359 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID358  ,Interrupt ID358   Priority/Priority Byte Offset 358 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID357  ,Interrupt ID357  Priority/Priority Byte Offset 357 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID356  ,Interrupt ID356   Priority/Priority Byte Offset 356 "
group.long 0x568++0x03
line.long 0x00 "GICD_IPRIORITYR90,Interrupt Priority Register 90"
hexmask.long.byte 0x00 24.--31. 1. " INTID363  ,Interrupt ID363  Priority/Priority Byte Offset 363 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID362  ,Interrupt ID362   Priority/Priority Byte Offset 362 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID361  ,Interrupt ID361  Priority/Priority Byte Offset 361 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID360  ,Interrupt ID360   Priority/Priority Byte Offset 360 "
group.long 0x56C++0x03
line.long 0x00 "GICD_IPRIORITYR91,Interrupt Priority Register 91"
hexmask.long.byte 0x00 24.--31. 1. " INTID367  ,Interrupt ID367  Priority/Priority Byte Offset 367 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID366  ,Interrupt ID366   Priority/Priority Byte Offset 366 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID365  ,Interrupt ID365  Priority/Priority Byte Offset 365 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID364  ,Interrupt ID364   Priority/Priority Byte Offset 364 "
group.long 0x570++0x03
line.long 0x00 "GICD_IPRIORITYR92,Interrupt Priority Register 92"
hexmask.long.byte 0x00 24.--31. 1. " INTID371  ,Interrupt ID371  Priority/Priority Byte Offset 371 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID370  ,Interrupt ID370   Priority/Priority Byte Offset 370 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID369  ,Interrupt ID369  Priority/Priority Byte Offset 369 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID368  ,Interrupt ID368   Priority/Priority Byte Offset 368 "
group.long 0x574++0x03
line.long 0x00 "GICD_IPRIORITYR93,Interrupt Priority Register 93"
hexmask.long.byte 0x00 24.--31. 1. " INTID375  ,Interrupt ID375  Priority/Priority Byte Offset 375 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID374  ,Interrupt ID374   Priority/Priority Byte Offset 374 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID373  ,Interrupt ID373  Priority/Priority Byte Offset 373 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID372  ,Interrupt ID372   Priority/Priority Byte Offset 372 "
group.long 0x578++0x03
line.long 0x00 "GICD_IPRIORITYR94,Interrupt Priority Register 94"
hexmask.long.byte 0x00 24.--31. 1. " INTID379  ,Interrupt ID379  Priority/Priority Byte Offset 379 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID378  ,Interrupt ID378   Priority/Priority Byte Offset 378 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID377  ,Interrupt ID377  Priority/Priority Byte Offset 377 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID376  ,Interrupt ID376   Priority/Priority Byte Offset 376 "
group.long 0x57C++0x03
line.long 0x00 "GICD_IPRIORITYR95,Interrupt Priority Register 95"
hexmask.long.byte 0x00 24.--31. 1. " INTID383  ,Interrupt ID383  Priority/Priority Byte Offset 383 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID382  ,Interrupt ID382   Priority/Priority Byte Offset 382 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID381  ,Interrupt ID381  Priority/Priority Byte Offset 381 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID380  ,Interrupt ID380   Priority/Priority Byte Offset 380 "
else
hgroup.long 0x560++0x03
hide.long 0x00 "GICD_IPRIORITYR88,Interrupt Priority Register 88"
hgroup.long 0x564++0x03
hide.long 0x00 "GICD_IPRIORITYR89,Interrupt Priority Register 89"
hgroup.long 0x568++0x03
hide.long 0x00 "GICD_IPRIORITYR90,Interrupt Priority Register 90"
hgroup.long 0x56C++0x03
hide.long 0x00 "GICD_IPRIORITYR91,Interrupt Priority Register 91"
hgroup.long 0x570++0x03
hide.long 0x00 "GICD_IPRIORITYR92,Interrupt Priority Register 92"
hgroup.long 0x574++0x03
hide.long 0x00 "GICD_IPRIORITYR93,Interrupt Priority Register 93"
hgroup.long 0x578++0x03
hide.long 0x00 "GICD_IPRIORITYR94,Interrupt Priority Register 94"
hgroup.long 0x57C++0x03
hide.long 0x00 "GICD_IPRIORITYR95,Interrupt Priority Register 95"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0C)
group.long 0x580++0x03
line.long 0x00 "GICD_IPRIORITYR96,Interrupt Priority Register 96"
hexmask.long.byte 0x00 24.--31. 1. " INTID387  ,Interrupt ID387  Priority/Priority Byte Offset 387 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID386  ,Interrupt ID386   Priority/Priority Byte Offset 386 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID385  ,Interrupt ID385  Priority/Priority Byte Offset 385 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID384  ,Interrupt ID384   Priority/Priority Byte Offset 384 "
group.long 0x584++0x03
line.long 0x00 "GICD_IPRIORITYR97,Interrupt Priority Register 97"
hexmask.long.byte 0x00 24.--31. 1. " INTID391  ,Interrupt ID391  Priority/Priority Byte Offset 391 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID390  ,Interrupt ID390   Priority/Priority Byte Offset 390 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID389  ,Interrupt ID389  Priority/Priority Byte Offset 389 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID388  ,Interrupt ID388   Priority/Priority Byte Offset 388 "
group.long 0x588++0x03
line.long 0x00 "GICD_IPRIORITYR98,Interrupt Priority Register 98"
hexmask.long.byte 0x00 24.--31. 1. " INTID395  ,Interrupt ID395  Priority/Priority Byte Offset 395 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID394  ,Interrupt ID394   Priority/Priority Byte Offset 394 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID393  ,Interrupt ID393  Priority/Priority Byte Offset 393 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID392  ,Interrupt ID392   Priority/Priority Byte Offset 392 "
group.long 0x58C++0x03
line.long 0x00 "GICD_IPRIORITYR99,Interrupt Priority Register 99"
hexmask.long.byte 0x00 24.--31. 1. " INTID399  ,Interrupt ID399  Priority/Priority Byte Offset 399 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID398  ,Interrupt ID398   Priority/Priority Byte Offset 398 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID397  ,Interrupt ID397  Priority/Priority Byte Offset 397 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID396  ,Interrupt ID396   Priority/Priority Byte Offset 396 "
group.long 0x590++0x03
line.long 0x00 "GICD_IPRIORITYR100,Interrupt Priority Register 100"
hexmask.long.byte 0x00 24.--31. 1. " INTID403  ,Interrupt ID403  Priority/Priority Byte Offset 403 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID402  ,Interrupt ID402   Priority/Priority Byte Offset 402 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID401  ,Interrupt ID401  Priority/Priority Byte Offset 401 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID400  ,Interrupt ID400   Priority/Priority Byte Offset 400 "
group.long 0x594++0x03
line.long 0x00 "GICD_IPRIORITYR101,Interrupt Priority Register 101"
hexmask.long.byte 0x00 24.--31. 1. " INTID407  ,Interrupt ID407  Priority/Priority Byte Offset 407 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID406  ,Interrupt ID406   Priority/Priority Byte Offset 406 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID405  ,Interrupt ID405  Priority/Priority Byte Offset 405 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID404  ,Interrupt ID404   Priority/Priority Byte Offset 404 "
group.long 0x598++0x03
line.long 0x00 "GICD_IPRIORITYR102,Interrupt Priority Register 102"
hexmask.long.byte 0x00 24.--31. 1. " INTID411  ,Interrupt ID411  Priority/Priority Byte Offset 411 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID410  ,Interrupt ID410   Priority/Priority Byte Offset 410 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID409  ,Interrupt ID409  Priority/Priority Byte Offset 409 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID408  ,Interrupt ID408   Priority/Priority Byte Offset 408 "
group.long 0x59C++0x03
line.long 0x00 "GICD_IPRIORITYR103,Interrupt Priority Register 103"
hexmask.long.byte 0x00 24.--31. 1. " INTID415  ,Interrupt ID415  Priority/Priority Byte Offset 415 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID414  ,Interrupt ID414   Priority/Priority Byte Offset 414 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID413  ,Interrupt ID413  Priority/Priority Byte Offset 413 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID412  ,Interrupt ID412   Priority/Priority Byte Offset 412 "
else
hgroup.long 0x580++0x03
hide.long 0x00 "GICD_IPRIORITYR96,Interrupt Priority Register 96"
hgroup.long 0x584++0x03
hide.long 0x00 "GICD_IPRIORITYR97,Interrupt Priority Register 97"
hgroup.long 0x588++0x03
hide.long 0x00 "GICD_IPRIORITYR98,Interrupt Priority Register 98"
hgroup.long 0x58C++0x03
hide.long 0x00 "GICD_IPRIORITYR99,Interrupt Priority Register 99"
hgroup.long 0x590++0x03
hide.long 0x00 "GICD_IPRIORITYR100,Interrupt Priority Register 100"
hgroup.long 0x594++0x03
hide.long 0x00 "GICD_IPRIORITYR101,Interrupt Priority Register 101"
hgroup.long 0x598++0x03
hide.long 0x00 "GICD_IPRIORITYR102,Interrupt Priority Register 102"
hgroup.long 0x59C++0x03
hide.long 0x00 "GICD_IPRIORITYR103,Interrupt Priority Register 103"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0D)
group.long 0x5A0++0x03
line.long 0x00 "GICD_IPRIORITYR104,Interrupt Priority Register 104"
hexmask.long.byte 0x00 24.--31. 1. " INTID419  ,Interrupt ID419  Priority/Priority Byte Offset 419 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID418  ,Interrupt ID418   Priority/Priority Byte Offset 418 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID417  ,Interrupt ID417  Priority/Priority Byte Offset 417 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID416  ,Interrupt ID416   Priority/Priority Byte Offset 416 "
group.long 0x5A4++0x03
line.long 0x00 "GICD_IPRIORITYR105,Interrupt Priority Register 105"
hexmask.long.byte 0x00 24.--31. 1. " INTID423  ,Interrupt ID423  Priority/Priority Byte Offset 423 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID422  ,Interrupt ID422   Priority/Priority Byte Offset 422 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID421  ,Interrupt ID421  Priority/Priority Byte Offset 421 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID420  ,Interrupt ID420   Priority/Priority Byte Offset 420 "
group.long 0x5A8++0x03
line.long 0x00 "GICD_IPRIORITYR106,Interrupt Priority Register 106"
hexmask.long.byte 0x00 24.--31. 1. " INTID427  ,Interrupt ID427  Priority/Priority Byte Offset 427 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID426  ,Interrupt ID426   Priority/Priority Byte Offset 426 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID425  ,Interrupt ID425  Priority/Priority Byte Offset 425 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID424  ,Interrupt ID424   Priority/Priority Byte Offset 424 "
group.long 0x5AC++0x03
line.long 0x00 "GICD_IPRIORITYR107,Interrupt Priority Register 107"
hexmask.long.byte 0x00 24.--31. 1. " INTID431  ,Interrupt ID431  Priority/Priority Byte Offset 431 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID430  ,Interrupt ID430   Priority/Priority Byte Offset 430 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID429  ,Interrupt ID429  Priority/Priority Byte Offset 429 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID428  ,Interrupt ID428   Priority/Priority Byte Offset 428 "
group.long 0x5B0++0x03
line.long 0x00 "GICD_IPRIORITYR108,Interrupt Priority Register 108"
hexmask.long.byte 0x00 24.--31. 1. " INTID435  ,Interrupt ID435  Priority/Priority Byte Offset 435 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID434  ,Interrupt ID434   Priority/Priority Byte Offset 434 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID433  ,Interrupt ID433  Priority/Priority Byte Offset 433 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID432  ,Interrupt ID432   Priority/Priority Byte Offset 432 "
group.long 0x5B4++0x03
line.long 0x00 "GICD_IPRIORITYR109,Interrupt Priority Register 109"
hexmask.long.byte 0x00 24.--31. 1. " INTID439  ,Interrupt ID439  Priority/Priority Byte Offset 439 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID438  ,Interrupt ID438   Priority/Priority Byte Offset 438 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID437  ,Interrupt ID437  Priority/Priority Byte Offset 437 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID436  ,Interrupt ID436   Priority/Priority Byte Offset 436 "
group.long 0x5B8++0x03
line.long 0x00 "GICD_IPRIORITYR110,Interrupt Priority Register 110"
hexmask.long.byte 0x00 24.--31. 1. " INTID443  ,Interrupt ID443  Priority/Priority Byte Offset 443 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID442  ,Interrupt ID442   Priority/Priority Byte Offset 442 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID441  ,Interrupt ID441  Priority/Priority Byte Offset 441 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID440  ,Interrupt ID440   Priority/Priority Byte Offset 440 "
group.long 0x5BC++0x03
line.long 0x00 "GICD_IPRIORITYR111,Interrupt Priority Register 111"
hexmask.long.byte 0x00 24.--31. 1. " INTID447  ,Interrupt ID447  Priority/Priority Byte Offset 447 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID446  ,Interrupt ID446   Priority/Priority Byte Offset 446 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID445  ,Interrupt ID445  Priority/Priority Byte Offset 445 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID444  ,Interrupt ID444   Priority/Priority Byte Offset 444 "
else
hgroup.long 0x5A0++0x03
hide.long 0x00 "GICD_IPRIORITYR104,Interrupt Priority Register 104"
hgroup.long 0x5A4++0x03
hide.long 0x00 "GICD_IPRIORITYR105,Interrupt Priority Register 105"
hgroup.long 0x5A8++0x03
hide.long 0x00 "GICD_IPRIORITYR106,Interrupt Priority Register 106"
hgroup.long 0x5AC++0x03
hide.long 0x00 "GICD_IPRIORITYR107,Interrupt Priority Register 107"
hgroup.long 0x5B0++0x03
hide.long 0x00 "GICD_IPRIORITYR108,Interrupt Priority Register 108"
hgroup.long 0x5B4++0x03
hide.long 0x00 "GICD_IPRIORITYR109,Interrupt Priority Register 109"
hgroup.long 0x5B8++0x03
hide.long 0x00 "GICD_IPRIORITYR110,Interrupt Priority Register 110"
hgroup.long 0x5BC++0x03
hide.long 0x00 "GICD_IPRIORITYR111,Interrupt Priority Register 111"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0E)
group.long 0x5C0++0x03
line.long 0x00 "GICD_IPRIORITYR112,Interrupt Priority Register 112"
hexmask.long.byte 0x00 24.--31. 1. " INTID451  ,Interrupt ID451  Priority/Priority Byte Offset 451 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID450  ,Interrupt ID450   Priority/Priority Byte Offset 450 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID449  ,Interrupt ID449  Priority/Priority Byte Offset 449 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID448  ,Interrupt ID448   Priority/Priority Byte Offset 448 "
group.long 0x5C4++0x03
line.long 0x00 "GICD_IPRIORITYR113,Interrupt Priority Register 113"
hexmask.long.byte 0x00 24.--31. 1. " INTID455  ,Interrupt ID455  Priority/Priority Byte Offset 455 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID454  ,Interrupt ID454   Priority/Priority Byte Offset 454 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID453  ,Interrupt ID453  Priority/Priority Byte Offset 453 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID452  ,Interrupt ID452   Priority/Priority Byte Offset 452 "
group.long 0x5C8++0x03
line.long 0x00 "GICD_IPRIORITYR114,Interrupt Priority Register 114"
hexmask.long.byte 0x00 24.--31. 1. " INTID459  ,Interrupt ID459  Priority/Priority Byte Offset 459 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID458  ,Interrupt ID458   Priority/Priority Byte Offset 458 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID457  ,Interrupt ID457  Priority/Priority Byte Offset 457 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID456  ,Interrupt ID456   Priority/Priority Byte Offset 456 "
group.long 0x5CC++0x03
line.long 0x00 "GICD_IPRIORITYR115,Interrupt Priority Register 115"
hexmask.long.byte 0x00 24.--31. 1. " INTID463  ,Interrupt ID463  Priority/Priority Byte Offset 463 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID462  ,Interrupt ID462   Priority/Priority Byte Offset 462 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID461  ,Interrupt ID461  Priority/Priority Byte Offset 461 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID460  ,Interrupt ID460   Priority/Priority Byte Offset 460 "
group.long 0x5D0++0x03
line.long 0x00 "GICD_IPRIORITYR116,Interrupt Priority Register 116"
hexmask.long.byte 0x00 24.--31. 1. " INTID467  ,Interrupt ID467  Priority/Priority Byte Offset 467 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID466  ,Interrupt ID466   Priority/Priority Byte Offset 466 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID465  ,Interrupt ID465  Priority/Priority Byte Offset 465 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID464  ,Interrupt ID464   Priority/Priority Byte Offset 464 "
group.long 0x5D4++0x03
line.long 0x00 "GICD_IPRIORITYR117,Interrupt Priority Register 117"
hexmask.long.byte 0x00 24.--31. 1. " INTID471  ,Interrupt ID471  Priority/Priority Byte Offset 471 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID470  ,Interrupt ID470   Priority/Priority Byte Offset 470 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID469  ,Interrupt ID469  Priority/Priority Byte Offset 469 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID468  ,Interrupt ID468   Priority/Priority Byte Offset 468 "
group.long 0x5D8++0x03
line.long 0x00 "GICD_IPRIORITYR118,Interrupt Priority Register 118"
hexmask.long.byte 0x00 24.--31. 1. " INTID475  ,Interrupt ID475  Priority/Priority Byte Offset 475 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID474  ,Interrupt ID474   Priority/Priority Byte Offset 474 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID473  ,Interrupt ID473  Priority/Priority Byte Offset 473 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID472  ,Interrupt ID472   Priority/Priority Byte Offset 472 "
group.long 0x5DC++0x03
line.long 0x00 "GICD_IPRIORITYR119,Interrupt Priority Register 119"
hexmask.long.byte 0x00 24.--31. 1. " INTID479  ,Interrupt ID479  Priority/Priority Byte Offset 479 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID478  ,Interrupt ID478   Priority/Priority Byte Offset 478 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID477  ,Interrupt ID477  Priority/Priority Byte Offset 477 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID476  ,Interrupt ID476   Priority/Priority Byte Offset 476 "
else
hgroup.long 0x5C0++0x03
hide.long 0x00 "GICD_IPRIORITYR112,Interrupt Priority Register 112"
hgroup.long 0x5C4++0x03
hide.long 0x00 "GICD_IPRIORITYR113,Interrupt Priority Register 113"
hgroup.long 0x5C8++0x03
hide.long 0x00 "GICD_IPRIORITYR114,Interrupt Priority Register 114"
hgroup.long 0x5CC++0x03
hide.long 0x00 "GICD_IPRIORITYR115,Interrupt Priority Register 115"
hgroup.long 0x5D0++0x03
hide.long 0x00 "GICD_IPRIORITYR116,Interrupt Priority Register 116"
hgroup.long 0x5D4++0x03
hide.long 0x00 "GICD_IPRIORITYR117,Interrupt Priority Register 117"
hgroup.long 0x5D8++0x03
hide.long 0x00 "GICD_IPRIORITYR118,Interrupt Priority Register 118"
hgroup.long 0x5DC++0x03
hide.long 0x00 "GICD_IPRIORITYR119,Interrupt Priority Register 119"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0F)
group.long 0x5E0++0x03
line.long 0x00 "GICD_IPRIORITYR120,Interrupt Priority Register 120"
hexmask.long.byte 0x00 24.--31. 1. " INTID483  ,Interrupt ID483  Priority/Priority Byte Offset 483 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID482  ,Interrupt ID482   Priority/Priority Byte Offset 482 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID481  ,Interrupt ID481  Priority/Priority Byte Offset 481 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID480  ,Interrupt ID480   Priority/Priority Byte Offset 480 "
group.long 0x5E4++0x03
line.long 0x00 "GICD_IPRIORITYR121,Interrupt Priority Register 121"
hexmask.long.byte 0x00 24.--31. 1. " INTID487  ,Interrupt ID487  Priority/Priority Byte Offset 487 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID486  ,Interrupt ID486   Priority/Priority Byte Offset 486 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID485  ,Interrupt ID485  Priority/Priority Byte Offset 485 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID484  ,Interrupt ID484   Priority/Priority Byte Offset 484 "
group.long 0x5E8++0x03
line.long 0x00 "GICD_IPRIORITYR122,Interrupt Priority Register 122"
hexmask.long.byte 0x00 24.--31. 1. " INTID491  ,Interrupt ID491  Priority/Priority Byte Offset 491 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID490  ,Interrupt ID490   Priority/Priority Byte Offset 490 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID489  ,Interrupt ID489  Priority/Priority Byte Offset 489 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID488  ,Interrupt ID488   Priority/Priority Byte Offset 488 "
group.long 0x5EC++0x03
line.long 0x00 "GICD_IPRIORITYR123,Interrupt Priority Register 123"
hexmask.long.byte 0x00 24.--31. 1. " INTID495  ,Interrupt ID495  Priority/Priority Byte Offset 495 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID494  ,Interrupt ID494   Priority/Priority Byte Offset 494 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID493  ,Interrupt ID493  Priority/Priority Byte Offset 493 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID492  ,Interrupt ID492   Priority/Priority Byte Offset 492 "
group.long 0x5F0++0x03
line.long 0x00 "GICD_IPRIORITYR124,Interrupt Priority Register 124"
hexmask.long.byte 0x00 24.--31. 1. " INTID499  ,Interrupt ID499  Priority/Priority Byte Offset 499 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID498  ,Interrupt ID498   Priority/Priority Byte Offset 498 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID497  ,Interrupt ID497  Priority/Priority Byte Offset 497 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID496  ,Interrupt ID496   Priority/Priority Byte Offset 496 "
group.long 0x5F4++0x03
line.long 0x00 "GICD_IPRIORITYR125,Interrupt Priority Register 125"
hexmask.long.byte 0x00 24.--31. 1. " INTID503  ,Interrupt ID503  Priority/Priority Byte Offset 503 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID502  ,Interrupt ID502   Priority/Priority Byte Offset 502 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID501  ,Interrupt ID501  Priority/Priority Byte Offset 501 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID500  ,Interrupt ID500   Priority/Priority Byte Offset 500 "
group.long 0x5F8++0x03
line.long 0x00 "GICD_IPRIORITYR126,Interrupt Priority Register 126"
hexmask.long.byte 0x00 24.--31. 1. " INTID507  ,Interrupt ID507  Priority/Priority Byte Offset 507 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID506  ,Interrupt ID506   Priority/Priority Byte Offset 506 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID505  ,Interrupt ID505  Priority/Priority Byte Offset 505 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID504  ,Interrupt ID504   Priority/Priority Byte Offset 504 "
group.long 0x5FC++0x03
line.long 0x00 "GICD_IPRIORITYR127,Interrupt Priority Register 127"
hexmask.long.byte 0x00 24.--31. 1. " INTID511  ,Interrupt ID511  Priority/Priority Byte Offset 511 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID510  ,Interrupt ID510   Priority/Priority Byte Offset 510 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID509  ,Interrupt ID509  Priority/Priority Byte Offset 509 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID508  ,Interrupt ID508   Priority/Priority Byte Offset 508 "
else
hgroup.long 0x5E0++0x03
hide.long 0x00 "GICD_IPRIORITYR120,Interrupt Priority Register 120"
hgroup.long 0x5E4++0x03
hide.long 0x00 "GICD_IPRIORITYR121,Interrupt Priority Register 121"
hgroup.long 0x5E8++0x03
hide.long 0x00 "GICD_IPRIORITYR122,Interrupt Priority Register 122"
hgroup.long 0x5EC++0x03
hide.long 0x00 "GICD_IPRIORITYR123,Interrupt Priority Register 123"
hgroup.long 0x5F0++0x03
hide.long 0x00 "GICD_IPRIORITYR124,Interrupt Priority Register 124"
hgroup.long 0x5F4++0x03
hide.long 0x00 "GICD_IPRIORITYR125,Interrupt Priority Register 125"
hgroup.long 0x5F8++0x03
hide.long 0x00 "GICD_IPRIORITYR126,Interrupt Priority Register 126"
hgroup.long 0x5FC++0x03
hide.long 0x00 "GICD_IPRIORITYR127,Interrupt Priority Register 127"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x10)
group.long 0x600++0x03
line.long 0x00 "GICD_IPRIORITYR128,Interrupt Priority Register 128"
hexmask.long.byte 0x00 24.--31. 1. " INTID515  ,Interrupt ID515  Priority/Priority Byte Offset 515 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID514  ,Interrupt ID514   Priority/Priority Byte Offset 514 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID513  ,Interrupt ID513  Priority/Priority Byte Offset 513 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID512  ,Interrupt ID512   Priority/Priority Byte Offset 512 "
group.long 0x604++0x03
line.long 0x00 "GICD_IPRIORITYR129,Interrupt Priority Register 129"
hexmask.long.byte 0x00 24.--31. 1. " INTID519  ,Interrupt ID519  Priority/Priority Byte Offset 519 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID518  ,Interrupt ID518   Priority/Priority Byte Offset 518 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID517  ,Interrupt ID517  Priority/Priority Byte Offset 517 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID516  ,Interrupt ID516   Priority/Priority Byte Offset 516 "
group.long 0x608++0x03
line.long 0x00 "GICD_IPRIORITYR130,Interrupt Priority Register 130"
hexmask.long.byte 0x00 24.--31. 1. " INTID523  ,Interrupt ID523  Priority/Priority Byte Offset 523 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID522  ,Interrupt ID522   Priority/Priority Byte Offset 522 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID521  ,Interrupt ID521  Priority/Priority Byte Offset 521 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID520  ,Interrupt ID520   Priority/Priority Byte Offset 520 "
group.long 0x60C++0x03
line.long 0x00 "GICD_IPRIORITYR131,Interrupt Priority Register 131"
hexmask.long.byte 0x00 24.--31. 1. " INTID527  ,Interrupt ID527  Priority/Priority Byte Offset 527 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID526  ,Interrupt ID526   Priority/Priority Byte Offset 526 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID525  ,Interrupt ID525  Priority/Priority Byte Offset 525 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID524  ,Interrupt ID524   Priority/Priority Byte Offset 524 "
group.long 0x610++0x03
line.long 0x00 "GICD_IPRIORITYR132,Interrupt Priority Register 132"
hexmask.long.byte 0x00 24.--31. 1. " INTID531  ,Interrupt ID531  Priority/Priority Byte Offset 531 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID530  ,Interrupt ID530   Priority/Priority Byte Offset 530 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID529  ,Interrupt ID529  Priority/Priority Byte Offset 529 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID528  ,Interrupt ID528   Priority/Priority Byte Offset 528 "
group.long 0x614++0x03
line.long 0x00 "GICD_IPRIORITYR133,Interrupt Priority Register 133"
hexmask.long.byte 0x00 24.--31. 1. " INTID535  ,Interrupt ID535  Priority/Priority Byte Offset 535 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID534  ,Interrupt ID534   Priority/Priority Byte Offset 534 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID533  ,Interrupt ID533  Priority/Priority Byte Offset 533 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID532  ,Interrupt ID532   Priority/Priority Byte Offset 532 "
group.long 0x618++0x03
line.long 0x00 "GICD_IPRIORITYR134,Interrupt Priority Register 134"
hexmask.long.byte 0x00 24.--31. 1. " INTID539  ,Interrupt ID539  Priority/Priority Byte Offset 539 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID538  ,Interrupt ID538   Priority/Priority Byte Offset 538 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID537  ,Interrupt ID537  Priority/Priority Byte Offset 537 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID536  ,Interrupt ID536   Priority/Priority Byte Offset 536 "
group.long 0x61C++0x03
line.long 0x00 "GICD_IPRIORITYR135,Interrupt Priority Register 135"
hexmask.long.byte 0x00 24.--31. 1. " INTID543  ,Interrupt ID543  Priority/Priority Byte Offset 543 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID542  ,Interrupt ID542   Priority/Priority Byte Offset 542 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID541  ,Interrupt ID541  Priority/Priority Byte Offset 541 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID540  ,Interrupt ID540   Priority/Priority Byte Offset 540 "
else
hgroup.long 0x600++0x03
hide.long 0x00 "GICD_IPRIORITYR128,Interrupt Priority Register 128"
hgroup.long 0x604++0x03
hide.long 0x00 "GICD_IPRIORITYR129,Interrupt Priority Register 129"
hgroup.long 0x608++0x03
hide.long 0x00 "GICD_IPRIORITYR130,Interrupt Priority Register 130"
hgroup.long 0x60C++0x03
hide.long 0x00 "GICD_IPRIORITYR131,Interrupt Priority Register 131"
hgroup.long 0x610++0x03
hide.long 0x00 "GICD_IPRIORITYR132,Interrupt Priority Register 132"
hgroup.long 0x614++0x03
hide.long 0x00 "GICD_IPRIORITYR133,Interrupt Priority Register 133"
hgroup.long 0x618++0x03
hide.long 0x00 "GICD_IPRIORITYR134,Interrupt Priority Register 134"
hgroup.long 0x61C++0x03
hide.long 0x00 "GICD_IPRIORITYR135,Interrupt Priority Register 135"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x11)
group.long 0x620++0x03
line.long 0x00 "GICD_IPRIORITYR136,Interrupt Priority Register 136"
hexmask.long.byte 0x00 24.--31. 1. " INTID547  ,Interrupt ID547  Priority/Priority Byte Offset 547 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID546  ,Interrupt ID546   Priority/Priority Byte Offset 546 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID545  ,Interrupt ID545  Priority/Priority Byte Offset 545 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID544  ,Interrupt ID544   Priority/Priority Byte Offset 544 "
group.long 0x624++0x03
line.long 0x00 "GICD_IPRIORITYR137,Interrupt Priority Register 137"
hexmask.long.byte 0x00 24.--31. 1. " INTID551  ,Interrupt ID551  Priority/Priority Byte Offset 551 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID550  ,Interrupt ID550   Priority/Priority Byte Offset 550 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID549  ,Interrupt ID549  Priority/Priority Byte Offset 549 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID548  ,Interrupt ID548   Priority/Priority Byte Offset 548 "
group.long 0x628++0x03
line.long 0x00 "GICD_IPRIORITYR138,Interrupt Priority Register 138"
hexmask.long.byte 0x00 24.--31. 1. " INTID555  ,Interrupt ID555  Priority/Priority Byte Offset 555 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID554  ,Interrupt ID554   Priority/Priority Byte Offset 554 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID553  ,Interrupt ID553  Priority/Priority Byte Offset 553 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID552  ,Interrupt ID552   Priority/Priority Byte Offset 552 "
group.long 0x62C++0x03
line.long 0x00 "GICD_IPRIORITYR139,Interrupt Priority Register 139"
hexmask.long.byte 0x00 24.--31. 1. " INTID559  ,Interrupt ID559  Priority/Priority Byte Offset 559 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID558  ,Interrupt ID558   Priority/Priority Byte Offset 558 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID557  ,Interrupt ID557  Priority/Priority Byte Offset 557 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID556  ,Interrupt ID556   Priority/Priority Byte Offset 556 "
group.long 0x630++0x03
line.long 0x00 "GICD_IPRIORITYR140,Interrupt Priority Register 140"
hexmask.long.byte 0x00 24.--31. 1. " INTID563  ,Interrupt ID563  Priority/Priority Byte Offset 563 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID562  ,Interrupt ID562   Priority/Priority Byte Offset 562 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID561  ,Interrupt ID561  Priority/Priority Byte Offset 561 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID560  ,Interrupt ID560   Priority/Priority Byte Offset 560 "
group.long 0x634++0x03
line.long 0x00 "GICD_IPRIORITYR141,Interrupt Priority Register 141"
hexmask.long.byte 0x00 24.--31. 1. " INTID567  ,Interrupt ID567  Priority/Priority Byte Offset 567 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID566  ,Interrupt ID566   Priority/Priority Byte Offset 566 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID565  ,Interrupt ID565  Priority/Priority Byte Offset 565 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID564  ,Interrupt ID564   Priority/Priority Byte Offset 564 "
group.long 0x638++0x03
line.long 0x00 "GICD_IPRIORITYR142,Interrupt Priority Register 142"
hexmask.long.byte 0x00 24.--31. 1. " INTID571  ,Interrupt ID571  Priority/Priority Byte Offset 571 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID570  ,Interrupt ID570   Priority/Priority Byte Offset 570 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID569  ,Interrupt ID569  Priority/Priority Byte Offset 569 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID568  ,Interrupt ID568   Priority/Priority Byte Offset 568 "
group.long 0x63C++0x03
line.long 0x00 "GICD_IPRIORITYR143,Interrupt Priority Register 143"
hexmask.long.byte 0x00 24.--31. 1. " INTID575  ,Interrupt ID575  Priority/Priority Byte Offset 575 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID574  ,Interrupt ID574   Priority/Priority Byte Offset 574 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID573  ,Interrupt ID573  Priority/Priority Byte Offset 573 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID572  ,Interrupt ID572   Priority/Priority Byte Offset 572 "
else
hgroup.long 0x620++0x03
hide.long 0x00 "GICD_IPRIORITYR136,Interrupt Priority Register 136"
hgroup.long 0x624++0x03
hide.long 0x00 "GICD_IPRIORITYR137,Interrupt Priority Register 137"
hgroup.long 0x628++0x03
hide.long 0x00 "GICD_IPRIORITYR138,Interrupt Priority Register 138"
hgroup.long 0x62C++0x03
hide.long 0x00 "GICD_IPRIORITYR139,Interrupt Priority Register 139"
hgroup.long 0x630++0x03
hide.long 0x00 "GICD_IPRIORITYR140,Interrupt Priority Register 140"
hgroup.long 0x634++0x03
hide.long 0x00 "GICD_IPRIORITYR141,Interrupt Priority Register 141"
hgroup.long 0x638++0x03
hide.long 0x00 "GICD_IPRIORITYR142,Interrupt Priority Register 142"
hgroup.long 0x63C++0x03
hide.long 0x00 "GICD_IPRIORITYR143,Interrupt Priority Register 143"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x12)
group.long 0x640++0x03
line.long 0x00 "GICD_IPRIORITYR144,Interrupt Priority Register 144"
hexmask.long.byte 0x00 24.--31. 1. " INTID579  ,Interrupt ID579  Priority/Priority Byte Offset 579 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID578  ,Interrupt ID578   Priority/Priority Byte Offset 578 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID577  ,Interrupt ID577  Priority/Priority Byte Offset 577 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID576  ,Interrupt ID576   Priority/Priority Byte Offset 576 "
group.long 0x644++0x03
line.long 0x00 "GICD_IPRIORITYR145,Interrupt Priority Register 145"
hexmask.long.byte 0x00 24.--31. 1. " INTID583  ,Interrupt ID583  Priority/Priority Byte Offset 583 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID582  ,Interrupt ID582   Priority/Priority Byte Offset 582 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID581  ,Interrupt ID581  Priority/Priority Byte Offset 581 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID580  ,Interrupt ID580   Priority/Priority Byte Offset 580 "
group.long 0x648++0x03
line.long 0x00 "GICD_IPRIORITYR146,Interrupt Priority Register 146"
hexmask.long.byte 0x00 24.--31. 1. " INTID587  ,Interrupt ID587  Priority/Priority Byte Offset 587 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID586  ,Interrupt ID586   Priority/Priority Byte Offset 586 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID585  ,Interrupt ID585  Priority/Priority Byte Offset 585 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID584  ,Interrupt ID584   Priority/Priority Byte Offset 584 "
group.long 0x64C++0x03
line.long 0x00 "GICD_IPRIORITYR147,Interrupt Priority Register 147"
hexmask.long.byte 0x00 24.--31. 1. " INTID591  ,Interrupt ID591  Priority/Priority Byte Offset 591 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID590  ,Interrupt ID590   Priority/Priority Byte Offset 590 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID589  ,Interrupt ID589  Priority/Priority Byte Offset 589 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID588  ,Interrupt ID588   Priority/Priority Byte Offset 588 "
group.long 0x650++0x03
line.long 0x00 "GICD_IPRIORITYR148,Interrupt Priority Register 148"
hexmask.long.byte 0x00 24.--31. 1. " INTID595  ,Interrupt ID595  Priority/Priority Byte Offset 595 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID594  ,Interrupt ID594   Priority/Priority Byte Offset 594 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID593  ,Interrupt ID593  Priority/Priority Byte Offset 593 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID592  ,Interrupt ID592   Priority/Priority Byte Offset 592 "
group.long 0x654++0x03
line.long 0x00 "GICD_IPRIORITYR149,Interrupt Priority Register 149"
hexmask.long.byte 0x00 24.--31. 1. " INTID599  ,Interrupt ID599  Priority/Priority Byte Offset 599 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID598  ,Interrupt ID598   Priority/Priority Byte Offset 598 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID597  ,Interrupt ID597  Priority/Priority Byte Offset 597 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID596  ,Interrupt ID596   Priority/Priority Byte Offset 596 "
group.long 0x658++0x03
line.long 0x00 "GICD_IPRIORITYR150,Interrupt Priority Register 150"
hexmask.long.byte 0x00 24.--31. 1. " INTID603  ,Interrupt ID603  Priority/Priority Byte Offset 603 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID602  ,Interrupt ID602   Priority/Priority Byte Offset 602 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID601  ,Interrupt ID601  Priority/Priority Byte Offset 601 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID600  ,Interrupt ID600   Priority/Priority Byte Offset 600 "
group.long 0x65C++0x03
line.long 0x00 "GICD_IPRIORITYR151,Interrupt Priority Register 151"
hexmask.long.byte 0x00 24.--31. 1. " INTID607  ,Interrupt ID607  Priority/Priority Byte Offset 607 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID606  ,Interrupt ID606   Priority/Priority Byte Offset 606 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID605  ,Interrupt ID605  Priority/Priority Byte Offset 605 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID604  ,Interrupt ID604   Priority/Priority Byte Offset 604 "
else
hgroup.long 0x640++0x03
hide.long 0x00 "GICD_IPRIORITYR144,Interrupt Priority Register 144"
hgroup.long 0x644++0x03
hide.long 0x00 "GICD_IPRIORITYR145,Interrupt Priority Register 145"
hgroup.long 0x648++0x03
hide.long 0x00 "GICD_IPRIORITYR146,Interrupt Priority Register 146"
hgroup.long 0x64C++0x03
hide.long 0x00 "GICD_IPRIORITYR147,Interrupt Priority Register 147"
hgroup.long 0x650++0x03
hide.long 0x00 "GICD_IPRIORITYR148,Interrupt Priority Register 148"
hgroup.long 0x654++0x03
hide.long 0x00 "GICD_IPRIORITYR149,Interrupt Priority Register 149"
hgroup.long 0x658++0x03
hide.long 0x00 "GICD_IPRIORITYR150,Interrupt Priority Register 150"
hgroup.long 0x65C++0x03
hide.long 0x00 "GICD_IPRIORITYR151,Interrupt Priority Register 151"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x13)
group.long 0x660++0x03
line.long 0x00 "GICD_IPRIORITYR152,Interrupt Priority Register 152"
hexmask.long.byte 0x00 24.--31. 1. " INTID611  ,Interrupt ID611  Priority/Priority Byte Offset 611 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID610  ,Interrupt ID610   Priority/Priority Byte Offset 610 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID609  ,Interrupt ID609  Priority/Priority Byte Offset 609 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID608  ,Interrupt ID608   Priority/Priority Byte Offset 608 "
group.long 0x664++0x03
line.long 0x00 "GICD_IPRIORITYR153,Interrupt Priority Register 153"
hexmask.long.byte 0x00 24.--31. 1. " INTID615  ,Interrupt ID615  Priority/Priority Byte Offset 615 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID614  ,Interrupt ID614   Priority/Priority Byte Offset 614 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID613  ,Interrupt ID613  Priority/Priority Byte Offset 613 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID612  ,Interrupt ID612   Priority/Priority Byte Offset 612 "
group.long 0x668++0x03
line.long 0x00 "GICD_IPRIORITYR154,Interrupt Priority Register 154"
hexmask.long.byte 0x00 24.--31. 1. " INTID619  ,Interrupt ID619  Priority/Priority Byte Offset 619 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID618  ,Interrupt ID618   Priority/Priority Byte Offset 618 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID617  ,Interrupt ID617  Priority/Priority Byte Offset 617 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID616  ,Interrupt ID616   Priority/Priority Byte Offset 616 "
group.long 0x66C++0x03
line.long 0x00 "GICD_IPRIORITYR155,Interrupt Priority Register 155"
hexmask.long.byte 0x00 24.--31. 1. " INTID623  ,Interrupt ID623  Priority/Priority Byte Offset 623 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID622  ,Interrupt ID622   Priority/Priority Byte Offset 622 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID621  ,Interrupt ID621  Priority/Priority Byte Offset 621 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID620  ,Interrupt ID620   Priority/Priority Byte Offset 620 "
group.long 0x670++0x03
line.long 0x00 "GICD_IPRIORITYR156,Interrupt Priority Register 156"
hexmask.long.byte 0x00 24.--31. 1. " INTID627  ,Interrupt ID627  Priority/Priority Byte Offset 627 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID626  ,Interrupt ID626   Priority/Priority Byte Offset 626 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID625  ,Interrupt ID625  Priority/Priority Byte Offset 625 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID624  ,Interrupt ID624   Priority/Priority Byte Offset 624 "
group.long 0x674++0x03
line.long 0x00 "GICD_IPRIORITYR157,Interrupt Priority Register 157"
hexmask.long.byte 0x00 24.--31. 1. " INTID631  ,Interrupt ID631  Priority/Priority Byte Offset 631 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID630  ,Interrupt ID630   Priority/Priority Byte Offset 630 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID629  ,Interrupt ID629  Priority/Priority Byte Offset 629 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID628  ,Interrupt ID628   Priority/Priority Byte Offset 628 "
group.long 0x678++0x03
line.long 0x00 "GICD_IPRIORITYR158,Interrupt Priority Register 158"
hexmask.long.byte 0x00 24.--31. 1. " INTID635  ,Interrupt ID635  Priority/Priority Byte Offset 635 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID634  ,Interrupt ID634   Priority/Priority Byte Offset 634 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID633  ,Interrupt ID633  Priority/Priority Byte Offset 633 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID632  ,Interrupt ID632   Priority/Priority Byte Offset 632 "
group.long 0x67C++0x03
line.long 0x00 "GICD_IPRIORITYR159,Interrupt Priority Register 159"
hexmask.long.byte 0x00 24.--31. 1. " INTID639  ,Interrupt ID639  Priority/Priority Byte Offset 639 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID638  ,Interrupt ID638   Priority/Priority Byte Offset 638 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID637  ,Interrupt ID637  Priority/Priority Byte Offset 637 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID636  ,Interrupt ID636   Priority/Priority Byte Offset 636 "
else
hgroup.long 0x660++0x03
hide.long 0x00 "GICD_IPRIORITYR152,Interrupt Priority Register 152"
hgroup.long 0x664++0x03
hide.long 0x00 "GICD_IPRIORITYR153,Interrupt Priority Register 153"
hgroup.long 0x668++0x03
hide.long 0x00 "GICD_IPRIORITYR154,Interrupt Priority Register 154"
hgroup.long 0x66C++0x03
hide.long 0x00 "GICD_IPRIORITYR155,Interrupt Priority Register 155"
hgroup.long 0x670++0x03
hide.long 0x00 "GICD_IPRIORITYR156,Interrupt Priority Register 156"
hgroup.long 0x674++0x03
hide.long 0x00 "GICD_IPRIORITYR157,Interrupt Priority Register 157"
hgroup.long 0x678++0x03
hide.long 0x00 "GICD_IPRIORITYR158,Interrupt Priority Register 158"
hgroup.long 0x67C++0x03
hide.long 0x00 "GICD_IPRIORITYR159,Interrupt Priority Register 159"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x14)
group.long 0x680++0x03
line.long 0x00 "GICD_IPRIORITYR160,Interrupt Priority Register 160"
hexmask.long.byte 0x00 24.--31. 1. " INTID643  ,Interrupt ID643  Priority/Priority Byte Offset 643 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID642  ,Interrupt ID642   Priority/Priority Byte Offset 642 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID641  ,Interrupt ID641  Priority/Priority Byte Offset 641 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID640  ,Interrupt ID640   Priority/Priority Byte Offset 640 "
group.long 0x684++0x03
line.long 0x00 "GICD_IPRIORITYR161,Interrupt Priority Register 161"
hexmask.long.byte 0x00 24.--31. 1. " INTID647  ,Interrupt ID647  Priority/Priority Byte Offset 647 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID646  ,Interrupt ID646   Priority/Priority Byte Offset 646 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID645  ,Interrupt ID645  Priority/Priority Byte Offset 645 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID644  ,Interrupt ID644   Priority/Priority Byte Offset 644 "
group.long 0x688++0x03
line.long 0x00 "GICD_IPRIORITYR162,Interrupt Priority Register 162"
hexmask.long.byte 0x00 24.--31. 1. " INTID651  ,Interrupt ID651  Priority/Priority Byte Offset 651 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID650  ,Interrupt ID650   Priority/Priority Byte Offset 650 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID649  ,Interrupt ID649  Priority/Priority Byte Offset 649 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID648  ,Interrupt ID648   Priority/Priority Byte Offset 648 "
group.long 0x68C++0x03
line.long 0x00 "GICD_IPRIORITYR163,Interrupt Priority Register 163"
hexmask.long.byte 0x00 24.--31. 1. " INTID655  ,Interrupt ID655  Priority/Priority Byte Offset 655 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID654  ,Interrupt ID654   Priority/Priority Byte Offset 654 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID653  ,Interrupt ID653  Priority/Priority Byte Offset 653 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID652  ,Interrupt ID652   Priority/Priority Byte Offset 652 "
group.long 0x690++0x03
line.long 0x00 "GICD_IPRIORITYR164,Interrupt Priority Register 164"
hexmask.long.byte 0x00 24.--31. 1. " INTID659  ,Interrupt ID659  Priority/Priority Byte Offset 659 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID658  ,Interrupt ID658   Priority/Priority Byte Offset 658 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID657  ,Interrupt ID657  Priority/Priority Byte Offset 657 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID656  ,Interrupt ID656   Priority/Priority Byte Offset 656 "
group.long 0x694++0x03
line.long 0x00 "GICD_IPRIORITYR165,Interrupt Priority Register 165"
hexmask.long.byte 0x00 24.--31. 1. " INTID663  ,Interrupt ID663  Priority/Priority Byte Offset 663 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID662  ,Interrupt ID662   Priority/Priority Byte Offset 662 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID661  ,Interrupt ID661  Priority/Priority Byte Offset 661 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID660  ,Interrupt ID660   Priority/Priority Byte Offset 660 "
group.long 0x698++0x03
line.long 0x00 "GICD_IPRIORITYR166,Interrupt Priority Register 166"
hexmask.long.byte 0x00 24.--31. 1. " INTID667  ,Interrupt ID667  Priority/Priority Byte Offset 667 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID666  ,Interrupt ID666   Priority/Priority Byte Offset 666 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID665  ,Interrupt ID665  Priority/Priority Byte Offset 665 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID664  ,Interrupt ID664   Priority/Priority Byte Offset 664 "
group.long 0x69C++0x03
line.long 0x00 "GICD_IPRIORITYR167,Interrupt Priority Register 167"
hexmask.long.byte 0x00 24.--31. 1. " INTID671  ,Interrupt ID671  Priority/Priority Byte Offset 671 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID670  ,Interrupt ID670   Priority/Priority Byte Offset 670 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID669  ,Interrupt ID669  Priority/Priority Byte Offset 669 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID668  ,Interrupt ID668   Priority/Priority Byte Offset 668 "
else
hgroup.long 0x680++0x03
hide.long 0x00 "GICD_IPRIORITYR160,Interrupt Priority Register 160"
hgroup.long 0x684++0x03
hide.long 0x00 "GICD_IPRIORITYR161,Interrupt Priority Register 161"
hgroup.long 0x688++0x03
hide.long 0x00 "GICD_IPRIORITYR162,Interrupt Priority Register 162"
hgroup.long 0x68C++0x03
hide.long 0x00 "GICD_IPRIORITYR163,Interrupt Priority Register 163"
hgroup.long 0x690++0x03
hide.long 0x00 "GICD_IPRIORITYR164,Interrupt Priority Register 164"
hgroup.long 0x694++0x03
hide.long 0x00 "GICD_IPRIORITYR165,Interrupt Priority Register 165"
hgroup.long 0x698++0x03
hide.long 0x00 "GICD_IPRIORITYR166,Interrupt Priority Register 166"
hgroup.long 0x69C++0x03
hide.long 0x00 "GICD_IPRIORITYR167,Interrupt Priority Register 167"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x15)
group.long 0x6A0++0x03
line.long 0x00 "GICD_IPRIORITYR168,Interrupt Priority Register 168"
hexmask.long.byte 0x00 24.--31. 1. " INTID675  ,Interrupt ID675  Priority/Priority Byte Offset 675 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID674  ,Interrupt ID674   Priority/Priority Byte Offset 674 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID673  ,Interrupt ID673  Priority/Priority Byte Offset 673 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID672  ,Interrupt ID672   Priority/Priority Byte Offset 672 "
group.long 0x6A4++0x03
line.long 0x00 "GICD_IPRIORITYR169,Interrupt Priority Register 169"
hexmask.long.byte 0x00 24.--31. 1. " INTID679  ,Interrupt ID679  Priority/Priority Byte Offset 679 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID678  ,Interrupt ID678   Priority/Priority Byte Offset 678 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID677  ,Interrupt ID677  Priority/Priority Byte Offset 677 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID676  ,Interrupt ID676   Priority/Priority Byte Offset 676 "
group.long 0x6A8++0x03
line.long 0x00 "GICD_IPRIORITYR170,Interrupt Priority Register 170"
hexmask.long.byte 0x00 24.--31. 1. " INTID683  ,Interrupt ID683  Priority/Priority Byte Offset 683 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID682  ,Interrupt ID682   Priority/Priority Byte Offset 682 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID681  ,Interrupt ID681  Priority/Priority Byte Offset 681 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID680  ,Interrupt ID680   Priority/Priority Byte Offset 680 "
group.long 0x6AC++0x03
line.long 0x00 "GICD_IPRIORITYR171,Interrupt Priority Register 171"
hexmask.long.byte 0x00 24.--31. 1. " INTID687  ,Interrupt ID687  Priority/Priority Byte Offset 687 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID686  ,Interrupt ID686   Priority/Priority Byte Offset 686 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID685  ,Interrupt ID685  Priority/Priority Byte Offset 685 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID684  ,Interrupt ID684   Priority/Priority Byte Offset 684 "
group.long 0x6B0++0x03
line.long 0x00 "GICD_IPRIORITYR172,Interrupt Priority Register 172"
hexmask.long.byte 0x00 24.--31. 1. " INTID691  ,Interrupt ID691  Priority/Priority Byte Offset 691 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID690  ,Interrupt ID690   Priority/Priority Byte Offset 690 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID689  ,Interrupt ID689  Priority/Priority Byte Offset 689 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID688  ,Interrupt ID688   Priority/Priority Byte Offset 688 "
group.long 0x6B4++0x03
line.long 0x00 "GICD_IPRIORITYR173,Interrupt Priority Register 173"
hexmask.long.byte 0x00 24.--31. 1. " INTID695  ,Interrupt ID695  Priority/Priority Byte Offset 695 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID694  ,Interrupt ID694   Priority/Priority Byte Offset 694 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID693  ,Interrupt ID693  Priority/Priority Byte Offset 693 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID692  ,Interrupt ID692   Priority/Priority Byte Offset 692 "
group.long 0x6B8++0x03
line.long 0x00 "GICD_IPRIORITYR174,Interrupt Priority Register 174"
hexmask.long.byte 0x00 24.--31. 1. " INTID699  ,Interrupt ID699  Priority/Priority Byte Offset 699 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID698  ,Interrupt ID698   Priority/Priority Byte Offset 698 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID697  ,Interrupt ID697  Priority/Priority Byte Offset 697 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID696  ,Interrupt ID696   Priority/Priority Byte Offset 696 "
group.long 0x6BC++0x03
line.long 0x00 "GICD_IPRIORITYR175,Interrupt Priority Register 175"
hexmask.long.byte 0x00 24.--31. 1. " INTID703  ,Interrupt ID703  Priority/Priority Byte Offset 703 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID702  ,Interrupt ID702   Priority/Priority Byte Offset 702 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID701  ,Interrupt ID701  Priority/Priority Byte Offset 701 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID700  ,Interrupt ID700   Priority/Priority Byte Offset 700 "
else
hgroup.long 0x6A0++0x03
hide.long 0x00 "GICD_IPRIORITYR168,Interrupt Priority Register 168"
hgroup.long 0x6A4++0x03
hide.long 0x00 "GICD_IPRIORITYR169,Interrupt Priority Register 169"
hgroup.long 0x6A8++0x03
hide.long 0x00 "GICD_IPRIORITYR170,Interrupt Priority Register 170"
hgroup.long 0x6AC++0x03
hide.long 0x00 "GICD_IPRIORITYR171,Interrupt Priority Register 171"
hgroup.long 0x6B0++0x03
hide.long 0x00 "GICD_IPRIORITYR172,Interrupt Priority Register 172"
hgroup.long 0x6B4++0x03
hide.long 0x00 "GICD_IPRIORITYR173,Interrupt Priority Register 173"
hgroup.long 0x6B8++0x03
hide.long 0x00 "GICD_IPRIORITYR174,Interrupt Priority Register 174"
hgroup.long 0x6BC++0x03
hide.long 0x00 "GICD_IPRIORITYR175,Interrupt Priority Register 175"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x16)
group.long 0x6C0++0x03
line.long 0x00 "GICD_IPRIORITYR176,Interrupt Priority Register 176"
hexmask.long.byte 0x00 24.--31. 1. " INTID707  ,Interrupt ID707  Priority/Priority Byte Offset 707 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID706  ,Interrupt ID706   Priority/Priority Byte Offset 706 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID705  ,Interrupt ID705  Priority/Priority Byte Offset 705 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID704  ,Interrupt ID704   Priority/Priority Byte Offset 704 "
group.long 0x6C4++0x03
line.long 0x00 "GICD_IPRIORITYR177,Interrupt Priority Register 177"
hexmask.long.byte 0x00 24.--31. 1. " INTID711  ,Interrupt ID711  Priority/Priority Byte Offset 711 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID710  ,Interrupt ID710   Priority/Priority Byte Offset 710 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID709  ,Interrupt ID709  Priority/Priority Byte Offset 709 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID708  ,Interrupt ID708   Priority/Priority Byte Offset 708 "
group.long 0x6C8++0x03
line.long 0x00 "GICD_IPRIORITYR178,Interrupt Priority Register 178"
hexmask.long.byte 0x00 24.--31. 1. " INTID715  ,Interrupt ID715  Priority/Priority Byte Offset 715 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID714  ,Interrupt ID714   Priority/Priority Byte Offset 714 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID713  ,Interrupt ID713  Priority/Priority Byte Offset 713 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID712  ,Interrupt ID712   Priority/Priority Byte Offset 712 "
group.long 0x6CC++0x03
line.long 0x00 "GICD_IPRIORITYR179,Interrupt Priority Register 179"
hexmask.long.byte 0x00 24.--31. 1. " INTID719  ,Interrupt ID719  Priority/Priority Byte Offset 719 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID718  ,Interrupt ID718   Priority/Priority Byte Offset 718 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID717  ,Interrupt ID717  Priority/Priority Byte Offset 717 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID716  ,Interrupt ID716   Priority/Priority Byte Offset 716 "
group.long 0x6D0++0x03
line.long 0x00 "GICD_IPRIORITYR180,Interrupt Priority Register 180"
hexmask.long.byte 0x00 24.--31. 1. " INTID723  ,Interrupt ID723  Priority/Priority Byte Offset 723 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID722  ,Interrupt ID722   Priority/Priority Byte Offset 722 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID721  ,Interrupt ID721  Priority/Priority Byte Offset 721 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID720  ,Interrupt ID720   Priority/Priority Byte Offset 720 "
group.long 0x6D4++0x03
line.long 0x00 "GICD_IPRIORITYR181,Interrupt Priority Register 181"
hexmask.long.byte 0x00 24.--31. 1. " INTID727  ,Interrupt ID727  Priority/Priority Byte Offset 727 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID726  ,Interrupt ID726   Priority/Priority Byte Offset 726 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID725  ,Interrupt ID725  Priority/Priority Byte Offset 725 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID724  ,Interrupt ID724   Priority/Priority Byte Offset 724 "
group.long 0x6D8++0x03
line.long 0x00 "GICD_IPRIORITYR182,Interrupt Priority Register 182"
hexmask.long.byte 0x00 24.--31. 1. " INTID731  ,Interrupt ID731  Priority/Priority Byte Offset 731 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID730  ,Interrupt ID730   Priority/Priority Byte Offset 730 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID729  ,Interrupt ID729  Priority/Priority Byte Offset 729 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID728  ,Interrupt ID728   Priority/Priority Byte Offset 728 "
group.long 0x6DC++0x03
line.long 0x00 "GICD_IPRIORITYR183,Interrupt Priority Register 183"
hexmask.long.byte 0x00 24.--31. 1. " INTID735  ,Interrupt ID735  Priority/Priority Byte Offset 735 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID734  ,Interrupt ID734   Priority/Priority Byte Offset 734 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID733  ,Interrupt ID733  Priority/Priority Byte Offset 733 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID732  ,Interrupt ID732   Priority/Priority Byte Offset 732 "
else
hgroup.long 0x6C0++0x03
hide.long 0x00 "GICD_IPRIORITYR176,Interrupt Priority Register 176"
hgroup.long 0x6C4++0x03
hide.long 0x00 "GICD_IPRIORITYR177,Interrupt Priority Register 177"
hgroup.long 0x6C8++0x03
hide.long 0x00 "GICD_IPRIORITYR178,Interrupt Priority Register 178"
hgroup.long 0x6CC++0x03
hide.long 0x00 "GICD_IPRIORITYR179,Interrupt Priority Register 179"
hgroup.long 0x6D0++0x03
hide.long 0x00 "GICD_IPRIORITYR180,Interrupt Priority Register 180"
hgroup.long 0x6D4++0x03
hide.long 0x00 "GICD_IPRIORITYR181,Interrupt Priority Register 181"
hgroup.long 0x6D8++0x03
hide.long 0x00 "GICD_IPRIORITYR182,Interrupt Priority Register 182"
hgroup.long 0x6DC++0x03
hide.long 0x00 "GICD_IPRIORITYR183,Interrupt Priority Register 183"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x17)
group.long 0x6E0++0x03
line.long 0x00 "GICD_IPRIORITYR184,Interrupt Priority Register 184"
hexmask.long.byte 0x00 24.--31. 1. " INTID739  ,Interrupt ID739  Priority/Priority Byte Offset 739 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID738  ,Interrupt ID738   Priority/Priority Byte Offset 738 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID737  ,Interrupt ID737  Priority/Priority Byte Offset 737 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID736  ,Interrupt ID736   Priority/Priority Byte Offset 736 "
group.long 0x6E4++0x03
line.long 0x00 "GICD_IPRIORITYR185,Interrupt Priority Register 185"
hexmask.long.byte 0x00 24.--31. 1. " INTID743  ,Interrupt ID743  Priority/Priority Byte Offset 743 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID742  ,Interrupt ID742   Priority/Priority Byte Offset 742 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID741  ,Interrupt ID741  Priority/Priority Byte Offset 741 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID740  ,Interrupt ID740   Priority/Priority Byte Offset 740 "
group.long 0x6E8++0x03
line.long 0x00 "GICD_IPRIORITYR186,Interrupt Priority Register 186"
hexmask.long.byte 0x00 24.--31. 1. " INTID747  ,Interrupt ID747  Priority/Priority Byte Offset 747 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID746  ,Interrupt ID746   Priority/Priority Byte Offset 746 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID745  ,Interrupt ID745  Priority/Priority Byte Offset 745 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID744  ,Interrupt ID744   Priority/Priority Byte Offset 744 "
group.long 0x6EC++0x03
line.long 0x00 "GICD_IPRIORITYR187,Interrupt Priority Register 187"
hexmask.long.byte 0x00 24.--31. 1. " INTID751  ,Interrupt ID751  Priority/Priority Byte Offset 751 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID750  ,Interrupt ID750   Priority/Priority Byte Offset 750 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID749  ,Interrupt ID749  Priority/Priority Byte Offset 749 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID748  ,Interrupt ID748   Priority/Priority Byte Offset 748 "
group.long 0x6F0++0x03
line.long 0x00 "GICD_IPRIORITYR188,Interrupt Priority Register 188"
hexmask.long.byte 0x00 24.--31. 1. " INTID755  ,Interrupt ID755  Priority/Priority Byte Offset 755 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID754  ,Interrupt ID754   Priority/Priority Byte Offset 754 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID753  ,Interrupt ID753  Priority/Priority Byte Offset 753 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID752  ,Interrupt ID752   Priority/Priority Byte Offset 752 "
group.long 0x6F4++0x03
line.long 0x00 "GICD_IPRIORITYR189,Interrupt Priority Register 189"
hexmask.long.byte 0x00 24.--31. 1. " INTID759  ,Interrupt ID759  Priority/Priority Byte Offset 759 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID758  ,Interrupt ID758   Priority/Priority Byte Offset 758 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID757  ,Interrupt ID757  Priority/Priority Byte Offset 757 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID756  ,Interrupt ID756   Priority/Priority Byte Offset 756 "
group.long 0x6F8++0x03
line.long 0x00 "GICD_IPRIORITYR190,Interrupt Priority Register 190"
hexmask.long.byte 0x00 24.--31. 1. " INTID763  ,Interrupt ID763  Priority/Priority Byte Offset 763 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID762  ,Interrupt ID762   Priority/Priority Byte Offset 762 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID761  ,Interrupt ID761  Priority/Priority Byte Offset 761 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID760  ,Interrupt ID760   Priority/Priority Byte Offset 760 "
group.long 0x6FC++0x03
line.long 0x00 "GICD_IPRIORITYR191,Interrupt Priority Register 191"
hexmask.long.byte 0x00 24.--31. 1. " INTID767  ,Interrupt ID767  Priority/Priority Byte Offset 767 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID766  ,Interrupt ID766   Priority/Priority Byte Offset 766 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID765  ,Interrupt ID765  Priority/Priority Byte Offset 765 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID764  ,Interrupt ID764   Priority/Priority Byte Offset 764 "
else
hgroup.long 0x6E0++0x03
hide.long 0x00 "GICD_IPRIORITYR184,Interrupt Priority Register 184"
hgroup.long 0x6E4++0x03
hide.long 0x00 "GICD_IPRIORITYR185,Interrupt Priority Register 185"
hgroup.long 0x6E8++0x03
hide.long 0x00 "GICD_IPRIORITYR186,Interrupt Priority Register 186"
hgroup.long 0x6EC++0x03
hide.long 0x00 "GICD_IPRIORITYR187,Interrupt Priority Register 187"
hgroup.long 0x6F0++0x03
hide.long 0x00 "GICD_IPRIORITYR188,Interrupt Priority Register 188"
hgroup.long 0x6F4++0x03
hide.long 0x00 "GICD_IPRIORITYR189,Interrupt Priority Register 189"
hgroup.long 0x6F8++0x03
hide.long 0x00 "GICD_IPRIORITYR190,Interrupt Priority Register 190"
hgroup.long 0x6FC++0x03
hide.long 0x00 "GICD_IPRIORITYR191,Interrupt Priority Register 191"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x18)
group.long 0x700++0x03
line.long 0x00 "GICD_IPRIORITYR192,Interrupt Priority Register 192"
hexmask.long.byte 0x00 24.--31. 1. " INTID771  ,Interrupt ID771  Priority/Priority Byte Offset 771 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID770  ,Interrupt ID770   Priority/Priority Byte Offset 770 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID769  ,Interrupt ID769  Priority/Priority Byte Offset 769 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID768  ,Interrupt ID768   Priority/Priority Byte Offset 768 "
group.long 0x704++0x03
line.long 0x00 "GICD_IPRIORITYR193,Interrupt Priority Register 193"
hexmask.long.byte 0x00 24.--31. 1. " INTID775  ,Interrupt ID775  Priority/Priority Byte Offset 775 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID774  ,Interrupt ID774   Priority/Priority Byte Offset 774 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID773  ,Interrupt ID773  Priority/Priority Byte Offset 773 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID772  ,Interrupt ID772   Priority/Priority Byte Offset 772 "
group.long 0x708++0x03
line.long 0x00 "GICD_IPRIORITYR194,Interrupt Priority Register 194"
hexmask.long.byte 0x00 24.--31. 1. " INTID779  ,Interrupt ID779  Priority/Priority Byte Offset 779 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID778  ,Interrupt ID778   Priority/Priority Byte Offset 778 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID777  ,Interrupt ID777  Priority/Priority Byte Offset 777 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID776  ,Interrupt ID776   Priority/Priority Byte Offset 776 "
group.long 0x70C++0x03
line.long 0x00 "GICD_IPRIORITYR195,Interrupt Priority Register 195"
hexmask.long.byte 0x00 24.--31. 1. " INTID783  ,Interrupt ID783  Priority/Priority Byte Offset 783 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID782  ,Interrupt ID782   Priority/Priority Byte Offset 782 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID781  ,Interrupt ID781  Priority/Priority Byte Offset 781 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID780  ,Interrupt ID780   Priority/Priority Byte Offset 780 "
group.long 0x710++0x03
line.long 0x00 "GICD_IPRIORITYR196,Interrupt Priority Register 196"
hexmask.long.byte 0x00 24.--31. 1. " INTID787  ,Interrupt ID787  Priority/Priority Byte Offset 787 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID786  ,Interrupt ID786   Priority/Priority Byte Offset 786 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID785  ,Interrupt ID785  Priority/Priority Byte Offset 785 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID784  ,Interrupt ID784   Priority/Priority Byte Offset 784 "
group.long 0x714++0x03
line.long 0x00 "GICD_IPRIORITYR197,Interrupt Priority Register 197"
hexmask.long.byte 0x00 24.--31. 1. " INTID791  ,Interrupt ID791  Priority/Priority Byte Offset 791 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID790  ,Interrupt ID790   Priority/Priority Byte Offset 790 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID789  ,Interrupt ID789  Priority/Priority Byte Offset 789 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID788  ,Interrupt ID788   Priority/Priority Byte Offset 788 "
group.long 0x718++0x03
line.long 0x00 "GICD_IPRIORITYR198,Interrupt Priority Register 198"
hexmask.long.byte 0x00 24.--31. 1. " INTID795  ,Interrupt ID795  Priority/Priority Byte Offset 795 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID794  ,Interrupt ID794   Priority/Priority Byte Offset 794 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID793  ,Interrupt ID793  Priority/Priority Byte Offset 793 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID792  ,Interrupt ID792   Priority/Priority Byte Offset 792 "
group.long 0x71C++0x03
line.long 0x00 "GICD_IPRIORITYR199,Interrupt Priority Register 199"
hexmask.long.byte 0x00 24.--31. 1. " INTID799  ,Interrupt ID799  Priority/Priority Byte Offset 799 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID798  ,Interrupt ID798   Priority/Priority Byte Offset 798 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID797  ,Interrupt ID797  Priority/Priority Byte Offset 797 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID796  ,Interrupt ID796   Priority/Priority Byte Offset 796 "
else
hgroup.long 0x700++0x03
hide.long 0x00 "GICD_IPRIORITYR192,Interrupt Priority Register 192"
hgroup.long 0x704++0x03
hide.long 0x00 "GICD_IPRIORITYR193,Interrupt Priority Register 193"
hgroup.long 0x708++0x03
hide.long 0x00 "GICD_IPRIORITYR194,Interrupt Priority Register 194"
hgroup.long 0x70C++0x03
hide.long 0x00 "GICD_IPRIORITYR195,Interrupt Priority Register 195"
hgroup.long 0x710++0x03
hide.long 0x00 "GICD_IPRIORITYR196,Interrupt Priority Register 196"
hgroup.long 0x714++0x03
hide.long 0x00 "GICD_IPRIORITYR197,Interrupt Priority Register 197"
hgroup.long 0x718++0x03
hide.long 0x00 "GICD_IPRIORITYR198,Interrupt Priority Register 198"
hgroup.long 0x71C++0x03
hide.long 0x00 "GICD_IPRIORITYR199,Interrupt Priority Register 199"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x19)
group.long 0x720++0x03
line.long 0x00 "GICD_IPRIORITYR200,Interrupt Priority Register 200"
hexmask.long.byte 0x00 24.--31. 1. " INTID803  ,Interrupt ID803  Priority/Priority Byte Offset 803 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID802  ,Interrupt ID802   Priority/Priority Byte Offset 802 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID801  ,Interrupt ID801  Priority/Priority Byte Offset 801 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID800  ,Interrupt ID800   Priority/Priority Byte Offset 800 "
group.long 0x724++0x03
line.long 0x00 "GICD_IPRIORITYR201,Interrupt Priority Register 201"
hexmask.long.byte 0x00 24.--31. 1. " INTID807  ,Interrupt ID807  Priority/Priority Byte Offset 807 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID806  ,Interrupt ID806   Priority/Priority Byte Offset 806 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID805  ,Interrupt ID805  Priority/Priority Byte Offset 805 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID804  ,Interrupt ID804   Priority/Priority Byte Offset 804 "
group.long 0x728++0x03
line.long 0x00 "GICD_IPRIORITYR202,Interrupt Priority Register 202"
hexmask.long.byte 0x00 24.--31. 1. " INTID811  ,Interrupt ID811  Priority/Priority Byte Offset 811 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID810  ,Interrupt ID810   Priority/Priority Byte Offset 810 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID809  ,Interrupt ID809  Priority/Priority Byte Offset 809 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID808  ,Interrupt ID808   Priority/Priority Byte Offset 808 "
group.long 0x72C++0x03
line.long 0x00 "GICD_IPRIORITYR203,Interrupt Priority Register 203"
hexmask.long.byte 0x00 24.--31. 1. " INTID815  ,Interrupt ID815  Priority/Priority Byte Offset 815 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID814  ,Interrupt ID814   Priority/Priority Byte Offset 814 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID813  ,Interrupt ID813  Priority/Priority Byte Offset 813 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID812  ,Interrupt ID812   Priority/Priority Byte Offset 812 "
group.long 0x730++0x03
line.long 0x00 "GICD_IPRIORITYR204,Interrupt Priority Register 204"
hexmask.long.byte 0x00 24.--31. 1. " INTID819  ,Interrupt ID819  Priority/Priority Byte Offset 819 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID818  ,Interrupt ID818   Priority/Priority Byte Offset 818 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID817  ,Interrupt ID817  Priority/Priority Byte Offset 817 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID816  ,Interrupt ID816   Priority/Priority Byte Offset 816 "
group.long 0x734++0x03
line.long 0x00 "GICD_IPRIORITYR205,Interrupt Priority Register 205"
hexmask.long.byte 0x00 24.--31. 1. " INTID823  ,Interrupt ID823  Priority/Priority Byte Offset 823 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID822  ,Interrupt ID822   Priority/Priority Byte Offset 822 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID821  ,Interrupt ID821  Priority/Priority Byte Offset 821 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID820  ,Interrupt ID820   Priority/Priority Byte Offset 820 "
group.long 0x738++0x03
line.long 0x00 "GICD_IPRIORITYR206,Interrupt Priority Register 206"
hexmask.long.byte 0x00 24.--31. 1. " INTID827  ,Interrupt ID827  Priority/Priority Byte Offset 827 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID826  ,Interrupt ID826   Priority/Priority Byte Offset 826 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID825  ,Interrupt ID825  Priority/Priority Byte Offset 825 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID824  ,Interrupt ID824   Priority/Priority Byte Offset 824 "
group.long 0x73C++0x03
line.long 0x00 "GICD_IPRIORITYR207,Interrupt Priority Register 207"
hexmask.long.byte 0x00 24.--31. 1. " INTID831  ,Interrupt ID831  Priority/Priority Byte Offset 831 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID830  ,Interrupt ID830   Priority/Priority Byte Offset 830 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID829  ,Interrupt ID829  Priority/Priority Byte Offset 829 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID828  ,Interrupt ID828   Priority/Priority Byte Offset 828 "
else
hgroup.long 0x720++0x03
hide.long 0x00 "GICD_IPRIORITYR200,Interrupt Priority Register 200"
hgroup.long 0x724++0x03
hide.long 0x00 "GICD_IPRIORITYR201,Interrupt Priority Register 201"
hgroup.long 0x728++0x03
hide.long 0x00 "GICD_IPRIORITYR202,Interrupt Priority Register 202"
hgroup.long 0x72C++0x03
hide.long 0x00 "GICD_IPRIORITYR203,Interrupt Priority Register 203"
hgroup.long 0x730++0x03
hide.long 0x00 "GICD_IPRIORITYR204,Interrupt Priority Register 204"
hgroup.long 0x734++0x03
hide.long 0x00 "GICD_IPRIORITYR205,Interrupt Priority Register 205"
hgroup.long 0x738++0x03
hide.long 0x00 "GICD_IPRIORITYR206,Interrupt Priority Register 206"
hgroup.long 0x73C++0x03
hide.long 0x00 "GICD_IPRIORITYR207,Interrupt Priority Register 207"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1A)
group.long 0x740++0x03
line.long 0x00 "GICD_IPRIORITYR208,Interrupt Priority Register 208"
hexmask.long.byte 0x00 24.--31. 1. " INTID835  ,Interrupt ID835  Priority/Priority Byte Offset 835 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID834  ,Interrupt ID834   Priority/Priority Byte Offset 834 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID833  ,Interrupt ID833  Priority/Priority Byte Offset 833 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID832  ,Interrupt ID832   Priority/Priority Byte Offset 832 "
group.long 0x744++0x03
line.long 0x00 "GICD_IPRIORITYR209,Interrupt Priority Register 209"
hexmask.long.byte 0x00 24.--31. 1. " INTID839  ,Interrupt ID839  Priority/Priority Byte Offset 839 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID838  ,Interrupt ID838   Priority/Priority Byte Offset 838 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID837  ,Interrupt ID837  Priority/Priority Byte Offset 837 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID836  ,Interrupt ID836   Priority/Priority Byte Offset 836 "
group.long 0x748++0x03
line.long 0x00 "GICD_IPRIORITYR210,Interrupt Priority Register 210"
hexmask.long.byte 0x00 24.--31. 1. " INTID843  ,Interrupt ID843  Priority/Priority Byte Offset 843 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID842  ,Interrupt ID842   Priority/Priority Byte Offset 842 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID841  ,Interrupt ID841  Priority/Priority Byte Offset 841 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID840  ,Interrupt ID840   Priority/Priority Byte Offset 840 "
group.long 0x74C++0x03
line.long 0x00 "GICD_IPRIORITYR211,Interrupt Priority Register 211"
hexmask.long.byte 0x00 24.--31. 1. " INTID847  ,Interrupt ID847  Priority/Priority Byte Offset 847 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID846  ,Interrupt ID846   Priority/Priority Byte Offset 846 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID845  ,Interrupt ID845  Priority/Priority Byte Offset 845 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID844  ,Interrupt ID844   Priority/Priority Byte Offset 844 "
group.long 0x750++0x03
line.long 0x00 "GICD_IPRIORITYR212,Interrupt Priority Register 212"
hexmask.long.byte 0x00 24.--31. 1. " INTID851  ,Interrupt ID851  Priority/Priority Byte Offset 851 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID850  ,Interrupt ID850   Priority/Priority Byte Offset 850 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID849  ,Interrupt ID849  Priority/Priority Byte Offset 849 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID848  ,Interrupt ID848   Priority/Priority Byte Offset 848 "
group.long 0x754++0x03
line.long 0x00 "GICD_IPRIORITYR213,Interrupt Priority Register 213"
hexmask.long.byte 0x00 24.--31. 1. " INTID855  ,Interrupt ID855  Priority/Priority Byte Offset 855 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID854  ,Interrupt ID854   Priority/Priority Byte Offset 854 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID853  ,Interrupt ID853  Priority/Priority Byte Offset 853 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID852  ,Interrupt ID852   Priority/Priority Byte Offset 852 "
group.long 0x758++0x03
line.long 0x00 "GICD_IPRIORITYR214,Interrupt Priority Register 214"
hexmask.long.byte 0x00 24.--31. 1. " INTID859  ,Interrupt ID859  Priority/Priority Byte Offset 859 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID858  ,Interrupt ID858   Priority/Priority Byte Offset 858 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID857  ,Interrupt ID857  Priority/Priority Byte Offset 857 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID856  ,Interrupt ID856   Priority/Priority Byte Offset 856 "
group.long 0x75C++0x03
line.long 0x00 "GICD_IPRIORITYR215,Interrupt Priority Register 215"
hexmask.long.byte 0x00 24.--31. 1. " INTID863  ,Interrupt ID863  Priority/Priority Byte Offset 863 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID862  ,Interrupt ID862   Priority/Priority Byte Offset 862 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID861  ,Interrupt ID861  Priority/Priority Byte Offset 861 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID860  ,Interrupt ID860   Priority/Priority Byte Offset 860 "
else
hgroup.long 0x740++0x03
hide.long 0x00 "GICD_IPRIORITYR208,Interrupt Priority Register 208"
hgroup.long 0x744++0x03
hide.long 0x00 "GICD_IPRIORITYR209,Interrupt Priority Register 209"
hgroup.long 0x748++0x03
hide.long 0x00 "GICD_IPRIORITYR210,Interrupt Priority Register 210"
hgroup.long 0x74C++0x03
hide.long 0x00 "GICD_IPRIORITYR211,Interrupt Priority Register 211"
hgroup.long 0x750++0x03
hide.long 0x00 "GICD_IPRIORITYR212,Interrupt Priority Register 212"
hgroup.long 0x754++0x03
hide.long 0x00 "GICD_IPRIORITYR213,Interrupt Priority Register 213"
hgroup.long 0x758++0x03
hide.long 0x00 "GICD_IPRIORITYR214,Interrupt Priority Register 214"
hgroup.long 0x75C++0x03
hide.long 0x00 "GICD_IPRIORITYR215,Interrupt Priority Register 215"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1B)
group.long 0x760++0x03
line.long 0x00 "GICD_IPRIORITYR216,Interrupt Priority Register 216"
hexmask.long.byte 0x00 24.--31. 1. " INTID867  ,Interrupt ID867  Priority/Priority Byte Offset 867 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID866  ,Interrupt ID866   Priority/Priority Byte Offset 866 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID865  ,Interrupt ID865  Priority/Priority Byte Offset 865 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID864  ,Interrupt ID864   Priority/Priority Byte Offset 864 "
group.long 0x764++0x03
line.long 0x00 "GICD_IPRIORITYR217,Interrupt Priority Register 217"
hexmask.long.byte 0x00 24.--31. 1. " INTID871  ,Interrupt ID871  Priority/Priority Byte Offset 871 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID870  ,Interrupt ID870   Priority/Priority Byte Offset 870 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID869  ,Interrupt ID869  Priority/Priority Byte Offset 869 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID868  ,Interrupt ID868   Priority/Priority Byte Offset 868 "
group.long 0x768++0x03
line.long 0x00 "GICD_IPRIORITYR218,Interrupt Priority Register 218"
hexmask.long.byte 0x00 24.--31. 1. " INTID875  ,Interrupt ID875  Priority/Priority Byte Offset 875 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID874  ,Interrupt ID874   Priority/Priority Byte Offset 874 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID873  ,Interrupt ID873  Priority/Priority Byte Offset 873 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID872  ,Interrupt ID872   Priority/Priority Byte Offset 872 "
group.long 0x76C++0x03
line.long 0x00 "GICD_IPRIORITYR219,Interrupt Priority Register 219"
hexmask.long.byte 0x00 24.--31. 1. " INTID879  ,Interrupt ID879  Priority/Priority Byte Offset 879 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID878  ,Interrupt ID878   Priority/Priority Byte Offset 878 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID877  ,Interrupt ID877  Priority/Priority Byte Offset 877 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID876  ,Interrupt ID876   Priority/Priority Byte Offset 876 "
group.long 0x770++0x03
line.long 0x00 "GICD_IPRIORITYR220,Interrupt Priority Register 220"
hexmask.long.byte 0x00 24.--31. 1. " INTID883  ,Interrupt ID883  Priority/Priority Byte Offset 883 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID882  ,Interrupt ID882   Priority/Priority Byte Offset 882 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID881  ,Interrupt ID881  Priority/Priority Byte Offset 881 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID880  ,Interrupt ID880   Priority/Priority Byte Offset 880 "
group.long 0x774++0x03
line.long 0x00 "GICD_IPRIORITYR221,Interrupt Priority Register 221"
hexmask.long.byte 0x00 24.--31. 1. " INTID887  ,Interrupt ID887  Priority/Priority Byte Offset 887 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID886  ,Interrupt ID886   Priority/Priority Byte Offset 886 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID885  ,Interrupt ID885  Priority/Priority Byte Offset 885 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID884  ,Interrupt ID884   Priority/Priority Byte Offset 884 "
group.long 0x778++0x03
line.long 0x00 "GICD_IPRIORITYR222,Interrupt Priority Register 222"
hexmask.long.byte 0x00 24.--31. 1. " INTID891  ,Interrupt ID891  Priority/Priority Byte Offset 891 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID890  ,Interrupt ID890   Priority/Priority Byte Offset 890 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID889  ,Interrupt ID889  Priority/Priority Byte Offset 889 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID888  ,Interrupt ID888   Priority/Priority Byte Offset 888 "
group.long 0x77C++0x03
line.long 0x00 "GICD_IPRIORITYR223,Interrupt Priority Register 223"
hexmask.long.byte 0x00 24.--31. 1. " INTID895  ,Interrupt ID895  Priority/Priority Byte Offset 895 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID894  ,Interrupt ID894   Priority/Priority Byte Offset 894 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID893  ,Interrupt ID893  Priority/Priority Byte Offset 893 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID892  ,Interrupt ID892   Priority/Priority Byte Offset 892 "
else
hgroup.long 0x760++0x03
hide.long 0x00 "GICD_IPRIORITYR216,Interrupt Priority Register 216"
hgroup.long 0x764++0x03
hide.long 0x00 "GICD_IPRIORITYR217,Interrupt Priority Register 217"
hgroup.long 0x768++0x03
hide.long 0x00 "GICD_IPRIORITYR218,Interrupt Priority Register 218"
hgroup.long 0x76C++0x03
hide.long 0x00 "GICD_IPRIORITYR219,Interrupt Priority Register 219"
hgroup.long 0x770++0x03
hide.long 0x00 "GICD_IPRIORITYR220,Interrupt Priority Register 220"
hgroup.long 0x774++0x03
hide.long 0x00 "GICD_IPRIORITYR221,Interrupt Priority Register 221"
hgroup.long 0x778++0x03
hide.long 0x00 "GICD_IPRIORITYR222,Interrupt Priority Register 222"
hgroup.long 0x77C++0x03
hide.long 0x00 "GICD_IPRIORITYR223,Interrupt Priority Register 223"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1C)
group.long 0x780++0x03
line.long 0x00 "GICD_IPRIORITYR224,Interrupt Priority Register 224"
hexmask.long.byte 0x00 24.--31. 1. " INTID899  ,Interrupt ID899  Priority/Priority Byte Offset 899 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID898  ,Interrupt ID898   Priority/Priority Byte Offset 898 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID897  ,Interrupt ID897  Priority/Priority Byte Offset 897 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID896  ,Interrupt ID896   Priority/Priority Byte Offset 896 "
group.long 0x784++0x03
line.long 0x00 "GICD_IPRIORITYR225,Interrupt Priority Register 225"
hexmask.long.byte 0x00 24.--31. 1. " INTID903  ,Interrupt ID903  Priority/Priority Byte Offset 903 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID902  ,Interrupt ID902   Priority/Priority Byte Offset 902 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID901  ,Interrupt ID901  Priority/Priority Byte Offset 901 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID900  ,Interrupt ID900   Priority/Priority Byte Offset 900 "
group.long 0x788++0x03
line.long 0x00 "GICD_IPRIORITYR226,Interrupt Priority Register 226"
hexmask.long.byte 0x00 24.--31. 1. " INTID907  ,Interrupt ID907  Priority/Priority Byte Offset 907 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID906  ,Interrupt ID906   Priority/Priority Byte Offset 906 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID905  ,Interrupt ID905  Priority/Priority Byte Offset 905 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID904  ,Interrupt ID904   Priority/Priority Byte Offset 904 "
group.long 0x78C++0x03
line.long 0x00 "GICD_IPRIORITYR227,Interrupt Priority Register 227"
hexmask.long.byte 0x00 24.--31. 1. " INTID911  ,Interrupt ID911  Priority/Priority Byte Offset 911 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID910  ,Interrupt ID910   Priority/Priority Byte Offset 910 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID909  ,Interrupt ID909  Priority/Priority Byte Offset 909 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID908  ,Interrupt ID908   Priority/Priority Byte Offset 908 "
group.long 0x790++0x03
line.long 0x00 "GICD_IPRIORITYR228,Interrupt Priority Register 228"
hexmask.long.byte 0x00 24.--31. 1. " INTID915  ,Interrupt ID915  Priority/Priority Byte Offset 915 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID914  ,Interrupt ID914   Priority/Priority Byte Offset 914 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID913  ,Interrupt ID913  Priority/Priority Byte Offset 913 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID912  ,Interrupt ID912   Priority/Priority Byte Offset 912 "
group.long 0x794++0x03
line.long 0x00 "GICD_IPRIORITYR229,Interrupt Priority Register 229"
hexmask.long.byte 0x00 24.--31. 1. " INTID919  ,Interrupt ID919  Priority/Priority Byte Offset 919 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID918  ,Interrupt ID918   Priority/Priority Byte Offset 918 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID917  ,Interrupt ID917  Priority/Priority Byte Offset 917 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID916  ,Interrupt ID916   Priority/Priority Byte Offset 916 "
group.long 0x798++0x03
line.long 0x00 "GICD_IPRIORITYR230,Interrupt Priority Register 230"
hexmask.long.byte 0x00 24.--31. 1. " INTID923  ,Interrupt ID923  Priority/Priority Byte Offset 923 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID922  ,Interrupt ID922   Priority/Priority Byte Offset 922 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID921  ,Interrupt ID921  Priority/Priority Byte Offset 921 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID920  ,Interrupt ID920   Priority/Priority Byte Offset 920 "
group.long 0x79C++0x03
line.long 0x00 "GICD_IPRIORITYR231,Interrupt Priority Register 231"
hexmask.long.byte 0x00 24.--31. 1. " INTID927  ,Interrupt ID927  Priority/Priority Byte Offset 927 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID926  ,Interrupt ID926   Priority/Priority Byte Offset 926 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID925  ,Interrupt ID925  Priority/Priority Byte Offset 925 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID924  ,Interrupt ID924   Priority/Priority Byte Offset 924 "
else
hgroup.long 0x780++0x03
hide.long 0x00 "GICD_IPRIORITYR224,Interrupt Priority Register 224"
hgroup.long 0x784++0x03
hide.long 0x00 "GICD_IPRIORITYR225,Interrupt Priority Register 225"
hgroup.long 0x788++0x03
hide.long 0x00 "GICD_IPRIORITYR226,Interrupt Priority Register 226"
hgroup.long 0x78C++0x03
hide.long 0x00 "GICD_IPRIORITYR227,Interrupt Priority Register 227"
hgroup.long 0x790++0x03
hide.long 0x00 "GICD_IPRIORITYR228,Interrupt Priority Register 228"
hgroup.long 0x794++0x03
hide.long 0x00 "GICD_IPRIORITYR229,Interrupt Priority Register 229"
hgroup.long 0x798++0x03
hide.long 0x00 "GICD_IPRIORITYR230,Interrupt Priority Register 230"
hgroup.long 0x79C++0x03
hide.long 0x00 "GICD_IPRIORITYR231,Interrupt Priority Register 231"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1D)
group.long 0x7A0++0x03
line.long 0x00 "GICD_IPRIORITYR232,Interrupt Priority Register 232"
hexmask.long.byte 0x00 24.--31. 1. " INTID931  ,Interrupt ID931  Priority/Priority Byte Offset 931 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID930  ,Interrupt ID930   Priority/Priority Byte Offset 930 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID929  ,Interrupt ID929  Priority/Priority Byte Offset 929 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID928  ,Interrupt ID928   Priority/Priority Byte Offset 928 "
group.long 0x7A4++0x03
line.long 0x00 "GICD_IPRIORITYR233,Interrupt Priority Register 233"
hexmask.long.byte 0x00 24.--31. 1. " INTID935  ,Interrupt ID935  Priority/Priority Byte Offset 935 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID934  ,Interrupt ID934   Priority/Priority Byte Offset 934 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID933  ,Interrupt ID933  Priority/Priority Byte Offset 933 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID932  ,Interrupt ID932   Priority/Priority Byte Offset 932 "
group.long 0x7A8++0x03
line.long 0x00 "GICD_IPRIORITYR234,Interrupt Priority Register 234"
hexmask.long.byte 0x00 24.--31. 1. " INTID939  ,Interrupt ID939  Priority/Priority Byte Offset 939 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID938  ,Interrupt ID938   Priority/Priority Byte Offset 938 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID937  ,Interrupt ID937  Priority/Priority Byte Offset 937 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID936  ,Interrupt ID936   Priority/Priority Byte Offset 936 "
group.long 0x7AC++0x03
line.long 0x00 "GICD_IPRIORITYR235,Interrupt Priority Register 235"
hexmask.long.byte 0x00 24.--31. 1. " INTID943  ,Interrupt ID943  Priority/Priority Byte Offset 943 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID942  ,Interrupt ID942   Priority/Priority Byte Offset 942 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID941  ,Interrupt ID941  Priority/Priority Byte Offset 941 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID940  ,Interrupt ID940   Priority/Priority Byte Offset 940 "
group.long 0x7B0++0x03
line.long 0x00 "GICD_IPRIORITYR236,Interrupt Priority Register 236"
hexmask.long.byte 0x00 24.--31. 1. " INTID947  ,Interrupt ID947  Priority/Priority Byte Offset 947 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID946  ,Interrupt ID946   Priority/Priority Byte Offset 946 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID945  ,Interrupt ID945  Priority/Priority Byte Offset 945 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID944  ,Interrupt ID944   Priority/Priority Byte Offset 944 "
group.long 0x7B4++0x03
line.long 0x00 "GICD_IPRIORITYR237,Interrupt Priority Register 237"
hexmask.long.byte 0x00 24.--31. 1. " INTID951  ,Interrupt ID951  Priority/Priority Byte Offset 951 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID950  ,Interrupt ID950   Priority/Priority Byte Offset 950 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID949  ,Interrupt ID949  Priority/Priority Byte Offset 949 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID948  ,Interrupt ID948   Priority/Priority Byte Offset 948 "
group.long 0x7B8++0x03
line.long 0x00 "GICD_IPRIORITYR238,Interrupt Priority Register 238"
hexmask.long.byte 0x00 24.--31. 1. " INTID955  ,Interrupt ID955  Priority/Priority Byte Offset 955 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID954  ,Interrupt ID954   Priority/Priority Byte Offset 954 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID953  ,Interrupt ID953  Priority/Priority Byte Offset 953 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID952  ,Interrupt ID952   Priority/Priority Byte Offset 952 "
group.long 0x7BC++0x03
line.long 0x00 "GICD_IPRIORITYR239,Interrupt Priority Register 239"
hexmask.long.byte 0x00 24.--31. 1. " INTID959  ,Interrupt ID959  Priority/Priority Byte Offset 959 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID958  ,Interrupt ID958   Priority/Priority Byte Offset 958 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID957  ,Interrupt ID957  Priority/Priority Byte Offset 957 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID956  ,Interrupt ID956   Priority/Priority Byte Offset 956 "
else
hgroup.long 0x7A0++0x03
hide.long 0x00 "GICD_IPRIORITYR232,Interrupt Priority Register 232"
hgroup.long 0x7A4++0x03
hide.long 0x00 "GICD_IPRIORITYR233,Interrupt Priority Register 233"
hgroup.long 0x7A8++0x03
hide.long 0x00 "GICD_IPRIORITYR234,Interrupt Priority Register 234"
hgroup.long 0x7AC++0x03
hide.long 0x00 "GICD_IPRIORITYR235,Interrupt Priority Register 235"
hgroup.long 0x7B0++0x03
hide.long 0x00 "GICD_IPRIORITYR236,Interrupt Priority Register 236"
hgroup.long 0x7B4++0x03
hide.long 0x00 "GICD_IPRIORITYR237,Interrupt Priority Register 237"
hgroup.long 0x7B8++0x03
hide.long 0x00 "GICD_IPRIORITYR238,Interrupt Priority Register 238"
hgroup.long 0x7BC++0x03
hide.long 0x00 "GICD_IPRIORITYR239,Interrupt Priority Register 239"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1E)
group.long 0x7C0++0x03
line.long 0x00 "GICD_IPRIORITYR240,Interrupt Priority Register 240"
hexmask.long.byte 0x00 24.--31. 1. " INTID963  ,Interrupt ID963  Priority/Priority Byte Offset 963 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID962  ,Interrupt ID962   Priority/Priority Byte Offset 962 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID961  ,Interrupt ID961  Priority/Priority Byte Offset 961 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID960  ,Interrupt ID960   Priority/Priority Byte Offset 960 "
group.long 0x7C4++0x03
line.long 0x00 "GICD_IPRIORITYR241,Interrupt Priority Register 241"
hexmask.long.byte 0x00 24.--31. 1. " INTID967  ,Interrupt ID967  Priority/Priority Byte Offset 967 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID966  ,Interrupt ID966   Priority/Priority Byte Offset 966 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID965  ,Interrupt ID965  Priority/Priority Byte Offset 965 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID964  ,Interrupt ID964   Priority/Priority Byte Offset 964 "
group.long 0x7C8++0x03
line.long 0x00 "GICD_IPRIORITYR242,Interrupt Priority Register 242"
hexmask.long.byte 0x00 24.--31. 1. " INTID971  ,Interrupt ID971  Priority/Priority Byte Offset 971 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID970  ,Interrupt ID970   Priority/Priority Byte Offset 970 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID969  ,Interrupt ID969  Priority/Priority Byte Offset 969 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID968  ,Interrupt ID968   Priority/Priority Byte Offset 968 "
group.long 0x7CC++0x03
line.long 0x00 "GICD_IPRIORITYR243,Interrupt Priority Register 243"
hexmask.long.byte 0x00 24.--31. 1. " INTID975  ,Interrupt ID975  Priority/Priority Byte Offset 975 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID974  ,Interrupt ID974   Priority/Priority Byte Offset 974 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID973  ,Interrupt ID973  Priority/Priority Byte Offset 973 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID972  ,Interrupt ID972   Priority/Priority Byte Offset 972 "
group.long 0x7D0++0x03
line.long 0x00 "GICD_IPRIORITYR244,Interrupt Priority Register 244"
hexmask.long.byte 0x00 24.--31. 1. " INTID979  ,Interrupt ID979  Priority/Priority Byte Offset 979 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID978  ,Interrupt ID978   Priority/Priority Byte Offset 978 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID977  ,Interrupt ID977  Priority/Priority Byte Offset 977 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID976  ,Interrupt ID976   Priority/Priority Byte Offset 976 "
group.long 0x7D4++0x03
line.long 0x00 "GICD_IPRIORITYR245,Interrupt Priority Register 245"
hexmask.long.byte 0x00 24.--31. 1. " INTID983  ,Interrupt ID983  Priority/Priority Byte Offset 983 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID982  ,Interrupt ID982   Priority/Priority Byte Offset 982 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID981  ,Interrupt ID981  Priority/Priority Byte Offset 981 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID980  ,Interrupt ID980   Priority/Priority Byte Offset 980 "
group.long 0x7D8++0x03
line.long 0x00 "GICD_IPRIORITYR246,Interrupt Priority Register 246"
hexmask.long.byte 0x00 24.--31. 1. " INTID987  ,Interrupt ID987  Priority/Priority Byte Offset 987 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID986  ,Interrupt ID986   Priority/Priority Byte Offset 986 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID985  ,Interrupt ID985  Priority/Priority Byte Offset 985 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID984  ,Interrupt ID984   Priority/Priority Byte Offset 984 "
group.long 0x7DC++0x03
line.long 0x00 "GICD_IPRIORITYR247,Interrupt Priority Register 247"
hexmask.long.byte 0x00 24.--31. 1. " INTID991  ,Interrupt ID991  Priority/Priority Byte Offset 991 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID990  ,Interrupt ID990   Priority/Priority Byte Offset 990 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID989  ,Interrupt ID989  Priority/Priority Byte Offset 989 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID988  ,Interrupt ID988   Priority/Priority Byte Offset 988 "
else
hgroup.long 0x7C0++0x03
hide.long 0x00 "GICD_IPRIORITYR240,Interrupt Priority Register 240"
hgroup.long 0x7C4++0x03
hide.long 0x00 "GICD_IPRIORITYR241,Interrupt Priority Register 241"
hgroup.long 0x7C8++0x03
hide.long 0x00 "GICD_IPRIORITYR242,Interrupt Priority Register 242"
hgroup.long 0x7CC++0x03
hide.long 0x00 "GICD_IPRIORITYR243,Interrupt Priority Register 243"
hgroup.long 0x7D0++0x03
hide.long 0x00 "GICD_IPRIORITYR244,Interrupt Priority Register 244"
hgroup.long 0x7D4++0x03
hide.long 0x00 "GICD_IPRIORITYR245,Interrupt Priority Register 245"
hgroup.long 0x7D8++0x03
hide.long 0x00 "GICD_IPRIORITYR246,Interrupt Priority Register 246"
hgroup.long 0x7DC++0x03
hide.long 0x00 "GICD_IPRIORITYR247,Interrupt Priority Register 247"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1F)
group.long 0x7E0++0x03
line.long 0x00 "GICD_IPRIORITYR248,Interrupt Priority Register 248"
hexmask.long.byte 0x00 24.--31. 1. " INTID995  ,Interrupt ID995  Priority/Priority Byte Offset 995 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID994  ,Interrupt ID994   Priority/Priority Byte Offset 994 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID993  ,Interrupt ID993  Priority/Priority Byte Offset 993 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID992  ,Interrupt ID992   Priority/Priority Byte Offset 992 "
group.long 0x7E4++0x03
line.long 0x00 "GICD_IPRIORITYR249,Interrupt Priority Register 249"
hexmask.long.byte 0x00 24.--31. 1. " INTID999  ,Interrupt ID999  Priority/Priority Byte Offset 999 "
hexmask.long.byte 0x00 16.--23. 1. "  INTID998  ,Interrupt ID998   Priority/Priority Byte Offset 998 "
hexmask.long.byte 0x00 8.--15. 1. "  INTID997  ,Interrupt ID997  Priority/Priority Byte Offset 997 "
hexmask.long.byte 0x00 0.--7. 1. "  INTID996  ,Interrupt ID996   Priority/Priority Byte Offset 996 "
group.long 0x7E8++0x03
line.long 0x00 "GICD_IPRIORITYR250,Interrupt Priority Register 250"
hexmask.long.byte 0x00 24.--31. 1. " INTID1003 ,Interrupt ID1003 Priority/Priority Byte Offset 1003"
hexmask.long.byte 0x00 16.--23. 1. "  INTID1002 ,Interrupt ID1002  Priority/Priority Byte Offset 1002"
hexmask.long.byte 0x00 8.--15. 1. "  INTID1001 ,Interrupt ID1001 Priority/Priority Byte Offset 1001"
hexmask.long.byte 0x00 0.--7. 1. "  INTID1000 ,Interrupt ID1000  Priority/Priority Byte Offset 1000"
group.long 0x7EC++0x03
line.long 0x00 "GICD_IPRIORITYR251,Interrupt Priority Register 251"
hexmask.long.byte 0x00 24.--31. 1. " INTID1007 ,Interrupt ID1007 Priority/Priority Byte Offset 1007"
hexmask.long.byte 0x00 16.--23. 1. "  INTID1006 ,Interrupt ID1006  Priority/Priority Byte Offset 1006"
hexmask.long.byte 0x00 8.--15. 1. "  INTID1005 ,Interrupt ID1005 Priority/Priority Byte Offset 1005"
hexmask.long.byte 0x00 0.--7. 1. "  INTID1004 ,Interrupt ID1004  Priority/Priority Byte Offset 1004"
group.long 0x7F0++0x03
line.long 0x00 "GICD_IPRIORITYR252,Interrupt Priority Register 252"
hexmask.long.byte 0x00 24.--31. 1. " INTID1011 ,Interrupt ID1011 Priority/Priority Byte Offset 1011"
hexmask.long.byte 0x00 16.--23. 1. "  INTID1010 ,Interrupt ID1010  Priority/Priority Byte Offset 1010"
hexmask.long.byte 0x00 8.--15. 1. "  INTID1009 ,Interrupt ID1009 Priority/Priority Byte Offset 1009"
hexmask.long.byte 0x00 0.--7. 1. "  INTID1008 ,Interrupt ID1008  Priority/Priority Byte Offset 1008"
group.long 0x7F4++0x03
line.long 0x00 "GICD_IPRIORITYR253,Interrupt Priority Register 253"
hexmask.long.byte 0x00 24.--31. 1. " INTID1015 ,Interrupt ID1015 Priority/Priority Byte Offset 1015"
hexmask.long.byte 0x00 16.--23. 1. "  INTID1014 ,Interrupt ID1014  Priority/Priority Byte Offset 1014"
hexmask.long.byte 0x00 8.--15. 1. "  INTID1013 ,Interrupt ID1013 Priority/Priority Byte Offset 1013"
hexmask.long.byte 0x00 0.--7. 1. "  INTID1012 ,Interrupt ID1012  Priority/Priority Byte Offset 1012"
group.long 0x7F8++0x03
line.long 0x00 "GICD_IPRIORITYR254,Interrupt Priority Register 254"
hexmask.long.byte 0x00 24.--31. 1. " INTID1019 ,Interrupt ID1019 Priority/Priority Byte Offset 1019"
hexmask.long.byte 0x00 16.--23. 1. "  INTID1018 ,Interrupt ID1018  Priority/Priority Byte Offset 1018"
hexmask.long.byte 0x00 8.--15. 1. "  INTID1017 ,Interrupt ID1017 Priority/Priority Byte Offset 1017"
hexmask.long.byte 0x00 0.--7. 1. "  INTID1016 ,Interrupt ID1016  Priority/Priority Byte Offset 1016"
else
hgroup.long 0x7E0++0x03
hide.long 0x00 "GICD_IPRIORITYR248,Interrupt Priority Register 248"
hgroup.long 0x7E4++0x03
hide.long 0x00 "GICD_IPRIORITYR249,Interrupt Priority Register 249"
hgroup.long 0x7E8++0x03
hide.long 0x00 "GICD_IPRIORITYR250,Interrupt Priority Register 250"
hgroup.long 0x7EC++0x03
hide.long 0x00 "GICD_IPRIORITYR251,Interrupt Priority Register 251"
hgroup.long 0x7F0++0x03
hide.long 0x00 "GICD_IPRIORITYR252,Interrupt Priority Register 252"
hgroup.long 0x7F4++0x03
hide.long 0x00 "GICD_IPRIORITYR253,Interrupt Priority Register 253"
hgroup.long 0x7F8++0x03
hide.long 0x00 "GICD_IPRIORITYR254,Interrupt Priority Register 254"
endif
tree.end
width 19.
tree "Processor Targets Registers"
if (((d.l(AD:0x48241000+0x04))&0x000000E0)>0x1)
rgroup.long 0x800++0x03
line.long 0x00 "GICD_ITARGETSR0,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 0x804++0x03
line.long 0x00 "GICD_ITARGETSR1,Interrupt Processor Targets Register 1"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO7    ,CPU Targets Byte Offset 7   "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO6    ,CPU Targets Byte Offset 6   "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO5    ,CPU Targets Byte Offset 5   "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO4    ,CPU Targets Byte Offset 4   "
rgroup.long 0x808++0x03
line.long 0x00 "GICD_ITARGETSR2,Interrupt Processor Targets Register 2"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO11   ,CPU Targets Byte Offset 11  "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO10   ,CPU Targets Byte Offset 10  "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO9    ,CPU Targets Byte Offset 9   "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO8    ,CPU Targets Byte Offset 8   "
rgroup.long 0x80C++0x03
line.long 0x00 "GICD_ITARGETSR3,Interrupt Processor Targets Register 3"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO15   ,CPU Targets Byte Offset 15  "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO14   ,CPU Targets Byte Offset 14  "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO13   ,CPU Targets Byte Offset 13  "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO12   ,CPU Targets Byte Offset 12  "
rgroup.long 0x810++0x03
line.long 0x00 "GICD_ITARGETSR4,Interrupt Processor Targets Register 4"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO19   ,CPU Targets Byte Offset 19  "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO18   ,CPU Targets Byte Offset 18  "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO17   ,CPU Targets Byte Offset 17  "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO16   ,CPU Targets Byte Offset 16  "
rgroup.long 0x814++0x03
line.long 0x00 "GICD_ITARGETSR5,Interrupt Processor Targets Register 5"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO23   ,CPU Targets Byte Offset 23  "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO22   ,CPU Targets Byte Offset 22  "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO21   ,CPU Targets Byte Offset 21  "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO20   ,CPU Targets Byte Offset 20  "
rgroup.long 0x818++0x03
line.long 0x00 "GICD_ITARGETSR6,Interrupt Processor Targets Register 6"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO27   ,CPU Targets Byte Offset 27  "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO26   ,CPU Targets Byte Offset 26  "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO25   ,CPU Targets Byte Offset 25  "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO24   ,CPU Targets Byte Offset 24  "
rgroup.long 0x81C++0x03
line.long 0x00 "GICD_ITARGETSR7,Interrupt Processor Targets Register 7"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO31   ,CPU Targets Byte Offset 31  "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO30   ,CPU Targets Byte Offset 30  "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO29   ,CPU Targets Byte Offset 29  "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO28   ,CPU Targets Byte Offset 28  "
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x01)
group.long 0x820++0x03
line.long 0x00 "GICD_ITARGETSR8,Interrupt Processor Targets Register 8"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO35   ,CPU Targets Byte Offset 35  "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO34   ,CPU Targets Byte Offset 34  "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO33   ,CPU Targets Byte Offset 33  "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO32   ,CPU Targets Byte Offset 32  "
group.long 0x824++0x03
line.long 0x00 "GICD_ITARGETSR9,Interrupt Processor Targets Register 9"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO39   ,CPU Targets Byte Offset 39  "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO38   ,CPU Targets Byte Offset 38  "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO37   ,CPU Targets Byte Offset 37  "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO36   ,CPU Targets Byte Offset 36  "
group.long 0x828++0x03
line.long 0x00 "GICD_ITARGETSR10,Interrupt Processor Targets Register 10"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO43   ,CPU Targets Byte Offset 43  "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO42   ,CPU Targets Byte Offset 42  "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO41   ,CPU Targets Byte Offset 41  "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO40   ,CPU Targets Byte Offset 40  "
group.long 0x82C++0x03
line.long 0x00 "GICD_ITARGETSR11,Interrupt Processor Targets Register 11"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO47   ,CPU Targets Byte Offset 47  "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO46   ,CPU Targets Byte Offset 46  "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO45   ,CPU Targets Byte Offset 45  "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO44   ,CPU Targets Byte Offset 44  "
group.long 0x830++0x03
line.long 0x00 "GICD_ITARGETSR12,Interrupt Processor Targets Register 12"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO51   ,CPU Targets Byte Offset 51  "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO50   ,CPU Targets Byte Offset 50  "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO49   ,CPU Targets Byte Offset 49  "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO48   ,CPU Targets Byte Offset 48  "
group.long 0x834++0x03
line.long 0x00 "GICD_ITARGETSR13,Interrupt Processor Targets Register 13"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO55   ,CPU Targets Byte Offset 55  "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO54   ,CPU Targets Byte Offset 54  "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO53   ,CPU Targets Byte Offset 53  "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO52   ,CPU Targets Byte Offset 52  "
group.long 0x838++0x03
line.long 0x00 "GICD_ITARGETSR14,Interrupt Processor Targets Register 14"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO59   ,CPU Targets Byte Offset 59  "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO58   ,CPU Targets Byte Offset 58  "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO57   ,CPU Targets Byte Offset 57  "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO56   ,CPU Targets Byte Offset 56  "
group.long 0x83C++0x03
line.long 0x00 "GICD_ITARGETSR15,Interrupt Processor Targets Register 15"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO63   ,CPU Targets Byte Offset 63  "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO62   ,CPU Targets Byte Offset 62  "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO61   ,CPU Targets Byte Offset 61  "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO60   ,CPU Targets Byte Offset 60  "
else
hgroup.long 0x820++0x03
hide.long 0x00 "GICD_ITARGETSR8,Interrupt Processor Targets Register 8"
hgroup.long 0x824++0x03
hide.long 0x00 "GICD_ITARGETSR9,Interrupt Processor Targets Register 9"
hgroup.long 0x828++0x03
hide.long 0x00 "GICD_ITARGETSR10,Interrupt Processor Targets Register 10"
hgroup.long 0x82C++0x03
hide.long 0x00 "GICD_ITARGETSR11,Interrupt Processor Targets Register 11"
hgroup.long 0x830++0x03
hide.long 0x00 "GICD_ITARGETSR12,Interrupt Processor Targets Register 12"
hgroup.long 0x834++0x03
hide.long 0x00 "GICD_ITARGETSR13,Interrupt Processor Targets Register 13"
hgroup.long 0x838++0x03
hide.long 0x00 "GICD_ITARGETSR14,Interrupt Processor Targets Register 14"
hgroup.long 0x83C++0x03
hide.long 0x00 "GICD_ITARGETSR15,Interrupt Processor Targets Register 15"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x02)
group.long 0x840++0x03
line.long 0x00 "GICD_ITARGETSR16,Interrupt Processor Targets Register 16"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO67   ,CPU Targets Byte Offset 67  "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO66   ,CPU Targets Byte Offset 66  "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO65   ,CPU Targets Byte Offset 65  "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO64   ,CPU Targets Byte Offset 64  "
group.long 0x844++0x03
line.long 0x00 "GICD_ITARGETSR17,Interrupt Processor Targets Register 17"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO71   ,CPU Targets Byte Offset 71  "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO70   ,CPU Targets Byte Offset 70  "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO69   ,CPU Targets Byte Offset 69  "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO68   ,CPU Targets Byte Offset 68  "
group.long 0x848++0x03
line.long 0x00 "GICD_ITARGETSR18,Interrupt Processor Targets Register 18"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO75   ,CPU Targets Byte Offset 75  "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO74   ,CPU Targets Byte Offset 74  "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO73   ,CPU Targets Byte Offset 73  "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO72   ,CPU Targets Byte Offset 72  "
group.long 0x84C++0x03
line.long 0x00 "GICD_ITARGETSR19,Interrupt Processor Targets Register 19"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO79   ,CPU Targets Byte Offset 79  "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO78   ,CPU Targets Byte Offset 78  "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO77   ,CPU Targets Byte Offset 77  "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO76   ,CPU Targets Byte Offset 76  "
group.long 0x850++0x03
line.long 0x00 "GICD_ITARGETSR20,Interrupt Processor Targets Register 20"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO83   ,CPU Targets Byte Offset 83  "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO82   ,CPU Targets Byte Offset 82  "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO81   ,CPU Targets Byte Offset 81  "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO80   ,CPU Targets Byte Offset 80  "
group.long 0x854++0x03
line.long 0x00 "GICD_ITARGETSR21,Interrupt Processor Targets Register 21"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO87   ,CPU Targets Byte Offset 87  "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO86   ,CPU Targets Byte Offset 86  "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO85   ,CPU Targets Byte Offset 85  "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO84   ,CPU Targets Byte Offset 84  "
group.long 0x858++0x03
line.long 0x00 "GICD_ITARGETSR22,Interrupt Processor Targets Register 22"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO91   ,CPU Targets Byte Offset 91  "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO90   ,CPU Targets Byte Offset 90  "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO89   ,CPU Targets Byte Offset 89  "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO88   ,CPU Targets Byte Offset 88  "
group.long 0x85C++0x03
line.long 0x00 "GICD_ITARGETSR23,Interrupt Processor Targets Register 23"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO95   ,CPU Targets Byte Offset 95  "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO94   ,CPU Targets Byte Offset 94  "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO93   ,CPU Targets Byte Offset 93  "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO92   ,CPU Targets Byte Offset 92  "
else
hgroup.long 0x840++0x03
hide.long 0x00 "GICD_ITARGETSR16,Interrupt Processor Targets Register 16"
hgroup.long 0x844++0x03
hide.long 0x00 "GICD_ITARGETSR17,Interrupt Processor Targets Register 17"
hgroup.long 0x848++0x03
hide.long 0x00 "GICD_ITARGETSR18,Interrupt Processor Targets Register 18"
hgroup.long 0x84C++0x03
hide.long 0x00 "GICD_ITARGETSR19,Interrupt Processor Targets Register 19"
hgroup.long 0x850++0x03
hide.long 0x00 "GICD_ITARGETSR20,Interrupt Processor Targets Register 20"
hgroup.long 0x854++0x03
hide.long 0x00 "GICD_ITARGETSR21,Interrupt Processor Targets Register 21"
hgroup.long 0x858++0x03
hide.long 0x00 "GICD_ITARGETSR22,Interrupt Processor Targets Register 22"
hgroup.long 0x85C++0x03
hide.long 0x00 "GICD_ITARGETSR23,Interrupt Processor Targets Register 23"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x03)
group.long 0x860++0x03
line.long 0x00 "GICD_ITARGETSR24,Interrupt Processor Targets Register 24"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO99   ,CPU Targets Byte Offset 99  "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO98   ,CPU Targets Byte Offset 98  "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO97   ,CPU Targets Byte Offset 97  "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO96   ,CPU Targets Byte Offset 96  "
group.long 0x864++0x03
line.long 0x00 "GICD_ITARGETSR25,Interrupt Processor Targets Register 25"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO103  ,CPU Targets Byte Offset 103 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO102  ,CPU Targets Byte Offset 102 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO101  ,CPU Targets Byte Offset 101 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO100  ,CPU Targets Byte Offset 100 "
group.long 0x868++0x03
line.long 0x00 "GICD_ITARGETSR26,Interrupt Processor Targets Register 26"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO107  ,CPU Targets Byte Offset 107 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO106  ,CPU Targets Byte Offset 106 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO105  ,CPU Targets Byte Offset 105 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO104  ,CPU Targets Byte Offset 104 "
group.long 0x86C++0x03
line.long 0x00 "GICD_ITARGETSR27,Interrupt Processor Targets Register 27"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO111  ,CPU Targets Byte Offset 111 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO110  ,CPU Targets Byte Offset 110 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO109  ,CPU Targets Byte Offset 109 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO108  ,CPU Targets Byte Offset 108 "
group.long 0x870++0x03
line.long 0x00 "GICD_ITARGETSR28,Interrupt Processor Targets Register 28"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO115  ,CPU Targets Byte Offset 115 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO114  ,CPU Targets Byte Offset 114 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO113  ,CPU Targets Byte Offset 113 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO112  ,CPU Targets Byte Offset 112 "
group.long 0x874++0x03
line.long 0x00 "GICD_ITARGETSR29,Interrupt Processor Targets Register 29"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO119  ,CPU Targets Byte Offset 119 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO118  ,CPU Targets Byte Offset 118 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO117  ,CPU Targets Byte Offset 117 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO116  ,CPU Targets Byte Offset 116 "
group.long 0x878++0x03
line.long 0x00 "GICD_ITARGETSR30,Interrupt Processor Targets Register 30"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO123  ,CPU Targets Byte Offset 123 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO122  ,CPU Targets Byte Offset 122 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO121  ,CPU Targets Byte Offset 121 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO120  ,CPU Targets Byte Offset 120 "
group.long 0x87C++0x03
line.long 0x00 "GICD_ITARGETSR31,Interrupt Processor Targets Register 31"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO127  ,CPU Targets Byte Offset 127 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO126  ,CPU Targets Byte Offset 126 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO125  ,CPU Targets Byte Offset 125 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO124  ,CPU Targets Byte Offset 124 "
else
hgroup.long 0x860++0x03
hide.long 0x00 "GICD_ITARGETSR24,Interrupt Processor Targets Register 24"
hgroup.long 0x864++0x03
hide.long 0x00 "GICD_ITARGETSR25,Interrupt Processor Targets Register 25"
hgroup.long 0x868++0x03
hide.long 0x00 "GICD_ITARGETSR26,Interrupt Processor Targets Register 26"
hgroup.long 0x86C++0x03
hide.long 0x00 "GICD_ITARGETSR27,Interrupt Processor Targets Register 27"
hgroup.long 0x870++0x03
hide.long 0x00 "GICD_ITARGETSR28,Interrupt Processor Targets Register 28"
hgroup.long 0x874++0x03
hide.long 0x00 "GICD_ITARGETSR29,Interrupt Processor Targets Register 29"
hgroup.long 0x878++0x03
hide.long 0x00 "GICD_ITARGETSR30,Interrupt Processor Targets Register 30"
hgroup.long 0x87C++0x03
hide.long 0x00 "GICD_ITARGETSR31,Interrupt Processor Targets Register 31"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x04)
group.long 0x880++0x03
line.long 0x00 "GICD_ITARGETSR32,Interrupt Processor Targets Register 32"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO131  ,CPU Targets Byte Offset 131 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO130  ,CPU Targets Byte Offset 130 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO129  ,CPU Targets Byte Offset 129 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO128  ,CPU Targets Byte Offset 128 "
group.long 0x884++0x03
line.long 0x00 "GICD_ITARGETSR33,Interrupt Processor Targets Register 33"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO135  ,CPU Targets Byte Offset 135 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO134  ,CPU Targets Byte Offset 134 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO133  ,CPU Targets Byte Offset 133 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO132  ,CPU Targets Byte Offset 132 "
group.long 0x888++0x03
line.long 0x00 "GICD_ITARGETSR34,Interrupt Processor Targets Register 34"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO139  ,CPU Targets Byte Offset 139 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO138  ,CPU Targets Byte Offset 138 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO137  ,CPU Targets Byte Offset 137 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO136  ,CPU Targets Byte Offset 136 "
group.long 0x88C++0x03
line.long 0x00 "GICD_ITARGETSR35,Interrupt Processor Targets Register 35"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO143  ,CPU Targets Byte Offset 143 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO142  ,CPU Targets Byte Offset 142 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO141  ,CPU Targets Byte Offset 141 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO140  ,CPU Targets Byte Offset 140 "
group.long 0x890++0x03
line.long 0x00 "GICD_ITARGETSR36,Interrupt Processor Targets Register 36"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO147  ,CPU Targets Byte Offset 147 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO146  ,CPU Targets Byte Offset 146 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO145  ,CPU Targets Byte Offset 145 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO144  ,CPU Targets Byte Offset 144 "
group.long 0x894++0x03
line.long 0x00 "GICD_ITARGETSR37,Interrupt Processor Targets Register 37"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO151  ,CPU Targets Byte Offset 151 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO150  ,CPU Targets Byte Offset 150 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO149  ,CPU Targets Byte Offset 149 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO148  ,CPU Targets Byte Offset 148 "
group.long 0x898++0x03
line.long 0x00 "GICD_ITARGETSR38,Interrupt Processor Targets Register 38"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO155  ,CPU Targets Byte Offset 155 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO154  ,CPU Targets Byte Offset 154 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO153  ,CPU Targets Byte Offset 153 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO152  ,CPU Targets Byte Offset 152 "
group.long 0x89C++0x03
line.long 0x00 "GICD_ITARGETSR39,Interrupt Processor Targets Register 39"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO159  ,CPU Targets Byte Offset 159 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO158  ,CPU Targets Byte Offset 158 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO157  ,CPU Targets Byte Offset 157 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO156  ,CPU Targets Byte Offset 156 "
else
hgroup.long 0x880++0x03
hide.long 0x00 "GICD_ITARGETSR32,Interrupt Processor Targets Register 32"
hgroup.long 0x884++0x03
hide.long 0x00 "GICD_ITARGETSR33,Interrupt Processor Targets Register 33"
hgroup.long 0x888++0x03
hide.long 0x00 "GICD_ITARGETSR34,Interrupt Processor Targets Register 34"
hgroup.long 0x88C++0x03
hide.long 0x00 "GICD_ITARGETSR35,Interrupt Processor Targets Register 35"
hgroup.long 0x890++0x03
hide.long 0x00 "GICD_ITARGETSR36,Interrupt Processor Targets Register 36"
hgroup.long 0x894++0x03
hide.long 0x00 "GICD_ITARGETSR37,Interrupt Processor Targets Register 37"
hgroup.long 0x898++0x03
hide.long 0x00 "GICD_ITARGETSR38,Interrupt Processor Targets Register 38"
hgroup.long 0x89C++0x03
hide.long 0x00 "GICD_ITARGETSR39,Interrupt Processor Targets Register 39"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x05)
group.long 0x8A0++0x03
line.long 0x00 "GICD_ITARGETSR40,Interrupt Processor Targets Register 40"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO163  ,CPU Targets Byte Offset 163 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO162  ,CPU Targets Byte Offset 162 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO161  ,CPU Targets Byte Offset 161 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO160  ,CPU Targets Byte Offset 160 "
group.long 0x8A4++0x03
line.long 0x00 "GICD_ITARGETSR41,Interrupt Processor Targets Register 41"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO167  ,CPU Targets Byte Offset 167 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO166  ,CPU Targets Byte Offset 166 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO165  ,CPU Targets Byte Offset 165 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO164  ,CPU Targets Byte Offset 164 "
group.long 0x8A8++0x03
line.long 0x00 "GICD_ITARGETSR42,Interrupt Processor Targets Register 42"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO171  ,CPU Targets Byte Offset 171 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO170  ,CPU Targets Byte Offset 170 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO169  ,CPU Targets Byte Offset 169 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO168  ,CPU Targets Byte Offset 168 "
group.long 0x8AC++0x03
line.long 0x00 "GICD_ITARGETSR43,Interrupt Processor Targets Register 43"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO175  ,CPU Targets Byte Offset 175 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO174  ,CPU Targets Byte Offset 174 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO173  ,CPU Targets Byte Offset 173 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO172  ,CPU Targets Byte Offset 172 "
group.long 0x8B0++0x03
line.long 0x00 "GICD_ITARGETSR44,Interrupt Processor Targets Register 44"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO179  ,CPU Targets Byte Offset 179 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO178  ,CPU Targets Byte Offset 178 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO177  ,CPU Targets Byte Offset 177 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO176  ,CPU Targets Byte Offset 176 "
group.long 0x8B4++0x03
line.long 0x00 "GICD_ITARGETSR45,Interrupt Processor Targets Register 45"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO183  ,CPU Targets Byte Offset 183 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO182  ,CPU Targets Byte Offset 182 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO181  ,CPU Targets Byte Offset 181 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO180  ,CPU Targets Byte Offset 180 "
group.long 0x8B8++0x03
line.long 0x00 "GICD_ITARGETSR46,Interrupt Processor Targets Register 46"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO187  ,CPU Targets Byte Offset 187 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO186  ,CPU Targets Byte Offset 186 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO185  ,CPU Targets Byte Offset 185 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO184  ,CPU Targets Byte Offset 184 "
group.long 0x8BC++0x03
line.long 0x00 "GICD_ITARGETSR47,Interrupt Processor Targets Register 47"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO191  ,CPU Targets Byte Offset 191 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO190  ,CPU Targets Byte Offset 190 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO189  ,CPU Targets Byte Offset 189 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO188  ,CPU Targets Byte Offset 188 "
else
hgroup.long 0x8A0++0x03
hide.long 0x00 "GICD_ITARGETSR40,Interrupt Processor Targets Register 40"
hgroup.long 0x8A4++0x03
hide.long 0x00 "GICD_ITARGETSR41,Interrupt Processor Targets Register 41"
hgroup.long 0x8A8++0x03
hide.long 0x00 "GICD_ITARGETSR42,Interrupt Processor Targets Register 42"
hgroup.long 0x8AC++0x03
hide.long 0x00 "GICD_ITARGETSR43,Interrupt Processor Targets Register 43"
hgroup.long 0x8B0++0x03
hide.long 0x00 "GICD_ITARGETSR44,Interrupt Processor Targets Register 44"
hgroup.long 0x8B4++0x03
hide.long 0x00 "GICD_ITARGETSR45,Interrupt Processor Targets Register 45"
hgroup.long 0x8B8++0x03
hide.long 0x00 "GICD_ITARGETSR46,Interrupt Processor Targets Register 46"
hgroup.long 0x8BC++0x03
hide.long 0x00 "GICD_ITARGETSR47,Interrupt Processor Targets Register 47"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x06)
group.long 0x8C0++0x03
line.long 0x00 "GICD_ITARGETSR48,Interrupt Processor Targets Register 48"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO195  ,CPU Targets Byte Offset 195 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO194  ,CPU Targets Byte Offset 194 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO193  ,CPU Targets Byte Offset 193 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO192  ,CPU Targets Byte Offset 192 "
group.long 0x8C4++0x03
line.long 0x00 "GICD_ITARGETSR49,Interrupt Processor Targets Register 49"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO199  ,CPU Targets Byte Offset 199 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO198  ,CPU Targets Byte Offset 198 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO197  ,CPU Targets Byte Offset 197 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO196  ,CPU Targets Byte Offset 196 "
group.long 0x8C8++0x03
line.long 0x00 "GICD_ITARGETSR50,Interrupt Processor Targets Register 50"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO203  ,CPU Targets Byte Offset 203 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO202  ,CPU Targets Byte Offset 202 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO201  ,CPU Targets Byte Offset 201 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO200  ,CPU Targets Byte Offset 200 "
group.long 0x8CC++0x03
line.long 0x00 "GICD_ITARGETSR51,Interrupt Processor Targets Register 51"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO207  ,CPU Targets Byte Offset 207 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO206  ,CPU Targets Byte Offset 206 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO205  ,CPU Targets Byte Offset 205 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO204  ,CPU Targets Byte Offset 204 "
group.long 0x8D0++0x03
line.long 0x00 "GICD_ITARGETSR52,Interrupt Processor Targets Register 52"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO211  ,CPU Targets Byte Offset 211 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO210  ,CPU Targets Byte Offset 210 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO209  ,CPU Targets Byte Offset 209 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO208  ,CPU Targets Byte Offset 208 "
group.long 0x8D4++0x03
line.long 0x00 "GICD_ITARGETSR53,Interrupt Processor Targets Register 53"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO215  ,CPU Targets Byte Offset 215 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO214  ,CPU Targets Byte Offset 214 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO213  ,CPU Targets Byte Offset 213 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO212  ,CPU Targets Byte Offset 212 "
group.long 0x8D8++0x03
line.long 0x00 "GICD_ITARGETSR54,Interrupt Processor Targets Register 54"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO219  ,CPU Targets Byte Offset 219 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO218  ,CPU Targets Byte Offset 218 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO217  ,CPU Targets Byte Offset 217 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO216  ,CPU Targets Byte Offset 216 "
group.long 0x8DC++0x03
line.long 0x00 "GICD_ITARGETSR55,Interrupt Processor Targets Register 55"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO223  ,CPU Targets Byte Offset 223 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO222  ,CPU Targets Byte Offset 222 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO221  ,CPU Targets Byte Offset 221 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO220  ,CPU Targets Byte Offset 220 "
else
hgroup.long 0x8C0++0x03
hide.long 0x00 "GICD_ITARGETSR48,Interrupt Processor Targets Register 48"
hgroup.long 0x8C4++0x03
hide.long 0x00 "GICD_ITARGETSR49,Interrupt Processor Targets Register 49"
hgroup.long 0x8C8++0x03
hide.long 0x00 "GICD_ITARGETSR50,Interrupt Processor Targets Register 50"
hgroup.long 0x8CC++0x03
hide.long 0x00 "GICD_ITARGETSR51,Interrupt Processor Targets Register 51"
hgroup.long 0x8D0++0x03
hide.long 0x00 "GICD_ITARGETSR52,Interrupt Processor Targets Register 52"
hgroup.long 0x8D4++0x03
hide.long 0x00 "GICD_ITARGETSR53,Interrupt Processor Targets Register 53"
hgroup.long 0x8D8++0x03
hide.long 0x00 "GICD_ITARGETSR54,Interrupt Processor Targets Register 54"
hgroup.long 0x8DC++0x03
hide.long 0x00 "GICD_ITARGETSR55,Interrupt Processor Targets Register 55"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x07)
group.long 0x8E0++0x03
line.long 0x00 "GICD_ITARGETSR56,Interrupt Processor Targets Register 56"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO227  ,CPU Targets Byte Offset 227 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO226  ,CPU Targets Byte Offset 226 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO225  ,CPU Targets Byte Offset 225 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO224  ,CPU Targets Byte Offset 224 "
group.long 0x8E4++0x03
line.long 0x00 "GICD_ITARGETSR57,Interrupt Processor Targets Register 57"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO231  ,CPU Targets Byte Offset 231 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO230  ,CPU Targets Byte Offset 230 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO229  ,CPU Targets Byte Offset 229 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO228  ,CPU Targets Byte Offset 228 "
group.long 0x8E8++0x03
line.long 0x00 "GICD_ITARGETSR58,Interrupt Processor Targets Register 58"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO235  ,CPU Targets Byte Offset 235 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO234  ,CPU Targets Byte Offset 234 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO233  ,CPU Targets Byte Offset 233 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO232  ,CPU Targets Byte Offset 232 "
group.long 0x8EC++0x03
line.long 0x00 "GICD_ITARGETSR59,Interrupt Processor Targets Register 59"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO239  ,CPU Targets Byte Offset 239 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO238  ,CPU Targets Byte Offset 238 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO237  ,CPU Targets Byte Offset 237 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO236  ,CPU Targets Byte Offset 236 "
group.long 0x8F0++0x03
line.long 0x00 "GICD_ITARGETSR60,Interrupt Processor Targets Register 60"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO243  ,CPU Targets Byte Offset 243 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO242  ,CPU Targets Byte Offset 242 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO241  ,CPU Targets Byte Offset 241 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO240  ,CPU Targets Byte Offset 240 "
group.long 0x8F4++0x03
line.long 0x00 "GICD_ITARGETSR61,Interrupt Processor Targets Register 61"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO247  ,CPU Targets Byte Offset 247 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO246  ,CPU Targets Byte Offset 246 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO245  ,CPU Targets Byte Offset 245 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO244  ,CPU Targets Byte Offset 244 "
group.long 0x8F8++0x03
line.long 0x00 "GICD_ITARGETSR62,Interrupt Processor Targets Register 62"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO251  ,CPU Targets Byte Offset 251 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO250  ,CPU Targets Byte Offset 250 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO249  ,CPU Targets Byte Offset 249 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO248  ,CPU Targets Byte Offset 248 "
group.long 0x8FC++0x03
line.long 0x00 "GICD_ITARGETSR63,Interrupt Processor Targets Register 63"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO255  ,CPU Targets Byte Offset 255 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO254  ,CPU Targets Byte Offset 254 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO253  ,CPU Targets Byte Offset 253 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO252  ,CPU Targets Byte Offset 252 "
else
hgroup.long 0x8E0++0x03
hide.long 0x00 "GICD_ITARGETSR56,Interrupt Processor Targets Register 56"
hgroup.long 0x8E4++0x03
hide.long 0x00 "GICD_ITARGETSR57,Interrupt Processor Targets Register 57"
hgroup.long 0x8E8++0x03
hide.long 0x00 "GICD_ITARGETSR58,Interrupt Processor Targets Register 58"
hgroup.long 0x8EC++0x03
hide.long 0x00 "GICD_ITARGETSR59,Interrupt Processor Targets Register 59"
hgroup.long 0x8F0++0x03
hide.long 0x00 "GICD_ITARGETSR60,Interrupt Processor Targets Register 60"
hgroup.long 0x8F4++0x03
hide.long 0x00 "GICD_ITARGETSR61,Interrupt Processor Targets Register 61"
hgroup.long 0x8F8++0x03
hide.long 0x00 "GICD_ITARGETSR62,Interrupt Processor Targets Register 62"
hgroup.long 0x8FC++0x03
hide.long 0x00 "GICD_ITARGETSR63,Interrupt Processor Targets Register 63"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x08)
group.long 0x900++0x03
line.long 0x00 "GICD_ITARGETSR64,Interrupt Processor Targets Register 64"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO259  ,CPU Targets Byte Offset 259 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO258  ,CPU Targets Byte Offset 258 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO257  ,CPU Targets Byte Offset 257 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO256  ,CPU Targets Byte Offset 256 "
group.long 0x904++0x03
line.long 0x00 "GICD_ITARGETSR65,Interrupt Processor Targets Register 65"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO263  ,CPU Targets Byte Offset 263 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO262  ,CPU Targets Byte Offset 262 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO261  ,CPU Targets Byte Offset 261 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO260  ,CPU Targets Byte Offset 260 "
group.long 0x908++0x03
line.long 0x00 "GICD_ITARGETSR66,Interrupt Processor Targets Register 66"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO267  ,CPU Targets Byte Offset 267 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO266  ,CPU Targets Byte Offset 266 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO265  ,CPU Targets Byte Offset 265 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO264  ,CPU Targets Byte Offset 264 "
group.long 0x90C++0x03
line.long 0x00 "GICD_ITARGETSR67,Interrupt Processor Targets Register 67"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO271  ,CPU Targets Byte Offset 271 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO270  ,CPU Targets Byte Offset 270 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO269  ,CPU Targets Byte Offset 269 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO268  ,CPU Targets Byte Offset 268 "
group.long 0x910++0x03
line.long 0x00 "GICD_ITARGETSR68,Interrupt Processor Targets Register 68"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO275  ,CPU Targets Byte Offset 275 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO274  ,CPU Targets Byte Offset 274 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO273  ,CPU Targets Byte Offset 273 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO272  ,CPU Targets Byte Offset 272 "
group.long 0x914++0x03
line.long 0x00 "GICD_ITARGETSR69,Interrupt Processor Targets Register 69"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO279  ,CPU Targets Byte Offset 279 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO278  ,CPU Targets Byte Offset 278 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO277  ,CPU Targets Byte Offset 277 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO276  ,CPU Targets Byte Offset 276 "
group.long 0x918++0x03
line.long 0x00 "GICD_ITARGETSR70,Interrupt Processor Targets Register 70"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO283  ,CPU Targets Byte Offset 283 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO282  ,CPU Targets Byte Offset 282 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO281  ,CPU Targets Byte Offset 281 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO280  ,CPU Targets Byte Offset 280 "
group.long 0x91C++0x03
line.long 0x00 "GICD_ITARGETSR71,Interrupt Processor Targets Register 71"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO287  ,CPU Targets Byte Offset 287 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO286  ,CPU Targets Byte Offset 286 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO285  ,CPU Targets Byte Offset 285 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO284  ,CPU Targets Byte Offset 284 "
else
hgroup.long 0x900++0x03
hide.long 0x00 "GICD_ITARGETSR64,Interrupt Processor Targets Register 64"
hgroup.long 0x904++0x03
hide.long 0x00 "GICD_ITARGETSR65,Interrupt Processor Targets Register 65"
hgroup.long 0x908++0x03
hide.long 0x00 "GICD_ITARGETSR66,Interrupt Processor Targets Register 66"
hgroup.long 0x90C++0x03
hide.long 0x00 "GICD_ITARGETSR67,Interrupt Processor Targets Register 67"
hgroup.long 0x910++0x03
hide.long 0x00 "GICD_ITARGETSR68,Interrupt Processor Targets Register 68"
hgroup.long 0x914++0x03
hide.long 0x00 "GICD_ITARGETSR69,Interrupt Processor Targets Register 69"
hgroup.long 0x918++0x03
hide.long 0x00 "GICD_ITARGETSR70,Interrupt Processor Targets Register 70"
hgroup.long 0x91C++0x03
hide.long 0x00 "GICD_ITARGETSR71,Interrupt Processor Targets Register 71"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x09)
group.long 0x920++0x03
line.long 0x00 "GICD_ITARGETSR72,Interrupt Processor Targets Register 72"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO291  ,CPU Targets Byte Offset 291 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO290  ,CPU Targets Byte Offset 290 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO289  ,CPU Targets Byte Offset 289 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO288  ,CPU Targets Byte Offset 288 "
group.long 0x924++0x03
line.long 0x00 "GICD_ITARGETSR73,Interrupt Processor Targets Register 73"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO295  ,CPU Targets Byte Offset 295 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO294  ,CPU Targets Byte Offset 294 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO293  ,CPU Targets Byte Offset 293 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO292  ,CPU Targets Byte Offset 292 "
group.long 0x928++0x03
line.long 0x00 "GICD_ITARGETSR74,Interrupt Processor Targets Register 74"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO299  ,CPU Targets Byte Offset 299 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO298  ,CPU Targets Byte Offset 298 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO297  ,CPU Targets Byte Offset 297 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO296  ,CPU Targets Byte Offset 296 "
group.long 0x92C++0x03
line.long 0x00 "GICD_ITARGETSR75,Interrupt Processor Targets Register 75"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO303  ,CPU Targets Byte Offset 303 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO302  ,CPU Targets Byte Offset 302 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO301  ,CPU Targets Byte Offset 301 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO300  ,CPU Targets Byte Offset 300 "
group.long 0x930++0x03
line.long 0x00 "GICD_ITARGETSR76,Interrupt Processor Targets Register 76"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO307  ,CPU Targets Byte Offset 307 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO306  ,CPU Targets Byte Offset 306 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO305  ,CPU Targets Byte Offset 305 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO304  ,CPU Targets Byte Offset 304 "
group.long 0x934++0x03
line.long 0x00 "GICD_ITARGETSR77,Interrupt Processor Targets Register 77"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO311  ,CPU Targets Byte Offset 311 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO310  ,CPU Targets Byte Offset 310 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO309  ,CPU Targets Byte Offset 309 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO308  ,CPU Targets Byte Offset 308 "
group.long 0x938++0x03
line.long 0x00 "GICD_ITARGETSR78,Interrupt Processor Targets Register 78"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO315  ,CPU Targets Byte Offset 315 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO314  ,CPU Targets Byte Offset 314 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO313  ,CPU Targets Byte Offset 313 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO312  ,CPU Targets Byte Offset 312 "
group.long 0x93C++0x03
line.long 0x00 "GICD_ITARGETSR79,Interrupt Processor Targets Register 79"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO319  ,CPU Targets Byte Offset 319 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO318  ,CPU Targets Byte Offset 318 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO317  ,CPU Targets Byte Offset 317 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO316  ,CPU Targets Byte Offset 316 "
else
hgroup.long 0x920++0x03
hide.long 0x00 "GICD_ITARGETSR72,Interrupt Processor Targets Register 72"
hgroup.long 0x924++0x03
hide.long 0x00 "GICD_ITARGETSR73,Interrupt Processor Targets Register 73"
hgroup.long 0x928++0x03
hide.long 0x00 "GICD_ITARGETSR74,Interrupt Processor Targets Register 74"
hgroup.long 0x92C++0x03
hide.long 0x00 "GICD_ITARGETSR75,Interrupt Processor Targets Register 75"
hgroup.long 0x930++0x03
hide.long 0x00 "GICD_ITARGETSR76,Interrupt Processor Targets Register 76"
hgroup.long 0x934++0x03
hide.long 0x00 "GICD_ITARGETSR77,Interrupt Processor Targets Register 77"
hgroup.long 0x938++0x03
hide.long 0x00 "GICD_ITARGETSR78,Interrupt Processor Targets Register 78"
hgroup.long 0x93C++0x03
hide.long 0x00 "GICD_ITARGETSR79,Interrupt Processor Targets Register 79"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0A)
group.long 0x940++0x03
line.long 0x00 "GICD_ITARGETSR80,Interrupt Processor Targets Register 80"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO323  ,CPU Targets Byte Offset 323 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO322  ,CPU Targets Byte Offset 322 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO321  ,CPU Targets Byte Offset 321 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO320  ,CPU Targets Byte Offset 320 "
group.long 0x944++0x03
line.long 0x00 "GICD_ITARGETSR81,Interrupt Processor Targets Register 81"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO327  ,CPU Targets Byte Offset 327 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO326  ,CPU Targets Byte Offset 326 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO325  ,CPU Targets Byte Offset 325 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO324  ,CPU Targets Byte Offset 324 "
group.long 0x948++0x03
line.long 0x00 "GICD_ITARGETSR82,Interrupt Processor Targets Register 82"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO331  ,CPU Targets Byte Offset 331 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO330  ,CPU Targets Byte Offset 330 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO329  ,CPU Targets Byte Offset 329 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO328  ,CPU Targets Byte Offset 328 "
group.long 0x94C++0x03
line.long 0x00 "GICD_ITARGETSR83,Interrupt Processor Targets Register 83"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO335  ,CPU Targets Byte Offset 335 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO334  ,CPU Targets Byte Offset 334 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO333  ,CPU Targets Byte Offset 333 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO332  ,CPU Targets Byte Offset 332 "
group.long 0x950++0x03
line.long 0x00 "GICD_ITARGETSR84,Interrupt Processor Targets Register 84"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO339  ,CPU Targets Byte Offset 339 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO338  ,CPU Targets Byte Offset 338 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO337  ,CPU Targets Byte Offset 337 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO336  ,CPU Targets Byte Offset 336 "
group.long 0x954++0x03
line.long 0x00 "GICD_ITARGETSR85,Interrupt Processor Targets Register 85"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO343  ,CPU Targets Byte Offset 343 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO342  ,CPU Targets Byte Offset 342 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO341  ,CPU Targets Byte Offset 341 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO340  ,CPU Targets Byte Offset 340 "
group.long 0x958++0x03
line.long 0x00 "GICD_ITARGETSR86,Interrupt Processor Targets Register 86"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO347  ,CPU Targets Byte Offset 347 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO346  ,CPU Targets Byte Offset 346 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO345  ,CPU Targets Byte Offset 345 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO344  ,CPU Targets Byte Offset 344 "
group.long 0x95C++0x03
line.long 0x00 "GICD_ITARGETSR87,Interrupt Processor Targets Register 87"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO351  ,CPU Targets Byte Offset 351 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO350  ,CPU Targets Byte Offset 350 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO349  ,CPU Targets Byte Offset 349 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO348  ,CPU Targets Byte Offset 348 "
else
hgroup.long 0x940++0x03
hide.long 0x00 "GICD_ITARGETSR80,Interrupt Processor Targets Register 80"
hgroup.long 0x944++0x03
hide.long 0x00 "GICD_ITARGETSR81,Interrupt Processor Targets Register 81"
hgroup.long 0x948++0x03
hide.long 0x00 "GICD_ITARGETSR82,Interrupt Processor Targets Register 82"
hgroup.long 0x94C++0x03
hide.long 0x00 "GICD_ITARGETSR83,Interrupt Processor Targets Register 83"
hgroup.long 0x950++0x03
hide.long 0x00 "GICD_ITARGETSR84,Interrupt Processor Targets Register 84"
hgroup.long 0x954++0x03
hide.long 0x00 "GICD_ITARGETSR85,Interrupt Processor Targets Register 85"
hgroup.long 0x958++0x03
hide.long 0x00 "GICD_ITARGETSR86,Interrupt Processor Targets Register 86"
hgroup.long 0x95C++0x03
hide.long 0x00 "GICD_ITARGETSR87,Interrupt Processor Targets Register 87"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0B)
group.long 0x960++0x03
line.long 0x00 "GICD_ITARGETSR88,Interrupt Processor Targets Register 88"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO355  ,CPU Targets Byte Offset 355 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO354  ,CPU Targets Byte Offset 354 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO353  ,CPU Targets Byte Offset 353 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO352  ,CPU Targets Byte Offset 352 "
group.long 0x964++0x03
line.long 0x00 "GICD_ITARGETSR89,Interrupt Processor Targets Register 89"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO359  ,CPU Targets Byte Offset 359 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO358  ,CPU Targets Byte Offset 358 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO357  ,CPU Targets Byte Offset 357 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO356  ,CPU Targets Byte Offset 356 "
group.long 0x968++0x03
line.long 0x00 "GICD_ITARGETSR90,Interrupt Processor Targets Register 90"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO363  ,CPU Targets Byte Offset 363 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO362  ,CPU Targets Byte Offset 362 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO361  ,CPU Targets Byte Offset 361 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO360  ,CPU Targets Byte Offset 360 "
group.long 0x96C++0x03
line.long 0x00 "GICD_ITARGETSR91,Interrupt Processor Targets Register 91"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO367  ,CPU Targets Byte Offset 367 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO366  ,CPU Targets Byte Offset 366 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO365  ,CPU Targets Byte Offset 365 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO364  ,CPU Targets Byte Offset 364 "
group.long 0x970++0x03
line.long 0x00 "GICD_ITARGETSR92,Interrupt Processor Targets Register 92"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO371  ,CPU Targets Byte Offset 371 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO370  ,CPU Targets Byte Offset 370 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO369  ,CPU Targets Byte Offset 369 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO368  ,CPU Targets Byte Offset 368 "
group.long 0x974++0x03
line.long 0x00 "GICD_ITARGETSR93,Interrupt Processor Targets Register 93"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO375  ,CPU Targets Byte Offset 375 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO374  ,CPU Targets Byte Offset 374 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO373  ,CPU Targets Byte Offset 373 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO372  ,CPU Targets Byte Offset 372 "
group.long 0x978++0x03
line.long 0x00 "GICD_ITARGETSR94,Interrupt Processor Targets Register 94"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO379  ,CPU Targets Byte Offset 379 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO378  ,CPU Targets Byte Offset 378 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO377  ,CPU Targets Byte Offset 377 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO376  ,CPU Targets Byte Offset 376 "
group.long 0x97C++0x03
line.long 0x00 "GICD_ITARGETSR95,Interrupt Processor Targets Register 95"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO383  ,CPU Targets Byte Offset 383 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO382  ,CPU Targets Byte Offset 382 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO381  ,CPU Targets Byte Offset 381 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO380  ,CPU Targets Byte Offset 380 "
else
hgroup.long 0x960++0x03
hide.long 0x00 "GICD_ITARGETSR88,Interrupt Processor Targets Register 88"
hgroup.long 0x964++0x03
hide.long 0x00 "GICD_ITARGETSR89,Interrupt Processor Targets Register 89"
hgroup.long 0x968++0x03
hide.long 0x00 "GICD_ITARGETSR90,Interrupt Processor Targets Register 90"
hgroup.long 0x96C++0x03
hide.long 0x00 "GICD_ITARGETSR91,Interrupt Processor Targets Register 91"
hgroup.long 0x970++0x03
hide.long 0x00 "GICD_ITARGETSR92,Interrupt Processor Targets Register 92"
hgroup.long 0x974++0x03
hide.long 0x00 "GICD_ITARGETSR93,Interrupt Processor Targets Register 93"
hgroup.long 0x978++0x03
hide.long 0x00 "GICD_ITARGETSR94,Interrupt Processor Targets Register 94"
hgroup.long 0x97C++0x03
hide.long 0x00 "GICD_ITARGETSR95,Interrupt Processor Targets Register 95"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0C)
group.long 0x980++0x03
line.long 0x00 "GICD_ITARGETSR96,Interrupt Processor Targets Register 96"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO387  ,CPU Targets Byte Offset 387 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO386  ,CPU Targets Byte Offset 386 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO385  ,CPU Targets Byte Offset 385 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO384  ,CPU Targets Byte Offset 384 "
group.long 0x984++0x03
line.long 0x00 "GICD_ITARGETSR97,Interrupt Processor Targets Register 97"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO391  ,CPU Targets Byte Offset 391 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO390  ,CPU Targets Byte Offset 390 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO389  ,CPU Targets Byte Offset 389 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO388  ,CPU Targets Byte Offset 388 "
group.long 0x988++0x03
line.long 0x00 "GICD_ITARGETSR98,Interrupt Processor Targets Register 98"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO395  ,CPU Targets Byte Offset 395 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO394  ,CPU Targets Byte Offset 394 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO393  ,CPU Targets Byte Offset 393 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO392  ,CPU Targets Byte Offset 392 "
group.long 0x98C++0x03
line.long 0x00 "GICD_ITARGETSR99,Interrupt Processor Targets Register 99"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO399  ,CPU Targets Byte Offset 399 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO398  ,CPU Targets Byte Offset 398 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO397  ,CPU Targets Byte Offset 397 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO396  ,CPU Targets Byte Offset 396 "
group.long 0x990++0x03
line.long 0x00 "GICD_ITARGETSR100,Interrupt Processor Targets Register 100"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO403  ,CPU Targets Byte Offset 403 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO402  ,CPU Targets Byte Offset 402 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO401  ,CPU Targets Byte Offset 401 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO400  ,CPU Targets Byte Offset 400 "
group.long 0x994++0x03
line.long 0x00 "GICD_ITARGETSR101,Interrupt Processor Targets Register 101"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO407  ,CPU Targets Byte Offset 407 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO406  ,CPU Targets Byte Offset 406 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO405  ,CPU Targets Byte Offset 405 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO404  ,CPU Targets Byte Offset 404 "
group.long 0x998++0x03
line.long 0x00 "GICD_ITARGETSR102,Interrupt Processor Targets Register 102"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO411  ,CPU Targets Byte Offset 411 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO410  ,CPU Targets Byte Offset 410 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO409  ,CPU Targets Byte Offset 409 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO408  ,CPU Targets Byte Offset 408 "
group.long 0x99C++0x03
line.long 0x00 "GICD_ITARGETSR103,Interrupt Processor Targets Register 103"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO415  ,CPU Targets Byte Offset 415 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO414  ,CPU Targets Byte Offset 414 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO413  ,CPU Targets Byte Offset 413 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO412  ,CPU Targets Byte Offset 412 "
else
hgroup.long 0x980++0x03
hide.long 0x00 "GICD_ITARGETSR96,Interrupt Processor Targets Register 96"
hgroup.long 0x984++0x03
hide.long 0x00 "GICD_ITARGETSR97,Interrupt Processor Targets Register 97"
hgroup.long 0x988++0x03
hide.long 0x00 "GICD_ITARGETSR98,Interrupt Processor Targets Register 98"
hgroup.long 0x98C++0x03
hide.long 0x00 "GICD_ITARGETSR99,Interrupt Processor Targets Register 99"
hgroup.long 0x990++0x03
hide.long 0x00 "GICD_ITARGETSR100,Interrupt Processor Targets Register 100"
hgroup.long 0x994++0x03
hide.long 0x00 "GICD_ITARGETSR101,Interrupt Processor Targets Register 101"
hgroup.long 0x998++0x03
hide.long 0x00 "GICD_ITARGETSR102,Interrupt Processor Targets Register 102"
hgroup.long 0x99C++0x03
hide.long 0x00 "GICD_ITARGETSR103,Interrupt Processor Targets Register 103"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0D)
group.long 0x9A0++0x03
line.long 0x00 "GICD_ITARGETSR104,Interrupt Processor Targets Register 104"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO419  ,CPU Targets Byte Offset 419 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO418  ,CPU Targets Byte Offset 418 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO417  ,CPU Targets Byte Offset 417 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO416  ,CPU Targets Byte Offset 416 "
group.long 0x9A4++0x03
line.long 0x00 "GICD_ITARGETSR105,Interrupt Processor Targets Register 105"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO423  ,CPU Targets Byte Offset 423 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO422  ,CPU Targets Byte Offset 422 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO421  ,CPU Targets Byte Offset 421 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO420  ,CPU Targets Byte Offset 420 "
group.long 0x9A8++0x03
line.long 0x00 "GICD_ITARGETSR106,Interrupt Processor Targets Register 106"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO427  ,CPU Targets Byte Offset 427 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO426  ,CPU Targets Byte Offset 426 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO425  ,CPU Targets Byte Offset 425 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO424  ,CPU Targets Byte Offset 424 "
group.long 0x9AC++0x03
line.long 0x00 "GICD_ITARGETSR107,Interrupt Processor Targets Register 107"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO431  ,CPU Targets Byte Offset 431 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO430  ,CPU Targets Byte Offset 430 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO429  ,CPU Targets Byte Offset 429 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO428  ,CPU Targets Byte Offset 428 "
group.long 0x9B0++0x03
line.long 0x00 "GICD_ITARGETSR108,Interrupt Processor Targets Register 108"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO435  ,CPU Targets Byte Offset 435 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO434  ,CPU Targets Byte Offset 434 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO433  ,CPU Targets Byte Offset 433 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO432  ,CPU Targets Byte Offset 432 "
group.long 0x9B4++0x03
line.long 0x00 "GICD_ITARGETSR109,Interrupt Processor Targets Register 109"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO439  ,CPU Targets Byte Offset 439 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO438  ,CPU Targets Byte Offset 438 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO437  ,CPU Targets Byte Offset 437 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO436  ,CPU Targets Byte Offset 436 "
group.long 0x9B8++0x03
line.long 0x00 "GICD_ITARGETSR110,Interrupt Processor Targets Register 110"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO443  ,CPU Targets Byte Offset 443 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO442  ,CPU Targets Byte Offset 442 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO441  ,CPU Targets Byte Offset 441 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO440  ,CPU Targets Byte Offset 440 "
group.long 0x9BC++0x03
line.long 0x00 "GICD_ITARGETSR111,Interrupt Processor Targets Register 111"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO447  ,CPU Targets Byte Offset 447 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO446  ,CPU Targets Byte Offset 446 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO445  ,CPU Targets Byte Offset 445 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO444  ,CPU Targets Byte Offset 444 "
else
hgroup.long 0x9A0++0x03
hide.long 0x00 "GICD_ITARGETSR104,Interrupt Processor Targets Register 104"
hgroup.long 0x9A4++0x03
hide.long 0x00 "GICD_ITARGETSR105,Interrupt Processor Targets Register 105"
hgroup.long 0x9A8++0x03
hide.long 0x00 "GICD_ITARGETSR106,Interrupt Processor Targets Register 106"
hgroup.long 0x9AC++0x03
hide.long 0x00 "GICD_ITARGETSR107,Interrupt Processor Targets Register 107"
hgroup.long 0x9B0++0x03
hide.long 0x00 "GICD_ITARGETSR108,Interrupt Processor Targets Register 108"
hgroup.long 0x9B4++0x03
hide.long 0x00 "GICD_ITARGETSR109,Interrupt Processor Targets Register 109"
hgroup.long 0x9B8++0x03
hide.long 0x00 "GICD_ITARGETSR110,Interrupt Processor Targets Register 110"
hgroup.long 0x9BC++0x03
hide.long 0x00 "GICD_ITARGETSR111,Interrupt Processor Targets Register 111"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0E)
group.long 0x9C0++0x03
line.long 0x00 "GICD_ITARGETSR112,Interrupt Processor Targets Register 112"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO451  ,CPU Targets Byte Offset 451 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO450  ,CPU Targets Byte Offset 450 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO449  ,CPU Targets Byte Offset 449 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO448  ,CPU Targets Byte Offset 448 "
group.long 0x9C4++0x03
line.long 0x00 "GICD_ITARGETSR113,Interrupt Processor Targets Register 113"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO455  ,CPU Targets Byte Offset 455 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO454  ,CPU Targets Byte Offset 454 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO453  ,CPU Targets Byte Offset 453 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO452  ,CPU Targets Byte Offset 452 "
group.long 0x9C8++0x03
line.long 0x00 "GICD_ITARGETSR114,Interrupt Processor Targets Register 114"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO459  ,CPU Targets Byte Offset 459 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO458  ,CPU Targets Byte Offset 458 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO457  ,CPU Targets Byte Offset 457 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO456  ,CPU Targets Byte Offset 456 "
group.long 0x9CC++0x03
line.long 0x00 "GICD_ITARGETSR115,Interrupt Processor Targets Register 115"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO463  ,CPU Targets Byte Offset 463 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO462  ,CPU Targets Byte Offset 462 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO461  ,CPU Targets Byte Offset 461 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO460  ,CPU Targets Byte Offset 460 "
group.long 0x9D0++0x03
line.long 0x00 "GICD_ITARGETSR116,Interrupt Processor Targets Register 116"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO467  ,CPU Targets Byte Offset 467 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO466  ,CPU Targets Byte Offset 466 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO465  ,CPU Targets Byte Offset 465 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO464  ,CPU Targets Byte Offset 464 "
group.long 0x9D4++0x03
line.long 0x00 "GICD_ITARGETSR117,Interrupt Processor Targets Register 117"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO471  ,CPU Targets Byte Offset 471 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO470  ,CPU Targets Byte Offset 470 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO469  ,CPU Targets Byte Offset 469 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO468  ,CPU Targets Byte Offset 468 "
group.long 0x9D8++0x03
line.long 0x00 "GICD_ITARGETSR118,Interrupt Processor Targets Register 118"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO475  ,CPU Targets Byte Offset 475 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO474  ,CPU Targets Byte Offset 474 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO473  ,CPU Targets Byte Offset 473 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO472  ,CPU Targets Byte Offset 472 "
group.long 0x9DC++0x03
line.long 0x00 "GICD_ITARGETSR119,Interrupt Processor Targets Register 119"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO479  ,CPU Targets Byte Offset 479 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO478  ,CPU Targets Byte Offset 478 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO477  ,CPU Targets Byte Offset 477 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO476  ,CPU Targets Byte Offset 476 "
else
hgroup.long 0x9C0++0x03
hide.long 0x00 "GICD_ITARGETSR112,Interrupt Processor Targets Register 112"
hgroup.long 0x9C4++0x03
hide.long 0x00 "GICD_ITARGETSR113,Interrupt Processor Targets Register 113"
hgroup.long 0x9C8++0x03
hide.long 0x00 "GICD_ITARGETSR114,Interrupt Processor Targets Register 114"
hgroup.long 0x9CC++0x03
hide.long 0x00 "GICD_ITARGETSR115,Interrupt Processor Targets Register 115"
hgroup.long 0x9D0++0x03
hide.long 0x00 "GICD_ITARGETSR116,Interrupt Processor Targets Register 116"
hgroup.long 0x9D4++0x03
hide.long 0x00 "GICD_ITARGETSR117,Interrupt Processor Targets Register 117"
hgroup.long 0x9D8++0x03
hide.long 0x00 "GICD_ITARGETSR118,Interrupt Processor Targets Register 118"
hgroup.long 0x9DC++0x03
hide.long 0x00 "GICD_ITARGETSR119,Interrupt Processor Targets Register 119"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0F)
group.long 0x9E0++0x03
line.long 0x00 "GICD_ITARGETSR120,Interrupt Processor Targets Register 120"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO483  ,CPU Targets Byte Offset 483 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO482  ,CPU Targets Byte Offset 482 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO481  ,CPU Targets Byte Offset 481 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO480  ,CPU Targets Byte Offset 480 "
group.long 0x9E4++0x03
line.long 0x00 "GICD_ITARGETSR121,Interrupt Processor Targets Register 121"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO487  ,CPU Targets Byte Offset 487 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO486  ,CPU Targets Byte Offset 486 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO485  ,CPU Targets Byte Offset 485 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO484  ,CPU Targets Byte Offset 484 "
group.long 0x9E8++0x03
line.long 0x00 "GICD_ITARGETSR122,Interrupt Processor Targets Register 122"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO491  ,CPU Targets Byte Offset 491 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO490  ,CPU Targets Byte Offset 490 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO489  ,CPU Targets Byte Offset 489 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO488  ,CPU Targets Byte Offset 488 "
group.long 0x9EC++0x03
line.long 0x00 "GICD_ITARGETSR123,Interrupt Processor Targets Register 123"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO495  ,CPU Targets Byte Offset 495 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO494  ,CPU Targets Byte Offset 494 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO493  ,CPU Targets Byte Offset 493 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO492  ,CPU Targets Byte Offset 492 "
group.long 0x9F0++0x03
line.long 0x00 "GICD_ITARGETSR124,Interrupt Processor Targets Register 124"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO499  ,CPU Targets Byte Offset 499 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO498  ,CPU Targets Byte Offset 498 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO497  ,CPU Targets Byte Offset 497 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO496  ,CPU Targets Byte Offset 496 "
group.long 0x9F4++0x03
line.long 0x00 "GICD_ITARGETSR125,Interrupt Processor Targets Register 125"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO503  ,CPU Targets Byte Offset 503 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO502  ,CPU Targets Byte Offset 502 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO501  ,CPU Targets Byte Offset 501 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO500  ,CPU Targets Byte Offset 500 "
group.long 0x9F8++0x03
line.long 0x00 "GICD_ITARGETSR126,Interrupt Processor Targets Register 126"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO507  ,CPU Targets Byte Offset 507 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO506  ,CPU Targets Byte Offset 506 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO505  ,CPU Targets Byte Offset 505 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO504  ,CPU Targets Byte Offset 504 "
group.long 0x9FC++0x03
line.long 0x00 "GICD_ITARGETSR127,Interrupt Processor Targets Register 127"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO511  ,CPU Targets Byte Offset 511 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO510  ,CPU Targets Byte Offset 510 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO509  ,CPU Targets Byte Offset 509 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO508  ,CPU Targets Byte Offset 508 "
else
hgroup.long 0x9E0++0x03
hide.long 0x00 "GICD_ITARGETSR120,Interrupt Processor Targets Register 120"
hgroup.long 0x9E4++0x03
hide.long 0x00 "GICD_ITARGETSR121,Interrupt Processor Targets Register 121"
hgroup.long 0x9E8++0x03
hide.long 0x00 "GICD_ITARGETSR122,Interrupt Processor Targets Register 122"
hgroup.long 0x9EC++0x03
hide.long 0x00 "GICD_ITARGETSR123,Interrupt Processor Targets Register 123"
hgroup.long 0x9F0++0x03
hide.long 0x00 "GICD_ITARGETSR124,Interrupt Processor Targets Register 124"
hgroup.long 0x9F4++0x03
hide.long 0x00 "GICD_ITARGETSR125,Interrupt Processor Targets Register 125"
hgroup.long 0x9F8++0x03
hide.long 0x00 "GICD_ITARGETSR126,Interrupt Processor Targets Register 126"
hgroup.long 0x9FC++0x03
hide.long 0x00 "GICD_ITARGETSR127,Interrupt Processor Targets Register 127"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x10)
group.long 0xA00++0x03
line.long 0x00 "GICD_ITARGETSR128,Interrupt Processor Targets Register 128"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO515  ,CPU Targets Byte Offset 515 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO514  ,CPU Targets Byte Offset 514 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO513  ,CPU Targets Byte Offset 513 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO512  ,CPU Targets Byte Offset 512 "
group.long 0xA04++0x03
line.long 0x00 "GICD_ITARGETSR129,Interrupt Processor Targets Register 129"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO519  ,CPU Targets Byte Offset 519 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO518  ,CPU Targets Byte Offset 518 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO517  ,CPU Targets Byte Offset 517 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO516  ,CPU Targets Byte Offset 516 "
group.long 0xA08++0x03
line.long 0x00 "GICD_ITARGETSR130,Interrupt Processor Targets Register 130"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO523  ,CPU Targets Byte Offset 523 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO522  ,CPU Targets Byte Offset 522 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO521  ,CPU Targets Byte Offset 521 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO520  ,CPU Targets Byte Offset 520 "
group.long 0xA0C++0x03
line.long 0x00 "GICD_ITARGETSR131,Interrupt Processor Targets Register 131"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO527  ,CPU Targets Byte Offset 527 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO526  ,CPU Targets Byte Offset 526 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO525  ,CPU Targets Byte Offset 525 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO524  ,CPU Targets Byte Offset 524 "
group.long 0xA10++0x03
line.long 0x00 "GICD_ITARGETSR132,Interrupt Processor Targets Register 132"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO531  ,CPU Targets Byte Offset 531 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO530  ,CPU Targets Byte Offset 530 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO529  ,CPU Targets Byte Offset 529 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO528  ,CPU Targets Byte Offset 528 "
group.long 0xA14++0x03
line.long 0x00 "GICD_ITARGETSR133,Interrupt Processor Targets Register 133"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO535  ,CPU Targets Byte Offset 535 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO534  ,CPU Targets Byte Offset 534 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO533  ,CPU Targets Byte Offset 533 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO532  ,CPU Targets Byte Offset 532 "
group.long 0xA18++0x03
line.long 0x00 "GICD_ITARGETSR134,Interrupt Processor Targets Register 134"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO539  ,CPU Targets Byte Offset 539 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO538  ,CPU Targets Byte Offset 538 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO537  ,CPU Targets Byte Offset 537 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO536  ,CPU Targets Byte Offset 536 "
group.long 0xA1C++0x03
line.long 0x00 "GICD_ITARGETSR135,Interrupt Processor Targets Register 135"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO543  ,CPU Targets Byte Offset 543 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO542  ,CPU Targets Byte Offset 542 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO541  ,CPU Targets Byte Offset 541 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO540  ,CPU Targets Byte Offset 540 "
else
hgroup.long 0xA00++0x03
hide.long 0x00 "GICD_ITARGETSR128,Interrupt Processor Targets Register 128"
hgroup.long 0xA04++0x03
hide.long 0x00 "GICD_ITARGETSR129,Interrupt Processor Targets Register 129"
hgroup.long 0xA08++0x03
hide.long 0x00 "GICD_ITARGETSR130,Interrupt Processor Targets Register 130"
hgroup.long 0xA0C++0x03
hide.long 0x00 "GICD_ITARGETSR131,Interrupt Processor Targets Register 131"
hgroup.long 0xA10++0x03
hide.long 0x00 "GICD_ITARGETSR132,Interrupt Processor Targets Register 132"
hgroup.long 0xA14++0x03
hide.long 0x00 "GICD_ITARGETSR133,Interrupt Processor Targets Register 133"
hgroup.long 0xA18++0x03
hide.long 0x00 "GICD_ITARGETSR134,Interrupt Processor Targets Register 134"
hgroup.long 0xA1C++0x03
hide.long 0x00 "GICD_ITARGETSR135,Interrupt Processor Targets Register 135"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x11)
group.long 0xA20++0x03
line.long 0x00 "GICD_ITARGETSR136,Interrupt Processor Targets Register 136"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO547  ,CPU Targets Byte Offset 547 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO546  ,CPU Targets Byte Offset 546 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO545  ,CPU Targets Byte Offset 545 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO544  ,CPU Targets Byte Offset 544 "
group.long 0xA24++0x03
line.long 0x00 "GICD_ITARGETSR137,Interrupt Processor Targets Register 137"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO551  ,CPU Targets Byte Offset 551 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO550  ,CPU Targets Byte Offset 550 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO549  ,CPU Targets Byte Offset 549 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO548  ,CPU Targets Byte Offset 548 "
group.long 0xA28++0x03
line.long 0x00 "GICD_ITARGETSR138,Interrupt Processor Targets Register 138"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO555  ,CPU Targets Byte Offset 555 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO554  ,CPU Targets Byte Offset 554 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO553  ,CPU Targets Byte Offset 553 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO552  ,CPU Targets Byte Offset 552 "
group.long 0xA2C++0x03
line.long 0x00 "GICD_ITARGETSR139,Interrupt Processor Targets Register 139"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO559  ,CPU Targets Byte Offset 559 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO558  ,CPU Targets Byte Offset 558 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO557  ,CPU Targets Byte Offset 557 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO556  ,CPU Targets Byte Offset 556 "
group.long 0xA30++0x03
line.long 0x00 "GICD_ITARGETSR140,Interrupt Processor Targets Register 140"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO563  ,CPU Targets Byte Offset 563 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO562  ,CPU Targets Byte Offset 562 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO561  ,CPU Targets Byte Offset 561 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO560  ,CPU Targets Byte Offset 560 "
group.long 0xA34++0x03
line.long 0x00 "GICD_ITARGETSR141,Interrupt Processor Targets Register 141"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO567  ,CPU Targets Byte Offset 567 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO566  ,CPU Targets Byte Offset 566 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO565  ,CPU Targets Byte Offset 565 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO564  ,CPU Targets Byte Offset 564 "
group.long 0xA38++0x03
line.long 0x00 "GICD_ITARGETSR142,Interrupt Processor Targets Register 142"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO571  ,CPU Targets Byte Offset 571 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO570  ,CPU Targets Byte Offset 570 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO569  ,CPU Targets Byte Offset 569 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO568  ,CPU Targets Byte Offset 568 "
group.long 0xA3C++0x03
line.long 0x00 "GICD_ITARGETSR143,Interrupt Processor Targets Register 143"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO575  ,CPU Targets Byte Offset 575 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO574  ,CPU Targets Byte Offset 574 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO573  ,CPU Targets Byte Offset 573 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO572  ,CPU Targets Byte Offset 572 "
else
hgroup.long 0xA20++0x03
hide.long 0x00 "GICD_ITARGETSR136,Interrupt Processor Targets Register 136"
hgroup.long 0xA24++0x03
hide.long 0x00 "GICD_ITARGETSR137,Interrupt Processor Targets Register 137"
hgroup.long 0xA28++0x03
hide.long 0x00 "GICD_ITARGETSR138,Interrupt Processor Targets Register 138"
hgroup.long 0xA2C++0x03
hide.long 0x00 "GICD_ITARGETSR139,Interrupt Processor Targets Register 139"
hgroup.long 0xA30++0x03
hide.long 0x00 "GICD_ITARGETSR140,Interrupt Processor Targets Register 140"
hgroup.long 0xA34++0x03
hide.long 0x00 "GICD_ITARGETSR141,Interrupt Processor Targets Register 141"
hgroup.long 0xA38++0x03
hide.long 0x00 "GICD_ITARGETSR142,Interrupt Processor Targets Register 142"
hgroup.long 0xA3C++0x03
hide.long 0x00 "GICD_ITARGETSR143,Interrupt Processor Targets Register 143"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x12)
group.long 0xA40++0x03
line.long 0x00 "GICD_ITARGETSR144,Interrupt Processor Targets Register 144"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO579  ,CPU Targets Byte Offset 579 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO578  ,CPU Targets Byte Offset 578 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO577  ,CPU Targets Byte Offset 577 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO576  ,CPU Targets Byte Offset 576 "
group.long 0xA44++0x03
line.long 0x00 "GICD_ITARGETSR145,Interrupt Processor Targets Register 145"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO583  ,CPU Targets Byte Offset 583 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO582  ,CPU Targets Byte Offset 582 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO581  ,CPU Targets Byte Offset 581 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO580  ,CPU Targets Byte Offset 580 "
group.long 0xA48++0x03
line.long 0x00 "GICD_ITARGETSR146,Interrupt Processor Targets Register 146"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO587  ,CPU Targets Byte Offset 587 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO586  ,CPU Targets Byte Offset 586 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO585  ,CPU Targets Byte Offset 585 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO584  ,CPU Targets Byte Offset 584 "
group.long 0xA4C++0x03
line.long 0x00 "GICD_ITARGETSR147,Interrupt Processor Targets Register 147"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO591  ,CPU Targets Byte Offset 591 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO590  ,CPU Targets Byte Offset 590 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO589  ,CPU Targets Byte Offset 589 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO588  ,CPU Targets Byte Offset 588 "
group.long 0xA50++0x03
line.long 0x00 "GICD_ITARGETSR148,Interrupt Processor Targets Register 148"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO595  ,CPU Targets Byte Offset 595 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO594  ,CPU Targets Byte Offset 594 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO593  ,CPU Targets Byte Offset 593 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO592  ,CPU Targets Byte Offset 592 "
group.long 0xA54++0x03
line.long 0x00 "GICD_ITARGETSR149,Interrupt Processor Targets Register 149"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO599  ,CPU Targets Byte Offset 599 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO598  ,CPU Targets Byte Offset 598 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO597  ,CPU Targets Byte Offset 597 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO596  ,CPU Targets Byte Offset 596 "
group.long 0xA58++0x03
line.long 0x00 "GICD_ITARGETSR150,Interrupt Processor Targets Register 150"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO603  ,CPU Targets Byte Offset 603 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO602  ,CPU Targets Byte Offset 602 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO601  ,CPU Targets Byte Offset 601 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO600  ,CPU Targets Byte Offset 600 "
group.long 0xA5C++0x03
line.long 0x00 "GICD_ITARGETSR151,Interrupt Processor Targets Register 151"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO607  ,CPU Targets Byte Offset 607 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO606  ,CPU Targets Byte Offset 606 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO605  ,CPU Targets Byte Offset 605 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO604  ,CPU Targets Byte Offset 604 "
else
hgroup.long 0xA40++0x03
hide.long 0x00 "GICD_ITARGETSR144,Interrupt Processor Targets Register 144"
hgroup.long 0xA44++0x03
hide.long 0x00 "GICD_ITARGETSR145,Interrupt Processor Targets Register 145"
hgroup.long 0xA48++0x03
hide.long 0x00 "GICD_ITARGETSR146,Interrupt Processor Targets Register 146"
hgroup.long 0xA4C++0x03
hide.long 0x00 "GICD_ITARGETSR147,Interrupt Processor Targets Register 147"
hgroup.long 0xA50++0x03
hide.long 0x00 "GICD_ITARGETSR148,Interrupt Processor Targets Register 148"
hgroup.long 0xA54++0x03
hide.long 0x00 "GICD_ITARGETSR149,Interrupt Processor Targets Register 149"
hgroup.long 0xA58++0x03
hide.long 0x00 "GICD_ITARGETSR150,Interrupt Processor Targets Register 150"
hgroup.long 0xA5C++0x03
hide.long 0x00 "GICD_ITARGETSR151,Interrupt Processor Targets Register 151"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x13)
group.long 0xA60++0x03
line.long 0x00 "GICD_ITARGETSR152,Interrupt Processor Targets Register 152"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO611  ,CPU Targets Byte Offset 611 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO610  ,CPU Targets Byte Offset 610 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO609  ,CPU Targets Byte Offset 609 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO608  ,CPU Targets Byte Offset 608 "
group.long 0xA64++0x03
line.long 0x00 "GICD_ITARGETSR153,Interrupt Processor Targets Register 153"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO615  ,CPU Targets Byte Offset 615 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO614  ,CPU Targets Byte Offset 614 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO613  ,CPU Targets Byte Offset 613 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO612  ,CPU Targets Byte Offset 612 "
group.long 0xA68++0x03
line.long 0x00 "GICD_ITARGETSR154,Interrupt Processor Targets Register 154"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO619  ,CPU Targets Byte Offset 619 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO618  ,CPU Targets Byte Offset 618 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO617  ,CPU Targets Byte Offset 617 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO616  ,CPU Targets Byte Offset 616 "
group.long 0xA6C++0x03
line.long 0x00 "GICD_ITARGETSR155,Interrupt Processor Targets Register 155"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO623  ,CPU Targets Byte Offset 623 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO622  ,CPU Targets Byte Offset 622 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO621  ,CPU Targets Byte Offset 621 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO620  ,CPU Targets Byte Offset 620 "
group.long 0xA70++0x03
line.long 0x00 "GICD_ITARGETSR156,Interrupt Processor Targets Register 156"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO627  ,CPU Targets Byte Offset 627 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO626  ,CPU Targets Byte Offset 626 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO625  ,CPU Targets Byte Offset 625 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO624  ,CPU Targets Byte Offset 624 "
group.long 0xA74++0x03
line.long 0x00 "GICD_ITARGETSR157,Interrupt Processor Targets Register 157"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO631  ,CPU Targets Byte Offset 631 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO630  ,CPU Targets Byte Offset 630 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO629  ,CPU Targets Byte Offset 629 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO628  ,CPU Targets Byte Offset 628 "
group.long 0xA78++0x03
line.long 0x00 "GICD_ITARGETSR158,Interrupt Processor Targets Register 158"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO635  ,CPU Targets Byte Offset 635 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO634  ,CPU Targets Byte Offset 634 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO633  ,CPU Targets Byte Offset 633 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO632  ,CPU Targets Byte Offset 632 "
group.long 0xA7C++0x03
line.long 0x00 "GICD_ITARGETSR159,Interrupt Processor Targets Register 159"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO639  ,CPU Targets Byte Offset 639 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO638  ,CPU Targets Byte Offset 638 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO637  ,CPU Targets Byte Offset 637 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO636  ,CPU Targets Byte Offset 636 "
else
hgroup.long 0xA60++0x03
hide.long 0x00 "GICD_ITARGETSR152,Interrupt Processor Targets Register 152"
hgroup.long 0xA64++0x03
hide.long 0x00 "GICD_ITARGETSR153,Interrupt Processor Targets Register 153"
hgroup.long 0xA68++0x03
hide.long 0x00 "GICD_ITARGETSR154,Interrupt Processor Targets Register 154"
hgroup.long 0xA6C++0x03
hide.long 0x00 "GICD_ITARGETSR155,Interrupt Processor Targets Register 155"
hgroup.long 0xA70++0x03
hide.long 0x00 "GICD_ITARGETSR156,Interrupt Processor Targets Register 156"
hgroup.long 0xA74++0x03
hide.long 0x00 "GICD_ITARGETSR157,Interrupt Processor Targets Register 157"
hgroup.long 0xA78++0x03
hide.long 0x00 "GICD_ITARGETSR158,Interrupt Processor Targets Register 158"
hgroup.long 0xA7C++0x03
hide.long 0x00 "GICD_ITARGETSR159,Interrupt Processor Targets Register 159"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x14)
group.long 0xA80++0x03
line.long 0x00 "GICD_ITARGETSR160,Interrupt Processor Targets Register 160"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO643  ,CPU Targets Byte Offset 643 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO642  ,CPU Targets Byte Offset 642 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO641  ,CPU Targets Byte Offset 641 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO640  ,CPU Targets Byte Offset 640 "
group.long 0xA84++0x03
line.long 0x00 "GICD_ITARGETSR161,Interrupt Processor Targets Register 161"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO647  ,CPU Targets Byte Offset 647 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO646  ,CPU Targets Byte Offset 646 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO645  ,CPU Targets Byte Offset 645 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO644  ,CPU Targets Byte Offset 644 "
group.long 0xA88++0x03
line.long 0x00 "GICD_ITARGETSR162,Interrupt Processor Targets Register 162"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO651  ,CPU Targets Byte Offset 651 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO650  ,CPU Targets Byte Offset 650 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO649  ,CPU Targets Byte Offset 649 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO648  ,CPU Targets Byte Offset 648 "
group.long 0xA8C++0x03
line.long 0x00 "GICD_ITARGETSR163,Interrupt Processor Targets Register 163"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO655  ,CPU Targets Byte Offset 655 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO654  ,CPU Targets Byte Offset 654 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO653  ,CPU Targets Byte Offset 653 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO652  ,CPU Targets Byte Offset 652 "
group.long 0xA90++0x03
line.long 0x00 "GICD_ITARGETSR164,Interrupt Processor Targets Register 164"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO659  ,CPU Targets Byte Offset 659 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO658  ,CPU Targets Byte Offset 658 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO657  ,CPU Targets Byte Offset 657 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO656  ,CPU Targets Byte Offset 656 "
group.long 0xA94++0x03
line.long 0x00 "GICD_ITARGETSR165,Interrupt Processor Targets Register 165"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO663  ,CPU Targets Byte Offset 663 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO662  ,CPU Targets Byte Offset 662 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO661  ,CPU Targets Byte Offset 661 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO660  ,CPU Targets Byte Offset 660 "
group.long 0xA98++0x03
line.long 0x00 "GICD_ITARGETSR166,Interrupt Processor Targets Register 166"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO667  ,CPU Targets Byte Offset 667 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO666  ,CPU Targets Byte Offset 666 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO665  ,CPU Targets Byte Offset 665 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO664  ,CPU Targets Byte Offset 664 "
group.long 0xA9C++0x03
line.long 0x00 "GICD_ITARGETSR167,Interrupt Processor Targets Register 167"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO671  ,CPU Targets Byte Offset 671 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO670  ,CPU Targets Byte Offset 670 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO669  ,CPU Targets Byte Offset 669 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO668  ,CPU Targets Byte Offset 668 "
else
hgroup.long 0xA80++0x03
hide.long 0x00 "GICD_ITARGETSR160,Interrupt Processor Targets Register 160"
hgroup.long 0xA84++0x03
hide.long 0x00 "GICD_ITARGETSR161,Interrupt Processor Targets Register 161"
hgroup.long 0xA88++0x03
hide.long 0x00 "GICD_ITARGETSR162,Interrupt Processor Targets Register 162"
hgroup.long 0xA8C++0x03
hide.long 0x00 "GICD_ITARGETSR163,Interrupt Processor Targets Register 163"
hgroup.long 0xA90++0x03
hide.long 0x00 "GICD_ITARGETSR164,Interrupt Processor Targets Register 164"
hgroup.long 0xA94++0x03
hide.long 0x00 "GICD_ITARGETSR165,Interrupt Processor Targets Register 165"
hgroup.long 0xA98++0x03
hide.long 0x00 "GICD_ITARGETSR166,Interrupt Processor Targets Register 166"
hgroup.long 0xA9C++0x03
hide.long 0x00 "GICD_ITARGETSR167,Interrupt Processor Targets Register 167"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x15)
group.long 0xAA0++0x03
line.long 0x00 "GICD_ITARGETSR168,Interrupt Processor Targets Register 168"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO675  ,CPU Targets Byte Offset 675 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO674  ,CPU Targets Byte Offset 674 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO673  ,CPU Targets Byte Offset 673 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO672  ,CPU Targets Byte Offset 672 "
group.long 0xAA4++0x03
line.long 0x00 "GICD_ITARGETSR169,Interrupt Processor Targets Register 169"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO679  ,CPU Targets Byte Offset 679 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO678  ,CPU Targets Byte Offset 678 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO677  ,CPU Targets Byte Offset 677 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO676  ,CPU Targets Byte Offset 676 "
group.long 0xAA8++0x03
line.long 0x00 "GICD_ITARGETSR170,Interrupt Processor Targets Register 170"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO683  ,CPU Targets Byte Offset 683 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO682  ,CPU Targets Byte Offset 682 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO681  ,CPU Targets Byte Offset 681 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO680  ,CPU Targets Byte Offset 680 "
group.long 0xAAC++0x03
line.long 0x00 "GICD_ITARGETSR171,Interrupt Processor Targets Register 171"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO687  ,CPU Targets Byte Offset 687 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO686  ,CPU Targets Byte Offset 686 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO685  ,CPU Targets Byte Offset 685 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO684  ,CPU Targets Byte Offset 684 "
group.long 0xAB0++0x03
line.long 0x00 "GICD_ITARGETSR172,Interrupt Processor Targets Register 172"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO691  ,CPU Targets Byte Offset 691 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO690  ,CPU Targets Byte Offset 690 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO689  ,CPU Targets Byte Offset 689 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO688  ,CPU Targets Byte Offset 688 "
group.long 0xAB4++0x03
line.long 0x00 "GICD_ITARGETSR173,Interrupt Processor Targets Register 173"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO695  ,CPU Targets Byte Offset 695 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO694  ,CPU Targets Byte Offset 694 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO693  ,CPU Targets Byte Offset 693 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO692  ,CPU Targets Byte Offset 692 "
group.long 0xAB8++0x03
line.long 0x00 "GICD_ITARGETSR174,Interrupt Processor Targets Register 174"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO699  ,CPU Targets Byte Offset 699 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO698  ,CPU Targets Byte Offset 698 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO697  ,CPU Targets Byte Offset 697 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO696  ,CPU Targets Byte Offset 696 "
group.long 0xABC++0x03
line.long 0x00 "GICD_ITARGETSR175,Interrupt Processor Targets Register 175"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO703  ,CPU Targets Byte Offset 703 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO702  ,CPU Targets Byte Offset 702 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO701  ,CPU Targets Byte Offset 701 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO700  ,CPU Targets Byte Offset 700 "
else
hgroup.long 0xAA0++0x03
hide.long 0x00 "GICD_ITARGETSR168,Interrupt Processor Targets Register 168"
hgroup.long 0xAA4++0x03
hide.long 0x00 "GICD_ITARGETSR169,Interrupt Processor Targets Register 169"
hgroup.long 0xAA8++0x03
hide.long 0x00 "GICD_ITARGETSR170,Interrupt Processor Targets Register 170"
hgroup.long 0xAAC++0x03
hide.long 0x00 "GICD_ITARGETSR171,Interrupt Processor Targets Register 171"
hgroup.long 0xAB0++0x03
hide.long 0x00 "GICD_ITARGETSR172,Interrupt Processor Targets Register 172"
hgroup.long 0xAB4++0x03
hide.long 0x00 "GICD_ITARGETSR173,Interrupt Processor Targets Register 173"
hgroup.long 0xAB8++0x03
hide.long 0x00 "GICD_ITARGETSR174,Interrupt Processor Targets Register 174"
hgroup.long 0xABC++0x03
hide.long 0x00 "GICD_ITARGETSR175,Interrupt Processor Targets Register 175"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x16)
group.long 0xAC0++0x03
line.long 0x00 "GICD_ITARGETSR176,Interrupt Processor Targets Register 176"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO707  ,CPU Targets Byte Offset 707 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO706  ,CPU Targets Byte Offset 706 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO705  ,CPU Targets Byte Offset 705 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO704  ,CPU Targets Byte Offset 704 "
group.long 0xAC4++0x03
line.long 0x00 "GICD_ITARGETSR177,Interrupt Processor Targets Register 177"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO711  ,CPU Targets Byte Offset 711 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO710  ,CPU Targets Byte Offset 710 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO709  ,CPU Targets Byte Offset 709 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO708  ,CPU Targets Byte Offset 708 "
group.long 0xAC8++0x03
line.long 0x00 "GICD_ITARGETSR178,Interrupt Processor Targets Register 178"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO715  ,CPU Targets Byte Offset 715 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO714  ,CPU Targets Byte Offset 714 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO713  ,CPU Targets Byte Offset 713 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO712  ,CPU Targets Byte Offset 712 "
group.long 0xACC++0x03
line.long 0x00 "GICD_ITARGETSR179,Interrupt Processor Targets Register 179"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO719  ,CPU Targets Byte Offset 719 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO718  ,CPU Targets Byte Offset 718 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO717  ,CPU Targets Byte Offset 717 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO716  ,CPU Targets Byte Offset 716 "
group.long 0xAD0++0x03
line.long 0x00 "GICD_ITARGETSR180,Interrupt Processor Targets Register 180"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO723  ,CPU Targets Byte Offset 723 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO722  ,CPU Targets Byte Offset 722 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO721  ,CPU Targets Byte Offset 721 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO720  ,CPU Targets Byte Offset 720 "
group.long 0xAD4++0x03
line.long 0x00 "GICD_ITARGETSR181,Interrupt Processor Targets Register 181"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO727  ,CPU Targets Byte Offset 727 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO726  ,CPU Targets Byte Offset 726 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO725  ,CPU Targets Byte Offset 725 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO724  ,CPU Targets Byte Offset 724 "
group.long 0xAD8++0x03
line.long 0x00 "GICD_ITARGETSR182,Interrupt Processor Targets Register 182"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO731  ,CPU Targets Byte Offset 731 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO730  ,CPU Targets Byte Offset 730 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO729  ,CPU Targets Byte Offset 729 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO728  ,CPU Targets Byte Offset 728 "
group.long 0xADC++0x03
line.long 0x00 "GICD_ITARGETSR183,Interrupt Processor Targets Register 183"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO735  ,CPU Targets Byte Offset 735 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO734  ,CPU Targets Byte Offset 734 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO733  ,CPU Targets Byte Offset 733 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO732  ,CPU Targets Byte Offset 732 "
else
hgroup.long 0xAC0++0x03
hide.long 0x00 "GICD_ITARGETSR176,Interrupt Processor Targets Register 176"
hgroup.long 0xAC4++0x03
hide.long 0x00 "GICD_ITARGETSR177,Interrupt Processor Targets Register 177"
hgroup.long 0xAC8++0x03
hide.long 0x00 "GICD_ITARGETSR178,Interrupt Processor Targets Register 178"
hgroup.long 0xACC++0x03
hide.long 0x00 "GICD_ITARGETSR179,Interrupt Processor Targets Register 179"
hgroup.long 0xAD0++0x03
hide.long 0x00 "GICD_ITARGETSR180,Interrupt Processor Targets Register 180"
hgroup.long 0xAD4++0x03
hide.long 0x00 "GICD_ITARGETSR181,Interrupt Processor Targets Register 181"
hgroup.long 0xAD8++0x03
hide.long 0x00 "GICD_ITARGETSR182,Interrupt Processor Targets Register 182"
hgroup.long 0xADC++0x03
hide.long 0x00 "GICD_ITARGETSR183,Interrupt Processor Targets Register 183"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x17)
group.long 0xAE0++0x03
line.long 0x00 "GICD_ITARGETSR184,Interrupt Processor Targets Register 184"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO739  ,CPU Targets Byte Offset 739 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO738  ,CPU Targets Byte Offset 738 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO737  ,CPU Targets Byte Offset 737 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO736  ,CPU Targets Byte Offset 736 "
group.long 0xAE4++0x03
line.long 0x00 "GICD_ITARGETSR185,Interrupt Processor Targets Register 185"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO743  ,CPU Targets Byte Offset 743 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO742  ,CPU Targets Byte Offset 742 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO741  ,CPU Targets Byte Offset 741 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO740  ,CPU Targets Byte Offset 740 "
group.long 0xAE8++0x03
line.long 0x00 "GICD_ITARGETSR186,Interrupt Processor Targets Register 186"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO747  ,CPU Targets Byte Offset 747 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO746  ,CPU Targets Byte Offset 746 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO745  ,CPU Targets Byte Offset 745 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO744  ,CPU Targets Byte Offset 744 "
group.long 0xAEC++0x03
line.long 0x00 "GICD_ITARGETSR187,Interrupt Processor Targets Register 187"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO751  ,CPU Targets Byte Offset 751 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO750  ,CPU Targets Byte Offset 750 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO749  ,CPU Targets Byte Offset 749 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO748  ,CPU Targets Byte Offset 748 "
group.long 0xAF0++0x03
line.long 0x00 "GICD_ITARGETSR188,Interrupt Processor Targets Register 188"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO755  ,CPU Targets Byte Offset 755 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO754  ,CPU Targets Byte Offset 754 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO753  ,CPU Targets Byte Offset 753 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO752  ,CPU Targets Byte Offset 752 "
group.long 0xAF4++0x03
line.long 0x00 "GICD_ITARGETSR189,Interrupt Processor Targets Register 189"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO759  ,CPU Targets Byte Offset 759 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO758  ,CPU Targets Byte Offset 758 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO757  ,CPU Targets Byte Offset 757 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO756  ,CPU Targets Byte Offset 756 "
group.long 0xAF8++0x03
line.long 0x00 "GICD_ITARGETSR190,Interrupt Processor Targets Register 190"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO763  ,CPU Targets Byte Offset 763 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO762  ,CPU Targets Byte Offset 762 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO761  ,CPU Targets Byte Offset 761 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO760  ,CPU Targets Byte Offset 760 "
group.long 0xAFC++0x03
line.long 0x00 "GICD_ITARGETSR191,Interrupt Processor Targets Register 191"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO767  ,CPU Targets Byte Offset 767 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO766  ,CPU Targets Byte Offset 766 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO765  ,CPU Targets Byte Offset 765 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO764  ,CPU Targets Byte Offset 764 "
else
hgroup.long 0xAE0++0x03
hide.long 0x00 "GICD_ITARGETSR184,Interrupt Processor Targets Register 184"
hgroup.long 0xAE4++0x03
hide.long 0x00 "GICD_ITARGETSR185,Interrupt Processor Targets Register 185"
hgroup.long 0xAE8++0x03
hide.long 0x00 "GICD_ITARGETSR186,Interrupt Processor Targets Register 186"
hgroup.long 0xAEC++0x03
hide.long 0x00 "GICD_ITARGETSR187,Interrupt Processor Targets Register 187"
hgroup.long 0xAF0++0x03
hide.long 0x00 "GICD_ITARGETSR188,Interrupt Processor Targets Register 188"
hgroup.long 0xAF4++0x03
hide.long 0x00 "GICD_ITARGETSR189,Interrupt Processor Targets Register 189"
hgroup.long 0xAF8++0x03
hide.long 0x00 "GICD_ITARGETSR190,Interrupt Processor Targets Register 190"
hgroup.long 0xAFC++0x03
hide.long 0x00 "GICD_ITARGETSR191,Interrupt Processor Targets Register 191"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x18)
group.long 0xB00++0x03
line.long 0x00 "GICD_ITARGETSR192,Interrupt Processor Targets Register 192"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO771  ,CPU Targets Byte Offset 771 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO770  ,CPU Targets Byte Offset 770 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO769  ,CPU Targets Byte Offset 769 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO768  ,CPU Targets Byte Offset 768 "
group.long 0xB04++0x03
line.long 0x00 "GICD_ITARGETSR193,Interrupt Processor Targets Register 193"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO775  ,CPU Targets Byte Offset 775 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO774  ,CPU Targets Byte Offset 774 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO773  ,CPU Targets Byte Offset 773 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO772  ,CPU Targets Byte Offset 772 "
group.long 0xB08++0x03
line.long 0x00 "GICD_ITARGETSR194,Interrupt Processor Targets Register 194"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO779  ,CPU Targets Byte Offset 779 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO778  ,CPU Targets Byte Offset 778 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO777  ,CPU Targets Byte Offset 777 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO776  ,CPU Targets Byte Offset 776 "
group.long 0xB0C++0x03
line.long 0x00 "GICD_ITARGETSR195,Interrupt Processor Targets Register 195"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO783  ,CPU Targets Byte Offset 783 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO782  ,CPU Targets Byte Offset 782 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO781  ,CPU Targets Byte Offset 781 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO780  ,CPU Targets Byte Offset 780 "
group.long 0xB10++0x03
line.long 0x00 "GICD_ITARGETSR196,Interrupt Processor Targets Register 196"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO787  ,CPU Targets Byte Offset 787 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO786  ,CPU Targets Byte Offset 786 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO785  ,CPU Targets Byte Offset 785 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO784  ,CPU Targets Byte Offset 784 "
group.long 0xB14++0x03
line.long 0x00 "GICD_ITARGETSR197,Interrupt Processor Targets Register 197"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO791  ,CPU Targets Byte Offset 791 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO790  ,CPU Targets Byte Offset 790 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO789  ,CPU Targets Byte Offset 789 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO788  ,CPU Targets Byte Offset 788 "
group.long 0xB18++0x03
line.long 0x00 "GICD_ITARGETSR198,Interrupt Processor Targets Register 198"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO795  ,CPU Targets Byte Offset 795 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO794  ,CPU Targets Byte Offset 794 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO793  ,CPU Targets Byte Offset 793 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO792  ,CPU Targets Byte Offset 792 "
group.long 0xB1C++0x03
line.long 0x00 "GICD_ITARGETSR199,Interrupt Processor Targets Register 199"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO799  ,CPU Targets Byte Offset 799 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO798  ,CPU Targets Byte Offset 798 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO797  ,CPU Targets Byte Offset 797 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO796  ,CPU Targets Byte Offset 796 "
else
hgroup.long 0xB00++0x03
hide.long 0x00 "GICD_ITARGETSR192,Interrupt Processor Targets Register 192"
hgroup.long 0xB04++0x03
hide.long 0x00 "GICD_ITARGETSR193,Interrupt Processor Targets Register 193"
hgroup.long 0xB08++0x03
hide.long 0x00 "GICD_ITARGETSR194,Interrupt Processor Targets Register 194"
hgroup.long 0xB0C++0x03
hide.long 0x00 "GICD_ITARGETSR195,Interrupt Processor Targets Register 195"
hgroup.long 0xB10++0x03
hide.long 0x00 "GICD_ITARGETSR196,Interrupt Processor Targets Register 196"
hgroup.long 0xB14++0x03
hide.long 0x00 "GICD_ITARGETSR197,Interrupt Processor Targets Register 197"
hgroup.long 0xB18++0x03
hide.long 0x00 "GICD_ITARGETSR198,Interrupt Processor Targets Register 198"
hgroup.long 0xB1C++0x03
hide.long 0x00 "GICD_ITARGETSR199,Interrupt Processor Targets Register 199"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x19)
group.long 0xB20++0x03
line.long 0x00 "GICD_ITARGETSR200,Interrupt Processor Targets Register 200"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO803  ,CPU Targets Byte Offset 803 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO802  ,CPU Targets Byte Offset 802 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO801  ,CPU Targets Byte Offset 801 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO800  ,CPU Targets Byte Offset 800 "
group.long 0xB24++0x03
line.long 0x00 "GICD_ITARGETSR201,Interrupt Processor Targets Register 201"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO807  ,CPU Targets Byte Offset 807 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO806  ,CPU Targets Byte Offset 806 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO805  ,CPU Targets Byte Offset 805 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO804  ,CPU Targets Byte Offset 804 "
group.long 0xB28++0x03
line.long 0x00 "GICD_ITARGETSR202,Interrupt Processor Targets Register 202"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO811  ,CPU Targets Byte Offset 811 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO810  ,CPU Targets Byte Offset 810 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO809  ,CPU Targets Byte Offset 809 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO808  ,CPU Targets Byte Offset 808 "
group.long 0xB2C++0x03
line.long 0x00 "GICD_ITARGETSR203,Interrupt Processor Targets Register 203"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO815  ,CPU Targets Byte Offset 815 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO814  ,CPU Targets Byte Offset 814 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO813  ,CPU Targets Byte Offset 813 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO812  ,CPU Targets Byte Offset 812 "
group.long 0xB30++0x03
line.long 0x00 "GICD_ITARGETSR204,Interrupt Processor Targets Register 204"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO819  ,CPU Targets Byte Offset 819 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO818  ,CPU Targets Byte Offset 818 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO817  ,CPU Targets Byte Offset 817 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO816  ,CPU Targets Byte Offset 816 "
group.long 0xB34++0x03
line.long 0x00 "GICD_ITARGETSR205,Interrupt Processor Targets Register 205"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO823  ,CPU Targets Byte Offset 823 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO822  ,CPU Targets Byte Offset 822 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO821  ,CPU Targets Byte Offset 821 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO820  ,CPU Targets Byte Offset 820 "
group.long 0xB38++0x03
line.long 0x00 "GICD_ITARGETSR206,Interrupt Processor Targets Register 206"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO827  ,CPU Targets Byte Offset 827 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO826  ,CPU Targets Byte Offset 826 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO825  ,CPU Targets Byte Offset 825 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO824  ,CPU Targets Byte Offset 824 "
group.long 0xB3C++0x03
line.long 0x00 "GICD_ITARGETSR207,Interrupt Processor Targets Register 207"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO831  ,CPU Targets Byte Offset 831 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO830  ,CPU Targets Byte Offset 830 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO829  ,CPU Targets Byte Offset 829 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO828  ,CPU Targets Byte Offset 828 "
else
hgroup.long 0xB20++0x03
hide.long 0x00 "GICD_ITARGETSR200,Interrupt Processor Targets Register 200"
hgroup.long 0xB24++0x03
hide.long 0x00 "GICD_ITARGETSR201,Interrupt Processor Targets Register 201"
hgroup.long 0xB28++0x03
hide.long 0x00 "GICD_ITARGETSR202,Interrupt Processor Targets Register 202"
hgroup.long 0xB2C++0x03
hide.long 0x00 "GICD_ITARGETSR203,Interrupt Processor Targets Register 203"
hgroup.long 0xB30++0x03
hide.long 0x00 "GICD_ITARGETSR204,Interrupt Processor Targets Register 204"
hgroup.long 0xB34++0x03
hide.long 0x00 "GICD_ITARGETSR205,Interrupt Processor Targets Register 205"
hgroup.long 0xB38++0x03
hide.long 0x00 "GICD_ITARGETSR206,Interrupt Processor Targets Register 206"
hgroup.long 0xB3C++0x03
hide.long 0x00 "GICD_ITARGETSR207,Interrupt Processor Targets Register 207"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1A)
group.long 0xB40++0x03
line.long 0x00 "GICD_ITARGETSR208,Interrupt Processor Targets Register 208"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO835  ,CPU Targets Byte Offset 835 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO834  ,CPU Targets Byte Offset 834 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO833  ,CPU Targets Byte Offset 833 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO832  ,CPU Targets Byte Offset 832 "
group.long 0xB44++0x03
line.long 0x00 "GICD_ITARGETSR209,Interrupt Processor Targets Register 209"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO839  ,CPU Targets Byte Offset 839 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO838  ,CPU Targets Byte Offset 838 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO837  ,CPU Targets Byte Offset 837 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO836  ,CPU Targets Byte Offset 836 "
group.long 0xB48++0x03
line.long 0x00 "GICD_ITARGETSR210,Interrupt Processor Targets Register 210"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO843  ,CPU Targets Byte Offset 843 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO842  ,CPU Targets Byte Offset 842 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO841  ,CPU Targets Byte Offset 841 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO840  ,CPU Targets Byte Offset 840 "
group.long 0xB4C++0x03
line.long 0x00 "GICD_ITARGETSR211,Interrupt Processor Targets Register 211"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO847  ,CPU Targets Byte Offset 847 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO846  ,CPU Targets Byte Offset 846 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO845  ,CPU Targets Byte Offset 845 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO844  ,CPU Targets Byte Offset 844 "
group.long 0xB50++0x03
line.long 0x00 "GICD_ITARGETSR212,Interrupt Processor Targets Register 212"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO851  ,CPU Targets Byte Offset 851 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO850  ,CPU Targets Byte Offset 850 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO849  ,CPU Targets Byte Offset 849 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO848  ,CPU Targets Byte Offset 848 "
group.long 0xB54++0x03
line.long 0x00 "GICD_ITARGETSR213,Interrupt Processor Targets Register 213"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO855  ,CPU Targets Byte Offset 855 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO854  ,CPU Targets Byte Offset 854 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO853  ,CPU Targets Byte Offset 853 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO852  ,CPU Targets Byte Offset 852 "
group.long 0xB58++0x03
line.long 0x00 "GICD_ITARGETSR214,Interrupt Processor Targets Register 214"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO859  ,CPU Targets Byte Offset 859 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO858  ,CPU Targets Byte Offset 858 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO857  ,CPU Targets Byte Offset 857 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO856  ,CPU Targets Byte Offset 856 "
group.long 0xB5C++0x03
line.long 0x00 "GICD_ITARGETSR215,Interrupt Processor Targets Register 215"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO863  ,CPU Targets Byte Offset 863 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO862  ,CPU Targets Byte Offset 862 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO861  ,CPU Targets Byte Offset 861 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO860  ,CPU Targets Byte Offset 860 "
else
hgroup.long 0xB40++0x03
hide.long 0x00 "GICD_ITARGETSR208,Interrupt Processor Targets Register 208"
hgroup.long 0xB44++0x03
hide.long 0x00 "GICD_ITARGETSR209,Interrupt Processor Targets Register 209"
hgroup.long 0xB48++0x03
hide.long 0x00 "GICD_ITARGETSR210,Interrupt Processor Targets Register 210"
hgroup.long 0xB4C++0x03
hide.long 0x00 "GICD_ITARGETSR211,Interrupt Processor Targets Register 211"
hgroup.long 0xB50++0x03
hide.long 0x00 "GICD_ITARGETSR212,Interrupt Processor Targets Register 212"
hgroup.long 0xB54++0x03
hide.long 0x00 "GICD_ITARGETSR213,Interrupt Processor Targets Register 213"
hgroup.long 0xB58++0x03
hide.long 0x00 "GICD_ITARGETSR214,Interrupt Processor Targets Register 214"
hgroup.long 0xB5C++0x03
hide.long 0x00 "GICD_ITARGETSR215,Interrupt Processor Targets Register 215"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1B)
group.long 0xB60++0x03
line.long 0x00 "GICD_ITARGETSR216,Interrupt Processor Targets Register 216"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO867  ,CPU Targets Byte Offset 867 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO866  ,CPU Targets Byte Offset 866 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO865  ,CPU Targets Byte Offset 865 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO864  ,CPU Targets Byte Offset 864 "
group.long 0xB64++0x03
line.long 0x00 "GICD_ITARGETSR217,Interrupt Processor Targets Register 217"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO871  ,CPU Targets Byte Offset 871 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO870  ,CPU Targets Byte Offset 870 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO869  ,CPU Targets Byte Offset 869 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO868  ,CPU Targets Byte Offset 868 "
group.long 0xB68++0x03
line.long 0x00 "GICD_ITARGETSR218,Interrupt Processor Targets Register 218"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO875  ,CPU Targets Byte Offset 875 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO874  ,CPU Targets Byte Offset 874 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO873  ,CPU Targets Byte Offset 873 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO872  ,CPU Targets Byte Offset 872 "
group.long 0xB6C++0x03
line.long 0x00 "GICD_ITARGETSR219,Interrupt Processor Targets Register 219"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO879  ,CPU Targets Byte Offset 879 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO878  ,CPU Targets Byte Offset 878 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO877  ,CPU Targets Byte Offset 877 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO876  ,CPU Targets Byte Offset 876 "
group.long 0xB70++0x03
line.long 0x00 "GICD_ITARGETSR220,Interrupt Processor Targets Register 220"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO883  ,CPU Targets Byte Offset 883 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO882  ,CPU Targets Byte Offset 882 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO881  ,CPU Targets Byte Offset 881 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO880  ,CPU Targets Byte Offset 880 "
group.long 0xB74++0x03
line.long 0x00 "GICD_ITARGETSR221,Interrupt Processor Targets Register 221"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO887  ,CPU Targets Byte Offset 887 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO886  ,CPU Targets Byte Offset 886 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO885  ,CPU Targets Byte Offset 885 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO884  ,CPU Targets Byte Offset 884 "
group.long 0xB78++0x03
line.long 0x00 "GICD_ITARGETSR222,Interrupt Processor Targets Register 222"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO891  ,CPU Targets Byte Offset 891 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO890  ,CPU Targets Byte Offset 890 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO889  ,CPU Targets Byte Offset 889 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO888  ,CPU Targets Byte Offset 888 "
group.long 0xB7C++0x03
line.long 0x00 "GICD_ITARGETSR223,Interrupt Processor Targets Register 223"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO895  ,CPU Targets Byte Offset 895 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO894  ,CPU Targets Byte Offset 894 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO893  ,CPU Targets Byte Offset 893 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO892  ,CPU Targets Byte Offset 892 "
else
hgroup.long 0xB60++0x03
hide.long 0x00 "GICD_ITARGETSR216,Interrupt Processor Targets Register 216"
hgroup.long 0xB64++0x03
hide.long 0x00 "GICD_ITARGETSR217,Interrupt Processor Targets Register 217"
hgroup.long 0xB68++0x03
hide.long 0x00 "GICD_ITARGETSR218,Interrupt Processor Targets Register 218"
hgroup.long 0xB6C++0x03
hide.long 0x00 "GICD_ITARGETSR219,Interrupt Processor Targets Register 219"
hgroup.long 0xB70++0x03
hide.long 0x00 "GICD_ITARGETSR220,Interrupt Processor Targets Register 220"
hgroup.long 0xB74++0x03
hide.long 0x00 "GICD_ITARGETSR221,Interrupt Processor Targets Register 221"
hgroup.long 0xB78++0x03
hide.long 0x00 "GICD_ITARGETSR222,Interrupt Processor Targets Register 222"
hgroup.long 0xB7C++0x03
hide.long 0x00 "GICD_ITARGETSR223,Interrupt Processor Targets Register 223"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1C)
group.long 0xB80++0x03
line.long 0x00 "GICD_ITARGETSR224,Interrupt Processor Targets Register 224"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO899  ,CPU Targets Byte Offset 899 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO898  ,CPU Targets Byte Offset 898 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO897  ,CPU Targets Byte Offset 897 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO896  ,CPU Targets Byte Offset 896 "
group.long 0xB84++0x03
line.long 0x00 "GICD_ITARGETSR225,Interrupt Processor Targets Register 225"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO903  ,CPU Targets Byte Offset 903 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO902  ,CPU Targets Byte Offset 902 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO901  ,CPU Targets Byte Offset 901 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO900  ,CPU Targets Byte Offset 900 "
group.long 0xB88++0x03
line.long 0x00 "GICD_ITARGETSR226,Interrupt Processor Targets Register 226"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO907  ,CPU Targets Byte Offset 907 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO906  ,CPU Targets Byte Offset 906 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO905  ,CPU Targets Byte Offset 905 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO904  ,CPU Targets Byte Offset 904 "
group.long 0xB8C++0x03
line.long 0x00 "GICD_ITARGETSR227,Interrupt Processor Targets Register 227"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO911  ,CPU Targets Byte Offset 911 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO910  ,CPU Targets Byte Offset 910 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO909  ,CPU Targets Byte Offset 909 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO908  ,CPU Targets Byte Offset 908 "
group.long 0xB90++0x03
line.long 0x00 "GICD_ITARGETSR228,Interrupt Processor Targets Register 228"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO915  ,CPU Targets Byte Offset 915 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO914  ,CPU Targets Byte Offset 914 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO913  ,CPU Targets Byte Offset 913 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO912  ,CPU Targets Byte Offset 912 "
group.long 0xB94++0x03
line.long 0x00 "GICD_ITARGETSR229,Interrupt Processor Targets Register 229"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO919  ,CPU Targets Byte Offset 919 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO918  ,CPU Targets Byte Offset 918 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO917  ,CPU Targets Byte Offset 917 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO916  ,CPU Targets Byte Offset 916 "
group.long 0xB98++0x03
line.long 0x00 "GICD_ITARGETSR230,Interrupt Processor Targets Register 230"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO923  ,CPU Targets Byte Offset 923 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO922  ,CPU Targets Byte Offset 922 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO921  ,CPU Targets Byte Offset 921 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO920  ,CPU Targets Byte Offset 920 "
group.long 0xB9C++0x03
line.long 0x00 "GICD_ITARGETSR231,Interrupt Processor Targets Register 231"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO927  ,CPU Targets Byte Offset 927 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO926  ,CPU Targets Byte Offset 926 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO925  ,CPU Targets Byte Offset 925 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO924  ,CPU Targets Byte Offset 924 "
else
hgroup.long 0xB80++0x03
hide.long 0x00 "GICD_ITARGETSR224,Interrupt Processor Targets Register 224"
hgroup.long 0xB84++0x03
hide.long 0x00 "GICD_ITARGETSR225,Interrupt Processor Targets Register 225"
hgroup.long 0xB88++0x03
hide.long 0x00 "GICD_ITARGETSR226,Interrupt Processor Targets Register 226"
hgroup.long 0xB8C++0x03
hide.long 0x00 "GICD_ITARGETSR227,Interrupt Processor Targets Register 227"
hgroup.long 0xB90++0x03
hide.long 0x00 "GICD_ITARGETSR228,Interrupt Processor Targets Register 228"
hgroup.long 0xB94++0x03
hide.long 0x00 "GICD_ITARGETSR229,Interrupt Processor Targets Register 229"
hgroup.long 0xB98++0x03
hide.long 0x00 "GICD_ITARGETSR230,Interrupt Processor Targets Register 230"
hgroup.long 0xB9C++0x03
hide.long 0x00 "GICD_ITARGETSR231,Interrupt Processor Targets Register 231"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1D)
group.long 0xBA0++0x03
line.long 0x00 "GICD_ITARGETSR232,Interrupt Processor Targets Register 232"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO931  ,CPU Targets Byte Offset 931 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO930  ,CPU Targets Byte Offset 930 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO929  ,CPU Targets Byte Offset 929 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO928  ,CPU Targets Byte Offset 928 "
group.long 0xBA4++0x03
line.long 0x00 "GICD_ITARGETSR233,Interrupt Processor Targets Register 233"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO935  ,CPU Targets Byte Offset 935 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO934  ,CPU Targets Byte Offset 934 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO933  ,CPU Targets Byte Offset 933 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO932  ,CPU Targets Byte Offset 932 "
group.long 0xBA8++0x03
line.long 0x00 "GICD_ITARGETSR234,Interrupt Processor Targets Register 234"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO939  ,CPU Targets Byte Offset 939 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO938  ,CPU Targets Byte Offset 938 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO937  ,CPU Targets Byte Offset 937 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO936  ,CPU Targets Byte Offset 936 "
group.long 0xBAC++0x03
line.long 0x00 "GICD_ITARGETSR235,Interrupt Processor Targets Register 235"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO943  ,CPU Targets Byte Offset 943 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO942  ,CPU Targets Byte Offset 942 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO941  ,CPU Targets Byte Offset 941 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO940  ,CPU Targets Byte Offset 940 "
group.long 0xBB0++0x03
line.long 0x00 "GICD_ITARGETSR236,Interrupt Processor Targets Register 236"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO947  ,CPU Targets Byte Offset 947 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO946  ,CPU Targets Byte Offset 946 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO945  ,CPU Targets Byte Offset 945 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO944  ,CPU Targets Byte Offset 944 "
group.long 0xBB4++0x03
line.long 0x00 "GICD_ITARGETSR237,Interrupt Processor Targets Register 237"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO951  ,CPU Targets Byte Offset 951 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO950  ,CPU Targets Byte Offset 950 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO949  ,CPU Targets Byte Offset 949 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO948  ,CPU Targets Byte Offset 948 "
group.long 0xBB8++0x03
line.long 0x00 "GICD_ITARGETSR238,Interrupt Processor Targets Register 238"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO955  ,CPU Targets Byte Offset 955 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO954  ,CPU Targets Byte Offset 954 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO953  ,CPU Targets Byte Offset 953 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO952  ,CPU Targets Byte Offset 952 "
group.long 0xBBC++0x03
line.long 0x00 "GICD_ITARGETSR239,Interrupt Processor Targets Register 239"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO959  ,CPU Targets Byte Offset 959 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO958  ,CPU Targets Byte Offset 958 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO957  ,CPU Targets Byte Offset 957 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO956  ,CPU Targets Byte Offset 956 "
else
hgroup.long 0xBA0++0x03
hide.long 0x00 "GICD_ITARGETSR232,Interrupt Processor Targets Register 232"
hgroup.long 0xBA4++0x03
hide.long 0x00 "GICD_ITARGETSR233,Interrupt Processor Targets Register 233"
hgroup.long 0xBA8++0x03
hide.long 0x00 "GICD_ITARGETSR234,Interrupt Processor Targets Register 234"
hgroup.long 0xBAC++0x03
hide.long 0x00 "GICD_ITARGETSR235,Interrupt Processor Targets Register 235"
hgroup.long 0xBB0++0x03
hide.long 0x00 "GICD_ITARGETSR236,Interrupt Processor Targets Register 236"
hgroup.long 0xBB4++0x03
hide.long 0x00 "GICD_ITARGETSR237,Interrupt Processor Targets Register 237"
hgroup.long 0xBB8++0x03
hide.long 0x00 "GICD_ITARGETSR238,Interrupt Processor Targets Register 238"
hgroup.long 0xBBC++0x03
hide.long 0x00 "GICD_ITARGETSR239,Interrupt Processor Targets Register 239"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1E)
group.long 0xBC0++0x03
line.long 0x00 "GICD_ITARGETSR240,Interrupt Processor Targets Register 240"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO963  ,CPU Targets Byte Offset 963 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO962  ,CPU Targets Byte Offset 962 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO961  ,CPU Targets Byte Offset 961 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO960  ,CPU Targets Byte Offset 960 "
group.long 0xBC4++0x03
line.long 0x00 "GICD_ITARGETSR241,Interrupt Processor Targets Register 241"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO967  ,CPU Targets Byte Offset 967 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO966  ,CPU Targets Byte Offset 966 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO965  ,CPU Targets Byte Offset 965 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO964  ,CPU Targets Byte Offset 964 "
group.long 0xBC8++0x03
line.long 0x00 "GICD_ITARGETSR242,Interrupt Processor Targets Register 242"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO971  ,CPU Targets Byte Offset 971 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO970  ,CPU Targets Byte Offset 970 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO969  ,CPU Targets Byte Offset 969 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO968  ,CPU Targets Byte Offset 968 "
group.long 0xBCC++0x03
line.long 0x00 "GICD_ITARGETSR243,Interrupt Processor Targets Register 243"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO975  ,CPU Targets Byte Offset 975 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO974  ,CPU Targets Byte Offset 974 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO973  ,CPU Targets Byte Offset 973 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO972  ,CPU Targets Byte Offset 972 "
group.long 0xBD0++0x03
line.long 0x00 "GICD_ITARGETSR244,Interrupt Processor Targets Register 244"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO979  ,CPU Targets Byte Offset 979 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO978  ,CPU Targets Byte Offset 978 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO977  ,CPU Targets Byte Offset 977 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO976  ,CPU Targets Byte Offset 976 "
group.long 0xBD4++0x03
line.long 0x00 "GICD_ITARGETSR245,Interrupt Processor Targets Register 245"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO983  ,CPU Targets Byte Offset 983 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO982  ,CPU Targets Byte Offset 982 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO981  ,CPU Targets Byte Offset 981 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO980  ,CPU Targets Byte Offset 980 "
group.long 0xBD8++0x03
line.long 0x00 "GICD_ITARGETSR246,Interrupt Processor Targets Register 246"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO987  ,CPU Targets Byte Offset 987 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO986  ,CPU Targets Byte Offset 986 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO985  ,CPU Targets Byte Offset 985 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO984  ,CPU Targets Byte Offset 984 "
group.long 0xBDC++0x03
line.long 0x00 "GICD_ITARGETSR247,Interrupt Processor Targets Register 247"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO991  ,CPU Targets Byte Offset 991 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO990  ,CPU Targets Byte Offset 990 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO989  ,CPU Targets Byte Offset 989 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO988  ,CPU Targets Byte Offset 988 "
else
hgroup.long 0xBC0++0x03
hide.long 0x00 "GICD_ITARGETSR240,Interrupt Processor Targets Register 240"
hgroup.long 0xBC4++0x03
hide.long 0x00 "GICD_ITARGETSR241,Interrupt Processor Targets Register 241"
hgroup.long 0xBC8++0x03
hide.long 0x00 "GICD_ITARGETSR242,Interrupt Processor Targets Register 242"
hgroup.long 0xBCC++0x03
hide.long 0x00 "GICD_ITARGETSR243,Interrupt Processor Targets Register 243"
hgroup.long 0xBD0++0x03
hide.long 0x00 "GICD_ITARGETSR244,Interrupt Processor Targets Register 244"
hgroup.long 0xBD4++0x03
hide.long 0x00 "GICD_ITARGETSR245,Interrupt Processor Targets Register 245"
hgroup.long 0xBD8++0x03
hide.long 0x00 "GICD_ITARGETSR246,Interrupt Processor Targets Register 246"
hgroup.long 0xBDC++0x03
hide.long 0x00 "GICD_ITARGETSR247,Interrupt Processor Targets Register 247"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1F)
group.long 0xBE0++0x03
line.long 0x00 "GICD_ITARGETSR248,Interrupt Processor Targets Register 248"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO995  ,CPU Targets Byte Offset 995 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO994  ,CPU Targets Byte Offset 994 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO993  ,CPU Targets Byte Offset 993 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO992  ,CPU Targets Byte Offset 992 "
group.long 0xBE4++0x03
line.long 0x00 "GICD_ITARGETSR249,Interrupt Processor Targets Register 249"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO999  ,CPU Targets Byte Offset 999 "
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO998  ,CPU Targets Byte Offset 998 "
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO997  ,CPU Targets Byte Offset 997 "
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO996  ,CPU Targets Byte Offset 996 "
group.long 0xBE8++0x03
line.long 0x00 "GICD_ITARGETSR250,Interrupt Processor Targets Register 250"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO1003 ,CPU Targets Byte Offset 1003"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO1002 ,CPU Targets Byte Offset 1002"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1001 ,CPU Targets Byte Offset 1001"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO1000 ,CPU Targets Byte Offset 1000"
group.long 0xBEC++0x03
line.long 0x00 "GICD_ITARGETSR251,Interrupt Processor Targets Register 251"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO1007 ,CPU Targets Byte Offset 1007"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO1006 ,CPU Targets Byte Offset 1006"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1005 ,CPU Targets Byte Offset 1005"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO1004 ,CPU Targets Byte Offset 1004"
group.long 0xBF0++0x03
line.long 0x00 "GICD_ITARGETSR252,Interrupt Processor Targets Register 252"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO1011 ,CPU Targets Byte Offset 1011"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO1010 ,CPU Targets Byte Offset 1010"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1009 ,CPU Targets Byte Offset 1009"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO1008 ,CPU Targets Byte Offset 1008"
group.long 0xBF4++0x03
line.long 0x00 "GICD_ITARGETSR253,Interrupt Processor Targets Register 253"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO1015 ,CPU Targets Byte Offset 1015"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO1014 ,CPU Targets Byte Offset 1014"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1013 ,CPU Targets Byte Offset 1013"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO1012 ,CPU Targets Byte Offset 1012"
group.long 0xBF8++0x03
line.long 0x00 "GICD_ITARGETSR254,Interrupt Processor Targets Register 254"
hexmask.long.byte 0x00 24.--31. 1. " CPUTBO1019 ,CPU Targets Byte Offset 1019"
hexmask.long.byte 0x00 16.--23. 1. "  CPUTBO1018 ,CPU Targets Byte Offset 1018"
hexmask.long.byte 0x00 8.--15. 1. "  CPUTBO1017 ,CPU Targets Byte Offset 1017"
hexmask.long.byte 0x00 0.--7. 1. "  CPUTBO1016 ,CPU Targets Byte Offset 1016"
else
hgroup.long 0xBE0++0x03
hide.long 0x00 "GICD_ITARGETSR248,Interrupt Processor Targets Register 248"
hgroup.long 0xBE4++0x03
hide.long 0x00 "GICD_ITARGETSR249,Interrupt Processor Targets Register 249"
hgroup.long 0xBE8++0x03
hide.long 0x00 "GICD_ITARGETSR250,Interrupt Processor Targets Register 250"
hgroup.long 0xBEC++0x03
hide.long 0x00 "GICD_ITARGETSR251,Interrupt Processor Targets Register 251"
hgroup.long 0xBF0++0x03
hide.long 0x00 "GICD_ITARGETSR252,Interrupt Processor Targets Register 252"
hgroup.long 0xBF4++0x03
hide.long 0x00 "GICD_ITARGETSR253,Interrupt Processor Targets Register 253"
hgroup.long 0xBF8++0x03
hide.long 0x00 "GICD_ITARGETSR254,Interrupt Processor Targets Register 254"
endif
else
hgroup.long 0x800++0x03
hide.long 0x00 "GICD_ITARGETSR0  ,Interrupt Processor Targets Register 0  "
hgroup.long 0x804++0x03
hide.long 0x00 "GICD_ITARGETSR1  ,Interrupt Processor Targets Register 1  "
hgroup.long 0x808++0x03
hide.long 0x00 "GICD_ITARGETSR2  ,Interrupt Processor Targets Register 2  "
hgroup.long 0x80C++0x03
hide.long 0x00 "GICD_ITARGETSR3  ,Interrupt Processor Targets Register 3  "
hgroup.long 0x810++0x03
hide.long 0x00 "GICD_ITARGETSR4  ,Interrupt Processor Targets Register 4  "
hgroup.long 0x814++0x03
hide.long 0x00 "GICD_ITARGETSR5  ,Interrupt Processor Targets Register 5  "
hgroup.long 0x818++0x03
hide.long 0x00 "GICD_ITARGETSR6  ,Interrupt Processor Targets Register 6  "
hgroup.long 0x81C++0x03
hide.long 0x00 "GICD_ITARGETSR7  ,Interrupt Processor Targets Register 7  "
hgroup.long 0x820++0x03
hide.long 0x00 "GICD_ITARGETSR8  ,Interrupt Processor Targets Register 8  "
hgroup.long 0x824++0x03
hide.long 0x00 "GICD_ITARGETSR9  ,Interrupt Processor Targets Register 9  "
hgroup.long 0x828++0x03
hide.long 0x00 "GICD_ITARGETSR10 ,Interrupt Processor Targets Register 10 "
hgroup.long 0x82C++0x03
hide.long 0x00 "GICD_ITARGETSR11 ,Interrupt Processor Targets Register 11 "
hgroup.long 0x830++0x03
hide.long 0x00 "GICD_ITARGETSR12 ,Interrupt Processor Targets Register 12 "
hgroup.long 0x834++0x03
hide.long 0x00 "GICD_ITARGETSR13 ,Interrupt Processor Targets Register 13 "
hgroup.long 0x838++0x03
hide.long 0x00 "GICD_ITARGETSR14 ,Interrupt Processor Targets Register 14 "
hgroup.long 0x83C++0x03
hide.long 0x00 "GICD_ITARGETSR15 ,Interrupt Processor Targets Register 15 "
hgroup.long 0x840++0x03
hide.long 0x00 "GICD_ITARGETSR16 ,Interrupt Processor Targets Register 16 "
hgroup.long 0x844++0x03
hide.long 0x00 "GICD_ITARGETSR17 ,Interrupt Processor Targets Register 17 "
hgroup.long 0x848++0x03
hide.long 0x00 "GICD_ITARGETSR18 ,Interrupt Processor Targets Register 18 "
hgroup.long 0x84C++0x03
hide.long 0x00 "GICD_ITARGETSR19 ,Interrupt Processor Targets Register 19 "
hgroup.long 0x850++0x03
hide.long 0x00 "GICD_ITARGETSR20 ,Interrupt Processor Targets Register 20 "
hgroup.long 0x854++0x03
hide.long 0x00 "GICD_ITARGETSR21 ,Interrupt Processor Targets Register 21 "
hgroup.long 0x858++0x03
hide.long 0x00 "GICD_ITARGETSR22 ,Interrupt Processor Targets Register 22 "
hgroup.long 0x85C++0x03
hide.long 0x00 "GICD_ITARGETSR23 ,Interrupt Processor Targets Register 23 "
hgroup.long 0x860++0x03
hide.long 0x00 "GICD_ITARGETSR24 ,Interrupt Processor Targets Register 24 "
hgroup.long 0x864++0x03
hide.long 0x00 "GICD_ITARGETSR25 ,Interrupt Processor Targets Register 25 "
hgroup.long 0x868++0x03
hide.long 0x00 "GICD_ITARGETSR26 ,Interrupt Processor Targets Register 26 "
hgroup.long 0x86C++0x03
hide.long 0x00 "GICD_ITARGETSR27 ,Interrupt Processor Targets Register 27 "
hgroup.long 0x870++0x03
hide.long 0x00 "GICD_ITARGETSR28 ,Interrupt Processor Targets Register 28 "
hgroup.long 0x874++0x03
hide.long 0x00 "GICD_ITARGETSR29 ,Interrupt Processor Targets Register 29 "
hgroup.long 0x878++0x03
hide.long 0x00 "GICD_ITARGETSR30 ,Interrupt Processor Targets Register 30 "
hgroup.long 0x87C++0x03
hide.long 0x00 "GICD_ITARGETSR31 ,Interrupt Processor Targets Register 31 "
hgroup.long 0x880++0x03
hide.long 0x00 "GICD_ITARGETSR32 ,Interrupt Processor Targets Register 32 "
hgroup.long 0x884++0x03
hide.long 0x00 "GICD_ITARGETSR33 ,Interrupt Processor Targets Register 33 "
hgroup.long 0x888++0x03
hide.long 0x00 "GICD_ITARGETSR34 ,Interrupt Processor Targets Register 34 "
hgroup.long 0x88C++0x03
hide.long 0x00 "GICD_ITARGETSR35 ,Interrupt Processor Targets Register 35 "
hgroup.long 0x890++0x03
hide.long 0x00 "GICD_ITARGETSR36 ,Interrupt Processor Targets Register 36 "
hgroup.long 0x894++0x03
hide.long 0x00 "GICD_ITARGETSR37 ,Interrupt Processor Targets Register 37 "
hgroup.long 0x898++0x03
hide.long 0x00 "GICD_ITARGETSR38 ,Interrupt Processor Targets Register 38 "
hgroup.long 0x89C++0x03
hide.long 0x00 "GICD_ITARGETSR39 ,Interrupt Processor Targets Register 39 "
hgroup.long 0x8A0++0x03
hide.long 0x00 "GICD_ITARGETSR40 ,Interrupt Processor Targets Register 40 "
hgroup.long 0x8A4++0x03
hide.long 0x00 "GICD_ITARGETSR41 ,Interrupt Processor Targets Register 41 "
hgroup.long 0x8A8++0x03
hide.long 0x00 "GICD_ITARGETSR42 ,Interrupt Processor Targets Register 42 "
hgroup.long 0x8AC++0x03
hide.long 0x00 "GICD_ITARGETSR43 ,Interrupt Processor Targets Register 43 "
hgroup.long 0x8B0++0x03
hide.long 0x00 "GICD_ITARGETSR44 ,Interrupt Processor Targets Register 44 "
hgroup.long 0x8B4++0x03
hide.long 0x00 "GICD_ITARGETSR45 ,Interrupt Processor Targets Register 45 "
hgroup.long 0x8B8++0x03
hide.long 0x00 "GICD_ITARGETSR46 ,Interrupt Processor Targets Register 46 "
hgroup.long 0x8BC++0x03
hide.long 0x00 "GICD_ITARGETSR47 ,Interrupt Processor Targets Register 47 "
hgroup.long 0x8C0++0x03
hide.long 0x00 "GICD_ITARGETSR48 ,Interrupt Processor Targets Register 48 "
hgroup.long 0x8C4++0x03
hide.long 0x00 "GICD_ITARGETSR49 ,Interrupt Processor Targets Register 49 "
hgroup.long 0x8C8++0x03
hide.long 0x00 "GICD_ITARGETSR50 ,Interrupt Processor Targets Register 50 "
hgroup.long 0x8CC++0x03
hide.long 0x00 "GICD_ITARGETSR51 ,Interrupt Processor Targets Register 51 "
hgroup.long 0x8D0++0x03
hide.long 0x00 "GICD_ITARGETSR52 ,Interrupt Processor Targets Register 52 "
hgroup.long 0x8D4++0x03
hide.long 0x00 "GICD_ITARGETSR53 ,Interrupt Processor Targets Register 53 "
hgroup.long 0x8D8++0x03
hide.long 0x00 "GICD_ITARGETSR54 ,Interrupt Processor Targets Register 54 "
hgroup.long 0x8DC++0x03
hide.long 0x00 "GICD_ITARGETSR55 ,Interrupt Processor Targets Register 55 "
hgroup.long 0x8E0++0x03
hide.long 0x00 "GICD_ITARGETSR56 ,Interrupt Processor Targets Register 56 "
hgroup.long 0x8E4++0x03
hide.long 0x00 "GICD_ITARGETSR57 ,Interrupt Processor Targets Register 57 "
hgroup.long 0x8E8++0x03
hide.long 0x00 "GICD_ITARGETSR58 ,Interrupt Processor Targets Register 58 "
hgroup.long 0x8EC++0x03
hide.long 0x00 "GICD_ITARGETSR59 ,Interrupt Processor Targets Register 59 "
hgroup.long 0x8F0++0x03
hide.long 0x00 "GICD_ITARGETSR60 ,Interrupt Processor Targets Register 60 "
hgroup.long 0x8F4++0x03
hide.long 0x00 "GICD_ITARGETSR61 ,Interrupt Processor Targets Register 61 "
hgroup.long 0x8F8++0x03
hide.long 0x00 "GICD_ITARGETSR62 ,Interrupt Processor Targets Register 62 "
hgroup.long 0x8FC++0x03
hide.long 0x00 "GICD_ITARGETSR63 ,Interrupt Processor Targets Register 63 "
hgroup.long 0x900++0x03
hide.long 0x00 "GICD_ITARGETSR64 ,Interrupt Processor Targets Register 64 "
hgroup.long 0x904++0x03
hide.long 0x00 "GICD_ITARGETSR65 ,Interrupt Processor Targets Register 65 "
hgroup.long 0x908++0x03
hide.long 0x00 "GICD_ITARGETSR66 ,Interrupt Processor Targets Register 66 "
hgroup.long 0x90C++0x03
hide.long 0x00 "GICD_ITARGETSR67 ,Interrupt Processor Targets Register 67 "
hgroup.long 0x910++0x03
hide.long 0x00 "GICD_ITARGETSR68 ,Interrupt Processor Targets Register 68 "
hgroup.long 0x914++0x03
hide.long 0x00 "GICD_ITARGETSR69 ,Interrupt Processor Targets Register 69 "
hgroup.long 0x918++0x03
hide.long 0x00 "GICD_ITARGETSR70 ,Interrupt Processor Targets Register 70 "
hgroup.long 0x91C++0x03
hide.long 0x00 "GICD_ITARGETSR71 ,Interrupt Processor Targets Register 71 "
hgroup.long 0x920++0x03
hide.long 0x00 "GICD_ITARGETSR72 ,Interrupt Processor Targets Register 72 "
hgroup.long 0x924++0x03
hide.long 0x00 "GICD_ITARGETSR73 ,Interrupt Processor Targets Register 73 "
hgroup.long 0x928++0x03
hide.long 0x00 "GICD_ITARGETSR74 ,Interrupt Processor Targets Register 74 "
hgroup.long 0x92C++0x03
hide.long 0x00 "GICD_ITARGETSR75 ,Interrupt Processor Targets Register 75 "
hgroup.long 0x930++0x03
hide.long 0x00 "GICD_ITARGETSR76 ,Interrupt Processor Targets Register 76 "
hgroup.long 0x934++0x03
hide.long 0x00 "GICD_ITARGETSR77 ,Interrupt Processor Targets Register 77 "
hgroup.long 0x938++0x03
hide.long 0x00 "GICD_ITARGETSR78 ,Interrupt Processor Targets Register 78 "
hgroup.long 0x93C++0x03
hide.long 0x00 "GICD_ITARGETSR79 ,Interrupt Processor Targets Register 79 "
hgroup.long 0x940++0x03
hide.long 0x00 "GICD_ITARGETSR80 ,Interrupt Processor Targets Register 80 "
hgroup.long 0x944++0x03
hide.long 0x00 "GICD_ITARGETSR81 ,Interrupt Processor Targets Register 81 "
hgroup.long 0x948++0x03
hide.long 0x00 "GICD_ITARGETSR82 ,Interrupt Processor Targets Register 82 "
hgroup.long 0x94C++0x03
hide.long 0x00 "GICD_ITARGETSR83 ,Interrupt Processor Targets Register 83 "
hgroup.long 0x950++0x03
hide.long 0x00 "GICD_ITARGETSR84 ,Interrupt Processor Targets Register 84 "
hgroup.long 0x954++0x03
hide.long 0x00 "GICD_ITARGETSR85 ,Interrupt Processor Targets Register 85 "
hgroup.long 0x958++0x03
hide.long 0x00 "GICD_ITARGETSR86 ,Interrupt Processor Targets Register 86 "
hgroup.long 0x95C++0x03
hide.long 0x00 "GICD_ITARGETSR87 ,Interrupt Processor Targets Register 87 "
hgroup.long 0x960++0x03
hide.long 0x00 "GICD_ITARGETSR88 ,Interrupt Processor Targets Register 88 "
hgroup.long 0x964++0x03
hide.long 0x00 "GICD_ITARGETSR89 ,Interrupt Processor Targets Register 89 "
hgroup.long 0x968++0x03
hide.long 0x00 "GICD_ITARGETSR90 ,Interrupt Processor Targets Register 90 "
hgroup.long 0x96C++0x03
hide.long 0x00 "GICD_ITARGETSR91 ,Interrupt Processor Targets Register 91 "
hgroup.long 0x970++0x03
hide.long 0x00 "GICD_ITARGETSR92 ,Interrupt Processor Targets Register 92 "
hgroup.long 0x974++0x03
hide.long 0x00 "GICD_ITARGETSR93 ,Interrupt Processor Targets Register 93 "
hgroup.long 0x978++0x03
hide.long 0x00 "GICD_ITARGETSR94 ,Interrupt Processor Targets Register 94 "
hgroup.long 0x97C++0x03
hide.long 0x00 "GICD_ITARGETSR95 ,Interrupt Processor Targets Register 95 "
hgroup.long 0x980++0x03
hide.long 0x00 "GICD_ITARGETSR96 ,Interrupt Processor Targets Register 96 "
hgroup.long 0x984++0x03
hide.long 0x00 "GICD_ITARGETSR97 ,Interrupt Processor Targets Register 97 "
hgroup.long 0x988++0x03
hide.long 0x00 "GICD_ITARGETSR98 ,Interrupt Processor Targets Register 98 "
hgroup.long 0x98C++0x03
hide.long 0x00 "GICD_ITARGETSR99 ,Interrupt Processor Targets Register 99 "
hgroup.long 0x990++0x03
hide.long 0x00 "GICD_ITARGETSR100,Interrupt Processor Targets Register 100"
hgroup.long 0x994++0x03
hide.long 0x00 "GICD_ITARGETSR101,Interrupt Processor Targets Register 101"
hgroup.long 0x998++0x03
hide.long 0x00 "GICD_ITARGETSR102,Interrupt Processor Targets Register 102"
hgroup.long 0x99C++0x03
hide.long 0x00 "GICD_ITARGETSR103,Interrupt Processor Targets Register 103"
hgroup.long 0x9A0++0x03
hide.long 0x00 "GICD_ITARGETSR104,Interrupt Processor Targets Register 104"
hgroup.long 0x9A4++0x03
hide.long 0x00 "GICD_ITARGETSR105,Interrupt Processor Targets Register 105"
hgroup.long 0x9A8++0x03
hide.long 0x00 "GICD_ITARGETSR106,Interrupt Processor Targets Register 106"
hgroup.long 0x9AC++0x03
hide.long 0x00 "GICD_ITARGETSR107,Interrupt Processor Targets Register 107"
hgroup.long 0x9B0++0x03
hide.long 0x00 "GICD_ITARGETSR108,Interrupt Processor Targets Register 108"
hgroup.long 0x9B4++0x03
hide.long 0x00 "GICD_ITARGETSR109,Interrupt Processor Targets Register 109"
hgroup.long 0x9B8++0x03
hide.long 0x00 "GICD_ITARGETSR110,Interrupt Processor Targets Register 110"
hgroup.long 0x9BC++0x03
hide.long 0x00 "GICD_ITARGETSR111,Interrupt Processor Targets Register 111"
hgroup.long 0x9C0++0x03
hide.long 0x00 "GICD_ITARGETSR112,Interrupt Processor Targets Register 112"
hgroup.long 0x9C4++0x03
hide.long 0x00 "GICD_ITARGETSR113,Interrupt Processor Targets Register 113"
hgroup.long 0x9C8++0x03
hide.long 0x00 "GICD_ITARGETSR114,Interrupt Processor Targets Register 114"
hgroup.long 0x9CC++0x03
hide.long 0x00 "GICD_ITARGETSR115,Interrupt Processor Targets Register 115"
hgroup.long 0x9D0++0x03
hide.long 0x00 "GICD_ITARGETSR116,Interrupt Processor Targets Register 116"
hgroup.long 0x9D4++0x03
hide.long 0x00 "GICD_ITARGETSR117,Interrupt Processor Targets Register 117"
hgroup.long 0x9D8++0x03
hide.long 0x00 "GICD_ITARGETSR118,Interrupt Processor Targets Register 118"
hgroup.long 0x9DC++0x03
hide.long 0x00 "GICD_ITARGETSR119,Interrupt Processor Targets Register 119"
hgroup.long 0x9E0++0x03
hide.long 0x00 "GICD_ITARGETSR120,Interrupt Processor Targets Register 120"
hgroup.long 0x9E4++0x03
hide.long 0x00 "GICD_ITARGETSR121,Interrupt Processor Targets Register 121"
hgroup.long 0x9E8++0x03
hide.long 0x00 "GICD_ITARGETSR122,Interrupt Processor Targets Register 122"
hgroup.long 0x9EC++0x03
hide.long 0x00 "GICD_ITARGETSR123,Interrupt Processor Targets Register 123"
hgroup.long 0x9F0++0x03
hide.long 0x00 "GICD_ITARGETSR124,Interrupt Processor Targets Register 124"
hgroup.long 0x9F4++0x03
hide.long 0x00 "GICD_ITARGETSR125,Interrupt Processor Targets Register 125"
hgroup.long 0x9F8++0x03
hide.long 0x00 "GICD_ITARGETSR126,Interrupt Processor Targets Register 126"
hgroup.long 0x9FC++0x03
hide.long 0x00 "GICD_ITARGETSR127,Interrupt Processor Targets Register 127"
hgroup.long 0xA00++0x03
hide.long 0x00 "GICD_ITARGETSR128,Interrupt Processor Targets Register 128"
hgroup.long 0xA04++0x03
hide.long 0x00 "GICD_ITARGETSR129,Interrupt Processor Targets Register 129"
hgroup.long 0xA08++0x03
hide.long 0x00 "GICD_ITARGETSR130,Interrupt Processor Targets Register 130"
hgroup.long 0xA0C++0x03
hide.long 0x00 "GICD_ITARGETSR131,Interrupt Processor Targets Register 131"
hgroup.long 0xA10++0x03
hide.long 0x00 "GICD_ITARGETSR132,Interrupt Processor Targets Register 132"
hgroup.long 0xA14++0x03
hide.long 0x00 "GICD_ITARGETSR133,Interrupt Processor Targets Register 133"
hgroup.long 0xA18++0x03
hide.long 0x00 "GICD_ITARGETSR134,Interrupt Processor Targets Register 134"
hgroup.long 0xA1C++0x03
hide.long 0x00 "GICD_ITARGETSR135,Interrupt Processor Targets Register 135"
hgroup.long 0xA20++0x03
hide.long 0x00 "GICD_ITARGETSR136,Interrupt Processor Targets Register 136"
hgroup.long 0xA24++0x03
hide.long 0x00 "GICD_ITARGETSR137,Interrupt Processor Targets Register 137"
hgroup.long 0xA28++0x03
hide.long 0x00 "GICD_ITARGETSR138,Interrupt Processor Targets Register 138"
hgroup.long 0xA2C++0x03
hide.long 0x00 "GICD_ITARGETSR139,Interrupt Processor Targets Register 139"
hgroup.long 0xA30++0x03
hide.long 0x00 "GICD_ITARGETSR140,Interrupt Processor Targets Register 140"
hgroup.long 0xA34++0x03
hide.long 0x00 "GICD_ITARGETSR141,Interrupt Processor Targets Register 141"
hgroup.long 0xA38++0x03
hide.long 0x00 "GICD_ITARGETSR142,Interrupt Processor Targets Register 142"
hgroup.long 0xA3C++0x03
hide.long 0x00 "GICD_ITARGETSR143,Interrupt Processor Targets Register 143"
hgroup.long 0xA40++0x03
hide.long 0x00 "GICD_ITARGETSR144,Interrupt Processor Targets Register 144"
hgroup.long 0xA44++0x03
hide.long 0x00 "GICD_ITARGETSR145,Interrupt Processor Targets Register 145"
hgroup.long 0xA48++0x03
hide.long 0x00 "GICD_ITARGETSR146,Interrupt Processor Targets Register 146"
hgroup.long 0xA4C++0x03
hide.long 0x00 "GICD_ITARGETSR147,Interrupt Processor Targets Register 147"
hgroup.long 0xA50++0x03
hide.long 0x00 "GICD_ITARGETSR148,Interrupt Processor Targets Register 148"
hgroup.long 0xA54++0x03
hide.long 0x00 "GICD_ITARGETSR149,Interrupt Processor Targets Register 149"
hgroup.long 0xA58++0x03
hide.long 0x00 "GICD_ITARGETSR150,Interrupt Processor Targets Register 150"
hgroup.long 0xA5C++0x03
hide.long 0x00 "GICD_ITARGETSR151,Interrupt Processor Targets Register 151"
hgroup.long 0xA60++0x03
hide.long 0x00 "GICD_ITARGETSR152,Interrupt Processor Targets Register 152"
hgroup.long 0xA64++0x03
hide.long 0x00 "GICD_ITARGETSR153,Interrupt Processor Targets Register 153"
hgroup.long 0xA68++0x03
hide.long 0x00 "GICD_ITARGETSR154,Interrupt Processor Targets Register 154"
hgroup.long 0xA6C++0x03
hide.long 0x00 "GICD_ITARGETSR155,Interrupt Processor Targets Register 155"
hgroup.long 0xA70++0x03
hide.long 0x00 "GICD_ITARGETSR156,Interrupt Processor Targets Register 156"
hgroup.long 0xA74++0x03
hide.long 0x00 "GICD_ITARGETSR157,Interrupt Processor Targets Register 157"
hgroup.long 0xA78++0x03
hide.long 0x00 "GICD_ITARGETSR158,Interrupt Processor Targets Register 158"
hgroup.long 0xA7C++0x03
hide.long 0x00 "GICD_ITARGETSR159,Interrupt Processor Targets Register 159"
hgroup.long 0xA80++0x03
hide.long 0x00 "GICD_ITARGETSR160,Interrupt Processor Targets Register 160"
hgroup.long 0xA84++0x03
hide.long 0x00 "GICD_ITARGETSR161,Interrupt Processor Targets Register 161"
hgroup.long 0xA88++0x03
hide.long 0x00 "GICD_ITARGETSR162,Interrupt Processor Targets Register 162"
hgroup.long 0xA8C++0x03
hide.long 0x00 "GICD_ITARGETSR163,Interrupt Processor Targets Register 163"
hgroup.long 0xA90++0x03
hide.long 0x00 "GICD_ITARGETSR164,Interrupt Processor Targets Register 164"
hgroup.long 0xA94++0x03
hide.long 0x00 "GICD_ITARGETSR165,Interrupt Processor Targets Register 165"
hgroup.long 0xA98++0x03
hide.long 0x00 "GICD_ITARGETSR166,Interrupt Processor Targets Register 166"
hgroup.long 0xA9C++0x03
hide.long 0x00 "GICD_ITARGETSR167,Interrupt Processor Targets Register 167"
hgroup.long 0xAA0++0x03
hide.long 0x00 "GICD_ITARGETSR168,Interrupt Processor Targets Register 168"
hgroup.long 0xAA4++0x03
hide.long 0x00 "GICD_ITARGETSR169,Interrupt Processor Targets Register 169"
hgroup.long 0xAA8++0x03
hide.long 0x00 "GICD_ITARGETSR170,Interrupt Processor Targets Register 170"
hgroup.long 0xAAC++0x03
hide.long 0x00 "GICD_ITARGETSR171,Interrupt Processor Targets Register 171"
hgroup.long 0xAB0++0x03
hide.long 0x00 "GICD_ITARGETSR172,Interrupt Processor Targets Register 172"
hgroup.long 0xAB4++0x03
hide.long 0x00 "GICD_ITARGETSR173,Interrupt Processor Targets Register 173"
hgroup.long 0xAB8++0x03
hide.long 0x00 "GICD_ITARGETSR174,Interrupt Processor Targets Register 174"
hgroup.long 0xABC++0x03
hide.long 0x00 "GICD_ITARGETSR175,Interrupt Processor Targets Register 175"
hgroup.long 0xAC0++0x03
hide.long 0x00 "GICD_ITARGETSR176,Interrupt Processor Targets Register 176"
hgroup.long 0xAC4++0x03
hide.long 0x00 "GICD_ITARGETSR177,Interrupt Processor Targets Register 177"
hgroup.long 0xAC8++0x03
hide.long 0x00 "GICD_ITARGETSR178,Interrupt Processor Targets Register 178"
hgroup.long 0xACC++0x03
hide.long 0x00 "GICD_ITARGETSR179,Interrupt Processor Targets Register 179"
hgroup.long 0xAD0++0x03
hide.long 0x00 "GICD_ITARGETSR180,Interrupt Processor Targets Register 180"
hgroup.long 0xAD4++0x03
hide.long 0x00 "GICD_ITARGETSR181,Interrupt Processor Targets Register 181"
hgroup.long 0xAD8++0x03
hide.long 0x00 "GICD_ITARGETSR182,Interrupt Processor Targets Register 182"
hgroup.long 0xADC++0x03
hide.long 0x00 "GICD_ITARGETSR183,Interrupt Processor Targets Register 183"
hgroup.long 0xAE0++0x03
hide.long 0x00 "GICD_ITARGETSR184,Interrupt Processor Targets Register 184"
hgroup.long 0xAE4++0x03
hide.long 0x00 "GICD_ITARGETSR185,Interrupt Processor Targets Register 185"
hgroup.long 0xAE8++0x03
hide.long 0x00 "GICD_ITARGETSR186,Interrupt Processor Targets Register 186"
hgroup.long 0xAEC++0x03
hide.long 0x00 "GICD_ITARGETSR187,Interrupt Processor Targets Register 187"
hgroup.long 0xAF0++0x03
hide.long 0x00 "GICD_ITARGETSR188,Interrupt Processor Targets Register 188"
hgroup.long 0xAF4++0x03
hide.long 0x00 "GICD_ITARGETSR189,Interrupt Processor Targets Register 189"
hgroup.long 0xAF8++0x03
hide.long 0x00 "GICD_ITARGETSR190,Interrupt Processor Targets Register 190"
hgroup.long 0xAFC++0x03
hide.long 0x00 "GICD_ITARGETSR191,Interrupt Processor Targets Register 191"
hgroup.long 0xB00++0x03
hide.long 0x00 "GICD_ITARGETSR192,Interrupt Processor Targets Register 192"
hgroup.long 0xB04++0x03
hide.long 0x00 "GICD_ITARGETSR193,Interrupt Processor Targets Register 193"
hgroup.long 0xB08++0x03
hide.long 0x00 "GICD_ITARGETSR194,Interrupt Processor Targets Register 194"
hgroup.long 0xB0C++0x03
hide.long 0x00 "GICD_ITARGETSR195,Interrupt Processor Targets Register 195"
hgroup.long 0xB10++0x03
hide.long 0x00 "GICD_ITARGETSR196,Interrupt Processor Targets Register 196"
hgroup.long 0xB14++0x03
hide.long 0x00 "GICD_ITARGETSR197,Interrupt Processor Targets Register 197"
hgroup.long 0xB18++0x03
hide.long 0x00 "GICD_ITARGETSR198,Interrupt Processor Targets Register 198"
hgroup.long 0xB1C++0x03
hide.long 0x00 "GICD_ITARGETSR199,Interrupt Processor Targets Register 199"
hgroup.long 0xB20++0x03
hide.long 0x00 "GICD_ITARGETSR200,Interrupt Processor Targets Register 200"
hgroup.long 0xB24++0x03
hide.long 0x00 "GICD_ITARGETSR201,Interrupt Processor Targets Register 201"
hgroup.long 0xB28++0x03
hide.long 0x00 "GICD_ITARGETSR202,Interrupt Processor Targets Register 202"
hgroup.long 0xB2C++0x03
hide.long 0x00 "GICD_ITARGETSR203,Interrupt Processor Targets Register 203"
hgroup.long 0xB30++0x03
hide.long 0x00 "GICD_ITARGETSR204,Interrupt Processor Targets Register 204"
hgroup.long 0xB34++0x03
hide.long 0x00 "GICD_ITARGETSR205,Interrupt Processor Targets Register 205"
hgroup.long 0xB38++0x03
hide.long 0x00 "GICD_ITARGETSR206,Interrupt Processor Targets Register 206"
hgroup.long 0xB3C++0x03
hide.long 0x00 "GICD_ITARGETSR207,Interrupt Processor Targets Register 207"
hgroup.long 0xB40++0x03
hide.long 0x00 "GICD_ITARGETSR208,Interrupt Processor Targets Register 208"
hgroup.long 0xB44++0x03
hide.long 0x00 "GICD_ITARGETSR209,Interrupt Processor Targets Register 209"
hgroup.long 0xB48++0x03
hide.long 0x00 "GICD_ITARGETSR210,Interrupt Processor Targets Register 210"
hgroup.long 0xB4C++0x03
hide.long 0x00 "GICD_ITARGETSR211,Interrupt Processor Targets Register 211"
hgroup.long 0xB50++0x03
hide.long 0x00 "GICD_ITARGETSR212,Interrupt Processor Targets Register 212"
hgroup.long 0xB54++0x03
hide.long 0x00 "GICD_ITARGETSR213,Interrupt Processor Targets Register 213"
hgroup.long 0xB58++0x03
hide.long 0x00 "GICD_ITARGETSR214,Interrupt Processor Targets Register 214"
hgroup.long 0xB5C++0x03
hide.long 0x00 "GICD_ITARGETSR215,Interrupt Processor Targets Register 215"
hgroup.long 0xB60++0x03
hide.long 0x00 "GICD_ITARGETSR216,Interrupt Processor Targets Register 216"
hgroup.long 0xB64++0x03
hide.long 0x00 "GICD_ITARGETSR217,Interrupt Processor Targets Register 217"
hgroup.long 0xB68++0x03
hide.long 0x00 "GICD_ITARGETSR218,Interrupt Processor Targets Register 218"
hgroup.long 0xB6C++0x03
hide.long 0x00 "GICD_ITARGETSR219,Interrupt Processor Targets Register 219"
hgroup.long 0xB70++0x03
hide.long 0x00 "GICD_ITARGETSR220,Interrupt Processor Targets Register 220"
hgroup.long 0xB74++0x03
hide.long 0x00 "GICD_ITARGETSR221,Interrupt Processor Targets Register 221"
hgroup.long 0xB78++0x03
hide.long 0x00 "GICD_ITARGETSR222,Interrupt Processor Targets Register 222"
hgroup.long 0xB7C++0x03
hide.long 0x00 "GICD_ITARGETSR223,Interrupt Processor Targets Register 223"
hgroup.long 0xB80++0x03
hide.long 0x00 "GICD_ITARGETSR224,Interrupt Processor Targets Register 224"
hgroup.long 0xB84++0x03
hide.long 0x00 "GICD_ITARGETSR225,Interrupt Processor Targets Register 225"
hgroup.long 0xB88++0x03
hide.long 0x00 "GICD_ITARGETSR226,Interrupt Processor Targets Register 226"
hgroup.long 0xB8C++0x03
hide.long 0x00 "GICD_ITARGETSR227,Interrupt Processor Targets Register 227"
hgroup.long 0xB90++0x03
hide.long 0x00 "GICD_ITARGETSR228,Interrupt Processor Targets Register 228"
hgroup.long 0xB94++0x03
hide.long 0x00 "GICD_ITARGETSR229,Interrupt Processor Targets Register 229"
hgroup.long 0xB98++0x03
hide.long 0x00 "GICD_ITARGETSR230,Interrupt Processor Targets Register 230"
hgroup.long 0xB9C++0x03
hide.long 0x00 "GICD_ITARGETSR231,Interrupt Processor Targets Register 231"
hgroup.long 0xBA0++0x03
hide.long 0x00 "GICD_ITARGETSR232,Interrupt Processor Targets Register 232"
hgroup.long 0xBA4++0x03
hide.long 0x00 "GICD_ITARGETSR233,Interrupt Processor Targets Register 233"
hgroup.long 0xBA8++0x03
hide.long 0x00 "GICD_ITARGETSR234,Interrupt Processor Targets Register 234"
hgroup.long 0xBAC++0x03
hide.long 0x00 "GICD_ITARGETSR235,Interrupt Processor Targets Register 235"
hgroup.long 0xBB0++0x03
hide.long 0x00 "GICD_ITARGETSR236,Interrupt Processor Targets Register 236"
hgroup.long 0xBB4++0x03
hide.long 0x00 "GICD_ITARGETSR237,Interrupt Processor Targets Register 237"
hgroup.long 0xBB8++0x03
hide.long 0x00 "GICD_ITARGETSR238,Interrupt Processor Targets Register 238"
hgroup.long 0xBBC++0x03
hide.long 0x00 "GICD_ITARGETSR239,Interrupt Processor Targets Register 239"
hgroup.long 0xBC0++0x03
hide.long 0x00 "GICD_ITARGETSR240,Interrupt Processor Targets Register 240"
hgroup.long 0xBC4++0x03
hide.long 0x00 "GICD_ITARGETSR241,Interrupt Processor Targets Register 241"
hgroup.long 0xBC8++0x03
hide.long 0x00 "GICD_ITARGETSR242,Interrupt Processor Targets Register 242"
hgroup.long 0xBCC++0x03
hide.long 0x00 "GICD_ITARGETSR243,Interrupt Processor Targets Register 243"
hgroup.long 0xBD0++0x03
hide.long 0x00 "GICD_ITARGETSR244,Interrupt Processor Targets Register 244"
hgroup.long 0xBD4++0x03
hide.long 0x00 "GICD_ITARGETSR245,Interrupt Processor Targets Register 245"
hgroup.long 0xBD8++0x03
hide.long 0x00 "GICD_ITARGETSR246,Interrupt Processor Targets Register 246"
hgroup.long 0xBDC++0x03
hide.long 0x00 "GICD_ITARGETSR247,Interrupt Processor Targets Register 247"
hgroup.long 0xBE0++0x03
hide.long 0x00 "GICD_ITARGETSR248,Interrupt Processor Targets Register 248"
hgroup.long 0xBE4++0x03
hide.long 0x00 "GICD_ITARGETSR249,Interrupt Processor Targets Register 249"
hgroup.long 0xBE8++0x03
hide.long 0x00 "GICD_ITARGETSR250,Interrupt Processor Targets Register 250"
hgroup.long 0xBEC++0x03
hide.long 0x00 "GICD_ITARGETSR251,Interrupt Processor Targets Register 251"
hgroup.long 0xBF0++0x03
hide.long 0x00 "GICD_ITARGETSR252,Interrupt Processor Targets Register 252"
hgroup.long 0xBF4++0x03
hide.long 0x00 "GICD_ITARGETSR253,Interrupt Processor Targets Register 253"
hgroup.long 0xBF8++0x03
hide.long 0x00 "GICD_ITARGETSR254,Interrupt Processor Targets Register 254"
endif
tree.end
width 14.
tree "Configuration Registers"
hgroup.long 0xC00++0x03
hide.long 0x00 "GICD_ICFGR0,Interrupt Configuration Register"
textline "                       "
rgroup.long 0xC04++0x03
line.long 0x00 "GICD_ICFGR1,Interrupt Configuration Register"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1)
group.long 0xC08++0x03
line.long 0x00 "GICD_ICFGR2,Interrupt Configuration Register 2"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
group.long 0xC0C++0x03
line.long 0x00 "GICD_ICFGR3,Interrupt Configuration Register 3"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
else
hgroup.long 0xC08++0x03
hide.long 0x00 "GICD_ICFGR2,Interrupt Configuration Register 2"
hgroup.long 0xC0C++0x03
hide.long 0x00 "GICD_ICFGR3,Interrupt Configuration Register 3"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x2)
group.long 0xC10++0x03
line.long 0x00 "GICD_ICFGR4,Interrupt Configuration Register 4"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
group.long 0xC14++0x03
line.long 0x00 "GICD_ICFGR5,Interrupt Configuration Register 5"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
else
hgroup.long 0xC10++0x03
hide.long 0x00 "GICD_ICFGR4,Interrupt Configuration Register 4"
hgroup.long 0xC14++0x03
hide.long 0x00 "GICD_ICFGR5,Interrupt Configuration Register 5"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x3)
group.long 0xC18++0x03
line.long 0x00 "GICD_ICFGR6,Interrupt Configuration Register 6"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
group.long 0xC1C++0x03
line.long 0x00 "GICD_ICFGR7,Interrupt Configuration Register 7"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
else
hgroup.long 0xC18++0x03
hide.long 0x00 "GICD_ICFGR6,Interrupt Configuration Register 6"
hgroup.long 0xC1C++0x03
hide.long 0x00 "GICD_ICFGR7,Interrupt Configuration Register 7"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x4)
group.long 0xC20++0x03
line.long 0x00 "GICD_ICFGR8,Interrupt Configuration Register 8"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
group.long 0xC24++0x03
line.long 0x00 "GICD_ICFGR9,Interrupt Configuration Register 9"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
else
hgroup.long 0xC20++0x03
hide.long 0x00 "GICD_ICFGR8,Interrupt Configuration Register 8"
hgroup.long 0xC24++0x03
hide.long 0x00 "GICD_ICFGR9,Interrupt Configuration Register 9"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x5)
group.long 0xC28++0x03
line.long 0x00 "GICD_ICFGR10,Interrupt Configuration Register 10"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
group.long 0xC2C++0x03
line.long 0x00 "GICD_ICFGR11,Interrupt Configuration Register 11"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
else
hgroup.long 0xC28++0x03
hide.long 0x00 "GICD_ICFGR10,Interrupt Configuration Register 10"
hgroup.long 0xC2C++0x03
hide.long 0x00 "GICD_ICFGR11,Interrupt Configuration Register 11"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x6)
group.long 0xC30++0x03
line.long 0x00 "GICD_ICFGR12,Interrupt Configuration Register 12"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
group.long 0xC34++0x03
line.long 0x00 "GICD_ICFGR13,Interrupt Configuration Register 13"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
else
hgroup.long 0xC30++0x03
hide.long 0x00 "GICD_ICFGR12,Interrupt Configuration Register 12"
hgroup.long 0xC34++0x03
hide.long 0x00 "GICD_ICFGR13,Interrupt Configuration Register 13"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x7)
group.long 0xC38++0x03
line.long 0x00 "GICD_ICFGR14,Interrupt Configuration Register 14"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
group.long 0xC3C++0x03
line.long 0x00 "GICD_ICFGR15,Interrupt Configuration Register 15"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
else
hgroup.long 0xC38++0x03
hide.long 0x00 "GICD_ICFGR14,Interrupt Configuration Register 14"
hgroup.long 0xC3C++0x03
hide.long 0x00 "GICD_ICFGR15,Interrupt Configuration Register 15"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x8)
group.long 0xC40++0x03
line.long 0x00 "GICD_ICFGR16,Interrupt Configuration Register 16"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
group.long 0xC44++0x03
line.long 0x00 "GICD_ICFGR17,Interrupt Configuration Register 17"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
else
hgroup.long 0xC40++0x03
hide.long 0x00 "GICD_ICFGR16,Interrupt Configuration Register 16"
hgroup.long 0xC44++0x03
hide.long 0x00 "GICD_ICFGR17,Interrupt Configuration Register 17"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x9)
group.long 0xC48++0x03
line.long 0x00 "GICD_ICFGR18,Interrupt Configuration Register 18"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
group.long 0xC4C++0x03
line.long 0x00 "GICD_ICFGR19,Interrupt Configuration Register 19"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
else
hgroup.long 0xC48++0x03
hide.long 0x00 "GICD_ICFGR18,Interrupt Configuration Register 18"
hgroup.long 0xC4C++0x03
hide.long 0x00 "GICD_ICFGR19,Interrupt Configuration Register 19"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0xA)
group.long 0xC50++0x03
line.long 0x00 "GICD_ICFGR20,Interrupt Configuration Register 20"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
group.long 0xC54++0x03
line.long 0x00 "GICD_ICFGR21,Interrupt Configuration Register 21"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
else
hgroup.long 0xC50++0x03
hide.long 0x00 "GICD_ICFGR20,Interrupt Configuration Register 20"
hgroup.long 0xC54++0x03
hide.long 0x00 "GICD_ICFGR21,Interrupt Configuration Register 21"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0xB)
group.long 0xC58++0x03
line.long 0x00 "GICD_ICFGR22,Interrupt Configuration Register 22"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
group.long 0xC5C++0x03
line.long 0x00 "GICD_ICFGR23,Interrupt Configuration Register 23"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
else
hgroup.long 0xC58++0x03
hide.long 0x00 "GICD_ICFGR22,Interrupt Configuration Register 22"
hgroup.long 0xC5C++0x03
hide.long 0x00 "GICD_ICFGR23,Interrupt Configuration Register 23"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0xC)
group.long 0xC60++0x03
line.long 0x00 "GICD_ICFGR24,Interrupt Configuration Register 24"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
group.long 0xC64++0x03
line.long 0x00 "GICD_ICFGR25,Interrupt Configuration Register 25"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
else
hgroup.long 0xC60++0x03
hide.long 0x00 "GICD_ICFGR24,Interrupt Configuration Register 24"
hgroup.long 0xC64++0x03
hide.long 0x00 "GICD_ICFGR25,Interrupt Configuration Register 25"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0xD)
group.long 0xC68++0x03
line.long 0x00 "GICD_ICFGR26,Interrupt Configuration Register 26"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
group.long 0xC6C++0x03
line.long 0x00 "GICD_ICFGR27,Interrupt Configuration Register 27"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
else
hgroup.long 0xC68++0x03
hide.long 0x00 "GICD_ICFGR26,Interrupt Configuration Register 26"
hgroup.long 0xC6C++0x03
hide.long 0x00 "GICD_ICFGR27,Interrupt Configuration Register 27"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0xE)
group.long 0xC70++0x03
line.long 0x00 "GICD_ICFGR28,Interrupt Configuration Register 28"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
group.long 0xC74++0x03
line.long 0x00 "GICD_ICFGR29,Interrupt Configuration Register 29"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
else
hgroup.long 0xC70++0x03
hide.long 0x00 "GICD_ICFGR28,Interrupt Configuration Register 28"
hgroup.long 0xC74++0x03
hide.long 0x00 "GICD_ICFGR29,Interrupt Configuration Register 29"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0xF)
group.long 0xC78++0x03
line.long 0x00 "GICD_ICFGR30,Interrupt Configuration Register 30"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
group.long 0xC7C++0x03
line.long 0x00 "GICD_ICFGR31,Interrupt Configuration Register 31"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
else
hgroup.long 0xC78++0x03
hide.long 0x00 "GICD_ICFGR30,Interrupt Configuration Register 30"
hgroup.long 0xC7C++0x03
hide.long 0x00 "GICD_ICFGR31,Interrupt Configuration Register 31"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x10)
group.long 0xC80++0x03
line.long 0x00 "GICD_ICFGR32,Interrupt Configuration Register 32"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
group.long 0xC84++0x03
line.long 0x00 "GICD_ICFGR33,Interrupt Configuration Register 33"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
else
hgroup.long 0xC80++0x03
hide.long 0x00 "GICD_ICFGR32,Interrupt Configuration Register 32"
hgroup.long 0xC84++0x03
hide.long 0x00 "GICD_ICFGR33,Interrupt Configuration Register 33"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x11)
group.long 0xC88++0x03
line.long 0x00 "GICD_ICFGR34,Interrupt Configuration Register 34"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
group.long 0xC8C++0x03
line.long 0x00 "GICD_ICFGR35,Interrupt Configuration Register 35"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
else
hgroup.long 0xC88++0x03
hide.long 0x00 "GICD_ICFGR34,Interrupt Configuration Register 34"
hgroup.long 0xC8C++0x03
hide.long 0x00 "GICD_ICFGR35,Interrupt Configuration Register 35"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x12)
group.long 0xC90++0x03
line.long 0x00 "GICD_ICFGR36,Interrupt Configuration Register 36"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
group.long 0xC94++0x03
line.long 0x00 "GICD_ICFGR37,Interrupt Configuration Register 37"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
else
hgroup.long 0xC90++0x03
hide.long 0x00 "GICD_ICFGR36,Interrupt Configuration Register 36"
hgroup.long 0xC94++0x03
hide.long 0x00 "GICD_ICFGR37,Interrupt Configuration Register 37"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x13)
group.long 0xC98++0x03
line.long 0x00 "GICD_ICFGR38,Interrupt Configuration Register 38"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
group.long 0xC9C++0x03
line.long 0x00 "GICD_ICFGR39,Interrupt Configuration Register 39"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
else
hgroup.long 0xC98++0x03
hide.long 0x00 "GICD_ICFGR38,Interrupt Configuration Register 38"
hgroup.long 0xC9C++0x03
hide.long 0x00 "GICD_ICFGR39,Interrupt Configuration Register 39"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x14)
group.long 0xCA0++0x03
line.long 0x00 "GICD_ICFGR40,Interrupt Configuration Register 40"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
group.long 0xCA4++0x03
line.long 0x00 "GICD_ICFGR41,Interrupt Configuration Register 41"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
else
hgroup.long 0xCA0++0x03
hide.long 0x00 "GICD_ICFGR40,Interrupt Configuration Register 40"
hgroup.long 0xCA4++0x03
hide.long 0x00 "GICD_ICFGR41,Interrupt Configuration Register 41"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x15)
group.long 0xCA8++0x03
line.long 0x00 "GICD_ICFGR42,Interrupt Configuration Register 42"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
group.long 0xCAC++0x03
line.long 0x00 "GICD_ICFGR43,Interrupt Configuration Register 43"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
else
hgroup.long 0xCA8++0x03
hide.long 0x00 "GICD_ICFGR42,Interrupt Configuration Register 42"
hgroup.long 0xCAC++0x03
hide.long 0x00 "GICD_ICFGR43,Interrupt Configuration Register 43"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x16)
group.long 0xCB0++0x03
line.long 0x00 "GICD_ICFGR44,Interrupt Configuration Register 44"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
group.long 0xCB4++0x03
line.long 0x00 "GICD_ICFGR45,Interrupt Configuration Register 45"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
else
hgroup.long 0xCB0++0x03
hide.long 0x00 "GICD_ICFGR44,Interrupt Configuration Register 44"
hgroup.long 0xCB4++0x03
hide.long 0x00 "GICD_ICFGR45,Interrupt Configuration Register 45"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x17)
group.long 0xCB8++0x03
line.long 0x00 "GICD_ICFGR46,Interrupt Configuration Register 46"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
group.long 0xCBC++0x03
line.long 0x00 "GICD_ICFGR47,Interrupt Configuration Register 47"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
else
hgroup.long 0xCB8++0x03
hide.long 0x00 "GICD_ICFGR46,Interrupt Configuration Register 46"
hgroup.long 0xCBC++0x03
hide.long 0x00 "GICD_ICFGR47,Interrupt Configuration Register 47"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x18)
group.long 0xCC0++0x03
line.long 0x00 "GICD_ICFGR48,Interrupt Configuration Register 48"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
group.long 0xCC4++0x03
line.long 0x00 "GICD_ICFGR49,Interrupt Configuration Register 49"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
else
hgroup.long 0xCC0++0x03
hide.long 0x00 "GICD_ICFGR48,Interrupt Configuration Register 48"
hgroup.long 0xCC4++0x03
hide.long 0x00 "GICD_ICFGR49,Interrupt Configuration Register 49"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x19)
group.long 0xCC8++0x03
line.long 0x00 "GICD_ICFGR50,Interrupt Configuration Register 50"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
group.long 0xCCC++0x03
line.long 0x00 "GICD_ICFGR51,Interrupt Configuration Register 51"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
else
hgroup.long 0xCC8++0x03
hide.long 0x00 "GICD_ICFGR50,Interrupt Configuration Register 50"
hgroup.long 0xCCC++0x03
hide.long 0x00 "GICD_ICFGR51,Interrupt Configuration Register 51"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1A)
group.long 0xCD0++0x03
line.long 0x00 "GICD_ICFGR52,Interrupt Configuration Register 52"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
group.long 0xCD4++0x03
line.long 0x00 "GICD_ICFGR53,Interrupt Configuration Register 53"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
else
hgroup.long 0xCD0++0x03
hide.long 0x00 "GICD_ICFGR52,Interrupt Configuration Register 52"
hgroup.long 0xCD4++0x03
hide.long 0x00 "GICD_ICFGR53,Interrupt Configuration Register 53"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1B)
group.long 0xCD8++0x03
line.long 0x00 "GICD_ICFGR54,Interrupt Configuration Register 54"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
group.long 0xCDC++0x03
line.long 0x00 "GICD_ICFGR55,Interrupt Configuration Register 55"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
else
hgroup.long 0xCD8++0x03
hide.long 0x00 "GICD_ICFGR54,Interrupt Configuration Register 54"
hgroup.long 0xCDC++0x03
hide.long 0x00 "GICD_ICFGR55,Interrupt Configuration Register 55"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1C)
group.long 0xCE0++0x03
line.long 0x00 "GICD_ICFGR56,Interrupt Configuration Register 56"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
group.long 0xCE4++0x03
line.long 0x00 "GICD_ICFGR57,Interrupt Configuration Register 57"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
else
hgroup.long 0xCE0++0x03
hide.long 0x00 "GICD_ICFGR56,Interrupt Configuration Register 56"
hgroup.long 0xCE4++0x03
hide.long 0x00 "GICD_ICFGR57,Interrupt Configuration Register 57"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1D)
group.long 0xCE8++0x03
line.long 0x00 "GICD_ICFGR58,Interrupt Configuration Register 58"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
group.long 0xCEC++0x03
line.long 0x00 "GICD_ICFGR59,Interrupt Configuration Register 59"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
else
hgroup.long 0xCE8++0x03
hide.long 0x00 "GICD_ICFGR58,Interrupt Configuration Register 58"
hgroup.long 0xCEC++0x03
hide.long 0x00 "GICD_ICFGR59,Interrupt Configuration Register 59"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1E)
group.long 0xCF0++0x03
line.long 0x00 "GICD_ICFGR60,Interrupt Configuration Register 60"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
group.long 0xCF4++0x03
line.long 0x00 "GICD_ICFGR61,Interrupt Configuration Register 61"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
else
hgroup.long 0xCF0++0x03
hide.long 0x00 "GICD_ICFGR60,Interrupt Configuration Register 60"
hgroup.long 0xCF4++0x03
hide.long 0x00 "GICD_ICFGR61,Interrupt Configuration Register 61"
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1F)
group.long 0xCF8++0x03
line.long 0x00 "GICD_ICFGR62,Interrupt Configuration Register 62"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
group.long 0xCFC++0x03
line.long 0x00 "GICD_ICFGR63,Interrupt Configuration Register 63"
bitfld.long 0x00 31. " ICF15 ,Interrupt Configuration 15" "Level,Edge"
bitfld.long 0x00 29. "  ICF14 ,Interrupt Configuration 14" "Level,Edge"
bitfld.long 0x00 27. "  ICF13 ,Interrupt Configuration 13" "Level,Edge"
textline "                       "
bitfld.long 0x00 25. " ICF12 ,Interrupt Configuration 12" "Level,Edge"
bitfld.long 0x00 23. "  ICF11 ,Interrupt Configuration 11" "Level,Edge"
bitfld.long 0x00 21. "  ICF10 ,Interrupt Configuration 10" "Level,Edge"
textline "                       "
bitfld.long 0x00 19. " ICF9  ,Interrupt Configuration 9" "Level,Edge"
bitfld.long 0x00 17. "  ICF8  ,Interrupt Configuration 8" "Level,Edge"
bitfld.long 0x00 15. "  ICF7  ,Interrupt Configuration 7" "Level,Edge"
textline "                       "
bitfld.long 0x00 13. " ICF6  ,Interrupt Configuration 6" "Level,Edge"
bitfld.long 0x00 11. "  ICF5  ,Interrupt Configuration 5" "Level,Edge"
bitfld.long 0x00 9. "  ICF4  ,Interrupt Configuration 4" "Level,Edge"
textline "                       "
bitfld.long 0x00 7. " ICF3  ,Interrupt Configuration 3" "Level,Edge"
bitfld.long 0x00 5. "  ICF2  ,Interrupt Configuration 2" "Level,Edge"
bitfld.long 0x00 3. "  ICF1  ,Interrupt Configuration 1" "Level,Edge"
textline "                       "
bitfld.long 0x00 1. " ICF0  ,Interrupt Configuration 0" "Level,Edge"
else
hgroup.long 0xCF8++0x03
hide.long 0x00 "GICD_ICFGR62,Interrupt Configuration Register 62"
hgroup.long 0xCFC++0x03
hide.long 0x00 "GICD_ICFGR63,Interrupt Configuration Register 63"
endif
tree.end
width 12.
tree "Peripheral Interrupt Status Registers"
rgroup.long 0x0D00++0x03
line.long 0x00 "GICD_PPISR,Private Peripheral Interrupt Status Register"
bitfld.long 0x00 15. " PPI_C[15] ,Returns the status of the ppi_c[15] inputs on the Distributor" "Low,High"
bitfld.long 0x00 14. "  PPI_C[14] ,Returns the status of the ppi_c[14] inputs on the Distributor" "Low,High"
bitfld.long 0x00 13. "  PPI_C[13] ,Returns the status of the ppi_c[13] inputs on the Distributor" "Low,High"
bitfld.long 0x00 12. "  PPI_C[12] ,Returns the status of the ppi_c[12] inputs on the Distributor" "Low,High"
textline "                     "
bitfld.long 0x00 11. " PPI_C[11] ,Returns the status of the ppi_c[11] inputs on the Distributor" "Low,High"
bitfld.long 0x00 10. "  PPI_C[10] ,Returns the status of the ppi_c[10] inputs on the Distributor" "Low,High"
bitfld.long 0x00 9. "  PPI_C[9]  ,Returns the status of the ppi_c[9] inputs on the Distributor" "Low,High"
bitfld.long 0x00 8. "  PPI_C[8]  ,Returns the status of the ppi_c[8] inputs on the Distributor" "Low,High"
textline "                     "
bitfld.long 0x00 7. " PPI_C[7]  ,Returns the status of the ppi_c[7] inputs on the Distributor" "Low,High"
bitfld.long 0x00 6. "  PPI_C[6]  ,Returns the status of the ppi_c[6] inputs on the Distributor" "Low,High"
bitfld.long 0x00 5. "  PPI_C[5]  ,Returns the status of the ppi_c[5] inputs on the Distributor" "Low,High"
bitfld.long 0x00 4. "  PPI_C[4]  ,Returns the status of the ppi_c[4] inputs on the Distributor" "Low,High"
textline "                     "
bitfld.long 0x00 3. " PPI_C[3]  ,Returns the status of the ppi_c[3] inputs on the Distributor" "Low,High"
bitfld.long 0x00 2. "  PPI_C[2]  ,Returns the status of the ppi_c[2] inputs on the Distributor" "Low,High"
bitfld.long 0x00 1. "  PPI_C[1]  ,Returns the status of the ppi_c[1] inputs on the Distributor" "Low,High"
bitfld.long 0x00 0. "  PPI_C[0]  ,Returns the status of the ppi_c[0] inputs on the Distributor" "Low,High"
textline "                               "
width 22.
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x01)
rgroup.long 0x0D04++0x03
line.long 0x0 "GICD_SPISR0,Shared Peripheral Interrupt Status Register 0"
bitfld.long 0x00 31. " IRQS31  ,IRQS Status Bit 31" "Low,High"
bitfld.long 0x00 30. "  IRQS30  ,IRQS Status Bit 30" "Low,High"
bitfld.long 0x00 29. "  IRQS29  ,IRQS Status Bit 29" "Low,High"
textline "                               "
bitfld.long 0x00 28. " IRQS28  ,IRQS Status Bit 28" "Low,High"
bitfld.long 0x00 27. "  IRQS27  ,IRQS Status Bit 27" "Low,High"
bitfld.long 0x00 26. "  IRQS26  ,IRQS Status Bit 26" "Low,High"
textline "                               "
bitfld.long 0x00 25. " IRQS25  ,IRQS Status Bit 25" "Low,High"
bitfld.long 0x00 24. "  IRQS24  ,IRQS Status Bit 24" "Low,High"
bitfld.long 0x00 23. "  IRQS23  ,IRQS Status Bit 23" "Low,High"
textline "                               "
bitfld.long 0x00 22. " IRQS22  ,IRQS Status Bit 22" "Low,High"
bitfld.long 0x00 21. "  IRQS21  ,IRQS Status Bit 21" "Low,High"
bitfld.long 0x00 20. "  IRQS20  ,IRQS Status Bit 20" "Low,High"
textline "                               "
bitfld.long 0x00 19. " IRQS19  ,IRQS Status Bit 19" "Low,High"
bitfld.long 0x00 18. "  IRQS18  ,IRQS Status Bit 18" "Low,High"
bitfld.long 0x00 17. "  IRQS17  ,IRQS Status Bit 17" "Low,High"
textline "                               "
bitfld.long 0x00 16. " IRQS16  ,IRQS Status Bit 16" "Low,High"
bitfld.long 0x00 15. "  IRQS15  ,IRQS Status Bit 15" "Low,High"
bitfld.long 0x00 14. "  IRQS14  ,IRQS Status Bit 14" "Low,High"
textline "                               "
bitfld.long 0x00 13. " IRQS13  ,IRQS Status Bit 13" "Low,High"
bitfld.long 0x00 12. "  IRQS12  ,IRQS Status Bit 12" "Low,High"
bitfld.long 0x00 11. "  IRQS11  ,IRQS Status Bit 11" "Low,High"
textline "                               "
bitfld.long 0x00 10. " IRQS10  ,IRQS Status Bit 10" "Low,High"
bitfld.long 0x00 9. "  IRQS9   ,IRQS Status Bit 9" "Low,High"
bitfld.long 0x00 8. "  IRQS8   ,IRQS Status Bit 8" "Low,High"
textline "                               "
bitfld.long 0x00 7. " IRQS7   ,IRQS Status Bit 7" "Low,High"
bitfld.long 0x00 6. "  IRQS6   ,IRQS Status Bit 6" "Low,High"
bitfld.long 0x00 5. "  IRQS5   ,IRQS Status Bit 5" "Low,High"
textline "                               "
bitfld.long 0x00 4. " IRQS4   ,IRQS Status Bit 4" "Low,High"
bitfld.long 0x00 3. "  IRQS3   ,IRQS Status Bit 3" "Low,High"
bitfld.long 0x00 2. "  IRQS2   ,IRQS Status Bit 2" "Low,High"
textline "                               "
bitfld.long 0x00 1. " IRQS1   ,IRQS Status Bit 1" "Low,High"
bitfld.long 0x00 0. "  IRQS0   ,IRQS Status Bit 0" "Low,High"
else
hgroup.long 0x0D04++0x03
hide.long 0x0 "GICD_SPISR0,Shared Peripheral Interrupt Status Register 1"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x02)
rgroup.long 0x0D08++0x03
line.long 0x0 "GICD_SPISR1,Shared Peripheral Interrupt Status Register 1"
bitfld.long 0x00 31. " IRQS63  ,IRQS Status Bit 63" "Low,High"
bitfld.long 0x00 30. "  IRQS62  ,IRQS Status Bit 62" "Low,High"
bitfld.long 0x00 29. "  IRQS61  ,IRQS Status Bit 61" "Low,High"
textline "                               "
bitfld.long 0x00 28. " IRQS60  ,IRQS Status Bit 60" "Low,High"
bitfld.long 0x00 27. "  IRQS59  ,IRQS Status Bit 59" "Low,High"
bitfld.long 0x00 26. "  IRQS58  ,IRQS Status Bit 58" "Low,High"
textline "                               "
bitfld.long 0x00 25. " IRQS57  ,IRQS Status Bit 57" "Low,High"
bitfld.long 0x00 24. "  IRQS56  ,IRQS Status Bit 56" "Low,High"
bitfld.long 0x00 23. "  IRQS55  ,IRQS Status Bit 55" "Low,High"
textline "                               "
bitfld.long 0x00 22. " IRQS54  ,IRQS Status Bit 54" "Low,High"
bitfld.long 0x00 21. "  IRQS53  ,IRQS Status Bit 53" "Low,High"
bitfld.long 0x00 20. "  IRQS52  ,IRQS Status Bit 52" "Low,High"
textline "                               "
bitfld.long 0x00 19. " IRQS51  ,IRQS Status Bit 51" "Low,High"
bitfld.long 0x00 18. "  IRQS50  ,IRQS Status Bit 50" "Low,High"
bitfld.long 0x00 17. "  IRQS49  ,IRQS Status Bit 49" "Low,High"
textline "                               "
bitfld.long 0x00 16. " IRQS48  ,IRQS Status Bit 48" "Low,High"
bitfld.long 0x00 15. "  IRQS47  ,IRQS Status Bit 47" "Low,High"
bitfld.long 0x00 14. "  IRQS46  ,IRQS Status Bit 46" "Low,High"
textline "                               "
bitfld.long 0x00 13. " IRQS45  ,IRQS Status Bit 45" "Low,High"
bitfld.long 0x00 12. "  IRQS44  ,IRQS Status Bit 44" "Low,High"
bitfld.long 0x00 11. "  IRQS43  ,IRQS Status Bit 43" "Low,High"
textline "                               "
bitfld.long 0x00 10. " IRQS42  ,IRQS Status Bit 42" "Low,High"
bitfld.long 0x00 9. "  IRQS41  ,IRQS Status Bit 41" "Low,High"
bitfld.long 0x00 8. "  IRQS40  ,IRQS Status Bit 40" "Low,High"
textline "                               "
bitfld.long 0x00 7. " IRQS39  ,IRQS Status Bit 39" "Low,High"
bitfld.long 0x00 6. "  IRQS38  ,IRQS Status Bit 38" "Low,High"
bitfld.long 0x00 5. "  IRQS37  ,IRQS Status Bit 37" "Low,High"
textline "                               "
bitfld.long 0x00 4. " IRQS36  ,IRQS Status Bit 36" "Low,High"
bitfld.long 0x00 3. "  IRQS35  ,IRQS Status Bit 35" "Low,High"
bitfld.long 0x00 2. "  IRQS34  ,IRQS Status Bit 34" "Low,High"
textline "                               "
bitfld.long 0x00 1. " IRQS33  ,IRQS Status Bit 33" "Low,High"
bitfld.long 0x00 0. "  IRQS32  ,IRQS Status Bit 32" "Low,High"
else
hgroup.long 0x0D08++0x03
hide.long 0x0 "GICD_SPISR1,Shared Peripheral Interrupt Status Register 1"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x03)
rgroup.long 0x0D0C++0x03
line.long 0x0 "GICD_SPISR2,Shared Peripheral Interrupt Status Register 2"
bitfld.long 0x00 31. " IRQS95  ,IRQS Status Bit 95" "Low,High"
bitfld.long 0x00 30. "  IRQS94  ,IRQS Status Bit 94" "Low,High"
bitfld.long 0x00 29. "  IRQS93  ,IRQS Status Bit 93" "Low,High"
textline "                               "
bitfld.long 0x00 28. " IRQS92  ,IRQS Status Bit 92" "Low,High"
bitfld.long 0x00 27. "  IRQS91  ,IRQS Status Bit 91" "Low,High"
bitfld.long 0x00 26. "  IRQS90  ,IRQS Status Bit 90" "Low,High"
textline "                               "
bitfld.long 0x00 25. " IRQS89  ,IRQS Status Bit 89" "Low,High"
bitfld.long 0x00 24. "  IRQS88  ,IRQS Status Bit 88" "Low,High"
bitfld.long 0x00 23. "  IRQS87  ,IRQS Status Bit 87" "Low,High"
textline "                               "
bitfld.long 0x00 22. " IRQS86  ,IRQS Status Bit 86" "Low,High"
bitfld.long 0x00 21. "  IRQS85  ,IRQS Status Bit 85" "Low,High"
bitfld.long 0x00 20. "  IRQS84  ,IRQS Status Bit 84" "Low,High"
textline "                               "
bitfld.long 0x00 19. " IRQS83  ,IRQS Status Bit 83" "Low,High"
bitfld.long 0x00 18. "  IRQS82  ,IRQS Status Bit 82" "Low,High"
bitfld.long 0x00 17. "  IRQS81  ,IRQS Status Bit 81" "Low,High"
textline "                               "
bitfld.long 0x00 16. " IRQS80  ,IRQS Status Bit 80" "Low,High"
bitfld.long 0x00 15. "  IRQS79  ,IRQS Status Bit 79" "Low,High"
bitfld.long 0x00 14. "  IRQS78  ,IRQS Status Bit 78" "Low,High"
textline "                               "
bitfld.long 0x00 13. " IRQS77  ,IRQS Status Bit 77" "Low,High"
bitfld.long 0x00 12. "  IRQS76  ,IRQS Status Bit 76" "Low,High"
bitfld.long 0x00 11. "  IRQS75  ,IRQS Status Bit 75" "Low,High"
textline "                               "
bitfld.long 0x00 10. " IRQS74  ,IRQS Status Bit 74" "Low,High"
bitfld.long 0x00 9. "  IRQS73  ,IRQS Status Bit 73" "Low,High"
bitfld.long 0x00 8. "  IRQS72  ,IRQS Status Bit 72" "Low,High"
textline "                               "
bitfld.long 0x00 7. " IRQS71  ,IRQS Status Bit 71" "Low,High"
bitfld.long 0x00 6. "  IRQS70  ,IRQS Status Bit 70" "Low,High"
bitfld.long 0x00 5. "  IRQS69  ,IRQS Status Bit 69" "Low,High"
textline "                               "
bitfld.long 0x00 4. " IRQS68  ,IRQS Status Bit 68" "Low,High"
bitfld.long 0x00 3. "  IRQS67  ,IRQS Status Bit 67" "Low,High"
bitfld.long 0x00 2. "  IRQS66  ,IRQS Status Bit 66" "Low,High"
textline "                               "
bitfld.long 0x00 1. " IRQS65  ,IRQS Status Bit 65" "Low,High"
bitfld.long 0x00 0. "  IRQS64  ,IRQS Status Bit 64" "Low,High"
else
hgroup.long 0x0D0C++0x03
hide.long 0x0 "GICD_SPISR2,Shared Peripheral Interrupt Status Register 2"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x04)
rgroup.long 0x0D10++0x03
line.long 0x0 "GICD_SPISR3,Shared Peripheral Interrupt Status Register 3"
bitfld.long 0x00 31. " IRQS127 ,IRQS Status Bit 127" "Low,High"
bitfld.long 0x00 30. "  IRQS126 ,IRQS Status Bit 126" "Low,High"
bitfld.long 0x00 29. "  IRQS125 ,IRQS Status Bit 125" "Low,High"
textline "                               "
bitfld.long 0x00 28. " IRQS124 ,IRQS Status Bit 124" "Low,High"
bitfld.long 0x00 27. "  IRQS123 ,IRQS Status Bit 123" "Low,High"
bitfld.long 0x00 26. "  IRQS122 ,IRQS Status Bit 122" "Low,High"
textline "                               "
bitfld.long 0x00 25. " IRQS121 ,IRQS Status Bit 121" "Low,High"
bitfld.long 0x00 24. "  IRQS120 ,IRQS Status Bit 120" "Low,High"
bitfld.long 0x00 23. "  IRQS119 ,IRQS Status Bit 119" "Low,High"
textline "                               "
bitfld.long 0x00 22. " IRQS118 ,IRQS Status Bit 118" "Low,High"
bitfld.long 0x00 21. "  IRQS117 ,IRQS Status Bit 117" "Low,High"
bitfld.long 0x00 20. "  IRQS116 ,IRQS Status Bit 116" "Low,High"
textline "                               "
bitfld.long 0x00 19. " IRQS115 ,IRQS Status Bit 115" "Low,High"
bitfld.long 0x00 18. "  IRQS114 ,IRQS Status Bit 114" "Low,High"
bitfld.long 0x00 17. "  IRQS113 ,IRQS Status Bit 113" "Low,High"
textline "                               "
bitfld.long 0x00 16. " IRQS112 ,IRQS Status Bit 112" "Low,High"
bitfld.long 0x00 15. "  IRQS111 ,IRQS Status Bit 111" "Low,High"
bitfld.long 0x00 14. "  IRQS110 ,IRQS Status Bit 110" "Low,High"
textline "                               "
bitfld.long 0x00 13. " IRQS109 ,IRQS Status Bit 109" "Low,High"
bitfld.long 0x00 12. "  IRQS108 ,IRQS Status Bit 108" "Low,High"
bitfld.long 0x00 11. "  IRQS107 ,IRQS Status Bit 107" "Low,High"
textline "                               "
bitfld.long 0x00 10. " IRQS106 ,IRQS Status Bit 106" "Low,High"
bitfld.long 0x00 9. "  IRQS105 ,IRQS Status Bit 105" "Low,High"
bitfld.long 0x00 8. "  IRQS104 ,IRQS Status Bit 104" "Low,High"
textline "                               "
bitfld.long 0x00 7. " IRQS103 ,IRQS Status Bit 103" "Low,High"
bitfld.long 0x00 6. "  IRQS102 ,IRQS Status Bit 102" "Low,High"
bitfld.long 0x00 5. "  IRQS101 ,IRQS Status Bit 101" "Low,High"
textline "                               "
bitfld.long 0x00 4. " IRQS100 ,IRQS Status Bit 100" "Low,High"
bitfld.long 0x00 3. "  IRQS99  ,IRQS Status Bit 99" "Low,High"
bitfld.long 0x00 2. "  IRQS98  ,IRQS Status Bit 98" "Low,High"
textline "                               "
bitfld.long 0x00 1. " IRQS97  ,IRQS Status Bit 97" "Low,High"
bitfld.long 0x00 0. "  IRQS96  ,IRQS Status Bit 96" "Low,High"
else
hgroup.long 0x0D10++0x03
hide.long 0x0 "GICD_SPISR3,Shared Peripheral Interrupt Status Register 3"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x05)
rgroup.long 0x0D14++0x03
line.long 0x0 "GICD_SPISR4,Shared Peripheral Interrupt Status Register 4"
bitfld.long 0x00 31. " IRQS159 ,IRQS Status Bit 159" "Low,High"
bitfld.long 0x00 30. "  IRQS158 ,IRQS Status Bit 158" "Low,High"
bitfld.long 0x00 29. "  IRQS157 ,IRQS Status Bit 157" "Low,High"
textline "                               "
bitfld.long 0x00 28. " IRQS156 ,IRQS Status Bit 156" "Low,High"
bitfld.long 0x00 27. "  IRQS155 ,IRQS Status Bit 155" "Low,High"
bitfld.long 0x00 26. "  IRQS154 ,IRQS Status Bit 154" "Low,High"
textline "                               "
bitfld.long 0x00 25. " IRQS153 ,IRQS Status Bit 153" "Low,High"
bitfld.long 0x00 24. "  IRQS152 ,IRQS Status Bit 152" "Low,High"
bitfld.long 0x00 23. "  IRQS151 ,IRQS Status Bit 151" "Low,High"
textline "                               "
bitfld.long 0x00 22. " IRQS150 ,IRQS Status Bit 150" "Low,High"
bitfld.long 0x00 21. "  IRQS149 ,IRQS Status Bit 149" "Low,High"
bitfld.long 0x00 20. "  IRQS148 ,IRQS Status Bit 148" "Low,High"
textline "                               "
bitfld.long 0x00 19. " IRQS147 ,IRQS Status Bit 147" "Low,High"
bitfld.long 0x00 18. "  IRQS146 ,IRQS Status Bit 146" "Low,High"
bitfld.long 0x00 17. "  IRQS145 ,IRQS Status Bit 145" "Low,High"
textline "                               "
bitfld.long 0x00 16. " IRQS144 ,IRQS Status Bit 144" "Low,High"
bitfld.long 0x00 15. "  IRQS143 ,IRQS Status Bit 143" "Low,High"
bitfld.long 0x00 14. "  IRQS142 ,IRQS Status Bit 142" "Low,High"
textline "                               "
bitfld.long 0x00 13. " IRQS141 ,IRQS Status Bit 141" "Low,High"
bitfld.long 0x00 12. "  IRQS140 ,IRQS Status Bit 140" "Low,High"
bitfld.long 0x00 11. "  IRQS139 ,IRQS Status Bit 139" "Low,High"
textline "                               "
bitfld.long 0x00 10. " IRQS138 ,IRQS Status Bit 138" "Low,High"
bitfld.long 0x00 9. "  IRQS137 ,IRQS Status Bit 137" "Low,High"
bitfld.long 0x00 8. "  IRQS136 ,IRQS Status Bit 136" "Low,High"
textline "                               "
bitfld.long 0x00 7. " IRQS135 ,IRQS Status Bit 135" "Low,High"
bitfld.long 0x00 6. "  IRQS134 ,IRQS Status Bit 134" "Low,High"
bitfld.long 0x00 5. "  IRQS133 ,IRQS Status Bit 133" "Low,High"
textline "                               "
bitfld.long 0x00 4. " IRQS132 ,IRQS Status Bit 132" "Low,High"
bitfld.long 0x00 3. "  IRQS131 ,IRQS Status Bit 131" "Low,High"
bitfld.long 0x00 2. "  IRQS130 ,IRQS Status Bit 130" "Low,High"
textline "                               "
bitfld.long 0x00 1. " IRQS129 ,IRQS Status Bit 129" "Low,High"
bitfld.long 0x00 0. "  IRQS128 ,IRQS Status Bit 128" "Low,High"
else
hgroup.long 0x0D14++0x03
hide.long 0x0 "GICD_SPISR4,Shared Peripheral Interrupt Status Register 4"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x06)
rgroup.long 0x0D18++0x03
line.long 0x0 "GICD_SPISR5,Shared Peripheral Interrupt Status Register 5"
bitfld.long 0x00 31. " IRQS191 ,IRQS Status Bit 191" "Low,High"
bitfld.long 0x00 30. "  IRQS190 ,IRQS Status Bit 190" "Low,High"
bitfld.long 0x00 29. "  IRQS189 ,IRQS Status Bit 189" "Low,High"
textline "                               "
bitfld.long 0x00 28. " IRQS188 ,IRQS Status Bit 188" "Low,High"
bitfld.long 0x00 27. "  IRQS187 ,IRQS Status Bit 187" "Low,High"
bitfld.long 0x00 26. "  IRQS186 ,IRQS Status Bit 186" "Low,High"
textline "                               "
bitfld.long 0x00 25. " IRQS185 ,IRQS Status Bit 185" "Low,High"
bitfld.long 0x00 24. "  IRQS184 ,IRQS Status Bit 184" "Low,High"
bitfld.long 0x00 23. "  IRQS183 ,IRQS Status Bit 183" "Low,High"
textline "                               "
bitfld.long 0x00 22. " IRQS182 ,IRQS Status Bit 182" "Low,High"
bitfld.long 0x00 21. "  IRQS181 ,IRQS Status Bit 181" "Low,High"
bitfld.long 0x00 20. "  IRQS180 ,IRQS Status Bit 180" "Low,High"
textline "                               "
bitfld.long 0x00 19. " IRQS179 ,IRQS Status Bit 179" "Low,High"
bitfld.long 0x00 18. "  IRQS178 ,IRQS Status Bit 178" "Low,High"
bitfld.long 0x00 17. "  IRQS177 ,IRQS Status Bit 177" "Low,High"
textline "                               "
bitfld.long 0x00 16. " IRQS176 ,IRQS Status Bit 176" "Low,High"
bitfld.long 0x00 15. "  IRQS175 ,IRQS Status Bit 175" "Low,High"
bitfld.long 0x00 14. "  IRQS174 ,IRQS Status Bit 174" "Low,High"
textline "                               "
bitfld.long 0x00 13. " IRQS173 ,IRQS Status Bit 173" "Low,High"
bitfld.long 0x00 12. "  IRQS172 ,IRQS Status Bit 172" "Low,High"
bitfld.long 0x00 11. "  IRQS171 ,IRQS Status Bit 171" "Low,High"
textline "                               "
bitfld.long 0x00 10. " IRQS170 ,IRQS Status Bit 170" "Low,High"
bitfld.long 0x00 9. "  IRQS169 ,IRQS Status Bit 169" "Low,High"
bitfld.long 0x00 8. "  IRQS168 ,IRQS Status Bit 168" "Low,High"
textline "                               "
bitfld.long 0x00 7. " IRQS167 ,IRQS Status Bit 167" "Low,High"
bitfld.long 0x00 6. "  IRQS166 ,IRQS Status Bit 166" "Low,High"
bitfld.long 0x00 5. "  IRQS165 ,IRQS Status Bit 165" "Low,High"
textline "                               "
bitfld.long 0x00 4. " IRQS164 ,IRQS Status Bit 164" "Low,High"
bitfld.long 0x00 3. "  IRQS163 ,IRQS Status Bit 163" "Low,High"
bitfld.long 0x00 2. "  IRQS162 ,IRQS Status Bit 162" "Low,High"
textline "                               "
bitfld.long 0x00 1. " IRQS161 ,IRQS Status Bit 161" "Low,High"
bitfld.long 0x00 0. "  IRQS160 ,IRQS Status Bit 160" "Low,High"
else
hgroup.long 0x0D18++0x03
hide.long 0x0 "GICD_SPISR5,Shared Peripheral Interrupt Status Register 5"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x07)
rgroup.long 0x0D1C++0x03
line.long 0x0 "GICD_SPISR6,Shared Peripheral Interrupt Status Register 6"
bitfld.long 0x00 31. " IRQS223 ,IRQS Status Bit 223" "Low,High"
bitfld.long 0x00 30. "  IRQS222 ,IRQS Status Bit 222" "Low,High"
bitfld.long 0x00 29. "  IRQS221 ,IRQS Status Bit 221" "Low,High"
textline "                               "
bitfld.long 0x00 28. " IRQS220 ,IRQS Status Bit 220" "Low,High"
bitfld.long 0x00 27. "  IRQS219 ,IRQS Status Bit 219" "Low,High"
bitfld.long 0x00 26. "  IRQS218 ,IRQS Status Bit 218" "Low,High"
textline "                               "
bitfld.long 0x00 25. " IRQS217 ,IRQS Status Bit 217" "Low,High"
bitfld.long 0x00 24. "  IRQS216 ,IRQS Status Bit 216" "Low,High"
bitfld.long 0x00 23. "  IRQS215 ,IRQS Status Bit 215" "Low,High"
textline "                               "
bitfld.long 0x00 22. " IRQS214 ,IRQS Status Bit 214" "Low,High"
bitfld.long 0x00 21. "  IRQS213 ,IRQS Status Bit 213" "Low,High"
bitfld.long 0x00 20. "  IRQS212 ,IRQS Status Bit 212" "Low,High"
textline "                               "
bitfld.long 0x00 19. " IRQS211 ,IRQS Status Bit 211" "Low,High"
bitfld.long 0x00 18. "  IRQS210 ,IRQS Status Bit 210" "Low,High"
bitfld.long 0x00 17. "  IRQS209 ,IRQS Status Bit 209" "Low,High"
textline "                               "
bitfld.long 0x00 16. " IRQS208 ,IRQS Status Bit 208" "Low,High"
bitfld.long 0x00 15. "  IRQS207 ,IRQS Status Bit 207" "Low,High"
bitfld.long 0x00 14. "  IRQS206 ,IRQS Status Bit 206" "Low,High"
textline "                               "
bitfld.long 0x00 13. " IRQS205 ,IRQS Status Bit 205" "Low,High"
bitfld.long 0x00 12. "  IRQS204 ,IRQS Status Bit 204" "Low,High"
bitfld.long 0x00 11. "  IRQS203 ,IRQS Status Bit 203" "Low,High"
textline "                               "
bitfld.long 0x00 10. " IRQS202 ,IRQS Status Bit 202" "Low,High"
bitfld.long 0x00 9. "  IRQS201 ,IRQS Status Bit 201" "Low,High"
bitfld.long 0x00 8. "  IRQS200 ,IRQS Status Bit 200" "Low,High"
textline "                               "
bitfld.long 0x00 7. " IRQS199 ,IRQS Status Bit 199" "Low,High"
bitfld.long 0x00 6. "  IRQS198 ,IRQS Status Bit 198" "Low,High"
bitfld.long 0x00 5. "  IRQS197 ,IRQS Status Bit 197" "Low,High"
textline "                               "
bitfld.long 0x00 4. " IRQS196 ,IRQS Status Bit 196" "Low,High"
bitfld.long 0x00 3. "  IRQS195 ,IRQS Status Bit 195" "Low,High"
bitfld.long 0x00 2. "  IRQS194 ,IRQS Status Bit 194" "Low,High"
textline "                               "
bitfld.long 0x00 1. " IRQS193 ,IRQS Status Bit 193" "Low,High"
bitfld.long 0x00 0. "  IRQS192 ,IRQS Status Bit 192" "Low,High"
else
hgroup.long 0x0D1C++0x03
hide.long 0x0 "GICD_SPISR6,Shared Peripheral Interrupt Status Register 6"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x08)
rgroup.long 0x0D20++0x03
line.long 0x0 "GICD_SPISR7,Shared Peripheral Interrupt Status Register 7"
bitfld.long 0x00 31. " IRQS255 ,IRQS Status Bit 255" "Low,High"
bitfld.long 0x00 30. "  IRQS254 ,IRQS Status Bit 254" "Low,High"
bitfld.long 0x00 29. "  IRQS253 ,IRQS Status Bit 253" "Low,High"
textline "                               "
bitfld.long 0x00 28. " IRQS252 ,IRQS Status Bit 252" "Low,High"
bitfld.long 0x00 27. "  IRQS251 ,IRQS Status Bit 251" "Low,High"
bitfld.long 0x00 26. "  IRQS250 ,IRQS Status Bit 250" "Low,High"
textline "                               "
bitfld.long 0x00 25. " IRQS249 ,IRQS Status Bit 249" "Low,High"
bitfld.long 0x00 24. "  IRQS248 ,IRQS Status Bit 248" "Low,High"
bitfld.long 0x00 23. "  IRQS247 ,IRQS Status Bit 247" "Low,High"
textline "                               "
bitfld.long 0x00 22. " IRQS246 ,IRQS Status Bit 246" "Low,High"
bitfld.long 0x00 21. "  IRQS245 ,IRQS Status Bit 245" "Low,High"
bitfld.long 0x00 20. "  IRQS244 ,IRQS Status Bit 244" "Low,High"
textline "                               "
bitfld.long 0x00 19. " IRQS243 ,IRQS Status Bit 243" "Low,High"
bitfld.long 0x00 18. "  IRQS242 ,IRQS Status Bit 242" "Low,High"
bitfld.long 0x00 17. "  IRQS241 ,IRQS Status Bit 241" "Low,High"
textline "                               "
bitfld.long 0x00 16. " IRQS240 ,IRQS Status Bit 240" "Low,High"
bitfld.long 0x00 15. "  IRQS239 ,IRQS Status Bit 239" "Low,High"
bitfld.long 0x00 14. "  IRQS238 ,IRQS Status Bit 238" "Low,High"
textline "                               "
bitfld.long 0x00 13. " IRQS237 ,IRQS Status Bit 237" "Low,High"
bitfld.long 0x00 12. "  IRQS236 ,IRQS Status Bit 236" "Low,High"
bitfld.long 0x00 11. "  IRQS235 ,IRQS Status Bit 235" "Low,High"
textline "                               "
bitfld.long 0x00 10. " IRQS234 ,IRQS Status Bit 234" "Low,High"
bitfld.long 0x00 9. "  IRQS233 ,IRQS Status Bit 233" "Low,High"
bitfld.long 0x00 8. "  IRQS232 ,IRQS Status Bit 232" "Low,High"
textline "                               "
bitfld.long 0x00 7. " IRQS231 ,IRQS Status Bit 231" "Low,High"
bitfld.long 0x00 6. "  IRQS230 ,IRQS Status Bit 230" "Low,High"
bitfld.long 0x00 5. "  IRQS229 ,IRQS Status Bit 229" "Low,High"
textline "                               "
bitfld.long 0x00 4. " IRQS228 ,IRQS Status Bit 228" "Low,High"
bitfld.long 0x00 3. "  IRQS227 ,IRQS Status Bit 227" "Low,High"
bitfld.long 0x00 2. "  IRQS226 ,IRQS Status Bit 226" "Low,High"
textline "                               "
bitfld.long 0x00 1. " IRQS225 ,IRQS Status Bit 225" "Low,High"
bitfld.long 0x00 0. "  IRQS224 ,IRQS Status Bit 224" "Low,High"
else
hgroup.long 0x0D20++0x03
hide.long 0x0 "GICD_SPISR7,Shared Peripheral Interrupt Status Register 7"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x09)
rgroup.long 0x0D24++0x03
line.long 0x0 "GICD_SPISR8,Shared Peripheral Interrupt Status Register 8"
bitfld.long 0x00 31. " IRQS287 ,IRQS Status Bit 287" "Low,High"
bitfld.long 0x00 30. "  IRQS286 ,IRQS Status Bit 286" "Low,High"
bitfld.long 0x00 29. "  IRQS285 ,IRQS Status Bit 285" "Low,High"
textline "                               "
bitfld.long 0x00 28. " IRQS284 ,IRQS Status Bit 284" "Low,High"
bitfld.long 0x00 27. "  IRQS283 ,IRQS Status Bit 283" "Low,High"
bitfld.long 0x00 26. "  IRQS282 ,IRQS Status Bit 282" "Low,High"
textline "                               "
bitfld.long 0x00 25. " IRQS281 ,IRQS Status Bit 281" "Low,High"
bitfld.long 0x00 24. "  IRQS280 ,IRQS Status Bit 280" "Low,High"
bitfld.long 0x00 23. "  IRQS279 ,IRQS Status Bit 279" "Low,High"
textline "                               "
bitfld.long 0x00 22. " IRQS278 ,IRQS Status Bit 278" "Low,High"
bitfld.long 0x00 21. "  IRQS277 ,IRQS Status Bit 277" "Low,High"
bitfld.long 0x00 20. "  IRQS276 ,IRQS Status Bit 276" "Low,High"
textline "                               "
bitfld.long 0x00 19. " IRQS275 ,IRQS Status Bit 275" "Low,High"
bitfld.long 0x00 18. "  IRQS274 ,IRQS Status Bit 274" "Low,High"
bitfld.long 0x00 17. "  IRQS273 ,IRQS Status Bit 273" "Low,High"
textline "                               "
bitfld.long 0x00 16. " IRQS272 ,IRQS Status Bit 272" "Low,High"
bitfld.long 0x00 15. "  IRQS271 ,IRQS Status Bit 271" "Low,High"
bitfld.long 0x00 14. "  IRQS270 ,IRQS Status Bit 270" "Low,High"
textline "                               "
bitfld.long 0x00 13. " IRQS269 ,IRQS Status Bit 269" "Low,High"
bitfld.long 0x00 12. "  IRQS268 ,IRQS Status Bit 268" "Low,High"
bitfld.long 0x00 11. "  IRQS267 ,IRQS Status Bit 267" "Low,High"
textline "                               "
bitfld.long 0x00 10. " IRQS266 ,IRQS Status Bit 266" "Low,High"
bitfld.long 0x00 9. "  IRQS265 ,IRQS Status Bit 265" "Low,High"
bitfld.long 0x00 8. "  IRQS264 ,IRQS Status Bit 264" "Low,High"
textline "                               "
bitfld.long 0x00 7. " IRQS263 ,IRQS Status Bit 263" "Low,High"
bitfld.long 0x00 6. "  IRQS262 ,IRQS Status Bit 262" "Low,High"
bitfld.long 0x00 5. "  IRQS261 ,IRQS Status Bit 261" "Low,High"
textline "                               "
bitfld.long 0x00 4. " IRQS260 ,IRQS Status Bit 260" "Low,High"
bitfld.long 0x00 3. "  IRQS259 ,IRQS Status Bit 259" "Low,High"
bitfld.long 0x00 2. "  IRQS258 ,IRQS Status Bit 258" "Low,High"
textline "                               "
bitfld.long 0x00 1. " IRQS257 ,IRQS Status Bit 257" "Low,High"
bitfld.long 0x00 0. "  IRQS256 ,IRQS Status Bit 256" "Low,High"
else
hgroup.long 0x0D24++0x03
hide.long 0x0 "GICD_SPISR8,Shared Peripheral Interrupt Status Register 8"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0A)
rgroup.long 0x0D28++0x03
line.long 0x0 "GICD_SPISR9,Shared Peripheral Interrupt Status Register 9"
bitfld.long 0x00 31. " IRQS319 ,IRQS Status Bit 319" "Low,High"
bitfld.long 0x00 30. "  IRQS318 ,IRQS Status Bit 318" "Low,High"
bitfld.long 0x00 29. "  IRQS317 ,IRQS Status Bit 317" "Low,High"
textline "                               "
bitfld.long 0x00 28. " IRQS316 ,IRQS Status Bit 316" "Low,High"
bitfld.long 0x00 27. "  IRQS315 ,IRQS Status Bit 315" "Low,High"
bitfld.long 0x00 26. "  IRQS314 ,IRQS Status Bit 314" "Low,High"
textline "                               "
bitfld.long 0x00 25. " IRQS313 ,IRQS Status Bit 313" "Low,High"
bitfld.long 0x00 24. "  IRQS312 ,IRQS Status Bit 312" "Low,High"
bitfld.long 0x00 23. "  IRQS311 ,IRQS Status Bit 311" "Low,High"
textline "                               "
bitfld.long 0x00 22. " IRQS310 ,IRQS Status Bit 310" "Low,High"
bitfld.long 0x00 21. "  IRQS309 ,IRQS Status Bit 309" "Low,High"
bitfld.long 0x00 20. "  IRQS308 ,IRQS Status Bit 308" "Low,High"
textline "                               "
bitfld.long 0x00 19. " IRQS307 ,IRQS Status Bit 307" "Low,High"
bitfld.long 0x00 18. "  IRQS306 ,IRQS Status Bit 306" "Low,High"
bitfld.long 0x00 17. "  IRQS305 ,IRQS Status Bit 305" "Low,High"
textline "                               "
bitfld.long 0x00 16. " IRQS304 ,IRQS Status Bit 304" "Low,High"
bitfld.long 0x00 15. "  IRQS303 ,IRQS Status Bit 303" "Low,High"
bitfld.long 0x00 14. "  IRQS302 ,IRQS Status Bit 302" "Low,High"
textline "                               "
bitfld.long 0x00 13. " IRQS301 ,IRQS Status Bit 301" "Low,High"
bitfld.long 0x00 12. "  IRQS300 ,IRQS Status Bit 300" "Low,High"
bitfld.long 0x00 11. "  IRQS299 ,IRQS Status Bit 299" "Low,High"
textline "                               "
bitfld.long 0x00 10. " IRQS298 ,IRQS Status Bit 298" "Low,High"
bitfld.long 0x00 9. "  IRQS297 ,IRQS Status Bit 297" "Low,High"
bitfld.long 0x00 8. "  IRQS296 ,IRQS Status Bit 296" "Low,High"
textline "                               "
bitfld.long 0x00 7. " IRQS295 ,IRQS Status Bit 295" "Low,High"
bitfld.long 0x00 6. "  IRQS294 ,IRQS Status Bit 294" "Low,High"
bitfld.long 0x00 5. "  IRQS293 ,IRQS Status Bit 293" "Low,High"
textline "                               "
bitfld.long 0x00 4. " IRQS292 ,IRQS Status Bit 292" "Low,High"
bitfld.long 0x00 3. "  IRQS291 ,IRQS Status Bit 291" "Low,High"
bitfld.long 0x00 2. "  IRQS290 ,IRQS Status Bit 290" "Low,High"
textline "                               "
bitfld.long 0x00 1. " IRQS289 ,IRQS Status Bit 289" "Low,High"
bitfld.long 0x00 0. "  IRQS288 ,IRQS Status Bit 288" "Low,High"
else
hgroup.long 0x0D28++0x03
hide.long 0x0 "GICD_SPISR9,Shared Peripheral Interrupt Status Register 9"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0B)
rgroup.long 0x0D2C++0x03
line.long 0x0 "GICD_SPISR10,Shared Peripheral Interrupt Status Register 10"
bitfld.long 0x00 31. " IRQS351 ,IRQS Status Bit 351" "Low,High"
bitfld.long 0x00 30. "  IRQS350 ,IRQS Status Bit 350" "Low,High"
bitfld.long 0x00 29. "  IRQS349 ,IRQS Status Bit 349" "Low,High"
textline "                               "
bitfld.long 0x00 28. " IRQS348 ,IRQS Status Bit 348" "Low,High"
bitfld.long 0x00 27. "  IRQS347 ,IRQS Status Bit 347" "Low,High"
bitfld.long 0x00 26. "  IRQS346 ,IRQS Status Bit 346" "Low,High"
textline "                               "
bitfld.long 0x00 25. " IRQS345 ,IRQS Status Bit 345" "Low,High"
bitfld.long 0x00 24. "  IRQS344 ,IRQS Status Bit 344" "Low,High"
bitfld.long 0x00 23. "  IRQS343 ,IRQS Status Bit 343" "Low,High"
textline "                               "
bitfld.long 0x00 22. " IRQS342 ,IRQS Status Bit 342" "Low,High"
bitfld.long 0x00 21. "  IRQS341 ,IRQS Status Bit 341" "Low,High"
bitfld.long 0x00 20. "  IRQS340 ,IRQS Status Bit 340" "Low,High"
textline "                               "
bitfld.long 0x00 19. " IRQS339 ,IRQS Status Bit 339" "Low,High"
bitfld.long 0x00 18. "  IRQS338 ,IRQS Status Bit 338" "Low,High"
bitfld.long 0x00 17. "  IRQS337 ,IRQS Status Bit 337" "Low,High"
textline "                               "
bitfld.long 0x00 16. " IRQS336 ,IRQS Status Bit 336" "Low,High"
bitfld.long 0x00 15. "  IRQS335 ,IRQS Status Bit 335" "Low,High"
bitfld.long 0x00 14. "  IRQS334 ,IRQS Status Bit 334" "Low,High"
textline "                               "
bitfld.long 0x00 13. " IRQS333 ,IRQS Status Bit 333" "Low,High"
bitfld.long 0x00 12. "  IRQS332 ,IRQS Status Bit 332" "Low,High"
bitfld.long 0x00 11. "  IRQS331 ,IRQS Status Bit 331" "Low,High"
textline "                               "
bitfld.long 0x00 10. " IRQS330 ,IRQS Status Bit 330" "Low,High"
bitfld.long 0x00 9. "  IRQS329 ,IRQS Status Bit 329" "Low,High"
bitfld.long 0x00 8. "  IRQS328 ,IRQS Status Bit 328" "Low,High"
textline "                               "
bitfld.long 0x00 7. " IRQS327 ,IRQS Status Bit 327" "Low,High"
bitfld.long 0x00 6. "  IRQS326 ,IRQS Status Bit 326" "Low,High"
bitfld.long 0x00 5. "  IRQS325 ,IRQS Status Bit 325" "Low,High"
textline "                               "
bitfld.long 0x00 4. " IRQS324 ,IRQS Status Bit 324" "Low,High"
bitfld.long 0x00 3. "  IRQS323 ,IRQS Status Bit 323" "Low,High"
bitfld.long 0x00 2. "  IRQS322 ,IRQS Status Bit 322" "Low,High"
textline "                               "
bitfld.long 0x00 1. " IRQS321 ,IRQS Status Bit 321" "Low,High"
bitfld.long 0x00 0. "  IRQS320 ,IRQS Status Bit 320" "Low,High"
else
hgroup.long 0x0D2C++0x03
hide.long 0x0 "GICD_SPISR10,Shared Peripheral Interrupt Status Register 10"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0C)
rgroup.long 0x0D30++0x03
line.long 0x0 "GICD_SPISR11,Shared Peripheral Interrupt Status Register 11"
bitfld.long 0x00 31. " IRQS383 ,IRQS Status Bit 383" "Low,High"
bitfld.long 0x00 30. "  IRQS382 ,IRQS Status Bit 382" "Low,High"
bitfld.long 0x00 29. "  IRQS381 ,IRQS Status Bit 381" "Low,High"
textline "                               "
bitfld.long 0x00 28. " IRQS380 ,IRQS Status Bit 380" "Low,High"
bitfld.long 0x00 27. "  IRQS379 ,IRQS Status Bit 379" "Low,High"
bitfld.long 0x00 26. "  IRQS378 ,IRQS Status Bit 378" "Low,High"
textline "                               "
bitfld.long 0x00 25. " IRQS377 ,IRQS Status Bit 377" "Low,High"
bitfld.long 0x00 24. "  IRQS376 ,IRQS Status Bit 376" "Low,High"
bitfld.long 0x00 23. "  IRQS375 ,IRQS Status Bit 375" "Low,High"
textline "                               "
bitfld.long 0x00 22. " IRQS374 ,IRQS Status Bit 374" "Low,High"
bitfld.long 0x00 21. "  IRQS373 ,IRQS Status Bit 373" "Low,High"
bitfld.long 0x00 20. "  IRQS372 ,IRQS Status Bit 372" "Low,High"
textline "                               "
bitfld.long 0x00 19. " IRQS371 ,IRQS Status Bit 371" "Low,High"
bitfld.long 0x00 18. "  IRQS370 ,IRQS Status Bit 370" "Low,High"
bitfld.long 0x00 17. "  IRQS369 ,IRQS Status Bit 369" "Low,High"
textline "                               "
bitfld.long 0x00 16. " IRQS368 ,IRQS Status Bit 368" "Low,High"
bitfld.long 0x00 15. "  IRQS367 ,IRQS Status Bit 367" "Low,High"
bitfld.long 0x00 14. "  IRQS366 ,IRQS Status Bit 366" "Low,High"
textline "                               "
bitfld.long 0x00 13. " IRQS365 ,IRQS Status Bit 365" "Low,High"
bitfld.long 0x00 12. "  IRQS364 ,IRQS Status Bit 364" "Low,High"
bitfld.long 0x00 11. "  IRQS363 ,IRQS Status Bit 363" "Low,High"
textline "                               "
bitfld.long 0x00 10. " IRQS362 ,IRQS Status Bit 362" "Low,High"
bitfld.long 0x00 9. "  IRQS361 ,IRQS Status Bit 361" "Low,High"
bitfld.long 0x00 8. "  IRQS360 ,IRQS Status Bit 360" "Low,High"
textline "                               "
bitfld.long 0x00 7. " IRQS359 ,IRQS Status Bit 359" "Low,High"
bitfld.long 0x00 6. "  IRQS358 ,IRQS Status Bit 358" "Low,High"
bitfld.long 0x00 5. "  IRQS357 ,IRQS Status Bit 357" "Low,High"
textline "                               "
bitfld.long 0x00 4. " IRQS356 ,IRQS Status Bit 356" "Low,High"
bitfld.long 0x00 3. "  IRQS355 ,IRQS Status Bit 355" "Low,High"
bitfld.long 0x00 2. "  IRQS354 ,IRQS Status Bit 354" "Low,High"
textline "                               "
bitfld.long 0x00 1. " IRQS353 ,IRQS Status Bit 353" "Low,High"
bitfld.long 0x00 0. "  IRQS352 ,IRQS Status Bit 352" "Low,High"
else
hgroup.long 0x0D30++0x03
hide.long 0x0 "GICD_SPISR11,Shared Peripheral Interrupt Status Register 11"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0D)
rgroup.long 0x0D34++0x03
line.long 0x0 "GICD_SPISR12,Shared Peripheral Interrupt Status Register 12"
bitfld.long 0x00 31. " IRQS415 ,IRQS Status Bit 415" "Low,High"
bitfld.long 0x00 30. "  IRQS414 ,IRQS Status Bit 414" "Low,High"
bitfld.long 0x00 29. "  IRQS413 ,IRQS Status Bit 413" "Low,High"
textline "                               "
bitfld.long 0x00 28. " IRQS412 ,IRQS Status Bit 412" "Low,High"
bitfld.long 0x00 27. "  IRQS411 ,IRQS Status Bit 411" "Low,High"
bitfld.long 0x00 26. "  IRQS410 ,IRQS Status Bit 410" "Low,High"
textline "                               "
bitfld.long 0x00 25. " IRQS409 ,IRQS Status Bit 409" "Low,High"
bitfld.long 0x00 24. "  IRQS408 ,IRQS Status Bit 408" "Low,High"
bitfld.long 0x00 23. "  IRQS407 ,IRQS Status Bit 407" "Low,High"
textline "                               "
bitfld.long 0x00 22. " IRQS406 ,IRQS Status Bit 406" "Low,High"
bitfld.long 0x00 21. "  IRQS405 ,IRQS Status Bit 405" "Low,High"
bitfld.long 0x00 20. "  IRQS404 ,IRQS Status Bit 404" "Low,High"
textline "                               "
bitfld.long 0x00 19. " IRQS403 ,IRQS Status Bit 403" "Low,High"
bitfld.long 0x00 18. "  IRQS402 ,IRQS Status Bit 402" "Low,High"
bitfld.long 0x00 17. "  IRQS401 ,IRQS Status Bit 401" "Low,High"
textline "                               "
bitfld.long 0x00 16. " IRQS400 ,IRQS Status Bit 400" "Low,High"
bitfld.long 0x00 15. "  IRQS399 ,IRQS Status Bit 399" "Low,High"
bitfld.long 0x00 14. "  IRQS398 ,IRQS Status Bit 398" "Low,High"
textline "                               "
bitfld.long 0x00 13. " IRQS397 ,IRQS Status Bit 397" "Low,High"
bitfld.long 0x00 12. "  IRQS396 ,IRQS Status Bit 396" "Low,High"
bitfld.long 0x00 11. "  IRQS395 ,IRQS Status Bit 395" "Low,High"
textline "                               "
bitfld.long 0x00 10. " IRQS394 ,IRQS Status Bit 394" "Low,High"
bitfld.long 0x00 9. "  IRQS393 ,IRQS Status Bit 393" "Low,High"
bitfld.long 0x00 8. "  IRQS392 ,IRQS Status Bit 392" "Low,High"
textline "                               "
bitfld.long 0x00 7. " IRQS391 ,IRQS Status Bit 391" "Low,High"
bitfld.long 0x00 6. "  IRQS390 ,IRQS Status Bit 390" "Low,High"
bitfld.long 0x00 5. "  IRQS389 ,IRQS Status Bit 389" "Low,High"
textline "                               "
bitfld.long 0x00 4. " IRQS388 ,IRQS Status Bit 388" "Low,High"
bitfld.long 0x00 3. "  IRQS387 ,IRQS Status Bit 387" "Low,High"
bitfld.long 0x00 2. "  IRQS386 ,IRQS Status Bit 386" "Low,High"
textline "                               "
bitfld.long 0x00 1. " IRQS385 ,IRQS Status Bit 385" "Low,High"
bitfld.long 0x00 0. "  IRQS384 ,IRQS Status Bit 384" "Low,High"
else
hgroup.long 0x0D34++0x03
hide.long 0x0 "GICD_SPISR12,Shared Peripheral Interrupt Status Register 12"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0E)
rgroup.long 0x0D38++0x03
line.long 0x0 "GICD_SPISR13,Shared Peripheral Interrupt Status Register 13"
bitfld.long 0x00 31. " IRQS447 ,IRQS Status Bit 447" "Low,High"
bitfld.long 0x00 30. "  IRQS446 ,IRQS Status Bit 446" "Low,High"
bitfld.long 0x00 29. "  IRQS445 ,IRQS Status Bit 445" "Low,High"
textline "                               "
bitfld.long 0x00 28. " IRQS444 ,IRQS Status Bit 444" "Low,High"
bitfld.long 0x00 27. "  IRQS443 ,IRQS Status Bit 443" "Low,High"
bitfld.long 0x00 26. "  IRQS442 ,IRQS Status Bit 442" "Low,High"
textline "                               "
bitfld.long 0x00 25. " IRQS441 ,IRQS Status Bit 441" "Low,High"
bitfld.long 0x00 24. "  IRQS440 ,IRQS Status Bit 440" "Low,High"
bitfld.long 0x00 23. "  IRQS439 ,IRQS Status Bit 439" "Low,High"
textline "                               "
bitfld.long 0x00 22. " IRQS438 ,IRQS Status Bit 438" "Low,High"
bitfld.long 0x00 21. "  IRQS437 ,IRQS Status Bit 437" "Low,High"
bitfld.long 0x00 20. "  IRQS436 ,IRQS Status Bit 436" "Low,High"
textline "                               "
bitfld.long 0x00 19. " IRQS435 ,IRQS Status Bit 435" "Low,High"
bitfld.long 0x00 18. "  IRQS434 ,IRQS Status Bit 434" "Low,High"
bitfld.long 0x00 17. "  IRQS433 ,IRQS Status Bit 433" "Low,High"
textline "                               "
bitfld.long 0x00 16. " IRQS432 ,IRQS Status Bit 432" "Low,High"
bitfld.long 0x00 15. "  IRQS431 ,IRQS Status Bit 431" "Low,High"
bitfld.long 0x00 14. "  IRQS430 ,IRQS Status Bit 430" "Low,High"
textline "                               "
bitfld.long 0x00 13. " IRQS429 ,IRQS Status Bit 429" "Low,High"
bitfld.long 0x00 12. "  IRQS428 ,IRQS Status Bit 428" "Low,High"
bitfld.long 0x00 11. "  IRQS427 ,IRQS Status Bit 427" "Low,High"
textline "                               "
bitfld.long 0x00 10. " IRQS426 ,IRQS Status Bit 426" "Low,High"
bitfld.long 0x00 9. "  IRQS425 ,IRQS Status Bit 425" "Low,High"
bitfld.long 0x00 8. "  IRQS424 ,IRQS Status Bit 424" "Low,High"
textline "                               "
bitfld.long 0x00 7. " IRQS423 ,IRQS Status Bit 423" "Low,High"
bitfld.long 0x00 6. "  IRQS422 ,IRQS Status Bit 422" "Low,High"
bitfld.long 0x00 5. "  IRQS421 ,IRQS Status Bit 421" "Low,High"
textline "                               "
bitfld.long 0x00 4. " IRQS420 ,IRQS Status Bit 420" "Low,High"
bitfld.long 0x00 3. "  IRQS419 ,IRQS Status Bit 419" "Low,High"
bitfld.long 0x00 2. "  IRQS418 ,IRQS Status Bit 418" "Low,High"
textline "                               "
bitfld.long 0x00 1. " IRQS417 ,IRQS Status Bit 417" "Low,High"
bitfld.long 0x00 0. "  IRQS416 ,IRQS Status Bit 416" "Low,High"
else
hgroup.long 0x0D38++0x03
hide.long 0x0 "GICD_SPISR13,Shared Peripheral Interrupt Status Register 13"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x0F)
rgroup.long 0x0D3C++0x03
line.long 0x0 "GICD_SPISR14,Shared Peripheral Interrupt Status Register 14"
bitfld.long 0x00 31. " IRQS479 ,IRQS Status Bit 479" "Low,High"
bitfld.long 0x00 30. "  IRQS478 ,IRQS Status Bit 478" "Low,High"
bitfld.long 0x00 29. "  IRQS477 ,IRQS Status Bit 477" "Low,High"
textline "                               "
bitfld.long 0x00 28. " IRQS476 ,IRQS Status Bit 476" "Low,High"
bitfld.long 0x00 27. "  IRQS475 ,IRQS Status Bit 475" "Low,High"
bitfld.long 0x00 26. "  IRQS474 ,IRQS Status Bit 474" "Low,High"
textline "                               "
bitfld.long 0x00 25. " IRQS473 ,IRQS Status Bit 473" "Low,High"
bitfld.long 0x00 24. "  IRQS472 ,IRQS Status Bit 472" "Low,High"
bitfld.long 0x00 23. "  IRQS471 ,IRQS Status Bit 471" "Low,High"
textline "                               "
bitfld.long 0x00 22. " IRQS470 ,IRQS Status Bit 470" "Low,High"
bitfld.long 0x00 21. "  IRQS469 ,IRQS Status Bit 469" "Low,High"
bitfld.long 0x00 20. "  IRQS468 ,IRQS Status Bit 468" "Low,High"
textline "                               "
bitfld.long 0x00 19. " IRQS467 ,IRQS Status Bit 467" "Low,High"
bitfld.long 0x00 18. "  IRQS466 ,IRQS Status Bit 466" "Low,High"
bitfld.long 0x00 17. "  IRQS465 ,IRQS Status Bit 465" "Low,High"
textline "                               "
bitfld.long 0x00 16. " IRQS464 ,IRQS Status Bit 464" "Low,High"
bitfld.long 0x00 15. "  IRQS463 ,IRQS Status Bit 463" "Low,High"
bitfld.long 0x00 14. "  IRQS462 ,IRQS Status Bit 462" "Low,High"
textline "                               "
bitfld.long 0x00 13. " IRQS461 ,IRQS Status Bit 461" "Low,High"
bitfld.long 0x00 12. "  IRQS460 ,IRQS Status Bit 460" "Low,High"
bitfld.long 0x00 11. "  IRQS459 ,IRQS Status Bit 459" "Low,High"
textline "                               "
bitfld.long 0x00 10. " IRQS458 ,IRQS Status Bit 458" "Low,High"
bitfld.long 0x00 9. "  IRQS457 ,IRQS Status Bit 457" "Low,High"
bitfld.long 0x00 8. "  IRQS456 ,IRQS Status Bit 456" "Low,High"
textline "                               "
bitfld.long 0x00 7. " IRQS455 ,IRQS Status Bit 455" "Low,High"
bitfld.long 0x00 6. "  IRQS454 ,IRQS Status Bit 454" "Low,High"
bitfld.long 0x00 5. "  IRQS453 ,IRQS Status Bit 453" "Low,High"
textline "                               "
bitfld.long 0x00 4. " IRQS452 ,IRQS Status Bit 452" "Low,High"
bitfld.long 0x00 3. "  IRQS451 ,IRQS Status Bit 451" "Low,High"
bitfld.long 0x00 2. "  IRQS450 ,IRQS Status Bit 450" "Low,High"
textline "                               "
bitfld.long 0x00 1. " IRQS449 ,IRQS Status Bit 449" "Low,High"
bitfld.long 0x00 0. "  IRQS448 ,IRQS Status Bit 448" "Low,High"
else
hgroup.long 0x0D3C++0x03
hide.long 0x0 "GICD_SPISR14,Shared Peripheral Interrupt Status Register 14"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x10)
rgroup.long 0x0D40++0x03
line.long 0x0 "GICD_SPISR15,Shared Peripheral Interrupt Status Register 15"
bitfld.long 0x00 31. " IRQS511 ,IRQS Status Bit 511" "Low,High"
bitfld.long 0x00 30. "  IRQS510 ,IRQS Status Bit 510" "Low,High"
bitfld.long 0x00 29. "  IRQS509 ,IRQS Status Bit 509" "Low,High"
textline "                               "
bitfld.long 0x00 28. " IRQS508 ,IRQS Status Bit 508" "Low,High"
bitfld.long 0x00 27. "  IRQS507 ,IRQS Status Bit 507" "Low,High"
bitfld.long 0x00 26. "  IRQS506 ,IRQS Status Bit 506" "Low,High"
textline "                               "
bitfld.long 0x00 25. " IRQS505 ,IRQS Status Bit 505" "Low,High"
bitfld.long 0x00 24. "  IRQS504 ,IRQS Status Bit 504" "Low,High"
bitfld.long 0x00 23. "  IRQS503 ,IRQS Status Bit 503" "Low,High"
textline "                               "
bitfld.long 0x00 22. " IRQS502 ,IRQS Status Bit 502" "Low,High"
bitfld.long 0x00 21. "  IRQS501 ,IRQS Status Bit 501" "Low,High"
bitfld.long 0x00 20. "  IRQS500 ,IRQS Status Bit 500" "Low,High"
textline "                               "
bitfld.long 0x00 19. " IRQS499 ,IRQS Status Bit 499" "Low,High"
bitfld.long 0x00 18. "  IRQS498 ,IRQS Status Bit 498" "Low,High"
bitfld.long 0x00 17. "  IRQS497 ,IRQS Status Bit 497" "Low,High"
textline "                               "
bitfld.long 0x00 16. " IRQS496 ,IRQS Status Bit 496" "Low,High"
bitfld.long 0x00 15. "  IRQS495 ,IRQS Status Bit 495" "Low,High"
bitfld.long 0x00 14. "  IRQS494 ,IRQS Status Bit 494" "Low,High"
textline "                               "
bitfld.long 0x00 13. " IRQS493 ,IRQS Status Bit 493" "Low,High"
bitfld.long 0x00 12. "  IRQS492 ,IRQS Status Bit 492" "Low,High"
bitfld.long 0x00 11. "  IRQS491 ,IRQS Status Bit 491" "Low,High"
textline "                               "
bitfld.long 0x00 10. " IRQS490 ,IRQS Status Bit 490" "Low,High"
bitfld.long 0x00 9. "  IRQS489 ,IRQS Status Bit 489" "Low,High"
bitfld.long 0x00 8. "  IRQS488 ,IRQS Status Bit 488" "Low,High"
textline "                               "
bitfld.long 0x00 7. " IRQS487 ,IRQS Status Bit 487" "Low,High"
bitfld.long 0x00 6. "  IRQS486 ,IRQS Status Bit 486" "Low,High"
bitfld.long 0x00 5. "  IRQS485 ,IRQS Status Bit 485" "Low,High"
textline "                               "
bitfld.long 0x00 4. " IRQS484 ,IRQS Status Bit 484" "Low,High"
bitfld.long 0x00 3. "  IRQS483 ,IRQS Status Bit 483" "Low,High"
bitfld.long 0x00 2. "  IRQS482 ,IRQS Status Bit 482" "Low,High"
textline "                               "
bitfld.long 0x00 1. " IRQS481 ,IRQS Status Bit 481" "Low,High"
bitfld.long 0x00 0. "  IRQS480 ,IRQS Status Bit 480" "Low,High"
else
hgroup.long 0x0D40++0x03
hide.long 0x0 "GICD_SPISR15,Shared Peripheral Interrupt Status Register 15"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x11)
rgroup.long 0x0D44++0x03
line.long 0x0 "GICD_SPISR16,Shared Peripheral Interrupt Status Register 16"
bitfld.long 0x00 31. " IRQS543 ,IRQS Status Bit 543" "Low,High"
bitfld.long 0x00 30. "  IRQS542 ,IRQS Status Bit 542" "Low,High"
bitfld.long 0x00 29. "  IRQS541 ,IRQS Status Bit 541" "Low,High"
textline "                               "
bitfld.long 0x00 28. " IRQS540 ,IRQS Status Bit 540" "Low,High"
bitfld.long 0x00 27. "  IRQS539 ,IRQS Status Bit 539" "Low,High"
bitfld.long 0x00 26. "  IRQS538 ,IRQS Status Bit 538" "Low,High"
textline "                               "
bitfld.long 0x00 25. " IRQS537 ,IRQS Status Bit 537" "Low,High"
bitfld.long 0x00 24. "  IRQS536 ,IRQS Status Bit 536" "Low,High"
bitfld.long 0x00 23. "  IRQS535 ,IRQS Status Bit 535" "Low,High"
textline "                               "
bitfld.long 0x00 22. " IRQS534 ,IRQS Status Bit 534" "Low,High"
bitfld.long 0x00 21. "  IRQS533 ,IRQS Status Bit 533" "Low,High"
bitfld.long 0x00 20. "  IRQS532 ,IRQS Status Bit 532" "Low,High"
textline "                               "
bitfld.long 0x00 19. " IRQS531 ,IRQS Status Bit 531" "Low,High"
bitfld.long 0x00 18. "  IRQS530 ,IRQS Status Bit 530" "Low,High"
bitfld.long 0x00 17. "  IRQS529 ,IRQS Status Bit 529" "Low,High"
textline "                               "
bitfld.long 0x00 16. " IRQS528 ,IRQS Status Bit 528" "Low,High"
bitfld.long 0x00 15. "  IRQS527 ,IRQS Status Bit 527" "Low,High"
bitfld.long 0x00 14. "  IRQS526 ,IRQS Status Bit 526" "Low,High"
textline "                               "
bitfld.long 0x00 13. " IRQS525 ,IRQS Status Bit 525" "Low,High"
bitfld.long 0x00 12. "  IRQS524 ,IRQS Status Bit 524" "Low,High"
bitfld.long 0x00 11. "  IRQS523 ,IRQS Status Bit 523" "Low,High"
textline "                               "
bitfld.long 0x00 10. " IRQS522 ,IRQS Status Bit 522" "Low,High"
bitfld.long 0x00 9. "  IRQS521 ,IRQS Status Bit 521" "Low,High"
bitfld.long 0x00 8. "  IRQS520 ,IRQS Status Bit 520" "Low,High"
textline "                               "
bitfld.long 0x00 7. " IRQS519 ,IRQS Status Bit 519" "Low,High"
bitfld.long 0x00 6. "  IRQS518 ,IRQS Status Bit 518" "Low,High"
bitfld.long 0x00 5. "  IRQS517 ,IRQS Status Bit 517" "Low,High"
textline "                               "
bitfld.long 0x00 4. " IRQS516 ,IRQS Status Bit 516" "Low,High"
bitfld.long 0x00 3. "  IRQS515 ,IRQS Status Bit 515" "Low,High"
bitfld.long 0x00 2. "  IRQS514 ,IRQS Status Bit 514" "Low,High"
textline "                               "
bitfld.long 0x00 1. " IRQS513 ,IRQS Status Bit 513" "Low,High"
bitfld.long 0x00 0. "  IRQS512 ,IRQS Status Bit 512" "Low,High"
else
hgroup.long 0x0D44++0x03
hide.long 0x0 "GICD_SPISR16,Shared Peripheral Interrupt Status Register 16"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x12)
rgroup.long 0x0D48++0x03
line.long 0x0 "GICD_SPISR17,Shared Peripheral Interrupt Status Register 17"
bitfld.long 0x00 31. " IRQS575 ,IRQS Status Bit 575" "Low,High"
bitfld.long 0x00 30. "  IRQS574 ,IRQS Status Bit 574" "Low,High"
bitfld.long 0x00 29. "  IRQS573 ,IRQS Status Bit 573" "Low,High"
textline "                               "
bitfld.long 0x00 28. " IRQS572 ,IRQS Status Bit 572" "Low,High"
bitfld.long 0x00 27. "  IRQS571 ,IRQS Status Bit 571" "Low,High"
bitfld.long 0x00 26. "  IRQS570 ,IRQS Status Bit 570" "Low,High"
textline "                               "
bitfld.long 0x00 25. " IRQS569 ,IRQS Status Bit 569" "Low,High"
bitfld.long 0x00 24. "  IRQS568 ,IRQS Status Bit 568" "Low,High"
bitfld.long 0x00 23. "  IRQS567 ,IRQS Status Bit 567" "Low,High"
textline "                               "
bitfld.long 0x00 22. " IRQS566 ,IRQS Status Bit 566" "Low,High"
bitfld.long 0x00 21. "  IRQS565 ,IRQS Status Bit 565" "Low,High"
bitfld.long 0x00 20. "  IRQS564 ,IRQS Status Bit 564" "Low,High"
textline "                               "
bitfld.long 0x00 19. " IRQS563 ,IRQS Status Bit 563" "Low,High"
bitfld.long 0x00 18. "  IRQS562 ,IRQS Status Bit 562" "Low,High"
bitfld.long 0x00 17. "  IRQS561 ,IRQS Status Bit 561" "Low,High"
textline "                               "
bitfld.long 0x00 16. " IRQS560 ,IRQS Status Bit 560" "Low,High"
bitfld.long 0x00 15. "  IRQS559 ,IRQS Status Bit 559" "Low,High"
bitfld.long 0x00 14. "  IRQS558 ,IRQS Status Bit 558" "Low,High"
textline "                               "
bitfld.long 0x00 13. " IRQS557 ,IRQS Status Bit 557" "Low,High"
bitfld.long 0x00 12. "  IRQS556 ,IRQS Status Bit 556" "Low,High"
bitfld.long 0x00 11. "  IRQS555 ,IRQS Status Bit 555" "Low,High"
textline "                               "
bitfld.long 0x00 10. " IRQS554 ,IRQS Status Bit 554" "Low,High"
bitfld.long 0x00 9. "  IRQS553 ,IRQS Status Bit 553" "Low,High"
bitfld.long 0x00 8. "  IRQS552 ,IRQS Status Bit 552" "Low,High"
textline "                               "
bitfld.long 0x00 7. " IRQS551 ,IRQS Status Bit 551" "Low,High"
bitfld.long 0x00 6. "  IRQS550 ,IRQS Status Bit 550" "Low,High"
bitfld.long 0x00 5. "  IRQS549 ,IRQS Status Bit 549" "Low,High"
textline "                               "
bitfld.long 0x00 4. " IRQS548 ,IRQS Status Bit 548" "Low,High"
bitfld.long 0x00 3. "  IRQS547 ,IRQS Status Bit 547" "Low,High"
bitfld.long 0x00 2. "  IRQS546 ,IRQS Status Bit 546" "Low,High"
textline "                               "
bitfld.long 0x00 1. " IRQS545 ,IRQS Status Bit 545" "Low,High"
bitfld.long 0x00 0. "  IRQS544 ,IRQS Status Bit 544" "Low,High"
else
hgroup.long 0x0D48++0x03
hide.long 0x0 "GICD_SPISR17,Shared Peripheral Interrupt Status Register 17"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x13)
rgroup.long 0x0D4C++0x03
line.long 0x0 "GICD_SPISR18,Shared Peripheral Interrupt Status Register 18"
bitfld.long 0x00 31. " IRQS607 ,IRQS Status Bit 607" "Low,High"
bitfld.long 0x00 30. "  IRQS606 ,IRQS Status Bit 606" "Low,High"
bitfld.long 0x00 29. "  IRQS605 ,IRQS Status Bit 605" "Low,High"
textline "                               "
bitfld.long 0x00 28. " IRQS604 ,IRQS Status Bit 604" "Low,High"
bitfld.long 0x00 27. "  IRQS603 ,IRQS Status Bit 603" "Low,High"
bitfld.long 0x00 26. "  IRQS602 ,IRQS Status Bit 602" "Low,High"
textline "                               "
bitfld.long 0x00 25. " IRQS601 ,IRQS Status Bit 601" "Low,High"
bitfld.long 0x00 24. "  IRQS600 ,IRQS Status Bit 600" "Low,High"
bitfld.long 0x00 23. "  IRQS599 ,IRQS Status Bit 599" "Low,High"
textline "                               "
bitfld.long 0x00 22. " IRQS598 ,IRQS Status Bit 598" "Low,High"
bitfld.long 0x00 21. "  IRQS597 ,IRQS Status Bit 597" "Low,High"
bitfld.long 0x00 20. "  IRQS596 ,IRQS Status Bit 596" "Low,High"
textline "                               "
bitfld.long 0x00 19. " IRQS595 ,IRQS Status Bit 595" "Low,High"
bitfld.long 0x00 18. "  IRQS594 ,IRQS Status Bit 594" "Low,High"
bitfld.long 0x00 17. "  IRQS593 ,IRQS Status Bit 593" "Low,High"
textline "                               "
bitfld.long 0x00 16. " IRQS592 ,IRQS Status Bit 592" "Low,High"
bitfld.long 0x00 15. "  IRQS591 ,IRQS Status Bit 591" "Low,High"
bitfld.long 0x00 14. "  IRQS590 ,IRQS Status Bit 590" "Low,High"
textline "                               "
bitfld.long 0x00 13. " IRQS589 ,IRQS Status Bit 589" "Low,High"
bitfld.long 0x00 12. "  IRQS588 ,IRQS Status Bit 588" "Low,High"
bitfld.long 0x00 11. "  IRQS587 ,IRQS Status Bit 587" "Low,High"
textline "                               "
bitfld.long 0x00 10. " IRQS586 ,IRQS Status Bit 586" "Low,High"
bitfld.long 0x00 9. "  IRQS585 ,IRQS Status Bit 585" "Low,High"
bitfld.long 0x00 8. "  IRQS584 ,IRQS Status Bit 584" "Low,High"
textline "                               "
bitfld.long 0x00 7. " IRQS583 ,IRQS Status Bit 583" "Low,High"
bitfld.long 0x00 6. "  IRQS582 ,IRQS Status Bit 582" "Low,High"
bitfld.long 0x00 5. "  IRQS581 ,IRQS Status Bit 581" "Low,High"
textline "                               "
bitfld.long 0x00 4. " IRQS580 ,IRQS Status Bit 580" "Low,High"
bitfld.long 0x00 3. "  IRQS579 ,IRQS Status Bit 579" "Low,High"
bitfld.long 0x00 2. "  IRQS578 ,IRQS Status Bit 578" "Low,High"
textline "                               "
bitfld.long 0x00 1. " IRQS577 ,IRQS Status Bit 577" "Low,High"
bitfld.long 0x00 0. "  IRQS576 ,IRQS Status Bit 576" "Low,High"
else
hgroup.long 0x0D4C++0x03
hide.long 0x0 "GICD_SPISR18,Shared Peripheral Interrupt Status Register 18"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x14)
rgroup.long 0x0D50++0x03
line.long 0x0 "GICD_SPISR19,Shared Peripheral Interrupt Status Register 19"
bitfld.long 0x00 31. " IRQS639 ,IRQS Status Bit 639" "Low,High"
bitfld.long 0x00 30. "  IRQS638 ,IRQS Status Bit 638" "Low,High"
bitfld.long 0x00 29. "  IRQS637 ,IRQS Status Bit 637" "Low,High"
textline "                               "
bitfld.long 0x00 28. " IRQS636 ,IRQS Status Bit 636" "Low,High"
bitfld.long 0x00 27. "  IRQS635 ,IRQS Status Bit 635" "Low,High"
bitfld.long 0x00 26. "  IRQS634 ,IRQS Status Bit 634" "Low,High"
textline "                               "
bitfld.long 0x00 25. " IRQS633 ,IRQS Status Bit 633" "Low,High"
bitfld.long 0x00 24. "  IRQS632 ,IRQS Status Bit 632" "Low,High"
bitfld.long 0x00 23. "  IRQS631 ,IRQS Status Bit 631" "Low,High"
textline "                               "
bitfld.long 0x00 22. " IRQS630 ,IRQS Status Bit 630" "Low,High"
bitfld.long 0x00 21. "  IRQS629 ,IRQS Status Bit 629" "Low,High"
bitfld.long 0x00 20. "  IRQS628 ,IRQS Status Bit 628" "Low,High"
textline "                               "
bitfld.long 0x00 19. " IRQS627 ,IRQS Status Bit 627" "Low,High"
bitfld.long 0x00 18. "  IRQS626 ,IRQS Status Bit 626" "Low,High"
bitfld.long 0x00 17. "  IRQS625 ,IRQS Status Bit 625" "Low,High"
textline "                               "
bitfld.long 0x00 16. " IRQS624 ,IRQS Status Bit 624" "Low,High"
bitfld.long 0x00 15. "  IRQS623 ,IRQS Status Bit 623" "Low,High"
bitfld.long 0x00 14. "  IRQS622 ,IRQS Status Bit 622" "Low,High"
textline "                               "
bitfld.long 0x00 13. " IRQS621 ,IRQS Status Bit 621" "Low,High"
bitfld.long 0x00 12. "  IRQS620 ,IRQS Status Bit 620" "Low,High"
bitfld.long 0x00 11. "  IRQS619 ,IRQS Status Bit 619" "Low,High"
textline "                               "
bitfld.long 0x00 10. " IRQS618 ,IRQS Status Bit 618" "Low,High"
bitfld.long 0x00 9. "  IRQS617 ,IRQS Status Bit 617" "Low,High"
bitfld.long 0x00 8. "  IRQS616 ,IRQS Status Bit 616" "Low,High"
textline "                               "
bitfld.long 0x00 7. " IRQS615 ,IRQS Status Bit 615" "Low,High"
bitfld.long 0x00 6. "  IRQS614 ,IRQS Status Bit 614" "Low,High"
bitfld.long 0x00 5. "  IRQS613 ,IRQS Status Bit 613" "Low,High"
textline "                               "
bitfld.long 0x00 4. " IRQS612 ,IRQS Status Bit 612" "Low,High"
bitfld.long 0x00 3. "  IRQS611 ,IRQS Status Bit 611" "Low,High"
bitfld.long 0x00 2. "  IRQS610 ,IRQS Status Bit 610" "Low,High"
textline "                               "
bitfld.long 0x00 1. " IRQS609 ,IRQS Status Bit 609" "Low,High"
bitfld.long 0x00 0. "  IRQS608 ,IRQS Status Bit 608" "Low,High"
else
hgroup.long 0x0D50++0x03
hide.long 0x0 "GICD_SPISR19,Shared Peripheral Interrupt Status Register 19"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x15)
rgroup.long 0x0D54++0x03
line.long 0x0 "GICD_SPISR20,Shared Peripheral Interrupt Status Register 20"
bitfld.long 0x00 31. " IRQS671 ,IRQS Status Bit 671" "Low,High"
bitfld.long 0x00 30. "  IRQS670 ,IRQS Status Bit 670" "Low,High"
bitfld.long 0x00 29. "  IRQS669 ,IRQS Status Bit 669" "Low,High"
textline "                               "
bitfld.long 0x00 28. " IRQS668 ,IRQS Status Bit 668" "Low,High"
bitfld.long 0x00 27. "  IRQS667 ,IRQS Status Bit 667" "Low,High"
bitfld.long 0x00 26. "  IRQS666 ,IRQS Status Bit 666" "Low,High"
textline "                               "
bitfld.long 0x00 25. " IRQS665 ,IRQS Status Bit 665" "Low,High"
bitfld.long 0x00 24. "  IRQS664 ,IRQS Status Bit 664" "Low,High"
bitfld.long 0x00 23. "  IRQS663 ,IRQS Status Bit 663" "Low,High"
textline "                               "
bitfld.long 0x00 22. " IRQS662 ,IRQS Status Bit 662" "Low,High"
bitfld.long 0x00 21. "  IRQS661 ,IRQS Status Bit 661" "Low,High"
bitfld.long 0x00 20. "  IRQS660 ,IRQS Status Bit 660" "Low,High"
textline "                               "
bitfld.long 0x00 19. " IRQS659 ,IRQS Status Bit 659" "Low,High"
bitfld.long 0x00 18. "  IRQS658 ,IRQS Status Bit 658" "Low,High"
bitfld.long 0x00 17. "  IRQS657 ,IRQS Status Bit 657" "Low,High"
textline "                               "
bitfld.long 0x00 16. " IRQS656 ,IRQS Status Bit 656" "Low,High"
bitfld.long 0x00 15. "  IRQS655 ,IRQS Status Bit 655" "Low,High"
bitfld.long 0x00 14. "  IRQS654 ,IRQS Status Bit 654" "Low,High"
textline "                               "
bitfld.long 0x00 13. " IRQS653 ,IRQS Status Bit 653" "Low,High"
bitfld.long 0x00 12. "  IRQS652 ,IRQS Status Bit 652" "Low,High"
bitfld.long 0x00 11. "  IRQS651 ,IRQS Status Bit 651" "Low,High"
textline "                               "
bitfld.long 0x00 10. " IRQS650 ,IRQS Status Bit 650" "Low,High"
bitfld.long 0x00 9. "  IRQS649 ,IRQS Status Bit 649" "Low,High"
bitfld.long 0x00 8. "  IRQS648 ,IRQS Status Bit 648" "Low,High"
textline "                               "
bitfld.long 0x00 7. " IRQS647 ,IRQS Status Bit 647" "Low,High"
bitfld.long 0x00 6. "  IRQS646 ,IRQS Status Bit 646" "Low,High"
bitfld.long 0x00 5. "  IRQS645 ,IRQS Status Bit 645" "Low,High"
textline "                               "
bitfld.long 0x00 4. " IRQS644 ,IRQS Status Bit 644" "Low,High"
bitfld.long 0x00 3. "  IRQS643 ,IRQS Status Bit 643" "Low,High"
bitfld.long 0x00 2. "  IRQS642 ,IRQS Status Bit 642" "Low,High"
textline "                               "
bitfld.long 0x00 1. " IRQS641 ,IRQS Status Bit 641" "Low,High"
bitfld.long 0x00 0. "  IRQS640 ,IRQS Status Bit 640" "Low,High"
else
hgroup.long 0x0D54++0x03
hide.long 0x0 "GICD_SPISR20,Shared Peripheral Interrupt Status Register 20"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x16)
rgroup.long 0x0D58++0x03
line.long 0x0 "GICD_SPISR21,Shared Peripheral Interrupt Status Register 21"
bitfld.long 0x00 31. " IRQS703 ,IRQS Status Bit 703" "Low,High"
bitfld.long 0x00 30. "  IRQS702 ,IRQS Status Bit 702" "Low,High"
bitfld.long 0x00 29. "  IRQS701 ,IRQS Status Bit 701" "Low,High"
textline "                               "
bitfld.long 0x00 28. " IRQS700 ,IRQS Status Bit 700" "Low,High"
bitfld.long 0x00 27. "  IRQS699 ,IRQS Status Bit 699" "Low,High"
bitfld.long 0x00 26. "  IRQS698 ,IRQS Status Bit 698" "Low,High"
textline "                               "
bitfld.long 0x00 25. " IRQS697 ,IRQS Status Bit 697" "Low,High"
bitfld.long 0x00 24. "  IRQS696 ,IRQS Status Bit 696" "Low,High"
bitfld.long 0x00 23. "  IRQS695 ,IRQS Status Bit 695" "Low,High"
textline "                               "
bitfld.long 0x00 22. " IRQS694 ,IRQS Status Bit 694" "Low,High"
bitfld.long 0x00 21. "  IRQS693 ,IRQS Status Bit 693" "Low,High"
bitfld.long 0x00 20. "  IRQS692 ,IRQS Status Bit 692" "Low,High"
textline "                               "
bitfld.long 0x00 19. " IRQS691 ,IRQS Status Bit 691" "Low,High"
bitfld.long 0x00 18. "  IRQS690 ,IRQS Status Bit 690" "Low,High"
bitfld.long 0x00 17. "  IRQS689 ,IRQS Status Bit 689" "Low,High"
textline "                               "
bitfld.long 0x00 16. " IRQS688 ,IRQS Status Bit 688" "Low,High"
bitfld.long 0x00 15. "  IRQS687 ,IRQS Status Bit 687" "Low,High"
bitfld.long 0x00 14. "  IRQS686 ,IRQS Status Bit 686" "Low,High"
textline "                               "
bitfld.long 0x00 13. " IRQS685 ,IRQS Status Bit 685" "Low,High"
bitfld.long 0x00 12. "  IRQS684 ,IRQS Status Bit 684" "Low,High"
bitfld.long 0x00 11. "  IRQS683 ,IRQS Status Bit 683" "Low,High"
textline "                               "
bitfld.long 0x00 10. " IRQS682 ,IRQS Status Bit 682" "Low,High"
bitfld.long 0x00 9. "  IRQS681 ,IRQS Status Bit 681" "Low,High"
bitfld.long 0x00 8. "  IRQS680 ,IRQS Status Bit 680" "Low,High"
textline "                               "
bitfld.long 0x00 7. " IRQS679 ,IRQS Status Bit 679" "Low,High"
bitfld.long 0x00 6. "  IRQS678 ,IRQS Status Bit 678" "Low,High"
bitfld.long 0x00 5. "  IRQS677 ,IRQS Status Bit 677" "Low,High"
textline "                               "
bitfld.long 0x00 4. " IRQS676 ,IRQS Status Bit 676" "Low,High"
bitfld.long 0x00 3. "  IRQS675 ,IRQS Status Bit 675" "Low,High"
bitfld.long 0x00 2. "  IRQS674 ,IRQS Status Bit 674" "Low,High"
textline "                               "
bitfld.long 0x00 1. " IRQS673 ,IRQS Status Bit 673" "Low,High"
bitfld.long 0x00 0. "  IRQS672 ,IRQS Status Bit 672" "Low,High"
else
hgroup.long 0x0D58++0x03
hide.long 0x0 "GICD_SPISR21,Shared Peripheral Interrupt Status Register 21"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x17)
rgroup.long 0x0D5C++0x03
line.long 0x0 "GICD_SPISR22,Shared Peripheral Interrupt Status Register 22"
bitfld.long 0x00 31. " IRQS735 ,IRQS Status Bit 735" "Low,High"
bitfld.long 0x00 30. "  IRQS734 ,IRQS Status Bit 734" "Low,High"
bitfld.long 0x00 29. "  IRQS733 ,IRQS Status Bit 733" "Low,High"
textline "                               "
bitfld.long 0x00 28. " IRQS732 ,IRQS Status Bit 732" "Low,High"
bitfld.long 0x00 27. "  IRQS731 ,IRQS Status Bit 731" "Low,High"
bitfld.long 0x00 26. "  IRQS730 ,IRQS Status Bit 730" "Low,High"
textline "                               "
bitfld.long 0x00 25. " IRQS729 ,IRQS Status Bit 729" "Low,High"
bitfld.long 0x00 24. "  IRQS728 ,IRQS Status Bit 728" "Low,High"
bitfld.long 0x00 23. "  IRQS727 ,IRQS Status Bit 727" "Low,High"
textline "                               "
bitfld.long 0x00 22. " IRQS726 ,IRQS Status Bit 726" "Low,High"
bitfld.long 0x00 21. "  IRQS725 ,IRQS Status Bit 725" "Low,High"
bitfld.long 0x00 20. "  IRQS724 ,IRQS Status Bit 724" "Low,High"
textline "                               "
bitfld.long 0x00 19. " IRQS723 ,IRQS Status Bit 723" "Low,High"
bitfld.long 0x00 18. "  IRQS722 ,IRQS Status Bit 722" "Low,High"
bitfld.long 0x00 17. "  IRQS721 ,IRQS Status Bit 721" "Low,High"
textline "                               "
bitfld.long 0x00 16. " IRQS720 ,IRQS Status Bit 720" "Low,High"
bitfld.long 0x00 15. "  IRQS719 ,IRQS Status Bit 719" "Low,High"
bitfld.long 0x00 14. "  IRQS718 ,IRQS Status Bit 718" "Low,High"
textline "                               "
bitfld.long 0x00 13. " IRQS717 ,IRQS Status Bit 717" "Low,High"
bitfld.long 0x00 12. "  IRQS716 ,IRQS Status Bit 716" "Low,High"
bitfld.long 0x00 11. "  IRQS715 ,IRQS Status Bit 715" "Low,High"
textline "                               "
bitfld.long 0x00 10. " IRQS714 ,IRQS Status Bit 714" "Low,High"
bitfld.long 0x00 9. "  IRQS713 ,IRQS Status Bit 713" "Low,High"
bitfld.long 0x00 8. "  IRQS712 ,IRQS Status Bit 712" "Low,High"
textline "                               "
bitfld.long 0x00 7. " IRQS711 ,IRQS Status Bit 711" "Low,High"
bitfld.long 0x00 6. "  IRQS710 ,IRQS Status Bit 710" "Low,High"
bitfld.long 0x00 5. "  IRQS709 ,IRQS Status Bit 709" "Low,High"
textline "                               "
bitfld.long 0x00 4. " IRQS708 ,IRQS Status Bit 708" "Low,High"
bitfld.long 0x00 3. "  IRQS707 ,IRQS Status Bit 707" "Low,High"
bitfld.long 0x00 2. "  IRQS706 ,IRQS Status Bit 706" "Low,High"
textline "                               "
bitfld.long 0x00 1. " IRQS705 ,IRQS Status Bit 705" "Low,High"
bitfld.long 0x00 0. "  IRQS704 ,IRQS Status Bit 704" "Low,High"
else
hgroup.long 0x0D5C++0x03
hide.long 0x0 "GICD_SPISR22,Shared Peripheral Interrupt Status Register 22"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x18)
rgroup.long 0x060++0x03
line.long 0x0 "GICD_SPISR23,Shared Peripheral Interrupt Status Register 23"
bitfld.long 0x00 31. " IRQS767 ,IRQS Status Bit 767" "Low,High"
bitfld.long 0x00 30. "  IRQS766 ,IRQS Status Bit 766" "Low,High"
bitfld.long 0x00 29. "  IRQS765 ,IRQS Status Bit 765" "Low,High"
textline "                               "
bitfld.long 0x00 28. " IRQS764 ,IRQS Status Bit 764" "Low,High"
bitfld.long 0x00 27. "  IRQS763 ,IRQS Status Bit 763" "Low,High"
bitfld.long 0x00 26. "  IRQS762 ,IRQS Status Bit 762" "Low,High"
textline "                               "
bitfld.long 0x00 25. " IRQS761 ,IRQS Status Bit 761" "Low,High"
bitfld.long 0x00 24. "  IRQS760 ,IRQS Status Bit 760" "Low,High"
bitfld.long 0x00 23. "  IRQS759 ,IRQS Status Bit 759" "Low,High"
textline "                               "
bitfld.long 0x00 22. " IRQS758 ,IRQS Status Bit 758" "Low,High"
bitfld.long 0x00 21. "  IRQS757 ,IRQS Status Bit 757" "Low,High"
bitfld.long 0x00 20. "  IRQS756 ,IRQS Status Bit 756" "Low,High"
textline "                               "
bitfld.long 0x00 19. " IRQS755 ,IRQS Status Bit 755" "Low,High"
bitfld.long 0x00 18. "  IRQS754 ,IRQS Status Bit 754" "Low,High"
bitfld.long 0x00 17. "  IRQS753 ,IRQS Status Bit 753" "Low,High"
textline "                               "
bitfld.long 0x00 16. " IRQS752 ,IRQS Status Bit 752" "Low,High"
bitfld.long 0x00 15. "  IRQS751 ,IRQS Status Bit 751" "Low,High"
bitfld.long 0x00 14. "  IRQS750 ,IRQS Status Bit 750" "Low,High"
textline "                               "
bitfld.long 0x00 13. " IRQS749 ,IRQS Status Bit 749" "Low,High"
bitfld.long 0x00 12. "  IRQS748 ,IRQS Status Bit 748" "Low,High"
bitfld.long 0x00 11. "  IRQS747 ,IRQS Status Bit 747" "Low,High"
textline "                               "
bitfld.long 0x00 10. " IRQS746 ,IRQS Status Bit 746" "Low,High"
bitfld.long 0x00 9. "  IRQS745 ,IRQS Status Bit 745" "Low,High"
bitfld.long 0x00 8. "  IRQS744 ,IRQS Status Bit 744" "Low,High"
textline "                               "
bitfld.long 0x00 7. " IRQS743 ,IRQS Status Bit 743" "Low,High"
bitfld.long 0x00 6. "  IRQS742 ,IRQS Status Bit 742" "Low,High"
bitfld.long 0x00 5. "  IRQS741 ,IRQS Status Bit 741" "Low,High"
textline "                               "
bitfld.long 0x00 4. " IRQS740 ,IRQS Status Bit 740" "Low,High"
bitfld.long 0x00 3. "  IRQS739 ,IRQS Status Bit 739" "Low,High"
bitfld.long 0x00 2. "  IRQS738 ,IRQS Status Bit 738" "Low,High"
textline "                               "
bitfld.long 0x00 1. " IRQS737 ,IRQS Status Bit 737" "Low,High"
bitfld.long 0x00 0. "  IRQS736 ,IRQS Status Bit 736" "Low,High"
else
hgroup.long 0x0D60++0x03
hide.long 0x0 "GICD_SPISR23,Shared Peripheral Interrupt Status Register 23"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x19)
rgroup.long 0x0D64++0x03
line.long 0x0 "GICD_SPISR24,Shared Peripheral Interrupt Status Register 24"
bitfld.long 0x00 31. " IRQS799 ,IRQS Status Bit 799" "Low,High"
bitfld.long 0x00 30. "  IRQS798 ,IRQS Status Bit 798" "Low,High"
bitfld.long 0x00 29. "  IRQS797 ,IRQS Status Bit 797" "Low,High"
textline "                               "
bitfld.long 0x00 28. " IRQS796 ,IRQS Status Bit 796" "Low,High"
bitfld.long 0x00 27. "  IRQS795 ,IRQS Status Bit 795" "Low,High"
bitfld.long 0x00 26. "  IRQS794 ,IRQS Status Bit 794" "Low,High"
textline "                               "
bitfld.long 0x00 25. " IRQS793 ,IRQS Status Bit 793" "Low,High"
bitfld.long 0x00 24. "  IRQS792 ,IRQS Status Bit 792" "Low,High"
bitfld.long 0x00 23. "  IRQS791 ,IRQS Status Bit 791" "Low,High"
textline "                               "
bitfld.long 0x00 22. " IRQS790 ,IRQS Status Bit 790" "Low,High"
bitfld.long 0x00 21. "  IRQS789 ,IRQS Status Bit 789" "Low,High"
bitfld.long 0x00 20. "  IRQS788 ,IRQS Status Bit 788" "Low,High"
textline "                               "
bitfld.long 0x00 19. " IRQS787 ,IRQS Status Bit 787" "Low,High"
bitfld.long 0x00 18. "  IRQS786 ,IRQS Status Bit 786" "Low,High"
bitfld.long 0x00 17. "  IRQS785 ,IRQS Status Bit 785" "Low,High"
textline "                               "
bitfld.long 0x00 16. " IRQS784 ,IRQS Status Bit 784" "Low,High"
bitfld.long 0x00 15. "  IRQS783 ,IRQS Status Bit 783" "Low,High"
bitfld.long 0x00 14. "  IRQS782 ,IRQS Status Bit 782" "Low,High"
textline "                               "
bitfld.long 0x00 13. " IRQS781 ,IRQS Status Bit 781" "Low,High"
bitfld.long 0x00 12. "  IRQS780 ,IRQS Status Bit 780" "Low,High"
bitfld.long 0x00 11. "  IRQS779 ,IRQS Status Bit 779" "Low,High"
textline "                               "
bitfld.long 0x00 10. " IRQS778 ,IRQS Status Bit 778" "Low,High"
bitfld.long 0x00 9. "  IRQS777 ,IRQS Status Bit 777" "Low,High"
bitfld.long 0x00 8. "  IRQS776 ,IRQS Status Bit 776" "Low,High"
textline "                               "
bitfld.long 0x00 7. " IRQS775 ,IRQS Status Bit 775" "Low,High"
bitfld.long 0x00 6. "  IRQS774 ,IRQS Status Bit 774" "Low,High"
bitfld.long 0x00 5. "  IRQS773 ,IRQS Status Bit 773" "Low,High"
textline "                               "
bitfld.long 0x00 4. " IRQS772 ,IRQS Status Bit 772" "Low,High"
bitfld.long 0x00 3. "  IRQS771 ,IRQS Status Bit 771" "Low,High"
bitfld.long 0x00 2. "  IRQS770 ,IRQS Status Bit 770" "Low,High"
textline "                               "
bitfld.long 0x00 1. " IRQS769 ,IRQS Status Bit 769" "Low,High"
bitfld.long 0x00 0. "  IRQS768 ,IRQS Status Bit 768" "Low,High"
else
hgroup.long 0x0D64++0x03
hide.long 0x0 "GICD_SPISR24,Shared Peripheral Interrupt Status Register 24"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1A)
rgroup.long 0x0D68++0x03
line.long 0x0 "GICD_SPISR25,Shared Peripheral Interrupt Status Register 25"
bitfld.long 0x00 31. " IRQS831 ,IRQS Status Bit 831" "Low,High"
bitfld.long 0x00 30. "  IRQS830 ,IRQS Status Bit 830" "Low,High"
bitfld.long 0x00 29. "  IRQS829 ,IRQS Status Bit 829" "Low,High"
textline "                               "
bitfld.long 0x00 28. " IRQS828 ,IRQS Status Bit 828" "Low,High"
bitfld.long 0x00 27. "  IRQS827 ,IRQS Status Bit 827" "Low,High"
bitfld.long 0x00 26. "  IRQS826 ,IRQS Status Bit 826" "Low,High"
textline "                               "
bitfld.long 0x00 25. " IRQS825 ,IRQS Status Bit 825" "Low,High"
bitfld.long 0x00 24. "  IRQS824 ,IRQS Status Bit 824" "Low,High"
bitfld.long 0x00 23. "  IRQS823 ,IRQS Status Bit 823" "Low,High"
textline "                               "
bitfld.long 0x00 22. " IRQS822 ,IRQS Status Bit 822" "Low,High"
bitfld.long 0x00 21. "  IRQS821 ,IRQS Status Bit 821" "Low,High"
bitfld.long 0x00 20. "  IRQS820 ,IRQS Status Bit 820" "Low,High"
textline "                               "
bitfld.long 0x00 19. " IRQS819 ,IRQS Status Bit 819" "Low,High"
bitfld.long 0x00 18. "  IRQS818 ,IRQS Status Bit 818" "Low,High"
bitfld.long 0x00 17. "  IRQS817 ,IRQS Status Bit 817" "Low,High"
textline "                               "
bitfld.long 0x00 16. " IRQS816 ,IRQS Status Bit 816" "Low,High"
bitfld.long 0x00 15. "  IRQS815 ,IRQS Status Bit 815" "Low,High"
bitfld.long 0x00 14. "  IRQS814 ,IRQS Status Bit 814" "Low,High"
textline "                               "
bitfld.long 0x00 13. " IRQS813 ,IRQS Status Bit 813" "Low,High"
bitfld.long 0x00 12. "  IRQS812 ,IRQS Status Bit 812" "Low,High"
bitfld.long 0x00 11. "  IRQS811 ,IRQS Status Bit 811" "Low,High"
textline "                               "
bitfld.long 0x00 10. " IRQS810 ,IRQS Status Bit 810" "Low,High"
bitfld.long 0x00 9. "  IRQS809 ,IRQS Status Bit 809" "Low,High"
bitfld.long 0x00 8. "  IRQS808 ,IRQS Status Bit 808" "Low,High"
textline "                               "
bitfld.long 0x00 7. " IRQS807 ,IRQS Status Bit 807" "Low,High"
bitfld.long 0x00 6. "  IRQS806 ,IRQS Status Bit 806" "Low,High"
bitfld.long 0x00 5. "  IRQS805 ,IRQS Status Bit 805" "Low,High"
textline "                               "
bitfld.long 0x00 4. " IRQS804 ,IRQS Status Bit 804" "Low,High"
bitfld.long 0x00 3. "  IRQS803 ,IRQS Status Bit 803" "Low,High"
bitfld.long 0x00 2. "  IRQS802 ,IRQS Status Bit 802" "Low,High"
textline "                               "
bitfld.long 0x00 1. " IRQS801 ,IRQS Status Bit 801" "Low,High"
bitfld.long 0x00 0. "  IRQS800 ,IRQS Status Bit 800" "Low,High"
else
hgroup.long 0x0D68++0x03
hide.long 0x0 "GICD_SPISR25,Shared Peripheral Interrupt Status Register 25"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1B)
rgroup.long 0x0D6C++0x03
line.long 0x0 "GICD_SPISR26,Shared Peripheral Interrupt Status Register 26"
bitfld.long 0x00 31. " IRQS863 ,IRQS Status Bit 863" "Low,High"
bitfld.long 0x00 30. "  IRQS862 ,IRQS Status Bit 862" "Low,High"
bitfld.long 0x00 29. "  IRQS861 ,IRQS Status Bit 861" "Low,High"
textline "                               "
bitfld.long 0x00 28. " IRQS860 ,IRQS Status Bit 860" "Low,High"
bitfld.long 0x00 27. "  IRQS859 ,IRQS Status Bit 859" "Low,High"
bitfld.long 0x00 26. "  IRQS858 ,IRQS Status Bit 858" "Low,High"
textline "                               "
bitfld.long 0x00 25. " IRQS857 ,IRQS Status Bit 857" "Low,High"
bitfld.long 0x00 24. "  IRQS856 ,IRQS Status Bit 856" "Low,High"
bitfld.long 0x00 23. "  IRQS855 ,IRQS Status Bit 855" "Low,High"
textline "                               "
bitfld.long 0x00 22. " IRQS854 ,IRQS Status Bit 854" "Low,High"
bitfld.long 0x00 21. "  IRQS853 ,IRQS Status Bit 853" "Low,High"
bitfld.long 0x00 20. "  IRQS852 ,IRQS Status Bit 852" "Low,High"
textline "                               "
bitfld.long 0x00 19. " IRQS851 ,IRQS Status Bit 851" "Low,High"
bitfld.long 0x00 18. "  IRQS850 ,IRQS Status Bit 850" "Low,High"
bitfld.long 0x00 17. "  IRQS849 ,IRQS Status Bit 849" "Low,High"
textline "                               "
bitfld.long 0x00 16. " IRQS848 ,IRQS Status Bit 848" "Low,High"
bitfld.long 0x00 15. "  IRQS847 ,IRQS Status Bit 847" "Low,High"
bitfld.long 0x00 14. "  IRQS846 ,IRQS Status Bit 846" "Low,High"
textline "                               "
bitfld.long 0x00 13. " IRQS845 ,IRQS Status Bit 845" "Low,High"
bitfld.long 0x00 12. "  IRQS844 ,IRQS Status Bit 844" "Low,High"
bitfld.long 0x00 11. "  IRQS843 ,IRQS Status Bit 843" "Low,High"
textline "                               "
bitfld.long 0x00 10. " IRQS842 ,IRQS Status Bit 842" "Low,High"
bitfld.long 0x00 9. "  IRQS841 ,IRQS Status Bit 841" "Low,High"
bitfld.long 0x00 8. "  IRQS840 ,IRQS Status Bit 840" "Low,High"
textline "                               "
bitfld.long 0x00 7. " IRQS839 ,IRQS Status Bit 839" "Low,High"
bitfld.long 0x00 6. "  IRQS838 ,IRQS Status Bit 838" "Low,High"
bitfld.long 0x00 5. "  IRQS837 ,IRQS Status Bit 837" "Low,High"
textline "                               "
bitfld.long 0x00 4. " IRQS836 ,IRQS Status Bit 836" "Low,High"
bitfld.long 0x00 3. "  IRQS835 ,IRQS Status Bit 835" "Low,High"
bitfld.long 0x00 2. "  IRQS834 ,IRQS Status Bit 834" "Low,High"
textline "                               "
bitfld.long 0x00 1. " IRQS833 ,IRQS Status Bit 833" "Low,High"
bitfld.long 0x00 0. "  IRQS832 ,IRQS Status Bit 832" "Low,High"
else
hgroup.long 0x0D6C++0x03
hide.long 0x0 "GICD_SPISR26,Shared Peripheral Interrupt Status Register 26"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1C)
rgroup.long 0x0D70++0x03
line.long 0x0 "GICD_SPISR27,Shared Peripheral Interrupt Status Register 27"
bitfld.long 0x00 31. " IRQS895 ,IRQS Status Bit 895" "Low,High"
bitfld.long 0x00 30. "  IRQS894 ,IRQS Status Bit 894" "Low,High"
bitfld.long 0x00 29. "  IRQS893 ,IRQS Status Bit 893" "Low,High"
textline "                               "
bitfld.long 0x00 28. " IRQS892 ,IRQS Status Bit 892" "Low,High"
bitfld.long 0x00 27. "  IRQS891 ,IRQS Status Bit 891" "Low,High"
bitfld.long 0x00 26. "  IRQS890 ,IRQS Status Bit 890" "Low,High"
textline "                               "
bitfld.long 0x00 25. " IRQS889 ,IRQS Status Bit 889" "Low,High"
bitfld.long 0x00 24. "  IRQS888 ,IRQS Status Bit 888" "Low,High"
bitfld.long 0x00 23. "  IRQS887 ,IRQS Status Bit 887" "Low,High"
textline "                               "
bitfld.long 0x00 22. " IRQS886 ,IRQS Status Bit 886" "Low,High"
bitfld.long 0x00 21. "  IRQS885 ,IRQS Status Bit 885" "Low,High"
bitfld.long 0x00 20. "  IRQS884 ,IRQS Status Bit 884" "Low,High"
textline "                               "
bitfld.long 0x00 19. " IRQS883 ,IRQS Status Bit 883" "Low,High"
bitfld.long 0x00 18. "  IRQS882 ,IRQS Status Bit 882" "Low,High"
bitfld.long 0x00 17. "  IRQS881 ,IRQS Status Bit 881" "Low,High"
textline "                               "
bitfld.long 0x00 16. " IRQS880 ,IRQS Status Bit 880" "Low,High"
bitfld.long 0x00 15. "  IRQS879 ,IRQS Status Bit 879" "Low,High"
bitfld.long 0x00 14. "  IRQS878 ,IRQS Status Bit 878" "Low,High"
textline "                               "
bitfld.long 0x00 13. " IRQS877 ,IRQS Status Bit 877" "Low,High"
bitfld.long 0x00 12. "  IRQS876 ,IRQS Status Bit 876" "Low,High"
bitfld.long 0x00 11. "  IRQS875 ,IRQS Status Bit 875" "Low,High"
textline "                               "
bitfld.long 0x00 10. " IRQS874 ,IRQS Status Bit 874" "Low,High"
bitfld.long 0x00 9. "  IRQS873 ,IRQS Status Bit 873" "Low,High"
bitfld.long 0x00 8. "  IRQS872 ,IRQS Status Bit 872" "Low,High"
textline "                               "
bitfld.long 0x00 7. " IRQS871 ,IRQS Status Bit 871" "Low,High"
bitfld.long 0x00 6. "  IRQS870 ,IRQS Status Bit 870" "Low,High"
bitfld.long 0x00 5. "  IRQS869 ,IRQS Status Bit 869" "Low,High"
textline "                               "
bitfld.long 0x00 4. " IRQS868 ,IRQS Status Bit 868" "Low,High"
bitfld.long 0x00 3. "  IRQS867 ,IRQS Status Bit 867" "Low,High"
bitfld.long 0x00 2. "  IRQS866 ,IRQS Status Bit 866" "Low,High"
textline "                               "
bitfld.long 0x00 1. " IRQS865 ,IRQS Status Bit 865" "Low,High"
bitfld.long 0x00 0. "  IRQS864 ,IRQS Status Bit 864" "Low,High"
else
hgroup.long 0x0D70++0x03
hide.long 0x0 "GICD_SPISR27,Shared Peripheral Interrupt Status Register 27"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1D)
rgroup.long 0x0D74++0x03
line.long 0x0 "GICD_SPISR28,Shared Peripheral Interrupt Status Register 28"
bitfld.long 0x00 31. " IRQS927 ,IRQS Status Bit 927" "Low,High"
bitfld.long 0x00 30. "  IRQS926 ,IRQS Status Bit 926" "Low,High"
bitfld.long 0x00 29. "  IRQS925 ,IRQS Status Bit 925" "Low,High"
textline "                               "
bitfld.long 0x00 28. " IRQS924 ,IRQS Status Bit 924" "Low,High"
bitfld.long 0x00 27. "  IRQS923 ,IRQS Status Bit 923" "Low,High"
bitfld.long 0x00 26. "  IRQS922 ,IRQS Status Bit 922" "Low,High"
textline "                               "
bitfld.long 0x00 25. " IRQS921 ,IRQS Status Bit 921" "Low,High"
bitfld.long 0x00 24. "  IRQS920 ,IRQS Status Bit 920" "Low,High"
bitfld.long 0x00 23. "  IRQS919 ,IRQS Status Bit 919" "Low,High"
textline "                               "
bitfld.long 0x00 22. " IRQS918 ,IRQS Status Bit 918" "Low,High"
bitfld.long 0x00 21. "  IRQS917 ,IRQS Status Bit 917" "Low,High"
bitfld.long 0x00 20. "  IRQS916 ,IRQS Status Bit 916" "Low,High"
textline "                               "
bitfld.long 0x00 19. " IRQS915 ,IRQS Status Bit 915" "Low,High"
bitfld.long 0x00 18. "  IRQS914 ,IRQS Status Bit 914" "Low,High"
bitfld.long 0x00 17. "  IRQS913 ,IRQS Status Bit 913" "Low,High"
textline "                               "
bitfld.long 0x00 16. " IRQS912 ,IRQS Status Bit 912" "Low,High"
bitfld.long 0x00 15. "  IRQS911 ,IRQS Status Bit 911" "Low,High"
bitfld.long 0x00 14. "  IRQS910 ,IRQS Status Bit 910" "Low,High"
textline "                               "
bitfld.long 0x00 13. " IRQS909 ,IRQS Status Bit 909" "Low,High"
bitfld.long 0x00 12. "  IRQS908 ,IRQS Status Bit 908" "Low,High"
bitfld.long 0x00 11. "  IRQS907 ,IRQS Status Bit 907" "Low,High"
textline "                               "
bitfld.long 0x00 10. " IRQS906 ,IRQS Status Bit 906" "Low,High"
bitfld.long 0x00 9. "  IRQS905 ,IRQS Status Bit 905" "Low,High"
bitfld.long 0x00 8. "  IRQS904 ,IRQS Status Bit 904" "Low,High"
textline "                               "
bitfld.long 0x00 7. " IRQS903 ,IRQS Status Bit 903" "Low,High"
bitfld.long 0x00 6. "  IRQS902 ,IRQS Status Bit 902" "Low,High"
bitfld.long 0x00 5. "  IRQS901 ,IRQS Status Bit 901" "Low,High"
textline "                               "
bitfld.long 0x00 4. " IRQS900 ,IRQS Status Bit 900" "Low,High"
bitfld.long 0x00 3. "  IRQS899 ,IRQS Status Bit 899" "Low,High"
bitfld.long 0x00 2. "  IRQS898 ,IRQS Status Bit 898" "Low,High"
textline "                               "
bitfld.long 0x00 1. " IRQS897 ,IRQS Status Bit 897" "Low,High"
bitfld.long 0x00 0. "  IRQS896 ,IRQS Status Bit 896" "Low,High"
else
hgroup.long 0x0D74++0x03
hide.long 0x0 "GICD_SPISR28,Shared Peripheral Interrupt Status Register 28"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1E)
rgroup.long 0x0D78++0x03
line.long 0x0 "GICD_SPISR29,Shared Peripheral Interrupt Status Register 29"
bitfld.long 0x00 31. " IRQS959 ,IRQS Status Bit 959" "Low,High"
bitfld.long 0x00 30. "  IRQS958 ,IRQS Status Bit 958" "Low,High"
bitfld.long 0x00 29. "  IRQS957 ,IRQS Status Bit 957" "Low,High"
textline "                               "
bitfld.long 0x00 28. " IRQS956 ,IRQS Status Bit 956" "Low,High"
bitfld.long 0x00 27. "  IRQS955 ,IRQS Status Bit 955" "Low,High"
bitfld.long 0x00 26. "  IRQS954 ,IRQS Status Bit 954" "Low,High"
textline "                               "
bitfld.long 0x00 25. " IRQS953 ,IRQS Status Bit 953" "Low,High"
bitfld.long 0x00 24. "  IRQS952 ,IRQS Status Bit 952" "Low,High"
bitfld.long 0x00 23. "  IRQS951 ,IRQS Status Bit 951" "Low,High"
textline "                               "
bitfld.long 0x00 22. " IRQS950 ,IRQS Status Bit 950" "Low,High"
bitfld.long 0x00 21. "  IRQS949 ,IRQS Status Bit 949" "Low,High"
bitfld.long 0x00 20. "  IRQS948 ,IRQS Status Bit 948" "Low,High"
textline "                               "
bitfld.long 0x00 19. " IRQS947 ,IRQS Status Bit 947" "Low,High"
bitfld.long 0x00 18. "  IRQS946 ,IRQS Status Bit 946" "Low,High"
bitfld.long 0x00 17. "  IRQS945 ,IRQS Status Bit 945" "Low,High"
textline "                               "
bitfld.long 0x00 16. " IRQS944 ,IRQS Status Bit 944" "Low,High"
bitfld.long 0x00 15. "  IRQS943 ,IRQS Status Bit 943" "Low,High"
bitfld.long 0x00 14. "  IRQS942 ,IRQS Status Bit 942" "Low,High"
textline "                               "
bitfld.long 0x00 13. " IRQS941 ,IRQS Status Bit 941" "Low,High"
bitfld.long 0x00 12. "  IRQS940 ,IRQS Status Bit 940" "Low,High"
bitfld.long 0x00 11. "  IRQS939 ,IRQS Status Bit 939" "Low,High"
textline "                               "
bitfld.long 0x00 10. " IRQS938 ,IRQS Status Bit 938" "Low,High"
bitfld.long 0x00 9. "  IRQS937 ,IRQS Status Bit 937" "Low,High"
bitfld.long 0x00 8. "  IRQS936 ,IRQS Status Bit 936" "Low,High"
textline "                               "
bitfld.long 0x00 7. " IRQS935 ,IRQS Status Bit 935" "Low,High"
bitfld.long 0x00 6. "  IRQS934 ,IRQS Status Bit 934" "Low,High"
bitfld.long 0x00 5. "  IRQS933 ,IRQS Status Bit 933" "Low,High"
textline "                               "
bitfld.long 0x00 4. " IRQS932 ,IRQS Status Bit 932" "Low,High"
bitfld.long 0x00 3. "  IRQS931 ,IRQS Status Bit 931" "Low,High"
bitfld.long 0x00 2. "  IRQS930 ,IRQS Status Bit 930" "Low,High"
textline "                               "
bitfld.long 0x00 1. " IRQS929 ,IRQS Status Bit 929" "Low,High"
bitfld.long 0x00 0. "  IRQS928 ,IRQS Status Bit 928" "Low,High"
else
hgroup.long 0x0D78++0x03
hide.long 0x0 "GICD_SPISR29,Shared Peripheral Interrupt Status Register 29"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
if (((d.l(AD:0x48241000+0x04))&0x0000001F)>=0x1F)
rgroup.long 0x0D7C++0x03
line.long 0x0 "GICD_SPISR30,Shared Peripheral Interrupt Status Register 30"
bitfld.long 0x00 27. " IRQS987 ,IRQS Status Bit 987" "Low,High"
bitfld.long 0x00 26. "  IRQS986 ,IRQS Status Bit 986" "Low,High"
textline "                               "
bitfld.long 0x00 25. " IRQS985 ,IRQS Status Bit 985" "Low,High"
bitfld.long 0x00 24. "  IRQS984 ,IRQS Status Bit 984" "Low,High"
bitfld.long 0x00 23. "  IRQS983 ,IRQS Status Bit 983" "Low,High"
textline "                               "
bitfld.long 0x00 22. " IRQS982 ,IRQS Status Bit 982" "Low,High"
bitfld.long 0x00 21. "  IRQS981 ,IRQS Status Bit 981" "Low,High"
bitfld.long 0x00 20. "  IRQS980 ,IRQS Status Bit 980" "Low,High"
textline "                               "
bitfld.long 0x00 19. " IRQS979 ,IRQS Status Bit 979" "Low,High"
bitfld.long 0x00 18. "  IRQS978 ,IRQS Status Bit 978" "Low,High"
bitfld.long 0x00 17. "  IRQS977 ,IRQS Status Bit 977" "Low,High"
textline "                               "
bitfld.long 0x00 16. " IRQS976 ,IRQS Status Bit 976" "Low,High"
bitfld.long 0x00 15. "  IRQS975 ,IRQS Status Bit 975" "Low,High"
bitfld.long 0x00 14. "  IRQS974 ,IRQS Status Bit 974" "Low,High"
textline "                               "
bitfld.long 0x00 13. " IRQS973 ,IRQS Status Bit 973" "Low,High"
bitfld.long 0x00 12. "  IRQS972 ,IRQS Status Bit 972" "Low,High"
bitfld.long 0x00 11. "  IRQS971 ,IRQS Status Bit 971" "Low,High"
textline "                               "
bitfld.long 0x00 10. " IRQS970 ,IRQS Status Bit 970" "Low,High"
bitfld.long 0x00 9. "  IRQS969 ,IRQS Status Bit 969" "Low,High"
bitfld.long 0x00 8. "  IRQS968 ,IRQS Status Bit 968" "Low,High"
textline "                               "
bitfld.long 0x00 7. " IRQS967 ,IRQS Status Bit 967" "Low,High"
bitfld.long 0x00 6. "  IRQS966 ,IRQS Status Bit 966" "Low,High"
bitfld.long 0x00 5. "  IRQS965 ,IRQS Status Bit 965" "Low,High"
textline "                               "
bitfld.long 0x00 4. " IRQS964 ,IRQS Status Bit 964" "Low,High"
bitfld.long 0x00 3. "  IRQS963 ,IRQS Status Bit 963" "Low,High"
bitfld.long 0x00 2. "  IRQS962 ,IRQS Status Bit 962" "Low,High"
textline "                               "
bitfld.long 0x00 1. " IRQS961 ,IRQS Status Bit 961" "Low,High"
bitfld.long 0x00 0. "  IRQS960 ,IRQS Status Bit 960" "Low,High"
else
hgroup.long 0x0D7C++0x03
hide.long 0x0 "GICD_SPISR30,Shared Peripheral Interrupt Status Register 30"
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
textline "                               "
endif
tree.end
width 25.
tree "Software Generated Interrupt"
if (((d.l(AD:0x48241000+0x04))&0x400)==0x400)
wgroup.long 0x0F00++0x03
line.long 0x00 "GICD_SGIR,Software Generated Interrupt Register"
bitfld.long 0x00 24.--25. " TLF           ,Target List Filter" "TargetList,All CPUs,Request CPU,?..."
hexmask.long.byte 0x00 16.--23. 1. "  CPUTL         ,CPU Target List"
textline "                                  "
bitfld.long 0x00 15. " NSATT         ,NSATT" "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"
else
wgroup.long 0x0F00++0x03
line.long 0x00 "GICD_SGIR,Software Generated Interrupt Register"
bitfld.long 0x00 24.--25. " TLF           ,Target List Filter" "TargetList,All CPUs,Request CPU,?..."
hexmask.long.byte 0x00 16.--23. 1. "  CPUTL         ,CPU Target List"
textline "                                  "
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"
endif
tree.end
width 12.
tree "Peripheral/Component ID Registers"
rgroup.byte 0x0FE0++0x00
line.byte 0x00 "GICD_PIDR0,Peripheral ID0 Register"
hexmask.byte 0x00 0.--7. 1. " PART_NUMBER_0 ,Returns 0x90"
rgroup.byte 0x0FE4++0x00
line.byte 0x00 "GICD_PIDR1,Peripheral ID1 Register"
bitfld.byte 0x00 4.--7. " JEP106_ID_3_0 ,JEP106 identity code [3:0]" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.byte 0x00 0.--3. "             PART_NUMBER_1 ,Returns 0x3" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.byte 0x0FE8++0x00
line.byte 0x00 "GICD_PIDR2,Peripheral ID2 Register"
bitfld.byte 0x00 4.--7. " ARCHITECTURE  ,Identifies the architecture version of the GIC" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.byte 0x00 3. "             JEDEC_USED    ,This indicates that the GIC uses a manufacturers identity code that was allocated by JEDEC according to JEP106" "Low,High"
bitfld.byte 0x00 0.--2. "          JEP106_ID_CODE ,JEP106 identity code field" "0,1,2,3,4,5,6,7"
rgroup.byte 0x0FEC++0x00
line.byte 0x00 "GICD_PIDR3,Peripheral ID3 Register"
bitfld.byte 0x00 4.--7. " REVAND        ,The top-level RTL provides four AND gates that are tied-off to provide an output value of 0x0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.byte 0x00 0.--3. "             MOD_NUMBER    ,The customer can update this field if they modify the RTL of the GIC" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.byte 0x0FD0++0x00
line.byte 0x00 "GICD_PIDR4,Peripheral ID4 Register"
bitfld.byte 0x00 4.--7. " 4KB_COUNT     ,The number of 4KB address blocks you require to access the registers expressed in powers of 2" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.byte 0x00 0.--3. "             JEP106_C_CODE ,The JEP106 continuation code value represents how many 0x7F continuation characters occur in the manufacturers identity code" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.byte 0x0FD4++0x00
line.byte 0x00 "GICD_PIDR5,Peripheral ID5 Register"
bitfld.byte 0x00 5.--7. " PPI_NUMBER_0  ,The LSBs of the number of PPIs that the GIC provides" "0,1,2,3,4,5,6,7"
bitfld.byte 0x00 0.--4. "              SGI_NUMBER    ,The number of SGIs that the GIC provides" "None,INTID0,INTID[1:0],INTID[2:0],INTID[3:0],INTID[4:0],INTID[5:0],INTID[6:0],INTID[7:0],INTID[8:0],INTID[9:0],INTID[10:0],INTID[11:0],INTID[12:0],INTID[13:0],INTID[14:0],INTID[15:0],?..."
rgroup.byte 0x0FD8++0x00
line.byte 0x00 "GICD_PIDR6,Peripheral ID6 Register"
bitfld.byte 0x00 2.--7. " SPI_NUMBER_0  ,The LSBs of the number of SPIs that the GIC provides" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.byte 0x00 0.--1. "             PPI_NUMBER_1  ,The MSBs of the number of PPIs that the GIC provides" "0,1,2,3"
rgroup.byte 0x0FDC++0x00
line.byte 0x00 "GICD_PIDR7,Peripheral ID7 Register"
bitfld.byte 0x00 7. " TZ            ,Identifies the number of security states that the GIC supports" "S,NS&S"
bitfld.byte 0x00 4.--6. "           PRIORITY      ,The number of priority levels that the GIC provides" "16,32,64,128,256,?..."
bitfld.byte 0x00 0.--3. "           SPI_NUMBER_1   ,The MSBs of the number of SPIs that the GIC provides" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.byte 0x0FC0++0x00
line.byte 0x00 "GICD_PIDR8,Peripheral ID8 Register"
bitfld.byte 0x00 7. " IDENTIFIER    ,Identifies the AMBA interface that this register belongs to" "Distributor,CPU Interface"
bitfld.byte 0x00 5.--6. "  IF_TYPE       ,Identifies the AMBA protocol that the GIC supports" "AXI,AHB-Lite,?..."
bitfld.byte 0x00 2.--4. "      CPU_IF         ,Identifies the number of CPU Interfaces that the GIC contains" "1,2,3,4,5,6,7,8"
textline "                 "
bitfld.byte 0x00 1. " FIQ_LEGACY    ,Identifies if the GIC provides a legacy FIQ input signal for each CPU Interface" "Not supported,Supported"
bitfld.byte 0x00 0. "  IRQ_LEGACY    ,Identifies if the GIC provides a legacy IRQ input signal for each CPU Interface" "Not supported,Supported"
tree.end
tree.end
base AD:0x48240100
width 17.
tree "CPU Interface"
if (((d.l(AD:0x48241000+0x04))&0x400)==0x0)
group.long 0x0000++0x03
line.long 0x00 "GICC_CTLR,CPU Interface Control Register"
bitfld.long 0x00 0. " ENABLE        ,Enable for the signaling of Group 1 interrupts by the CPU interface to the connected processor" "Disabled,Enabled"
textline "                          "
textline "                          "
textline "                          "
else
group.long 0x0000++0x03
line.long 0x00 "GICC_CTLR,CPU Interface Control Register (Non-secure access)"
bitfld.long 0x00 0. " ENABLE        ,Enable for the signaling of Group 1 interrupts by the CPU interface to the connected processor" "Disabled,Enabled"
textline "                          "
textline "                          "
textline "                          "
endif
group.long 0x0004++0x03
line.long 0x00 "GICC_PMR,Interrupt Priority Mask Register"
hexmask.long.byte 0x00 0.--7. 1. " PRIORITY      ,Priority mask level for CPU interface"
if (((d.l(AD:0x48241000+0x04))&0x400)==0x400)
group.long 0x0008++0x03
line.long 0x00 "GICC_BPR,Binary Point Register (Non-secure access)"
bitfld.long 0x00 0.--2. " BINARY_POINT  ,The value of this field controls how the 8-bit interrupt priority field is split into a group priority field and subpriority field" "Reserved,Reserved,Reserved,[7:4]/[3:0],[7:5]/[4:0],[7:6]/[5:0],[7]/[6:0],-/[7:0]"
else
group.long 0x0008++0x03
line.long 0x00 "GICC_BPR,Binary Point Register"
bitfld.long 0x00 0.--2. " BINARY_POINT  ,The value of this field controls how the 8-bit interrupt priority field is split into a group priority field and subpriority field" "Reserved,Reserved,Reserved,[7:4]/[3:0],[7:5]/[4:0],[7:6]/[5:0],[7]/[6:0],-/[7:0]"
endif
hgroup.long 0x000C++0x03
hide.long 0x00 "GICC_IAR,Interrupt Acknowledge Register"
in
wgroup.long 0x0010++0x03
line.long 0x00 "GICC_EOIR,End Of Interrupt Register"
bitfld.long 0x00 10.--12. " CPUID         ,On a multiprocessor implementation if the write refers to an SGI this field contains the CPUID value from the corresponding GICC_IAR access" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--9. 1. "                         EOIINTID      ,The Interrupt ID value from the corresponding GICC_IAR access"
rgroup.long 0x0014++0x03
line.long 0x00 "GICC_RPR,Running Priority Register"
hexmask.long.byte 0x00 0.--7. 1. " PRIORITY      ,The current running priority on the CPU interface"
rgroup.long 0x0018++0x03
line.long 0x00 "GICC_HPIR,Highest Priority Pending Interrupt Register"
bitfld.long 0x00 10.--12. " CPUID         ,On a multiprocessor implementation if the PENDINTID field returns the ID of an SGI this field contains the CPUID value for that interrupt" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 0.--9. 1. "                         PENDINTID     ,The interrupt ID of the highest priority pending interrupt"
if (((d.l(AD:0x48241000+0x04))&0x400)==0x400)
group.long 0x001C++0x03
line.long 0x00 "GICC_ABPR,Aliased Binary Point Register"
bitfld.long 0x00 0.--2. " BINARY_POINT  ,The value of this field controls how the 8-bit interrupt priority field is split into a group priority field and subpriority 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]"
else
hgroup.long 0x001C++0x03
hide.long 0x00 "GICC_ABPR,Aliased Binary Point Register"
endif
rgroup.long 0x00FC++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 16.--19. "  ARCH_VER        ,Identifies the architecture version of the GIC" "GICv1,GICv1,GICv2,GICv2,?..."
textline "                     "
bitfld.long 0x00 12.--15. "      REV           ,Revision" "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.end
width 0x0B
tree.end
tree.end
else
tree "Core Registers (Cortex-A9)"
width 0x8
; --------------------------------------------------------------------------------
;    Identification registers
; --------------------------------------------------------------------------------
tree "ID Registers"
rgroup.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" "Pre-ARMv7,Pre-ARMv7,Pre-ARMv7,Pre-ARMv7,Pre-ARMv7,Pre-ARMv7,Pre-ARMv7,Pre-ARMv7,Pre-ARMv7,Pre-ARMv7,Pre-ARMv7,Pre-ARMv7,Pre-ARMv7,Pre-ARMv7,Pre-ARMv7,ARMv7"
textline "                 "
hexmask.long.word 0x0 4.--15. 0x1 " 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 c15:0x100++0x0
line.long 0x0 "CTR,Cache Type Register"
bitfld.long 0x0 29.--31. " FORMAT     ,Format" "Not ARMv7,Not ARMv7,Not ARMv7,Not ARMv7,ARMv7,Not ARMv7,Not ARMv7,Not ARMv7"
bitfld.long 0x0 24.--27. "       CWG        ,Cache Writeback Granule" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                 "
bitfld.long 0x0 20.--23. " ERG        ,Exclusives Reservation Granule" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x0 16.--19. "              DMINLINE   ,D-Cache Minimum Line Size" "1 word,2 words,4 words,8 words,16 words,32 words,64 words,128 words,256 words,512 words,1024 words,2048 words,4096 words,8192 words,16384 words,32768 words"
textline "                 "
bitfld.long 0x0 14.--15. " L1POLICY   ,L1 Instruction cache policy" "Reserved,ASID,Virtual,Physical"
bitfld.long 0x0 0.--3. "        IMINLINE   ,I-Cache Minimum Line Size" "1 word,2 words,4 words,8 words,16 words,32 words,64 words,128 words,256 words,512 words,1024 words,2048 words,4096 words,8192 words,16384 words,32768 words"
rgroup.long c15:0x200++0x0
line.long 0x0 "TCMTR,Tighly-Coupled Memory Type Register"
rgroup.long c15:0x300++0x0
line.long 0x0 "TLBTR,TLB Type Register"
hexmask.long.byte 0x0 16.--23. 0x1 " ILSIZE     ,Specifies the number of instruction TLB lockable entries"
hexmask.long.byte 0x0 8.--15. 0x1 "              DLSIZE     ,Specifies the number of unified or data TLB lockable entries"
bitfld.long 0x0 1. "             TLB_SIZE  ,TLB Size" "64,128"
textline "                 "
bitfld.long 0x0 0. " NU         ,Unified or Separate TLBs" "Unified,Separate"
rgroup.long c15:0x500++0x0
line.long 0x0 "MPIDR,Multiprocessor Affinity Register"
bitfld.long 0x00 30. " U          ,Processor is part of a multiprocessor or uniprocessor system" "Multiprocessor,Uniprocessor"
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" "0,1,2,3"
rgroup.long c15:0x0410++0x00
line.long 0x00 "MMFR0,Memory Model Feature Register 0"
bitfld.long 0x00 24.--27. " FCSE       ,Fast Context Switch Memory Mappings Support" "Not supported,?..."
bitfld.long 0x00 20.--23. "   ACR        ,Auxiliary Control Register Support" "Reserved,Supported,?..."
bitfld.long 0x00 16.--19. "      TCM       ,TCM and Associated DMA Support" "Not supported,?..."
textline "                 "
bitfld.long 0x00 12.--15. " OSS        ,Outer Shareable Support" "Not supported,?..."
bitfld.long 0x00 8.--11. "   CC_CPUA    ,Cache Coherency Support" "Reserved,Supported,?..."
bitfld.long 0x00 4.--7. "      PMSA      ,Physical Memory System Architecture (PMSA) Support" "Not supported,?..."
textline "                 "
bitfld.long 0x00 0.--3. " VMSA       ,Virtual Memory System Architecture (VMSA) Support" "Reserved,Reserved,Reserved,Supported,?..."
rgroup.long c15:0x0510++0x00
line.long 0x00 "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,?..."
rgroup.long c15:0x0610++0x00
line.long 0x00 "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,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 "MMFR3,Memory Model Feature Register 3"
bitfld.long 0x00 28.--31. " SS         ,Supersection support" "Supported,?..."
bitfld.long 0x00 20.--23. "       CW         ,Coherent walk" "Supported,?..."
bitfld.long 0x00 12.--15. "      MB        ,Invalidate broadcast Support" "Reserved,Reserved,Supported,?..."
textline "                 "
bitfld.long 0x00 8.--11. " BPM        ,Invalidate Branch predictor Support" "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,?..."
bitfld.long 0x00 0.--3. "      HCMOMVA   ,Invalidate Cache MVA Support" "Reserved,Supported,?..."
rgroup.long c15:0x0020++0x00
line.long 0x00 "ISAR0,Instruction Set Attribute Register 0"
bitfld.long 0x00 24.--27. " DIVI       ,Divide Instructions Support" "Not supported,?..."
bitfld.long 0x00 20.--23. "   DEBI       ,Debug Instructions Support" "Reserved,Supported,?..."
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,Supported,?..."
bitfld.long 0x00 8.--11. "       BI         ,Bitfield Instructions Support" "Reserved,Supported,?..."
bitfld.long 0x00 4.--7. "      BCI       ,Bit Counting Instructions Support" "Reserved,Supported,?..."
textline "                 "
bitfld.long 0x00 0.--3. " SI         ,Swap Instructions Support" "Reserved,Supported,?..."
rgroup.long c15:0x0120++0x00
line.long 0x00 "ISAR1,Instruction Set Attribute Register 1"
bitfld.long 0x00 28.--31. " JI         ,Jazelle Instructions Support" "Reserved,Supported,?..."
bitfld.long 0x00 24.--27. "       INTI       ,Instructions That Branch Between ARM and Thumb Code 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. "      E2I       ,Exception 2 Instructions Support" "Reserved,Supported,?..."
textline "                 "
bitfld.long 0x00 4.--7. " E1I        ,Exception 1 Instructions Support" "Reserved,Supported,?..."
bitfld.long 0x00 0.--3. "       ENDI       ,Endianness Control Instructions Support" "Reserved,Supported,?..."
rgroup.long c15:0x0220++0x00
line.long 0x00 "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,Supported,?..."
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,Supported,?..."
bitfld.long 0x00 0.--3. "       LSI        ,Load and Store Instructions Support" "Reserved,Supported,?..."
rgroup.long c15:0x0320++0x00
line.long 0x00 "ISAR3,Instruction Set Attribute Register 3"
bitfld.long 0x00 28.--31. " T2E        ,Thumb-2 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,Supported,?..."
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 "ISAR4,Instruction Set Attribute Register 4"
bitfld.long 0x00 28.--31. " SWP_frac   ,SWAP_frac" "Supported,?..."
bitfld.long 0x00 24.--27. "       PSR_M_I    ,PSR_M Instructions Support" "Not supported,?..."
bitfld.long 0x00 20.--23. "  SPRI      ,Synchronization Primitive instructions" "Not supported,?..."
textline "                 "
bitfld.long 0x00 16.--19. " BI         ,Barrier Instructions Support" "Reserved,Supported,?..."
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 c15:0x0520++0x00
line.long 0x00 "ISAR5,Instruction Set Attribute Registers 5 (Reserved)"
rgroup.long c15:0x0620++0x00
line.long 0x00 "ISAR6,Instruction Set Attribute Registers 6 (Reserved)"
rgroup.long c15:0x0720++0x00
line.long 0x00 "ISAR7,Instruction Set Attribute Registers 7 (Reserved)"
rgroup.long c15:0x0010++0x00
line.long 0x00 "PFR0,Processor Feature Register 0"
bitfld.long 0x00 12.--15. " STATE3     ,Thumb-2 Execution Environment (Thumb-2EE) Support" "Reserved,Supported,?..."
bitfld.long 0x00 8.--11. "       STATE2     ,Java Extension Interface Support" "Reserved,Reserved,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 "PFR1,Processor Feature Register 1"
bitfld.long 0x00 8.--11. " MPM        ,Microcontroller Programmer's Model Support" "Not supported,?..."
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 "DFR0,Debug Feature Register 0"
bitfld.long 0x00 20.--23. " MDM_MM     ,Microcontroller Debug Model Support" "Not supported,?..."
bitfld.long 0x00 16.--19. "   TDM_MM     ,Trace Debug Model (Memory-Mapped) Support" "Reserved,Supported,?..."
bitfld.long 0x00 12.--15. "      TDM_CB    ,Coprocessor-Based Trace Debug Model Support" "Not supported,?..."
textline "                 "
bitfld.long 0x00 8.--11. " CDM_MM     ,Memory-Mapped Debug Model Support" "Reserved,Reserved,Reserved,Reserved,Supported,?..."
bitfld.long 0x00 4.--7. "       SDM_CB     ,Secure Debug Model (Coprocessor) Support" "Reserved,Reserved,Reserved,Reserved,Supported,?..."
bitfld.long 0x00 0.--3. "      CDM_CB    ,Coprocessor Debug Model Support" "Reserved,Reserved,Reserved,Reserved,Supported,?..."
rgroup.long c15:0x0310++0x00
line.long 0x00 "AFR0,Auxiliary Feature Register 0"
hexmask.long 0x00 0.--31. 1. " AF         ,Auxiliary Feature"
tree.end
width 0x8
tree "System Control and Configuration"
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 27. " NMFI     ,DNonmaskable Fast Interrupt enable" "Disabled,Enabled"
bitfld.long 0x0 25. "     EE       ,Exception endianess" "Little,Big"
bitfld.long 0x0 14. "       RR       ,Replacement strategy for caches, BTAC, and micro TLBs" "Random,Round robin"
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"
group.long c15:0x101++0x0
line.long 0x0 "ACTLR,Auxiliary Control Register"
bitfld.long 0x00 9. " PARON    ,Parity On" "Disabled,Enabled"
bitfld.long 0x00 7. "     EXCL     ,Exclusive cache Enable" "Disabled,Enabled"
bitfld.long 0x00 6. "     SMP      ,Signals if the Cortex-A9 processor is taking part in coherency or not" "0,1"
textline "                 "
bitfld.long 0x00 3. " FOZ      ,Full Of Zero mode Enable" "Disabled,Enabled"
bitfld.long 0x00 2. "     DP1      ,L1 Dside prefetch Enable" "Disabled,Enabled"
bitfld.long 0x00 1. "     DP2      ,L2 Dside prefetch Enable" "Disabled,Enabled"
textline "                 "
bitfld.long 0x00 0. " FW       ,Cache and TLB maintenance broadcast" "Disabled,Enabled"
group.long c15:0x201++0x0
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 D16-D31 of the VFP register file" "No,Yes"
bitfld.long 0x0 22.--23. "          CP11     ,Coprocesor access control" "Denied,Privileged,Reserved,Full"
textline "                 "
bitfld.long 0x0 20.--21. " CP10     ,Coprocesor access control" "Denied,Privileged,Reserved,Full"
textline " "
group.long c15:0x11++0x0
line.long 0x0 "SCR,Secure Configuration Register"
bitfld.long 0x00 6. " NET      ,Not early termination" "Not early,Early"
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       ,FW-bit controls whether the Non-secure world can modify the F-bit in the CPSR" "Not allowed,Allowed"
textline "                 "
bitfld.long 0x00 3. " EA       ,External Abort  exceptions handled in Abort mode or Monitor mode" "Abort,Monitor"
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"
textline "                 "
bitfld.long 0x00 0. " NS       ,Secure mode " "Secure,Non-secure"
group.long c15:0x111++0x0
line.long 0x0 "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"
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 writable in Non-secure state" "Disabled,Enabled"
bitfld.long 0x00 17. "     TL       ,Lockable Page Table Entries Allocation in Nonsecure World" "Denied,Permitted"
bitfld.long 0x00 15. "    NSASEDIS ,Disable Non-secure Advanced SIMD Extension functionality" "Denied,Permitted"
textline "                 "
bitfld.long 0x00 14. " NSD32DIS ,Disable the Non-secure use of D16-D31 of the VFP register" "Denied,Permitted"
bitfld.long 0x00 11. "    CP11     ,Coprocessor 11 in the Nonsecure World Access Permission" "Denied,Permitted"
bitfld.long 0x00 10. "    CP10     ,Coprocessor 10 in the Nonsecure World Access Permission" "Denied,Permitted"
group.long c15:0x0311++0x00
line.long 0x00 "VCR,Virtualization Control Register"
bitfld.long 0x00 8. " AMO      ,Abort Mask Override" "0,1"
bitfld.long 0x00 7. "            IMO      ,IRQ Mask Override" "0,1"
bitfld.long 0x00 6. "            IFO      ,FIQ Mask Override" "0,1"
textline " "
group.long c15:0x000c++0x00
line.long 0x00 "VBAR,Secure or Nonsecure Vector Base Address Register"
hexmask.long 0x00 5.--31. 0x20 " VBA      ,Base Address"
group.long c15:0x10c++0x00
line.long 0x0 "MVBAR,Monitor Vector Base Address Register"
hexmask.long 0x00 5.--31. 0x20 " MVBA     , Monitor Vector Base Address"
rgroup.long c15:0x1C++0x0
line.long 0x0 "ISR,Interrupt status Register"
bitfld.long 0x0 8. " A        ,Pending External Abort" "Not pending,Pending"
bitfld.long 0x0 7. "  I        ,Pending IRQ" "Not pending,Pending"
bitfld.long 0x0 6. "  F        ,Pending FIQ" "Not pending,Pending"
group.long c15:0x11c++0x0
line.long 0x00 "VIR,Virtualization Interrupt Register"
bitfld.long 0x00 8. " VA       ,Virtual Abort" "0,1"
bitfld.long 0x00 7. "            VI       ,Virtual IRQ" "0,1"
bitfld.long 0x00 6. "            VF       ,Virtual FIQ" "0,1"
textline " "
group.long c15:0xf++0x0
line.long 0x00 "PCR,Power Control Register"
bitfld.long 0x00 8.--10. " MCL      ,Max Clock Latency" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0. "            EDCG     ,Enable Dynamic Clock Gating" "Disabled,Enabled"
group.long c15:0x1f++0x0
line.long 0x00 "NEONBR,NEON Busy Register"
bitfld.long 0x00 0. " BUSY     ,NEON Busy" "No,Yes"
group.long c15:0x400f++0x0
line.long 0x00 "CBAR,Configuration Base Address Register"
hexmask.long 0x00 0.--31. 1. " CBAR     ,Configuration Base Address Register"
tree.end
width 0x08
tree "Memory Management Unit"
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 27. " NMFI    ,DNonmaskable Fast Interrupt enable" "Disabled,Enabled"
bitfld.long 0x0 25. "     EE      ,Exception endianess" "Little,Big"
bitfld.long 0x0 14. "       RR       ,Replacement strategy for caches, BTAC, and micro TLBs" "Random,Round robin"
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 " "
group.long c15:0x0002++0x00
line.long 0x00 "TTBR0,Translation Table Base Register 0"
hexmask.long 0x00 14.--31. 0x4000 " TTB0    ,Translation Table Base Address"
bitfld.long 0x00 6. 0. "                IRGN[1:0] ,Indicates inner cacheability" "Noncacheable,Back/allocated,Through,Back/not allocated"
textline "                 "
bitfld.long 0x00 3.--4. " RGN     ,Outer Cacheable Attributes for Page Table Walking" "Noncacheable,Back/allocated,Through,Back/not allocated"
bitfld.long 0x00 1. "      S         ,Page Table Walk to Shared Memory" "Nonshared,Shared"
group.long c15:0x0102++0x00
line.long 0x00 "TTBR1,Translation Table Base Register 1"
hexmask.long 0x00 14.--31. 0x4000 " TTB1    ,Translation Table Base Address"
bitfld.long 0x00 6. 0. "                IRGN[1:0] ,Indicates inner cacheability" "Noncacheable,Back/allocated,Through,Back/not allocated"
textline "                 "
bitfld.long 0x00 3.--4. " RGN     ,Outer Cacheable Attributes for Page Table Walking" "Noncacheable,Back/allocated,Through,Back/not allocated"
bitfld.long 0x00 1. "      S         ,Page Table Walk to Shared Memory" "Nonshared,Shared"
group.long c15:0x0202++0x00
line.long 0x00 "TTBCR,Translation Table Base Control Register"
bitfld.long 0x00 5. " PD1     ,Page Table Walk on a TLB Miss When Using Translation Table Base Register 1" "Enable,Disable"
bitfld.long 0x00 4. "  PD0  ,Page Table Walk on a TLB Miss When Using Translation Table Base Register 0" "Enable,Disable"
bitfld.long 0x0 0.--2. "   N    ,Translation Table Base Register 0 page table boundary size" "Off,0x80000000,0x40000000,0x20000000,0x10000000,0x08000000,0x04000000,0x02000000"
textline " "
group.long c15:0x3--0x3
line.long 0x0 "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"
bitfld.long 0x0 24.--25. "  D12 ,Domain Access 12" "Denied,Client,Reserved,Manager"
textline "                 "
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"
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"
textline "                 "
bitfld.long 0x0 14.--15. " D7   ,Domain Access 7" "Denied,Client,Reserved,Manager"
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"
bitfld.long 0x0 0.--1. "  D0  ,Domain Access 0" "Denied,Client,Reserved,Manager"
textline " "
group.long c15:0x0005++0x00
line.long 0x00 "DFSR,Data Fault Status Register"
bitfld.long 0x00 12. " EXT     ,External Abort Qualifier" "DECERR,SLVERR"
bitfld.long 0x00 11. "                  RW        ,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.  "                     STATUS    ,Generated Exception Type" "Reserved,Alignment,Debug,Access/section,Instruction,Translation/section,Access/page,Translation/page,Nontranslation/synchronous external,Domain/section,Reserved,Domain/page,L1/external,Permission/section,L2/external,Permission/page,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Asynchronous external,?..."
group.long c15:0x0006++0x00
line.long 0x00 "DFAR,Data Fault Address Register"
hexmask.long 0x00 0.--31. 1. " DFA     ,Data Fault Address"
group.long c15:0x0105++0x00
line.long 0x00 "IFSR,Instruction Fault Status Register"
bitfld.long 0x00 12. " SD      ,External Abort Qualifier" "DECERR,SLVERR"
bitfld.long 0x00 0.--3. 10. "                  STATUS    ,Generated Exception Type" "Reserved,Alignment,Debug,Access/section,Instruction,Translation/section,Access/page,Translation/page,Nontranslation/synchronous external,Domain/section,Reserved,Domain/page,L1/external,Permission/section,L2/external,Permission/page,Reserved,Reserved,Reserved,Reserved,Reserved,Reserved,Asynchronous external,?..."
group.long c15:0x0206++0x00
line.long 0x00 "IFAR,Instruction Fault Address Register"
hexmask.long 0x00 0.--31. 1. " IFA     ,Instruction Fault Address"
group.long c15:0x0015++0x00
line.long 0x00 "DAFSR,Data Auxiliary Fault Status Register"
hexmask.long 0x00 0.--31. 1. " DAFS    ,Data Auxiliary Fault Status"
group.long c15:0x0115++0x00
line.long 0x00 "IAFSR,Instruction Auxiliary Fault Status Register"
hexmask.long 0x00 0.--31. 1. " IAFS    ,Instruction Auxiliary Fault Status"
textline " "
group.long c15:0xa++0x0
line.long 0x0 "TLBLR,TLB Lockdown Register"
bitfld.long 0x0 28.--29. " VICTIM  ,Victim Value Increments after Each Tabel Walk" "0,1,2,3"
bitfld.long 0x0 0. "                       P         ,Lockdown by Victim or Set Associative Region of TLB" "Associative,Lockdown"
group.long c15:0x525f++0x0
line.long 0x00 "MTLBVAR,Main TLB VA Register"
hexmask.long 0x00 12.--31. 1. " VPN     ,Virtual Page Number"
bitfld.long 0x00 10. "                NS        ,Non-Secure bit" "Not secured,Secured"
textline "                 "
hexmask.long.word 0x00 0.--9. 1. " PROCESS ,Memory space identifier"
group.long c15:0x526f++0x0
line.long 0x00 "MTLBPAR,Main TLB PA Register"
hexmask.long 0x00 12.--31. 1. " PPN     ,Physical Page Number"
bitfld.long 0x00 6.--7. "                SZ        ,Region Size" "16MB,4KB,64KB,1MB"
textline "                 "
bitfld.long 0x00 1.--3. " AP      ,Access permission" "All access,Supervisor access only,Supervisor R/W access,Full,Reserved,Supervisor read only,Supervisor/Usr read only,Supervisor/Usr read only"
bitfld.long 0x00 0. "V         ,Value bit" "0,1"
group.long c15:0x527f++0x0
line.long 0x00 "MTLBAR,Main TLB Attribute Register"
bitfld.long 0x00 11. " NS      ,Non-secure description" "Not secured,Secured"
bitfld.long 0x00 7.--10. "             DOMAIN    ,Domain number of the TLB entry" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                 "
bitfld.long 0x00 6. " XN      ,Execute Never attribute" "0,1"
bitfld.long 0x00 3.--5. "                       TEX       ,Region type Encoding" "0,1,2,3,4,5,6,7"
textline "                 "
bitfld.long 0x00 1.--2. " CB      ,Region type Encoding" "0,1,2,3"
bitfld.long 0x00 0. "                       S         ,Shared attribute" "0,1"
group.long c15:0x0047++0x00
line.long 0x00 "PAR,PA Register"
hexmask.long 0x00 12.--31. 0x1000 " PA      ,Physical Adress"
bitfld.long 0x00 9. "                NS        ,Non-secure" "Not secured,Secured"
textline "                 "
bitfld.long 0x00 7. " SH      ,Shareable attribute" "Non-shareable,Shareable"
bitfld.long 0x00 4.--6. "           Inner     ,Signals region inner attributes" "Noncacheable,Strongly-ordered,Reserved,Device,Reserved,Write-back allocate,Write-through,Write-back"
textline "                 "
bitfld.long 0x00 2.--3. " Outer   ,Signals region outer attributes for normal memory type" "Noncacheable,Write-back allocate,Write-through,Write-back"
bitfld.long 0x00 1. "     SS        ,Supersection Enable bit" "Disabled,Enabled"
textline "                 "
bitfld.long 0x00 0. " F       ,Translation Successful" "Successful,No successful"
textline " "
group.long c15:0x002A++0x0
line.long 0x00 "PRRR,Primary Region Remap Register"
bitfld.long 0x00 19. " NS1     ,Shareable Attribute Remap when S=1 for Normal Regions" "Remapped,Not remapped"
bitfld.long 0x00 18. "            NS0       ,Shareable Attribute Remap when S=0 for Normal Regions" "Not remapped,Remapped"
textline "                 "
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"
textline "                 "
bitfld.long 0x00 10.--11. " TR5     ,{TEX[0] C B} = b101 Remap" "Strongly ordered,Device,Normal,UNP"
bitfld.long 0x00 8.--9. "        TR4       ,{TEX[0] C B} = b100 Remap" "Strongly ordered,Device,Normal,UNP"
textline "                 "
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" "Noncachable,Write-back allocate,Write-through,Write-back no allocate"
bitfld.long 0x00 28.--29. "  OR6       ,Outer Attribute for {TEX[0] C B} = b110 Remap" "Noncachable,Write-back allocate,Write-through,Write-back no allocate"
textline "                 "
bitfld.long 0x00 26.--27. " OR5     ,Outer Attribute for {TEX[0] C B} = b101 Remap" "Noncachable,Write-back allocate,Write-through,Write-back no allocate"
bitfld.long 0x00 24.--25. "  OR4       ,Outer Attribute for {TEX[0] C B} = b100 Remap" "Noncachable,Write-back allocate,Write-through,Write-back no allocate"
textline "                 "
bitfld.long 0x00 22.--23. " OR3     ,Outer Attribute for {TEX[0] C B} = b011 Remap" "Noncachable,Write-back allocate,Write-through,Write-back no allocate"
bitfld.long 0x00 20.--21. "  OR2       ,Outer Attribute for {TEX[0] C B} = b010 Remap" "Noncachable,Write-back allocate,Write-through,Write-back no allocate"
textline "                 "
bitfld.long 0x00 18.--19. " OR1     ,Outer Attribute for {TEX[0] C B} = b001 Remap" "Noncachable,Write-back allocate,Write-through,Write-back no allocate"
bitfld.long 0x00 16.--17. "  OR0       ,Outer Attribute for {TEX[0] C B} = b000 Remap" "Noncachable,Write-back allocate,Write-through,Write-back no allocate"
textline "                 "
bitfld.long 0x00 14.--15. " IR7     ,Inner attribute for {TEX[0] C B} = b111 Remap" "Noncachable,Write-back allocate,Write-through,Write-back no allocate"
bitfld.long 0x00 12.--13. "  IR6       ,Inner attribute for {TEX[0] C B} = b110 Remap" "Noncachable,Write-back allocate,Write-through,Write-back no allocate"
textline "                 "
bitfld.long 0x00 10.--11. " IR5     ,Inner attribute for {TEX[0] C B} = b101 Remap" "Noncachable,Write-back allocate,Write-through,Write-back no allocate"
bitfld.long 0x00 8.--9. "  IR4       ,Inner attribute for {TEX[0] C B} = b100 Remap" "Noncachable,Write-back allocate,Write-through,Write-back no allocate"
textline "                 "
bitfld.long 0x00 6.--7. " IR3     ,Inner attribute for {TEX[0] C B} = b011 Remap" "Noncachable,Write-back allocate,Write-through,Write-back no allocate"
bitfld.long 0x00 4.--5. "  IR2       ,Inner attribute for {TEX[0] C B} = b010 Remap" "Noncachable,Write-back allocate,Write-through,Write-back no allocate"
textline "                 "
bitfld.long 0x00 2.--3. " IR1     ,Inner attribute for {TEX[0] C B} = b001 Remap" "Noncachable,Write-back allocate,Write-through,Write-back no allocate"
bitfld.long 0x00 0.--1. "  IR0       ,Inner attribute for {TEX[0] C B} = b000 Remap" "Noncachable,Write-back allocate,Write-through,Write-back no allocate"
textline " "
rgroup.long c15:0x000d++0x00
line.long 0x00 "FCSEIDR,FCSE PID Register"
hexmask.long 0x00 0.--31. 1. " FCSEPID ,Process for Fast Context Switch Identification and Specification"
group.long c15:0x10d++0x0
line.long 0x0 "CONTEXT,Context ID Register"
hexmask.long.tbyte 0x0 8.--31. 1. " PROCID  ,Process ID"
hexmask.long.byte 0x0 0.--7. 1. "                  ASID      ,Application Space ID"
group.long c15:0x020d++0x00
line.long 0x00 "URWTPID,User Read/Write Thread and Process ID Register"
hexmask.long 0x00 0.--31. 1. " URWTPID ,User Read/Write Thread and Process ID"
group.long c15:0x030d++0x00
line.long 0x00 "UROTPID,User Read-Only Thread and Process ID Register"
hexmask.long 0x00 0.--31. 1. " UROTPID ,User Read-Only Thread and Process ID"
group.long c15:0x040d++0x00
line.long 0x00 "POTPID,Privileged Only Thread and Process ID Register"
hexmask.long 0x00 0.--31. 1. " POTPID  ,Privileged Only Thread and Process ID"
tree.end
width 0xC
tree "Cache Control and Configuration"
rgroup.long c15:0x1100++0x0
line.long 0x0 "CLIDR,Cache Level ID Register"
bitfld.long 0x00 27.--29. " LOU     ,Level of Unification" "Level 1,Level 2,Level 3,Level 4,Level 5,Level 6,Level 7,Level 8"
bitfld.long 0x00 24.--26. "                    LOC    ,Level of Coherency" "Level 1,Level 2,Level 3,Level 4,Level 5,Level 6,Level 7,Level 8"
textline "                     "
bitfld.long 0x00 21.--23. " CTYPE8  ,Cache type for levels 8" "No cache,I-cache,D-cache,Separate I/D,Unified,?..."
bitfld.long 0x00 18.--20. "               CTYPE7 ,Cache type for levels 7" "No cache,I-cache,D-cache,Separate I/D,Unified,?..."
textline "                     "
bitfld.long 0x00 15.--17. " CTYPE6  ,Cache type for levels 6" "No cache,I-cache,D-cache,Separate I/D,Unified,?..."
bitfld.long 0x00 12.--14. "               CTYPE5 ,Cache type for levels 5" "No cache,I-cache,D-cache,Separate I/D,Unified,?..."
textline "                     "
bitfld.long 0x00 9.--11. " CTYPE4  ,Cache type for levels 4" "No cache,I-cache,D-cache,Separate I/D,Unified,?..."
bitfld.long 0x00 6.--8. "               CTYPE3 ,Cache type for levels 3" "No cache,I-cache,D-cache,Separate I/D,Unified,?..."
textline "                     "
bitfld.long 0x00 3.--5. " CTYPE2  ,Cache type for levels 2" "No cache,I-cache,D-cache,Separate I/D,Unified,?..."
bitfld.long 0x00 0.--2. "               CTYPE1 ,Cache type for levels 1" "No cache,I-cache,D-cache,Separate I/D,Unified,?..."
rgroup.long c15:0x1700++0x0
line.long 0x0 "AIDR,Auxiliary ID Register"
hexmask.long 0x00 0.--31. 1. " AID     ,Auxiliary ID"
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"
textline "                     "
bitfld.long 0x00 29. " RA      ,Read-Allocate" "Not Supported,Supported"
bitfld.long 0x00 28. "              WA     ,Write-Allocate" "Not Supported,Supported"
textline "                     "
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" "4 words,8 words,16 words,32 words,64 words,128 words,256 words,512 words"
group.long c15:0x2000++0x0
line.long 0x0 "CSSELR,Cache Size Selection Register"
bitfld.long 0x00 1.--3. " LEVEL   ,Level" "Level 1,Level 2,Level 3,Level 4,Level 5,Level 6,Level 7,Level 8"
bitfld.long 0x00 0. "                    IND    ,Instruction/Not Data" "Data,Instruction"
tree.end
width 0x8
tree "L2 Preload Engine"
rgroup c15:0x000b++0x00
line.long 0x00 "PLEIDR,PLE Identification Register 0"
bitfld.long 0x00 0. " CH0P ,Channel 0 Present" "Not present,Present"
rgroup c15:0x020b++0x00
line.long 0x00 "PLESR,PLE Status Register"
bitfld.long 0x00 0. " CH0R ,Channel 0 Run" "Not running,Running"
rgroup c15:0x040b++0x00
line.long 0x00 "PLEFSR,PLE FIFO Status Register"
group c15:0x001b++0x00
line.long 0x00 "PLEUAR,PLE User Accessibility Register"
bitfld.long 0x00 0. " U0  ,User Mode Process Access Registers for Channel 0 Permission" "Not permitted,Permitted"
group c15:0x011b++0x00
line.long 0x00 "PLEPCR,PLE Parameters Control Register"
tree.end
width 12.
tree "System Performance Monitor"
group.long c15:0xC9++0x0
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"
bitfld.long 0x00 5. "           DP ,Disable CCNT when prohibited" "Enabled,Disabled"
textline "                     "
bitfld.long 0x00 4. " X    ,Export Enabled" "Disabled,Enabled"
bitfld.long 0x00 3. "     D      ,Clock Divider" "Every cycle,64th cycle"
bitfld.long 0x00 2. "  C  ,Clock Counter Reset" "No action,Reset"
bitfld.long 0x00 1. "    P  ,Performance Counter Reset" "No action,Reset"
textline "                     "
bitfld.long 0x00 0. " E    ,Counters Enable" "Disabled,Enabled"
group.long c15:0x1C9++0x0
line.long 0x0 "PMCNTENSET,Count Enable Set Register"
bitfld.long 0x00 31. " C    ,CCNT Enabled" "Disabled,Enabled"
bitfld.long 0x00  5. "     P5     ,PMN5 Enabled" "Disabled,Enabled"
bitfld.long 0x00  4. "     P4 ,PMN5 Enabled" "Disabled,Enabled"
bitfld.long 0x00  3. "     P3 ,PMN3 Enabled" "Disabled,Enabled"
textline "                     "
bitfld.long 0x00  2. " P2   ,PMN2 Enabled" "Disabled,Enabled"
bitfld.long 0x00  1. "     P1     ,PMN1 Enabled" "Disabled,Enabled"
bitfld.long 0x00  0. "     P0 ,PMN0 Enabled" "Disabled,Enabled"
group.long c15:0x2C9++0x0
line.long 0x0 "PMCNTENCLR,Count Enable Clear Register"
bitfld.long 0x00 31. " C    ,CCNT Enabled" "Disabled,Enabled"
bitfld.long 0x00  5. "     P5     ,PMN5 Enabled" "Disabled,Enabled"
bitfld.long 0x00  4. "     P4 ,PMN5 Enabled" "Disabled,Enabled"
bitfld.long 0x00  3. "     P3 ,PMN3 Enabled" "Disabled,Enabled"
textline "                     "
bitfld.long 0x00  2. " P2   ,PMN2 Enabled" "Disabled,Enabled"
bitfld.long 0x00  1. "     P1     ,PMN1 Enabled" "Disabled,Enabled"
bitfld.long 0x00  0. "     P0 ,PMN0 Enabled" "Disabled,Enabled"
group.long c15:0x3C9++0x0
line.long 0x0 "PMOVSR,Overflow Flag Status Register"
eventfld.long 0x00 31. " C    ,CCNT overflowed" "No overflow,Overflow"
eventfld.long 0x00  5. "  P5     ,PMN5 overflow" "No overflow,Overflow"
eventfld.long 0x00  4. "  P4 ,PMN5 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"
wgroup.long c15:0x4C9++0x0
line.long 0x0 "PMSWINC,Software Increment Register"
eventfld.long 0x00  5. " P5   ,Increment  PMN2" "No action,Increment"
eventfld.long 0x00  4. "    P4     ,Increment  PMN1" "No action,Increment"
eventfld.long 0x00  3. "    P3 ,Increment  PMN3" "No action,Increment"
eventfld.long 0x00  2. "    P2 ,Increment  PMN2" "No action,Increment"
textline "                     "
eventfld.long 0x00  1. " P1   ,Increment  PMN1" "No action,Increment"
eventfld.long 0x00  0. "    P0     ,Increment  PMN0" "No action,Increment"
group.long c15:0x5C9++0x0
line.long 0x0 "PMSELR,Performance Counter Selection Register"
bitfld.long 0x00 0.--5. " SEL  ,Selection value" "CNT0,CNT1,CNT2,CNT3,CNT4,CNT5,?..."
group.long c15:0xD9++0x0
line.long 0x00 "PMCCNTR,Cycle Count Register"
group.long c15:0x01d9++0x00
line.long 0x00 "PMXEVTYPER,Event Selection Register"
hexmask.long.byte 0x00 0.--7. 1. " SEL  ,Event Selection"
group.long c15:0x02d9++0x00
line.long 0x00 "PMCNT,Performance Monitor Count Register"
group.long c15:0xE9++0x0
line.long 0x0 "PMUSERENR,User Enable Register"
bitfld.long 0x00  0. " EN   ,User Mode Enable" "Disabled,Enabled"
group.long c15:0x1E9++0x0
line.long 0x0 "PMINTENSET,Interrupt Enable Set Register"
bitfld.long 0x00 31. " C    ,CCNT Overflow Interrupt Enable" "Disabled,Enabled"
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++0x0
line.long 0x0 "PMINTENCLR,Interrupt Enable Clear Register"
eventfld.long 0x00 31. " C    ,CCNT Overflow Interrupt Enable" "Disabled,Enabled"
eventfld.long 0x00  5. "     P5     ,PMCNT5 Overflow Interrupt Enable" "Disabled,Enabled"
eventfld.long 0x00  4. "     P4 ,PMCNT4 Overflow Interrupt Enable" "Disabled,Enabled"
eventfld.long 0x00  3. "     P3 ,PMCNT3 Overflow Interrupt Enable" "Disabled,Enabled"
textline "                     "
eventfld.long 0x00  2. " P2   ,PMCNT2 Overflow Interrupt Enable" "Disabled,Enabled"
eventfld.long 0x00  1. "     P1     ,PMCNT1 Overflow Interrupt Enable" "Disabled,Enabled"
eventfld.long 0x00  0. "     P0 ,PMCNT0 Overflow Interrupt Enable" "Disabled,Enabled"
tree.end
width 0xb
width 10.
tree "Debug Registers"
rgroup c14:0x000--0x000
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. "               CONTEXT ,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 "                   "
bitfld.long 0x0 16.--19. " VERSION  ,Debug Architecture Version" "Reserved,ARMv6,ARMv6.1,ARMv7,?..."
textline "                   "
bitfld.long 0x0 13. " PCSAMPLE ,PC Sample register implemented" "Not implemented,Implemented"
bitfld.long 0x0 12. "  SECURITY ,Security Extensions implemented" "Not implemented,Implemented"
textline "                   "
bitfld.long 0x0 4.--7. " VARIANT  ,Implementation-defined Variant Number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x0 0.--3. "               REVISION ,Implementation-defined Revision Number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                   "
group c14:0x22--0x22
line.long 0x0 "DBGDSCR,Debug Status and Control Register"
bitfld.long 0x0 30. " DTRRXFULL   ,The DTRRX Full Flag" "Empty,Full"
bitfld.long 0x0 29. "                 DTRTXfull   ,The DTRTX Full Flag" "Empty,Full"
textline "                   "
bitfld.long 0x00 27. " DTRRXFULL_L ,The DTRRX Full Flag 1" "Empty,Full"
bitfld.long 0x00 26. "                 DTRTXfull_l ,The DTRTX Full Flag 1" "Empty,Full"
textline "                   "
bitfld.long 0x0 25. " SPA         ,Sticky Pipeline Advance" "No effect,Instruction retired"
bitfld.long 0x0 24. "   IC          ,Instruction Complete" "Executing,Not executing"
textline "                   "
bitfld.long 0x0 20.--21. " DTR         ,DTR Access Mode" "Non-blocking,Stall,Fast,?..."
bitfld.long 0x0 19. "          NSWS        ,Imprecise Data Aborts discarded" "Not discarded,Discarded"
textline "                   "
bitfld.long 0x0 18. " NS          ,Non-secure World Status" "Secured,Not secured"
bitfld.long 0x0 17. "           nSPNIDEN    ,Secure Non-invasive Debug Disabled" "Enabled,Disabled"
textline "                   "
bitfld.long 0x0 16. " NSPIDEN     ,Secure Invasive Debug Disabled" "Enabled,Disabled"
bitfld.long 0x0 15. "              MONITOR     ,Monitor Debug-mode enable" "Disabled,Enabled"
textline "                   "
bitfld.long 0x0 14. " HDEN        ,Halting Debug-mode enable" "Disabled,Enabled"
bitfld.long 0x0 13. "              EXECUTE     ,Execute instruction enable" "Disabled,Enabled"
textline "                   "
bitfld.long 0x0 12. " COMMS       ,User mode access to Comms Channel disable" "Enabled,Disabled"
bitfld.long 0x0 11. "              IntDis      ,Disable Interrupts" "Enabled,Disabled"
textline "                   "
bitfld.long 0x0 10. " DBGACK      ,Force Debug Acknowledge" "Not forced,Forced"
bitfld.long 0x0 8. "            UEXT        ,Sticky Undefined Exception" "No exception,Exception"
textline "                   "
bitfld.long 0x0 7. " IABORT      ,Sticky Imprecise Abort" "Not aborted,Aborted"
bitfld.long 0x0 6. "           PABORT      ,Sticky Precise Abort" "Not aborted,Aborted"
textline "                   "
bitfld.long 0x0 2.--5. " MOE         ,Method of Debug Entry" "Debug Entry,Breakpoint,Imprecise Watchpoint,BKPT instruction,External debug,Vector catch,Reserved,Reserved,OS Unlock,?..."
bitfld.long 0x0 1. "  RESTARTED   ,Core Restarted" "Debug not exited,Debug exited"
textline "                   "
bitfld.long 0x0 0. " HALTED      ,Core Halted" "Normal state,Debug state"
textline "                   "
if (((per.long(c14:0x00))&0x01000)==0x00000)
group c14:0x007--0x007
line.long 0x0 "DBGVCR,Vector Catch Register"
bitfld.long 0x0 7. " FIQ     ,Vector Catch Enable FIQ" "Disabled,Enabled"
bitfld.long 0x0 6. "  IRQ     ,Vector Catch Enable IRQ" "Disabled,Enabled"
textline "                   "
bitfld.long 0x0 4. " DABORT  ,Vector Catch Enable Data Abort" "Disabled,Enabled"
bitfld.long 0x0 3. "  PABORT  ,Vector Catch Enable Prefetch Abort" "Disabled,Enabled"
textline "                   "
bitfld.long 0x0 2. " SWI     ,Vector Catch Enable SWI" "Disabled,Enabled"
bitfld.long 0x0 1. "  UNDEF   ,Vector Catch Enable Undefined Instruction" "Disabled,Enabled"
textline "                   "
bitfld.long 0x0 0. " RESET   ,Vector Catch Enable Reset" "Disabled,Enabled"
else
group c14:0x007--0x007
line.long 0x0 "DBGVCR,Vector Catch Register"
bitfld.long 0x0 31. " FIQN    ,Vector Catch Enable FIQ (Non-secure)" "Disabled,Enabled"
bitfld.long 0x0 30. "  IRQN    ,Vector Catch Enable IRQ (Non-secure)" "Disabled,Enabled"
textline "                   "
bitfld.long 0x0 28. " DABORTN ,Vector Catch Enable Data Abort (Non-secure)" "Disabled,Enabled"
bitfld.long 0x0 27. "  PABORTN ,Vector Catch Enable Prefetch abort (Non-secure)" "Disabled,Enabled"
textline "                   "
bitfld.long 0x0 26. " SWIN    ,Vector Catch Enable SWI (Non-secure)" "Disabled,Enabled"
bitfld.long 0x0 25. "  UNDEFS  ,Vector Catch Enable Undefined (Non-secure)" "Disabled,Enabled"
textline "                   "
bitfld.long 0x0 15. " FIQS    ,Vector Catch Enable FIQ (Secure)" "Disabled,Enabled"
bitfld.long 0x0 14. "  IRQS    ,Vector Catch Enable IRQ (Secure)" "Disabled,Enabled"
textline "                   "
bitfld.long 0x0 12. " DABORTS ,Vector Catch Enable Data Abort (Secure)" "Disabled,Enabled"
bitfld.long 0x00 11. "  PABORTS ,Vector Catch Enable Prefetch abort (Secure)" "Disabled,Enabled"
textline "                   "
bitfld.long 0x0 10. " SMI     ,Vector Catch Enable SMI (Secure)" "Disabled,Enabled"
bitfld.long 0x0 7. "  FIQ     ,Vector Catch Enable FIQ" "Disabled,Enabled"
textline "                   "
bitfld.long 0x0 6. " IRQ     ,Vector Catch Enable IRQ" "Disabled,Enabled"
bitfld.long 0x0 4. "  DABORT0 ,Vector Catch Enable Data Abort" "Disabled,Enabled"
textline "                   "
bitfld.long 0x0 3. " PABORT  ,Vector Catch Enable Prefetch Abort" "Disabled,Enabled"
bitfld.long 0x0 2. "  SWI     ,Vector Catch Enable SWI" "Disabled,Enabled"
textline "                   "
bitfld.long 0x0 1. " UNDEF   ,Vector Catch Enable Undefined Instruction" "Disabled,Enabled"
bitfld.long 0x0 0. "  RESET   ,Vector Catch Enable Reset" "Disabled,Enabled"
endif
hgroup c14:0x020--0x020
hide.long 0x0 "DBGDTRRX,Debug Receive Register (External View)"
in
group c14:0x023--0x023
line.long 0x0 "DBGDTRTX,Debug Transmit Register (External View)"
group c14:0x09++0x00
line.long 0x00 "DBGECR,Event Catch Register"
bitfld.long 0x00 0. " OSUC  ,OS Unlock Catch" "Disabled,Enabled"
group c14:0x0a++0x00
line.long 0x00 "DBGDSCCR,Debug State Cache Control Register"
bitfld.long 0x00 2. " NWT   ,Not Write-Through" "Forced,Normal"
bitfld.long 0x00 0. "            DUCL ,Data and Unified Cache Linefill" "Disabled,Normal"
wgroup c14:0x21++0x00
line.long 0x00 "DBGITR,Instruction Transfer Register"
rgroup c14:0x21++0x00
line.long 0x00 "DBGPCSR,Program Counter Sampling Register"
hexmask.long 0x00 2.--31. 1. " PCSV  ,Program Counter sample value"
bitfld.long 0x00 0.--1. "          MPCSV  ,Meaning of PC sample value" "ARM,Thumb,Jazelle,Thumb"
wgroup c14:0x24++0x00
line.long 0x00 "DBGDRCR,Debug Run Control Register"
bitfld.long 0x00 3. " CSPA  ,Clear Sticky Pipeline Advance" "Not cleared,Cleared"
bitfld.long 0x00 2. "       CSE  ,Clear Sticky Exceptions" "Not cleared,Cleared"
textline "                   "
bitfld.long 0x00 1. " RR    ,Restart Request" "Not requested,Requested"
bitfld.long 0x00 0. "     HR   ,Halt Request" "Not requested,Requested"
wgroup c14:0xc0++0x00
line.long 0x00 "DBGOSLAR,Operating System Lock Access Register"
rgroup c14:0xc1++0x00
line.long 0x00 "DBGOSLSR,Operating System Lock Status Register"
bitfld.long 0x00 2. " 32_BA ,32-Bit Access" "Not required,Required"
bitfld.long 0x00 1. "      LB   ,Locked Bit" "Not locked,Locked"
bitfld.long 0x00 0. "     LIB ,Lock Implemented Bit" "Not implemented,Implemented"
group c14:0xc2++0x00
line.long 0x00 "DBGOSSRR,Operating System Save and Restore Register"
hexmask.long 0x00 0.--31. 1. " OSSR  ,OS Save and Restore"
group c14:0xc4++0x00
line.long 0x00 "DBGPRCR,Device Power-Down and Reset Control Register"
bitfld.long 0x00 0. " NPD   ,No Power-Down" "DBGNOPWRDWN low,DBGNOPWRDWN high"
group c14:0xc5++0x00
line.long 0x00 "DBGPRSR,Device Power-Down and Reset Status Register"
bitfld.long 0x00 3. " SR    ,Sticky Reset Status" "Not reset,Reset"
bitfld.long 0x00 2. "         R    ,Reset Status" "No reset,Reset"
textline "                   "
bitfld.long 0x00 1. " SPD   ,Sticky Power-down Status" "Not reset,Reset"
bitfld.long 0x00 0. "         PU   ,Power-up Status" "Powered down,Powered up"
width 11.
tree "Processor Identifier Registers"
rgroup c14:0x340--0x340
line.long 0x00 "CPUID,Main ID Register"
hexmask.long.byte 0x0 24.--31. 0x1 " IMPL       ,Implementer code"
hexmask.long.byte 0x0 20.--23. 0x1 "             SPECREV    ,Variant number"
textline "                    "
hexmask.long.byte 0x0 16.--19. 0x1 " ARCH       ,Architecture"
hexmask.long.word 0x0 4.--15. 0x1 "             PARTNUM    ,Part Number"
textline "                    "
hexmask.long.byte 0x0 0.--3. 0x1 " REV        ,Layout Revision"
rgroup c14:0x341--0x341
line.long 0x00 "CACHETYPE,Cache Type Register"
bitfld.long 0x0 29.--31. " FORMAT     ,Format" "Not ARMv7,Not ARMv7,Not ARMv7,Not ARMv7,ARMv7,Not ARMv7,Not ARMv7,Not ARMv7"
bitfld.long 0x0 24.--27. "      CWG        ,Cache Writeback Granule" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline "                    "
bitfld.long 0x0 20.--23. " ERG        ,Exclusives Reservation Granule" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "             DMinLine   ,Words of Smallest Line Length in L1 or L2 Data Cache Number" "Reserved,Reserved,Reserved,Reserved,16x32-bit words,?..."
textline "                    "
bitfld.long 0x00 14.--15. " L1_IPOLICY ,VIPT Instruction Cache Support" "Reserved,Reserved,Supported,?..."
bitfld.long 0x00 0.--3. "      IMINLINE   ,Words of Smallest Line Length in L1 or L2 Instruction Cache Number" "Reserved,Reserved,Reserved,Reserved,16x32-bit words,?..."
rgroup c14:0x343--0x343
line.long 0x00 "TLBTYPE,TLB Type Register"
hexmask.long.byte 0x0 16.--23. 0x1 " ILSIZE     ,Specifies the number of instruction TLB lockable entries"
hexmask.long.byte 0x0 8.--15. 0x1 "             DLSIZE     ,Specifies the number of unified or data TLB lockable entries"
textline "                    "
bitfld.long 0x0 1. " TLB_SIZE   ,TLB Size" "64,128"
bitfld.long 0x0 0. "            U          ,Unified or separate instruction TLBs" "Unified,Separate"
rgroup c14:0x348--0x348
line.long 0x00 "ID_PFR0,Processor Feature Register 0"
bitfld.long 0x00 12.--15. " STATE3     ,Thumb-2 Execution Environment (Thumb-2EE) Support" "Reserved,Supported,?..."
bitfld.long 0x00 8.--11. "      STATE2     ,Java Extension Interface Support" "Reserved,Reserved,Supported,?..."
textline "                    "
bitfld.long 0x00 4.--7. " STATE1     ,Thumb Encoding Supported by the Processor Type" "Reserved,Reserved,Reserved,Supported,?..."
bitfld.long 0x00 0.--3. "      STATE0     ,ARM Instruction Set Support" "Reserved,Supported,?..."
rgroup c14:0x349--0x349
line.long 0x00 "ID_PFR1,Processor Feature Register 1"
bitfld.long 0x00 8.--11. " MPM        ,Microcontroller Programmer's Model Support" "Not supported,?..."
bitfld.long 0x00 4.--7. "  SE         ,Security Extensions Architecture v1 Support" "Reserved,Supported,?..."
textline "                    "
bitfld.long 0x00 0.--3. " PM         ,Standard ARMv4 Programmer's Model Support" "Reserved,Supported,?..."
rgroup c14:0x34a--0x34a
line.long 0x00 "ID_DFR0,Debug Feature Register 0"
bitfld.long 0x00 20.--23. " MDM_MM     ,Microcontroller Debug Model Support" "Not supported,?..."
bitfld.long 0x00 16.--19. "  TDM_MM     ,Trace Debug Model (Memory-Mapped) Support" "Reserved,Supported,?..."
textline "                    "
bitfld.long 0x00 12.--15. " TDM_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,Supported,?..."
textline "                    "
bitfld.long 0x00 4.--7. " SDM_CB     ,Secure Debug Model (Coprocessor) Support" "Reserved,Reserved,Reserved,Reserved,Supported,?..."
bitfld.long 0x00 0.--3. "      CDM_CB     ,Coprocessor Debug Model Support" "Reserved,Reserved,Reserved,Reserved,Supported,?..."
rgroup c14:0x34b--0x34b
line.long 0x00 "ID_AFR0,Auxiliary Feature Register 0"
hexmask.long 0x00 0.--31. 1. " AF         ,Auxiliary Feature"
rgroup c14:0x34c--0x34c
line.long 0x00 "ID_MMFR0,Processor Feature Register 0"
bitfld.long 0x00 24.--27. " FCSE       ,Fast Context Switch Memory Mappings Support" "Not supported,?..."
bitfld.long 0x00 20.--23. "  ACR        ,Auxiliary Control Register Support" "Reserved,Supported,?..."
textline "                    "
bitfld.long 0x00 16.--19. " TCM        ,TCM and Associated DMA Support" "Not supported,?..."
bitfld.long 0x00 12.--15. "  OSS        ,Outer Shareable Support" "Not supported,?..."
textline "                    "
bitfld.long 0x00 8.--11. " CC_CPUA    ,Cache Coherency Support" "Reserved,Supported,?..."
bitfld.long 0x00 4.--7. "      PMSA       ,Physical Memory System Architecture (PMSA) Support" "Not supported,?..."
textline "                    "
bitfld.long 0x00 0.--3. " VMSA       ,Virtual Memory System Architecture (VMSA) Support" "Reserved,Reserved,Reserved,Supported,?..."
rgroup c14:0x34d--0x34d
line.long 0x00 "ID_MMFR1,Processor 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,?..."
textline "                    "
bitfld.long 0x00 20.--23. " L1UCMO     ,L1 Cache/All Maintenance Operations/Unified Architecture Support" "Not supported,?..."
bitfld.long 0x00 16.--19. "  L1HCMO     ,L1 Cache/All Maintenance Operations/Harvard Architecture Support" "Not supported,?..."
textline "                    "
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,?..."
rgroup c14:0x34e--0x34e
line.long 0x00 "ID_MMFR2,Processor 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,?..."
textline "                    "
bitfld.long 0x00 20.--23. " MBF        ,Memory Barrier Operations Support" "Reserved,Reserved,Supported,?..."
bitfld.long 0x00 16.--19. "      UTLBMO     ,TLB Maintenance Operations/Unified Architecture Support" "Reserved,Reserved,Reserved,Supported,?..."
textline "                    "
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 c14:0x34f--0x34f
line.long 0x00 "ID_MMFR3,Processor Feature Register 3"
bitfld.long 0x00 28.--31. " SS         ,Supersection support" "Supported,?..."
bitfld.long 0x00 20.--23. "      CW         ,Coherent walk" "Supported,?..."
textline "                    "
bitfld.long 0x00 12.--15. " MB         ,Invalidate broadcast Support" "Reserved,Reserved,Supported,?..."
bitfld.long 0x00 8.--11. "      BPM        ,Invalidate Branch predictor Support" "Reserved,Supported,?..."
textline "                    "
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,?..."
bitfld.long 0x00 0.--3. "      HCMOMVA    ,Invalidate Cache MVA Support" "Reserved,Supported,?..."
rgroup c14:0x350--0x350
line.long 0x00 "ID_ISAR0,ISA Feature Register 0"
bitfld.long 0x00 24.--27. " DIVI       ,Divide Instructions Support" "Not supported,?..."
bitfld.long 0x00 20.--23. "  DEBI       ,Debug Instructions Support" "Reserved,Supported,?..."
textline "                    "
bitfld.long 0x00 16.--19. " CI         ,Coprocessor Instructions Support" "Not supported,?..."
bitfld.long 0x00 12.--15. "  CBI        ,Combined Compare and Branch Instructions Support" "Reserved,Supported,?..."
textline "                    "
bitfld.long 0x00 8.--11. " BI         ,Bitfield Instructions Support" "Reserved,Supported,?..."
bitfld.long 0x00 4.--7. "      BCI        ,Bit Counting Instructions Support" "Reserved,Supported,?..."
textline "                    "
bitfld.long 0x00 0.--3. " SI         ,Swap Instructions Support" "Reserved,Supported,?..."
rgroup c14:0x351--0x351
line.long 0x00 "ID_ISAR1,ISA Feature 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,?..."
textline "                    "
bitfld.long 0x00 20.--23. " IMMI       ,Immediate Instructions Support" "Reserved,Supported,?..."
bitfld.long 0x00 16.--19. "      ITEI       ,If Then Instructions Support" "Reserved,Supported,?..."
textline "                    "
bitfld.long 0x00 12.--15. " EXTI       ,Extend Instructions Support" "Reserved,Reserved,Supported,?..."
bitfld.long 0x00 8.--11. "      E2I        ,Exception 2 Instructions Support" "Reserved,Supported,?..."
textline "                    "
bitfld.long 0x00 4.--7. " E1I        ,Exception 1 Instructions Support" "Reserved,Supported,?..."
bitfld.long 0x00 0.--3. "      ENDI       ,Endian Instructions Support" "Reserved,Supported,?..."
rgroup c14:0x352--0x352
line.long 0x00 "ID_ISAR2,ISA Feature 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,?..."
textline "                    "
bitfld.long 0x00 20.--23. " UMI        ,Advanced Unsigned Multiply Instructions Support" "Reserved,Reserved,Supported,?..."
bitfld.long 0x00 16.--19. "      SMI        ,Advanced Signed Multiply Instructions Support" "Reserved,Reserved,Reserved,Supported,?..."
textline "                    "
bitfld.long 0x00 12.--15. " MI         ,Multiply Instructions Support" "Reserved,Reserved,Supported,?..."
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,Supported,?..."
bitfld.long 0x00 0.--3. "      LSI        ,Load and Store Instructions Support" "Reserved,Supported,?..."
rgroup c14:0x353--0x353
line.long 0x00 "ID_ISAR3,ISA Feature Register 3"
bitfld.long 0x00 28.--31. " T2E        ,Thumb-2 Extensions Support" "Reserved,Supported,?..."
bitfld.long 0x00 24.--27. "      NOPI       ,True NOP Instructions Support" "Reserved,Supported,?..."
textline "                    "
bitfld.long 0x00 20.--23. " TCI        ,Thumb Copy Instructions Support" "Reserved,Supported,?..."
bitfld.long 0x00 16.--19. "      TBI        ,Table Branch Instructions Support" "Reserved,Supported,?..."
textline "                    "
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 c14:0x354--0x354
line.long 0x00 "ID_ISAR4,ISA Feature Register 4"
bitfld.long 0x00 28.--31. " SWP_frac   ,SWAP_frac" "Supported,?..."
bitfld.long 0x00 24.--27. "      PSR_M_I    ,PSR_M Instructions Support" "Not supported,?..."
textline "                    "
bitfld.long 0x00 20.--23. " SPRI       ,Synchronization Primitive instructions" "Not supported,?..."
bitfld.long 0x00 16.--19. "  BI         ,Barrier Instructions Support" "Reserved,Supported,?..."
textline "                    "
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 c14:0x355--0x355
line.long 0x00 "ID_ISAR5,ISA Feature Register 5"
tree.end
width 17.
tree "Coresight Management Registers"
textline "                          "
group c14:0x03bd++0x00
line.long 0x00 "DBGITCTRL_IOC,Integration Internal Output Control Register"
bitfld.long 0x00 5. " I_DBGTRIGGER    ,Internal DBGTRIGGER" "0,1"
bitfld.long 0x00 4. "                I_DBGRESTARTED  ,Internal DBGRESTARTED" "0,1"
textline "                          "
bitfld.long 0x00 3. " I_nPMUIRQ       ,Internal nPMUIRQ" "0,1"
bitfld.long 0x00 2. "                InternalCOMMTX  ,Internal COMMTX" "0,1"
textline "                          "
bitfld.long 0x00 1. " I_COMMRX        ,Internal COMMRX" "0,1"
bitfld.long 0x00 0. "                I_DBGACK        ,Internal DBGACK" "0,1"
group c14:0x03be++0x00
line.long 0x00 "DBGITCTRL_EOC,Integration External Output Control Register"
bitfld.long 0x00 7. " nDMAEXTERRIQ    ,External nDMAEXTERRIRQ" "0,1"
bitfld.long 0x00 6. "                nDMASIRQ        ,External nDMASIRQ" "0,1"
textline "                          "
bitfld.long 0x00 5. " nDMAIRQ         ,External nDMAIRQ" "0,1"
bitfld.long 0x00 4. "                nPMUIRQ         ,External nPMUIRQ" "0,1"
textline "                          "
bitfld.long 0x00 3. " STANDBYWFI      ,External STANDBYWFI" "0,1"
bitfld.long 0x00 2. "                COMMTX          ,External COMMTX" "0,1"
textline "                          "
bitfld.long 0x00 1. " COMMRX          ,External COMMRX" "0,1"
bitfld.long 0x00 0. "                DBGACK          ,External DBGACK" "0,1"
rgroup c14:0x03bf++0x00
line.long 0x00 "DBGITCTRL_IS,Integration Input Status Register"
bitfld.long 0x00 11. " CTI_DBGRESTART  ,CTI Debug Restart" "0,1"
bitfld.long 0x00 10. "                CTI_EDBGRQ      ,CTI Debug Request" "0,1"
textline "                          "
bitfld.long 0x00 9. " CTI_PMUEXTIN[1] ,CTI PMUEXTIN[1] Signal" "0,1"
bitfld.long 0x00 8. "                CTI_PMUEXTIN[0] ,CTI PMUEXTIN[0] Signal" "0,1"
textline "                          "
bitfld.long 0x00 2. " nFIQ            ,nFIQ Input" "0,1"
bitfld.long 0x00 1. "                nIRQ            ,nIRQ Input" "0,1"
textline "                          "
bitfld.long 0x00 0. " EDBGRQ          ,EDBGRQ Input" "0,1"
group c14:0x3c0--0x3c0
line.long 0x0 "DBGITCTRL,Integration Mode Control Register"
bitfld.long 0x0 0. " IME             ,Integration Mode Enable" "Disabled,Enabled"
group c14:0x3e8--0x3e8
line.long 0x0 "DBGCLAIMSET,Claim Tag Set Register"
bitfld.long 0x0 7. " CT7             ,Claim Tag 7" "No Effect,Set"
bitfld.long 0x0 6. "        CT6             ,Claim Tag 6" "No Effect,Set"
textline "                          "
bitfld.long 0x0 5. " CT5             ,Claim Tag 5" "No Effect,Set"
bitfld.long 0x0 4. "        CT4             ,Claim Tag 4" "No Effect,Set"
textline "                          "
bitfld.long 0x0 3. " CT3             ,Claim Tag 3" "No Effect,Set"
bitfld.long 0x0 2. "        CT2             ,Claim Tag 2" "No Effect,Set"
textline "                          "
bitfld.long 0x0 1. " CT1             ,Claim Tag 1" "No Effect,Set"
bitfld.long 0x0 0. "        CT0             ,Claim Tag 0" "No Effect,Set"
group c14:0x3e9--0x3e9
line.long 0x0 "DBGCLAIMCLR,Claim Tag Clear Register"
bitfld.long 0x0 7. " CT7             ,Claim Tag 7" "No Effect,Cleared"
bitfld.long 0x0 6. "        CT6             ,Claim Tag 6" "No Effect,Cleared"
textline "                          "
bitfld.long 0x0 5. " CT5             ,Claim Tag 5" "No Effect,Cleared"
bitfld.long 0x0 4. "        CT4             ,Claim Tag 4" "No Effect,Cleared"
textline "                          "
bitfld.long 0x0 3. " CT3             ,Claim Tag 3" "No Effect,Cleared"
bitfld.long 0x0 2. "        CT2             ,Claim Tag 2" "No Effect,Cleared"
textline "                          "
bitfld.long 0x0 1. " CT1             ,Claim Tag 1" "No Effect,Cleared"
bitfld.long 0x0 0. "        CT0             ,Claim Tag 0" "No Effect,Cleared"
wgroup c14:0x3ec--0x3ec
line.long 0x0 "DBGLAR,Lock Access Register"
rgroup c14:0x3ed--0x3ed
line.long 0x0 "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"
textline "                          "
bitfld.long 0x00 0. " SLI  ,Software Lock Implemented" "Not implemented,Implemented"
rgroup c14:0x3ee--0x3ee
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"
textline "                          "
bitfld.long 0x00 5. " SI   ,Secure invasive debug features implementation" "No effect,Implemented"
bitfld.long 0x00 4. "      SE   ,Secure invasive debug enable (DBGEN AND SPIDEN)" "Disabled,Enabled"
textline "                          "
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"
hgroup c14:0x3f2--0x3f2
hide.long 0x0 "DBGDEVID,Device Identifier (RESERVED)"
rgroup c14:0x3f3--0x3f3
line.long 0x0 "DBGDEVTYPE,Device Type"
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 c14:0x3f8--0x3f8
line.long 0x00 "DBGPID0,Debug Peripheral ID 0"
hexmask.long.byte 0x00 0.--7. 1. " PN[7:0]    ,Part Number [7:0]"
rgroup c14:0x3f9--0x3f9
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 c14:0x3fa--0x3fa
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 c14:0x3fb--0x3fb
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 c14:0x3f4--0x3f4
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 c14:0x3fc--0x3fc
line.long 0x00 "DBGCID0,Debug Component ID 0"
hexmask.long.byte 0x00 0.--7. 1. " PREAMBLE   ,Preamble byte 0"
rgroup c14:0x3fd--0x3fd
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 c14:0x3fe--0x3fe
line.long 0x00 "DBGCID2,Debug Component ID 2"
hexmask.long.byte 0x00 0.--7. 1. " PREAMBLE   ,Preamble byte 2"
rgroup c14:0x3ff--0x3ff
line.long 0x00 "DBGCID3,Debug Component ID 3"
hexmask.long.byte 0x00 0.--7. 1. " PREAMBLE   ,Preamble byte 3"
tree.end
tree.end
width 6.
tree "Breakpoint Registers"
group c14:0x40++0x00
line.long 0x00 "BVR0,Breakpoint Value Register 0"
group c14:0x50++0x00
line.long 0x00 "BCR0,Breakpoint Control Register 0"
bitfld.long 0x00 20.--22. " M   ,BVR Meaning" "IVA match,Linked IVA match,Reserved,Reserved,IVA mismatch,Linked IVA mismatch,?..."
bitfld.long 0x00 16.--19. "  LBRP ,Linked BRP Number" "BRP,BRP1,BRP2,BRP3,BRP4,BRP5,BRP6,BRP7,BRP8,BRP9,BRP10,BRP11,BRP12,BRP13,BRP14,BRP15"
bitfld.long 0x00 14.--15. "                   SWAC ,Secure World Access Control" "Both,Nonsecure,Secure,?..."
textline "               "
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"
bitfld.long 0x00 1.--2. "          S    ,Supervisor Access Control" "User/system/supervisor,Privileged,User,Any"
bitfld.long 0x00 0. "  B    ,Breakpoint Enable" "Disabled,Enabled"
group c14:0x41++0x00
line.long 0x00 "BVR1,Breakpoint Value Register 1"
group c14:0x51++0x00
line.long 0x00 "BCR1,Breakpoint Control Register 1"
bitfld.long 0x00 20.--22. " M   ,BVR Meaning" "IVA match,Linked IVA match,Reserved,Reserved,IVA mismatch,Linked IVA mismatch,?..."
bitfld.long 0x00 16.--19. "  LBRP ,Linked BRP Number" "BRP,BRP1,BRP2,BRP3,BRP4,BRP5,BRP6,BRP7,BRP8,BRP9,BRP10,BRP11,BRP12,BRP13,BRP14,BRP15"
bitfld.long 0x00 14.--15. "                   SWAC ,Secure World Access Control" "Both,Nonsecure,Secure,?..."
textline "               "
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"
bitfld.long 0x00 1.--2. "          S    ,Supervisor Access Control" "User/system/supervisor,Privileged,User,Any"
bitfld.long 0x00 0. "  B    ,Breakpoint Enable" "Disabled,Enabled"
group c14:0x42++0x00
line.long 0x00 "BVR2,Breakpoint Value Register 2"
group c14:0x52++0x00
line.long 0x00 "BCR2,Breakpoint Control Register 2"
bitfld.long 0x00 20.--22. " M   ,BVR Meaning" "IVA match,Linked IVA match,Reserved,Reserved,IVA mismatch,Linked IVA mismatch,?..."
bitfld.long 0x00 16.--19. "  LBRP ,Linked BRP Number" "BRP,BRP1,BRP2,BRP3,BRP4,BRP5,BRP6,BRP7,BRP8,BRP9,BRP10,BRP11,BRP12,BRP13,BRP14,BRP15"
bitfld.long 0x00 14.--15. "                   SWAC ,Secure World Access Control" "Both,Nonsecure,Secure,?..."
textline "               "
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"
bitfld.long 0x00 1.--2. "          S    ,Supervisor Access Control" "User/system/supervisor,Privileged,User,Any"
bitfld.long 0x00 0. "  B    ,Breakpoint Enable" "Disabled,Enabled"
group c14:0x43++0x00
line.long 0x00 "BVR3,Breakpoint Value Register 3"
group c14:0x53++0x00
line.long 0x00 "BCR3,Breakpoint Control Register 3"
bitfld.long 0x00 20.--22. " M   ,BVR Meaning" "IVA match,Linked IVA match,Reserved,Reserved,IVA mismatch,Linked IVA mismatch,?..."
bitfld.long 0x00 16.--19. "  LBRP ,Linked BRP Number" "BRP,BRP1,BRP2,BRP3,BRP4,BRP5,BRP6,BRP7,BRP8,BRP9,BRP10,BRP11,BRP12,BRP13,BRP14,BRP15"
bitfld.long 0x00 14.--15. "                   SWAC ,Secure World Access Control" "Both,Nonsecure,Secure,?..."
textline "               "
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"
bitfld.long 0x00 1.--2. "          S    ,Supervisor Access Control" "User/system/supervisor,Privileged,User,Any"
bitfld.long 0x00 0. "  B    ,Breakpoint Enable" "Disabled,Enabled"
group c14:0x44++0x00
line.long 0x00 "BVR4,Breakpoint Value Register 4"
group c14:0x54++0x00
line.long 0x00 "BCR4,Breakpoint Control Register 4"
bitfld.long 0x00 20.--22. " M   ,BVR Meaning" "IVA match,Linked IVA match,Unlinked ID,Linked ID,IVA mismatch,Linked IVA mismatch,?..."
bitfld.long 0x00 16.--19. "  LBRP ,Linked BRP Number" "BRP,BRP1,BRP2,BRP3,BRP4,BRP5,BRP6,BRP7,BRP8,BRP9,BRP10,BRP11,BRP12,BRP13,BRP14,BRP15"
bitfld.long 0x00 14.--15. "                   SWAC ,Secure World Access Control" "Both,Nonsecure,Secure,?..."
textline "               "
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"
bitfld.long 0x00 1.--2. "          S    ,Supervisor Access Control" "User/system/supervisor,Privileged,User,Any"
bitfld.long 0x00 0. "  B    ,Breakpoint Enable" "Disabled,Enabled"
group c14:0x45++0x00
line.long 0x00 "BVR5,Breakpoint Value Register 5"
group c14:0x55++0x00
line.long 0x00 "BCR5,Breakpoint Control Register 5"
bitfld.long 0x00 20.--22. " M   ,BVR Meaning" "IVA match,Linked IVA match,Unlinked ID,Linked ID,IVA mismatch,Linked IVA mismatch,?..."
bitfld.long 0x00 16.--19. "  LBRP ,Linked BRP Number" "BRP,BRP1,BRP2,BRP3,BRP4,BRP5,BRP6,BRP7,BRP8,BRP9,BRP10,BRP11,BRP12,BRP13,BRP14,BRP15"
bitfld.long 0x00 14.--15. "                   SWAC ,Secure World Access Control" "Both,Nonsecure,Secure,?..."
textline "               "
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"
bitfld.long 0x00 1.--2. "          S    ,Supervisor Access Control" "User/system/supervisor,Privileged,User,Any"
bitfld.long 0x00 0. "  B    ,Breakpoint Enable" "Disabled,Enabled"
tree.end
width 6.
tree "Watchpoint Control Registers"
group c14:0x60++0x00
line.long 0x00 "WVR0,Watchpoint Value Register 0"
hexmask.long 0x00 2.--31. 0x04 " WA0   ,Watchpoint Address 0"
group c14:0x70--0x70
line.long 0x0 "WCR0,Watchpoint Control Register 0"
bitfld.long 0x0 24.--28. " WAM   ,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. "  EL   ,Enable Linking" "Disabled,Enabled"
textline "               "
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"
bitfld.long 0x0 14.--15. "       SWAC ,Secure world access control" "Non-secure & Secure,Non-secure,Secure,?..."
textline "               "
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. " RD/WR ,Load/Store access control" "Reserved,Load,Store,Any"
bitfld.long 0x0 1.--2. "    PAC  ,Privileged access control" "Reserved,Privileged,USR,Any"
textline "               "
bitfld.long 0x0 0. " WE    ,Watchpoint enable" "Disabled,Enabled"
group c14:0x61++0x00
line.long 0x00 "WVR1,Watchpoint Value Register 1"
hexmask.long 0x00 2.--31. 0x04 " WA1   ,Watchpoint Address 1"
group c14:0x71--0x71
line.long 0x0 "WCR1,Watchpoint Control Register 1"
bitfld.long 0x0 24.--28. " WAM   ,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. "  EL   ,Enable Linking" "Disabled,Enabled"
textline "               "
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"
bitfld.long 0x0 14.--15. "       SWAC ,Secure world access control" "Non-secure & Secure,Non-secure,Secure,?..."
textline "               "
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. " RD/WR ,Load/Store access control" "Reserved,Load,Store,Any"
bitfld.long 0x0 1.--2. "    PAC  ,Privileged access control" "Reserved,Privileged,USR,Any"
textline "               "
bitfld.long 0x0 0. " WE    ,Watchpoint enable" "Disabled,Enabled"
group c14:0x62++0x00
line.long 0x00 "WVR2,Watchpoint Value Register 2"
hexmask.long 0x00 2.--31. 0x04 " WA2   ,Watchpoint Address 2"
group c14:0x72--0x72
line.long 0x0 "WCR2,Watchpoint Control Register 2"
bitfld.long 0x0 24.--28. " WAM   ,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. "  EL   ,Enable Linking" "Disabled,Enabled"
textline "               "
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"
bitfld.long 0x0 14.--15. "       SWAC ,Secure world access control" "Non-secure & Secure,Non-secure,Secure,?..."
textline "               "
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. " RD/WR ,Load/Store access control" "Reserved,Load,Store,Any"
bitfld.long 0x0 1.--2. "    PAC  ,Privileged access control" "Reserved,Privileged,USR,Any"
textline "               "
bitfld.long 0x0 0. " WE    ,Watchpoint enable" "Disabled,Enabled"
group c14:0x63++0x00
line.long 0x00 "WVR3,Watchpoint Value Register 3"
hexmask.long 0x00 2.--31. 0x04 " WA3   ,Watchpoint Address 3"
group c14:0x73--0x73
line.long 0x0 "WCR3,Watchpoint Control Register 3"
bitfld.long 0x0 24.--28. " WAM   ,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. "  EL   ,Enable Linking" "Disabled,Enabled"
textline "               "
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"
bitfld.long 0x0 14.--15. "       SWAC ,Secure world access control" "Non-secure & Secure,Non-secure,Secure,?..."
textline "               "
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. " RD/WR ,Load/Store access control" "Reserved,Load,Store,Any"
bitfld.long 0x0 1.--2. "    PAC  ,Privileged access control" "Reserved,Privileged,USR,Any"
textline "               "
bitfld.long 0x0 0. " WE    ,Watchpoint enable" "Disabled,Enabled"
group c14:0x006--0x006
line.long 0x0 "WFAR,Watchpoint Fault Address Register"
hexmask.long.long 0x00 1.--31. 0x02 " WFAR  ,Address of the watchpointed instruction"
tree.end
width 0x0B
tree.end
endif
AUTOINDENT.ON center tree
tree "_32_kHz_Synchronized_Timer"
tree "_32KTimer"
base ansd:0x4A304000
rgroup.long 0x00++0x07
line.long 0x00 "32KSYNCNT_REV,This register contains the sync counter IP revision code"
line.long 0x04 "32KSYNCNT_SYSCONFIG,This register is used for IDLE modes only"
hexmask.long 0x04 5.--31. 1. "Reserved,Reads return 0"
bitfld.long 0x04 3.--4. "IDLEMODE,Power management REQ/ACK control" "0,1,2,3"
rbitfld.long 0x04 0.--2. "Reserved,Reads return 0" "0,1,2,3,4,5,6,7"
rgroup.long 0x10++0x03
line.long 0x00 "32KSYNCNT_CR,This register contains the 32-kHz sync counter value"
tree.end
tree.end
tree "C2C"
tree "C2C"
base ansd:0x5C000000
rgroup.long 0x00++0x03
line.long 0x00 "C2C_REVISION,IP Revision identifier (X.Y.R) Used by software to track features. bugs. and compatibility"
hgroup.long 0x04++0x07
hide.long 0x00 "C2C_SYSCONFIG,System configuration register (not used)"
hide.long 0x04 "C2C_SYSSTATUS,Reserved"
group.long 0x0C++0x27
line.long 0x00 "C2C_PORTCONFIG,This register defines the widths of the TX and RX buses on the C2C interface"
bitfld.long 0x00 4.--7. "RX_WIDTH," "?,RX_WIDTH_1,?,?,?,?,?,?,?,?,RX_WIDTH_10,?,?,?,?,?"
bitfld.long 0x00 0.--3. "TX_WIDTH," "?,TX_WIDTH_1,?,?,?,?,?,?,?,?,TX_WIDTH_10,?,?,?,?,?"
line.long 0x04 "C2C_MIRRORMODE,This register sets the C2C L3 in mirror mode"
bitfld.long 0x04 0. "MIRRORMODE,Mirror mode" "MIRRORMODE_0,MIRRORMODE_1"
line.long 0x08 "C2C_IRQ_RAW_STATUS_0,Interrupt status register (OCP-compliant IRQ line) for C2c_Sscm_Irq(0). regardless of enable settings"
bitfld.long 0x08 3. "WAIT_IRQ,Reading 1 indicates WAIT value in WAIT register has been modified by distant C2C" "0,1"
bitfld.long 0x08 2. "WAKE_ACK_IRQ,Reading 1 indicates WAKE_ACK value in the WAKE_ACK register has been modified by distant C2C" "0,1"
bitfld.long 0x08 1. "RX_MAX_FREQ_ACK_IRQ,Reading 1 indicates GPI is not turned on OR RX_MAX_FREQ_ACK value in the RX_MAX_FREQ_ACK register equal RX_MAX_FREQ value in the RX_MAX_FREQ register" "0,1"
bitfld.long 0x08 0. "TX_FREQ_IRQ,Reading 1 indicates that the FCLK_FREQ value in the FCLK_FREQ register has been updated AND the SSCM has finished updating the new division for the TX clock" "0,1"
line.long 0x0C "C2C_IRQ_RAW_STATUS_1,"
bitfld.long 0x0C 31. "GENO_IRQ_31,Reading 1 indicates C2c_Sscm_GENO (31) signal and GENO_31 value in GENO_STATUS register have been modified by distant C2C" "0,1"
bitfld.long 0x0C 30. "GENO_IRQ_30,Reading 1 indicates C2c_Sscm_GENO (30) signal and GENO_30 value in GENO_STATUS register have been modified by distant C2C" "0,1"
bitfld.long 0x0C 29. "GENO_IRQ_29,Reading 1 indicates C2c_Sscm_GENO (29) signal and GENO_29 value in GENO_STATUS register have been modified by distant C2C" "0,1"
bitfld.long 0x0C 28. "GENO_IRQ_28,Reading 1 indicates C2c_Sscm_GENO (28) signal and GENO_28 value in GENO_STATUS register have been modified by distant C2C" "0,1"
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bitfld.long 0x0C 27. "GENO_IRQ_27,Reading 1 indicates C2c_Sscm_GENO (27) signal and GENO_27 value in GENO_STATUS register have been modified by distant C2C" "0,1"
bitfld.long 0x0C 26. "GENO_IRQ_26,Reading 1 indicates C2c_Sscm_GENO (26) signal and GENO_26 value in GENO_STATUS register have been modified by distant C2C" "0,1"
bitfld.long 0x0C 25. "GENO_IRQ_25,Reading 1 indicates C2c_Sscm_GENO (25) signal and GENO_25 value in GENO_STATUS register have been modified by distant C2C" "0,1"
bitfld.long 0x0C 24. "GENO_IRQ_24,Reading 1 indicates C2c_Sscm_GENO (24) signal and GENO_24 value in GENO_STATUS register have been modified by distant C2C" "0,1"
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bitfld.long 0x0C 23. "GENO_IRQ_23,Reading 1 indicates C2c_Sscm_GENO (23) signal and GENO_23 value in GENO_STATUS register have been modified by distant C2C" "0,1"
bitfld.long 0x0C 22. "GENO_IRQ_22,Reading 1 indicates C2c_Sscm_GENO (22) signal and GENO_22 value in GENO_STATUS register have been modified by distant C2C" "0,1"
bitfld.long 0x0C 21. "GENO_IRQ_21,Reading 1 indicates C2c_Sscm_GENO (21) signal and GENO_21 value in GENO_STATUS register have been modified by distant C2C" "0,1"
bitfld.long 0x0C 20. "GENO_IRQ_20,Reading 1 indicates C2c_Sscm_GENO (20) signal and GENO_20 value in GENO_STATUS register have been modified by distant C2C" "0,1"
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bitfld.long 0x0C 19. "GENO_IRQ_19,Reading 1 indicates C2c_Sscm_GENO (19) signal and GENO_19 value in GENO_STATUS register have been modified by distant C2C" "0,1"
bitfld.long 0x0C 18. "GENO_IRQ_18,Reading 1 indicates C2c_Sscm_GENO (18) signal and GENO_18 value in GENO_STATUS register have been modified by distant C2C" "0,1"
bitfld.long 0x0C 17. "GENO_IRQ_17,Reading 1 indicates C2c_Sscm_GENO (17) signal and GENO_17 value in GENO_STATUS register have been modified by distant C2C" "0,1"
bitfld.long 0x0C 16. "GENO_IRQ_16,Reading 1 indicates C2c_Sscm_GENO (16) signal and GENO_16 value in GENO_STATUS register have been modified by distant C2C" "0,1"
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bitfld.long 0x0C 15. "GENO_IRQ_15,Reading 1 indicates C2c_Sscm_GENO (15) signal and GENO_15 value in GENO_STATUS register have been modified by distant C2C" "0,1"
bitfld.long 0x0C 14. "GENO_IRQ_14,Reading 1 indicates C2c_Sscm_GENO (14) signal and GENO_14 value in GENO_STATUS register have been modified by distant C2C" "0,1"
bitfld.long 0x0C 13. "GENO_IRQ_13,Reading 1 indicates C2c_Sscm_GENO (13) signal and GENO_13 value in GENO_STATUS register have been modified by distant C2C" "0,1"
bitfld.long 0x0C 12. "GENO_IRQ_12,Reading 1 indicates C2c_Sscm_GENO (12) signal and GENO_12 value in GENO_STATUS register have been modified by distant C2C" "0,1"
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bitfld.long 0x0C 11. "GENO_IRQ_11,Reading 1 indicates C2c_Sscm_GENO (11) signal and GENO_11 value in GENO_STATUS register have been modified by distant C2C" "0,1"
bitfld.long 0x0C 10. "GENO_IRQ_10,Reading 1 indicates C2c_Sscm_GENO (10) signal and GENO_10 value in GENO_STATUS register have been modified by distant C2C" "0,1"
bitfld.long 0x0C 9. "GENO_IRQ_9,Reading 1 indicates C2c_Sscm_GENO (9) signal and GENO_9 value in GENO_STATUS register have been modified by distant C2C" "0,1"
bitfld.long 0x0C 8. "GENO_IRQ_8,Reading 1 indicates C2c_Sscm_GENO (8) signal and GENO_8 value in GENO_STATUS register have been modified by distant C2C" "0,1"
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bitfld.long 0x0C 7. "GENO_IRQ_7,Reading 1 indicates C2c_Sscm_GENO (7) signal and GENO_7 value in GENO_STATUS register have been modified by distant C2C" "0,1"
bitfld.long 0x0C 6. "GENO_IRQ_6,Reading 1 indicates C2c_Sscm_GENO (6) signal and GENO_6 value in GENO_STATUS register have been modified by distant C2C" "0,1"
bitfld.long 0x0C 5. "GENO_IRQ_5,Reading 1 indicates C2c_Sscm_GENO (5) signal and GENO_5 value in GENO_STATUS register have been modified by distant C2C" "0,1"
bitfld.long 0x0C 4. "GENO_IRQ_4,Reading 1 indicates C2c_Sscm_GENO (4) signal and GENO_4 value in GENO_STATUS register have been modified by distant C2C" "0,1"
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bitfld.long 0x0C 3. "GENO_IRQ_3,Reading 1 indicates C2c_Sscm_GENO (3) signal and GENO_3 value in GENO_STATUS register have been modified by distant C2C" "0,1"
bitfld.long 0x0C 2. "GENO_IRQ_2,Reading 1 indicates C2c_Sscm_GENO (2) signal and GENO_2 value in GENO_STATUS register have been modified by distant C2C" "0,1"
bitfld.long 0x0C 1. "GENO_IRQ_1,Reading 1 indicates C2c_Sscm_GENO (1) signal and GENO_1 value in GENO_STATUS register have been modified by distant C2C" "0,1"
bitfld.long 0x0C 0. "GENO_IRQ_0,Reading 1 indicates C2c_Sscm_GENO (0) signal and GENO_0 value in GENO_STATUS register have been modified by distant C2C" "0,1"
line.long 0x10 "C2C_IRQ_ENABLE_STATUS_0,"
bitfld.long 0x10 3. "WAIT_IRQ,Reading 1 indicates WAIT value in WAIT register has been modified by distant C2C and interrupt source is not masked" "0,1"
bitfld.long 0x10 2. "WAKE_ACK_IRQ,Reading 1 indicates WAKE_ACK value in the WAKE_ACK register has been modified by distant C2C and interrupt source is not masked" "0,1"
bitfld.long 0x10 1. "RX_MAX_FREQ_ACK_IRQ,Reading 1 indicates GPI is not turned on OR RX_MAX_FREQ_ACK value in the RX_MAX_FREQ_ACK register equal RX_MAX_FREQ value in the RX_MAX_FREQ register" "0,1"
bitfld.long 0x10 0. "TX_FREQ_IRQ,Reading 1 indicates that the FCLK_FREQ value in the FCLK_FREQ register has been updated AND the SSCM has finished updating the new division for the Tx clock" "0,1"
line.long 0x14 "C2C_IRQ_ENABLE_STATUS_1,"
bitfld.long 0x14 31. "GENO_IRQ_31,Reading 1 indicates C2c_Sscm_GENO (31) signal and GENO_31 value in GENO_STATUS register have been modified by distant C2C and interrupt source is not masked" "0,1"
bitfld.long 0x14 30. "GENO_IRQ_30,Reading 1 indicates C2c_Sscm_GENO (30) signal and GENO_30 value in GENO_STATUS register have been modified by distant C2C and interrupt source is not masked" "0,1"
bitfld.long 0x14 29. "GENO_IRQ_29,Reading 1 indicates C2c_Sscm_GENO (29) signal and GENO_29 value in GENO_STATUS register have been modified by distant C2C and interrupt source is not masked" "0,1"
bitfld.long 0x14 28. "GENO_IRQ_28,Reading 1 indicates C2c_Sscm_GENO (28) signal and GENO_28 value in GENO_STATUS register have been modified by distant C2C and interrupt source is not masked" "0,1"
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bitfld.long 0x14 27. "GENO_IRQ_27,Reading 1 indicates C2c_Sscm_GENO (27) signal and GENO_27 value in GENO_STATUS register have been modified by distant C2C and interrupt source is not masked" "0,1"
bitfld.long 0x14 26. "GENO_IRQ_26,Reading 1 indicates C2c_Sscm_GENO (26) signal and GENO_26 value in GENO_STATUS register have been modified by distant C2C and interrupt source is not masked" "0,1"
bitfld.long 0x14 25. "GENO_IRQ_25,Reading 1 indicates C2c_Sscm_GENO (25) signal and GENO_25 value in GENO_STATUS register have been modified by distant C2C and interrupt source is not masked" "0,1"
bitfld.long 0x14 24. "GENO_IRQ_24,Reading 1 indicates C2c_Sscm_GENO (24) signal and GENO_24 value in GENO_STATUS register have been modified by distant C2C and interrupt source is not masked" "0,1"
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bitfld.long 0x14 23. "GENO_IRQ_23,Reading 1 indicates C2c_Sscm_GENO (23) signal and GENO_23 value in GENO_STATUS register have been modified by distant C2C and interrupt source is not masked" "0,1"
bitfld.long 0x14 22. "GENO_IRQ_22,Reading 1 indicates C2c_Sscm_GENO (22) signal and GENO_22 value in GENO_STATUS register have been modified by distant C2C and interrupt source is not masked" "0,1"
bitfld.long 0x14 21. "GENO_IRQ_21,Reading 1 indicates C2c_Sscm_GENO (21) signal and GENO_21 value in GENO_STATUS register have been modified by distant C2C and interrupt source is not masked" "0,1"
bitfld.long 0x14 20. "GENO_IRQ_20,Reading 1 indicates C2c_Sscm_GENO (20) signal and GENO_20 value in GENO_STATUS register have been modified by distant C2C and interrupt source is not masked" "0,1"
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bitfld.long 0x14 19. "GENO_IRQ_19,Reading 1 indicates C2c_Sscm_GENO (19) signal and GENO_19 value in GENO_STATUS register have been modified by distant C2C and interrupt source is not masked" "0,1"
bitfld.long 0x14 18. "GENO_IRQ_18,Reading 1 indicates C2c_Sscm_GENO (18) signal and GENO_18 value in GENO_STATUS register have been modified by distant C2C and interrupt source is not masked" "0,1"
bitfld.long 0x14 17. "GENO_IRQ_17,Reading 1 indicates C2c_Sscm_GENO (17) signal and GENO_17 value in GENO_STATUS register have been modified by distant C2C and interrupt source is not masked" "0,1"
bitfld.long 0x14 16. "GENO_IRQ_16,Reading 1 indicates C2c_Sscm_GENO (16) signal and GENO_16 value in GENO_STATUS register have been modified by distant C2C and interrupt source is not masked" "0,1"
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bitfld.long 0x14 15. "GENO_IRQ_15,Reading 1 indicates C2c_Sscm_GENO (15) signal and GENO_15 value in GENO_STATUS register have been modified by distant C2C and interrupt source is not masked" "0,1"
bitfld.long 0x14 14. "GENO_IRQ_14,Reading 1 indicates C2c_Sscm_GENO (14) signal and GENO_14 value in GENO_STATUS register have been modified by distant C2C and interrupt source is not masked" "0,1"
bitfld.long 0x14 13. "GENO_IRQ_13,Reading 1 indicates C2c_Sscm_GENO (13) signal and GENO_13 value in GENO_STATUS register have been modified by distant C2C and interrupt source is not masked" "0,1"
bitfld.long 0x14 12. "GENO_IRQ_12,Reading 1 indicates C2c_Sscm_GENO (12) signal and GENO_12 value in GENO_STATUS register have been modified by distant C2C and interrupt source is not masked" "0,1"
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bitfld.long 0x14 11. "GENO_IRQ_11,Reading 1 indicates C2c_Sscm_GENO (11) signal and GENO_11 value in GENO_STATUS register have been modified by distant C2C and interrupt source is not masked" "0,1"
bitfld.long 0x14 10. "GENO_IRQ_10,Reading 1 indicates C2c_Sscm_GENO (10) signal and GENO_10 value in GENO_STATUS register have been modified by distant C2C and interrupt source is not masked" "0,1"
bitfld.long 0x14 9. "GENO_IRQ_9,Reading 1 indicates C2c_Sscm_GENO (9) signal and GENO_9 value in GENO_STATUS register have been modified by distant C2C and interrupt source is not masked" "0,1"
bitfld.long 0x14 8. "GENO_IRQ_8,Reading 1 indicates C2c_Sscm_GENO (8) signal and GENO_8 value in GENO_STATUS register have been modified by distant C2C and interrupt source is not masked" "0,1"
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bitfld.long 0x14 7. "GENO_IRQ_7,Reading 1 indicates C2c_Sscm_GENO (7) signal and GENO_7 value in GENO_STATUS register have been modified by distant C2C and interrupt source is not masked" "0,1"
bitfld.long 0x14 6. "GENO_IRQ_6,Reading 1 indicates C2c_Sscm_GENO (6) signal and GENO_6 value in GENO_STATUS register have been modified by distant C2C and interrupt source is not masked" "0,1"
bitfld.long 0x14 5. "GENO_IRQ_5,Reading 1 indicates C2c_Sscm_GENO (5) signal and GENO_5 value in GENO_STATUS register have been modified by distant C2C and interrupt source is not masked" "0,1"
bitfld.long 0x14 4. "GENO_IRQ_4,Reading 1 indicates C2c_Sscm_GENO (4) signal and GENO_4 value in GENO_STATUS register have been modified by distant C2C and interrupt source is not masked" "0,1"
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bitfld.long 0x14 3. "GENO_IRQ_3,Reading 1 indicates C2c_Sscm_GENO (3) signal and GENO_3 value in GENO_STATUS register have been modified by distant C2C and interrupt source is not masked" "0,1"
bitfld.long 0x14 2. "GENO_IRQ_2,Reading 1 indicates C2c_Sscm_GENO (2) signal and GENO_2 value in GENO_STATUS register have been modified by distant C2C and interrupt source is not masked" "0,1"
bitfld.long 0x14 1. "GENO_IRQ_1,Reading 1 indicates C2c_Sscm_GENO (1) signal and GENO_1 value in GENO_STATUS register have been modified by distant C2C and interrupt source is not masked" "0,1"
bitfld.long 0x14 0. "GENO_IRQ_0,Reading 1 indicates C2c_Sscm_GENO (0) signal and GENO_0 value in GENO_STATUS register have been modified by distant C2C and interrupt source is not masked" "0,1"
line.long 0x18 "C2C_IRQ_ENABLE_SET_0,"
bitfld.long 0x18 3. "WAIT_IRQ_EN,Interrupt enable for WAIT IRQ" "0,1"
bitfld.long 0x18 2. "WAKE_ACK_IRQ_EN,Interrupt enable for WAKE_ACK IRQ" "0,1"
bitfld.long 0x18 1. "RX_MAX_FREQ_ACK_IRQ_EN,Interrupt enable for RX_MAX_FREQ_ACK IRQ" "0,1"
bitfld.long 0x18 0. "TX_FREQ_IRQ_EN,Interrupt enable for TX_FREQ IRQ" "0,1"
line.long 0x1C "C2C_IRQ_ENABLE_SET_1,"
bitfld.long 0x1C 31. "GENO_IRQ_31_EN,Interrupt enable for GENO_IRQ_31 IRQ" "0,1"
bitfld.long 0x1C 30. "GENO_IRQ_30_EN,Interrupt enable for GENO_IRQ_30 IRQ" "0,1"
bitfld.long 0x1C 29. "GENO_IRQ_29_EN,Interrupt enable for GENO_IRQ_29 IRQ" "0,1"
bitfld.long 0x1C 28. "GENO_IRQ_28_EN,Interrupt enable for GENO_IRQ_28 IRQ" "0,1"
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bitfld.long 0x1C 27. "GENO_IRQ_27_EN,Interrupt enable for GENO_IRQ_27 IRQ" "0,1"
bitfld.long 0x1C 26. "GENO_IRQ_26_EN,Interrupt enable for GENO_IRQ_26 IRQ" "0,1"
bitfld.long 0x1C 25. "GENO_IRQ_25_EN,Interrupt enable for GENO_IRQ_25 IRQ" "0,1"
bitfld.long 0x1C 24. "GENO_IRQ_24_EN,Interrupt enable for GENO_IRQ_24 IRQ" "0,1"
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bitfld.long 0x1C 23. "GENO_IRQ_23_EN,Interrupt enable for GENO_IRQ_23 IRQ" "0,1"
bitfld.long 0x1C 22. "GENO_IRQ_22_EN,Interrupt enable for GENO_IRQ_22 IRQ" "0,1"
bitfld.long 0x1C 21. "GENO_IRQ_21_EN,Interrupt enable for GENO_IRQ_21 IRQ" "0,1"
bitfld.long 0x1C 20. "GENO_IRQ_20_EN,Interrupt enable for GENO_IRQ_20 IRQ" "0,1"
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bitfld.long 0x1C 19. "GENO_IRQ_19_EN,Interrupt enable for GENO_IRQ_19 IRQ" "0,1"
bitfld.long 0x1C 18. "GENO_IRQ_18_EN,Interrupt enable for GENO_IRQ_18 IRQ" "0,1"
bitfld.long 0x1C 17. "GENO_IRQ_17_EN,Interrupt enable for GENO_IRQ_17 IRQ" "0,1"
bitfld.long 0x1C 16. "GENO_IRQ_16_EN,Interrupt enable for GENO_IRQ_16 IRQ" "0,1"
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bitfld.long 0x1C 15. "GENO_IRQ_15_EN,Interrupt enable for GENO_IRQ_15 IRQ" "0,1"
bitfld.long 0x1C 14. "GENO_IRQ_14_EN,Interrupt enable for GENO_IRQ_14 IRQ" "0,1"
bitfld.long 0x1C 13. "GENO_IRQ_13_EN,Interrupt enable for GENO_IRQ_13 IRQ" "0,1"
bitfld.long 0x1C 12. "GENO_IRQ_12_EN,Interrupt enable for GENO_IRQ_12 IRQ" "0,1"
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bitfld.long 0x1C 11. "GENO_IRQ_11_EN,Interrupt enable for GENO_IRQ_11 IRQ" "0,1"
bitfld.long 0x1C 10. "GENO_IRQ_10_EN,Interrupt enable for GENO_IRQ_10 IRQ" "0,1"
bitfld.long 0x1C 9. "GENO_IRQ_9_EN,Interrupt enable for GENO_IRQ_9 IRQ" "0,1"
bitfld.long 0x1C 8. "GENO_IRQ_8_EN,Interrupt enable for GENO_IRQ_8 IRQ" "0,1"
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bitfld.long 0x1C 7. "GENO_IRQ_7_EN,Interrupt enable for GENO_IRQ_7 IRQ" "0,1"
bitfld.long 0x1C 6. "GENO_IRQ_6_EN,Interrupt enable for GENO_IRQ_6 IRQ" "0,1"
bitfld.long 0x1C 5. "GENO_IRQ_5_EN,Interrupt enable for GENO_IRQ_5 IRQ" "0,1"
bitfld.long 0x1C 4. "GENO_IRQ_4_EN,Interrupt enable for GENO_IRQ_4 IRQ" "0,1"
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bitfld.long 0x1C 3. "GENO_IRQ_3_EN,Interrupt enable for GENO_IRQ_3 IRQ" "0,1"
bitfld.long 0x1C 2. "GENO_IRQ_2_EN,Interrupt enable for GENO_IRQ_2 IRQ" "0,1"
bitfld.long 0x1C 1. "GENO_IRQ_1_EN,Interrupt enable for GENO_IRQ_1 IRQ" "0,1"
bitfld.long 0x1C 0. "GENO_IRQ_0_EN,Interrupt enable for GENO_IRQ_0 IRQ" "0,1"
line.long 0x20 "C2C_IRQ_ENABLE_CLEAR_0,"
bitfld.long 0x20 3. "WAIT_IRQ_EN,Interrupt enable for WAIT IRQ" "0,1"
bitfld.long 0x20 2. "WAKE_ACK_IRQ_EN,Interrupt enable for WAKE_ACK IRQ" "0,1"
bitfld.long 0x20 1. "RX_MAX_FREQ_ACK_IRQ_EN,Interrupt enable for RX_MAX_FREQ_ACK IRQ" "0,1"
bitfld.long 0x20 0. "TX_FREQ_IRQ_EN,Interrupt enable for TX_FREQ IRQ" "0,1"
line.long 0x24 "C2C_IRQ_ENABLE_CLEAR_1,"
bitfld.long 0x24 31. "GENO_IRQ_31_EN,Interrupt enable for GENO_IRQ_31 IRQ" "0,1"
bitfld.long 0x24 30. "GENO_IRQ_30_EN,Interrupt enable for GENO_IRQ_30 IRQ" "0,1"
bitfld.long 0x24 29. "GENO_IRQ_29_EN,Interrupt enable for GENO_IRQ_29 IRQ" "0,1"
bitfld.long 0x24 28. "GENO_IRQ_28_EN,Interrupt enable for GENO_IRQ_28 IRQ" "0,1"
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bitfld.long 0x24 27. "GENO_IRQ_27_EN,Interrupt enable for GENO_IRQ_27 IRQ" "0,1"
bitfld.long 0x24 26. "GENO_IRQ_26_EN,Interrupt enable for GENO_IRQ_26 IRQ" "0,1"
bitfld.long 0x24 25. "GENO_IRQ_25_EN,Interrupt enable for GENO_IRQ_25 IRQ" "0,1"
bitfld.long 0x24 24. "GENO_IRQ_24_EN,Interrupt enable for GENO_IRQ_24 IRQ" "0,1"
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bitfld.long 0x24 23. "GENO_IRQ_23_EN,Interrupt enable for GENO_IRQ_23 IRQ" "0,1"
bitfld.long 0x24 22. "GENO_IRQ_22_EN,Interrupt enable for GENO_IRQ_22 IRQ" "0,1"
bitfld.long 0x24 21. "GENO_IRQ_21_EN,Interrupt enable for GENO_IRQ_21 IRQ" "0,1"
bitfld.long 0x24 20. "GENO_IRQ_20_EN,Interrupt enable for GENO_IRQ_20 IRQ" "0,1"
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bitfld.long 0x24 19. "GENO_IRQ_19_EN,Interrupt enable for GENO_IRQ_19 IRQ" "0,1"
bitfld.long 0x24 18. "GENO_IRQ_18_EN,Interrupt enable for GENO_IRQ_18 IRQ" "0,1"
bitfld.long 0x24 17. "GENO_IRQ_17_EN,Interrupt enable for GENO_IRQ_17 IRQ" "0,1"
bitfld.long 0x24 16. "GENO_IRQ_16_EN,Interrupt enable for GENO_IRQ_16 IRQ" "0,1"
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bitfld.long 0x24 15. "GENO_IRQ_15_EN,Interrupt enable for GENO_IRQ_15 IRQ" "0,1"
bitfld.long 0x24 14. "GENO_IRQ_14_EN,Interrupt enable for GENO_IRQ_14 IRQ" "0,1"
bitfld.long 0x24 13. "GENO_IRQ_13_EN,Interrupt enable for GENO_IRQ_13 IRQ" "0,1"
bitfld.long 0x24 12. "GENO_IRQ_12_EN,Interrupt enable for GENO_IRQ_12 IRQ" "0,1"
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bitfld.long 0x24 11. "GENO_IRQ_11_EN,Interrupt enable for GENO_IRQ_11 IRQ" "0,1"
bitfld.long 0x24 10. "GENO_IRQ_10_EN,Interrupt enable for GENO_IRQ_10 IRQ" "0,1"
bitfld.long 0x24 9. "GENO_IRQ_9_EN,Interrupt enable for GENO_IRQ_9 IRQ" "0,1"
bitfld.long 0x24 8. "GENO_IRQ_8_EN,Interrupt enable for GENO_IRQ_8 IRQ" "0,1"
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bitfld.long 0x24 7. "GENO_IRQ_7_EN,Interrupt enable for GENO_IRQ_7 IRQ" "0,1"
bitfld.long 0x24 6. "GENO_IRQ_6_EN,Interrupt enable for GENO_IRQ_6 IRQ" "0,1"
bitfld.long 0x24 5. "GENO_IRQ_5_EN,Interrupt enable for GENO_IRQ_5 IRQ" "0,1"
bitfld.long 0x24 4. "GENO_IRQ_4_EN,Interrupt enable for GENO_IRQ_4 IRQ" "0,1"
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bitfld.long 0x24 3. "GENO_IRQ_3_EN,Interrupt enable for GENO_IRQ_3 IRQ" "0,1"
bitfld.long 0x24 2. "GENO_IRQ_2_EN,Interrupt enable for GENO_IRQ_2 IRQ" "0,1"
bitfld.long 0x24 1. "GENO_IRQ_1_EN,Interrupt enable for GENO_IRQ_1 IRQ" "0,1"
bitfld.long 0x24 0. "GENO_IRQ_0_EN,Interrupt enable for GENO_IRQ_0 IRQ" "0,1"
group.long 0x40++0x17
line.long 0x00 "C2C_FCLK_FREQ,"
hexmask.long.word 0x00 0.--9. 1. "FCLK_FREQ,Value of the Functional clock frequency according to OPP written by software"
line.long 0x04 "C2C_RX_MAX_FREQ,"
hexmask.long.word 0x04 0.--9. 1. "RX_MAX_FREQ,Value of the requested RX maximum clock frequency according to OPP written by software"
line.long 0x08 "C2C_TX_MAX_FREQ,"
hexmask.long.word 0x08 0.--9. 1. "TX_MAX_FREQ,Value of the requested TX maximum clock frequency set by distant C2C"
line.long 0x0C "C2C_RX_MAX_FREQ_ACK,"
hexmask.long.word 0x0C 0.--9. 1. "RX_MAX_FREQ_ACK,Acknowledged maximum Rx clock frequency"
line.long 0x10 "C2C_WAKE_REQ,"
bitfld.long 0x10 0. "WAKE_REQ,Value of the WAKE_REQ set by software" "0,1"
line.long 0x14 "C2C_WAKE_ACK,"
bitfld.long 0x14 0. "WAKE_ACK,Value of the WAKE_ACK set by distant C2C" "0,1"
group.long 0x60++0x0B
line.long 0x00 "C2C_STANDBY,"
bitfld.long 0x00 0. "STANDBY,Value of the STANDBY set by software" "0,1"
line.long 0x04 "C2C_STANDBY_IN,"
bitfld.long 0x04 0. "STANDBY,Value of the STANDBY set by distant C2C" "0,1"
line.long 0x08 "C2C_WAIT,"
bitfld.long 0x08 0. "WAIT,Value of the WAIT set by distant C2C" "0,1"
group.long 0x70++0x07
line.long 0x00 "C2C_GENI_CONTROL,"
bitfld.long 0x00 31. "GENI_31,If GENI_MASK_31 in GENI_MASK register is reset GENI_31 is the value of C2C_Sscm_GenI_31 and cannot be modified by software" "0,1"
bitfld.long 0x00 30. "GENI_30,f GENI_MASK_30 in GENI_MASK register is reset GENI_30 is the value of C2C_Sscm_GenI_30 and cannot be modified by software" "0,1"
bitfld.long 0x00 29. "GENI_29,f GENI_MASK_29 in GENI_MASK register is reset GENI_29 is the value of C2C_Sscm_GenI_29 and cannot be modified by software" "0,1"
bitfld.long 0x00 28. "GENI_28,f GENI_MASK_28 in GENI_MASK register is reset GENI_28 is the value of C2C_Sscm_GenI_28 and cannot be modified by software" "0,1"
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bitfld.long 0x00 27. "GENI_27,f GENI_MASK_27 in GENI_MASK register is reset GENI_27 is the value of C2C_Sscm_GenI_27 and cannot be modified by software" "0,1"
bitfld.long 0x00 26. "GENI_26,f GENI_MASK_26 in GENI_MASK register is reset GENI_26 is the value of C2C_Sscm_GenI_26 and cannot be modified by software" "0,1"
bitfld.long 0x00 25. "GENI_25,f GENI_MASK_25 in GENI_MASK register is reset GENI_25 is the value of C2C_Sscm_GenI_25 and cannot be modified by software" "0,1"
bitfld.long 0x00 24. "GENI_24,f GENI_MASK_24 in GENI_MASK register is reset GENI_24 is the value of C2C_Sscm_GenI_24 and cannot be modified by software" "0,1"
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bitfld.long 0x00 23. "GENI_23,f GENI_MASK_23 in GENI_MASK register is reset GENI_23 is the value of C2C_Sscm_GenI_23 and cannot be modified by software" "0,1"
bitfld.long 0x00 22. "GENI_22,f GENI_MASK_22 in GENI_MASK register is reset GENI_22 is the value of C2C_Sscm_GenI_22 and cannot be modified by software" "0,1"
bitfld.long 0x00 21. "GENI_21,f GENI_MASK_21 in GENI_MASK register is reset GENI_21 is the value of C2C_Sscm_GenI_31 and cannot be modified by software" "0,1"
bitfld.long 0x00 20. "GENI_20,f GENI_MASK_20 in GENI_MASK register is reset GENI_20 is the value of C2C_Sscm_GenI_20 and cannot be modified by software" "0,1"
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bitfld.long 0x00 19. "GENI_19,f GENI_MASK_19 in GENI_MASK register is reset GENI_19 is the value of C2C_Sscm_GenI_19 and cannot be modified by software" "0,1"
bitfld.long 0x00 18. "GENI_18,f GENI_MASK_18 in GENI_MASK register is reset GENI_18 is the value of C2C_Sscm_GenI_31 and cannot be modified by software" "0,1"
bitfld.long 0x00 17. "GENI_17,f GENI_MASK_17 in GENI_MASK register is reset GENI_17 is the value of C2C_Sscm_GenI_31 and cannot be modified by software" "0,1"
bitfld.long 0x00 16. "GENI_16,f GENI_MASK_16 in GENI_MASK register is reset GENI_16 is the value of C2C_Sscm_GenI_16 and cannot be modified by software" "0,1"
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bitfld.long 0x00 15. "GENI_15,f GENI_MASK_15 in GENI_MASK register is reset GENI_15 is the value of C2C_Sscm_GenI_15 and cannot be modified by software" "0,1"
bitfld.long 0x00 14. "GENI_14,f GENI_MASK_14 in GENI_MASK register is reset GENI_14 is the value of C2C_Sscm_GenI_14 and cannot be modified by software" "0,1"
bitfld.long 0x00 13. "GENI_13,f GENI_MASK_13 in GENI_MASK register is reset GENI_13 is the value of C2C_Sscm_GenI_13 and cannot be modified by software" "0,1"
bitfld.long 0x00 12. "GENI_12,f GENI_MASK_12 in GENI_MASK register is reset GENI_12 is the value of C2C_Sscm_GenI_12 and cannot be modified by software" "0,1"
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bitfld.long 0x00 11. "GENI_11,f GENI_MASK_11 in GENI_MASK register is reset GENI_11 is the value of C2C_Sscm_GenI_11 and cannot be modified by software" "0,1"
bitfld.long 0x00 10. "GENI_10,f GENI_MASK_10 in GENI_MASK register is reset GENI_10 is the value of C2C_Sscm_GenI_10 and cannot be modified by software" "0,1"
bitfld.long 0x00 9. "GENI_9,f GENI_MASK_9 in GENI_MASK register is reset GENI_9 is the value of C2C_Sscm_GenI_9 and cannot be modified by software" "0,1"
bitfld.long 0x00 8. "GENI_8,f GENI_MASK_8 in GENI_MASK register is reset GENI_8 is the value of C2C_Sscm_GenI_8 and cannot be modified by software" "0,1"
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bitfld.long 0x00 7. "GENI_7,f GENI_MASK_7 in GENI_MASK register is reset GENI_7 is the value of C2C_Sscm_GenI_7 and cannot be modified by software" "0,1"
bitfld.long 0x00 6. "GENI_6,f GENI_MASK_6 in GENI_MASK register is reset GENI_6 is the value of C2C_Sscm_GenI_6 and cannot be modified by software" "0,1"
bitfld.long 0x00 5. "GENI_5,f GENI_MASK_5 in GENI_MASK register is reset GENI_5 is the value of C2C_Sscm_GenI_5 and cannot be modified by software" "0,1"
bitfld.long 0x00 4. "GENI_4,f GENI_MASK_4 in GENI_MASK register is reset GENI_4 is the value of C2C_Sscm_GenI_4 and cannot be modified by software" "0,1"
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bitfld.long 0x00 3. "GENI_3,f GENI_MASK_3 in GENI_MASK register is reset GENI_3 is the value of C2C_Sscm_GenI_3 and cannot be modified by software" "0,1"
bitfld.long 0x00 2. "GENI_2,f GENI_MASK_2 in GENI_MASK register is reset GENI_2 is the value of C2C_Sscm_GenI_2 and cannot be modified by software" "0,1"
bitfld.long 0x00 1. "GENI_1,f GENI_MASK_1 in GENI_MASK register is reset GENI_1 is the value of C2C_Sscm_GenI_1 and cannot be modified by software" "0,1"
bitfld.long 0x00 0. "GENI_0,f GENI_MASK_0 in GENI_MASK register is reset GENI_0 is the value of C2C_Sscm_GenI_0 and cannot be modified by software" "0,1"
line.long 0x04 "C2C_GENI_MASK,"
bitfld.long 0x04 31. "GENI_MASK_31,If GENI_MASK_31 is reset C2C_Sscm_GenI_31 signal is not masked If GENI_MASK_31 is set signal is masked" "0,1"
bitfld.long 0x04 30. "GENI_MASK_30,If GENI_MASK_30 is reset C2C_Sscm_GenI_30 signal is not masked If GENI_MASK_30 is set signal is masked" "0,1"
bitfld.long 0x04 29. "GENI_MASK_29,If GENI_MASK_29 is reset C2C_Sscm_GenI_29 signal is not masked If GENI_MASK_29 is set signal is masked" "0,1"
bitfld.long 0x04 28. "GENI_MASK_28,If GENI_MASK_28 is reset C2C_Sscm_GenI_28 signal is not masked If GENI_MASK_28 is set signal is masked" "0,1"
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bitfld.long 0x04 27. "GENI_MASK_27,If GENI_MASK_27 is reset C2C_Sscm_GenI_27 signal is not masked If GENI_MASK_27 is set signal is masked" "0,1"
bitfld.long 0x04 26. "GENI_MASK_26,If GENI_MASK_26 is reset C2C_Sscm_GenI_26 signal is not masked If GENI_MASK_26 is set signal is masked" "0,1"
bitfld.long 0x04 25. "GENI_MASK_25,If GENI_MASK_26 is reset C2C_Sscm_GenI_25 signal is not masked If GENI_MASK_26 is set signal is masked" "0,1"
bitfld.long 0x04 24. "GENI_MASK_24,If GENI_MASK_24 is reset C2C_Sscm_GenI_24 signal is not masked If GENI_MASK_24 is set signal is masked" "0,1"
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bitfld.long 0x04 23. "GENI_MASK_23,If GENI_MASK_23 is reset C2C_Sscm_GenI_23 signal is not masked If GENI_MASK_23 is set signal is masked" "0,1"
bitfld.long 0x04 22. "GENI_MASK_22,If GENI_MASK_22 is reset C2C_Sscm_GenI_22 signal is not masked If GENI_MASK_22 is set signal is masked" "0,1"
bitfld.long 0x04 21. "GENI_MASK_21,If GENI_MASK_21 is reset C2C_Sscm_GenI_21 signal is not masked If GENI_MASK_21 is set signal is masked" "0,1"
bitfld.long 0x04 20. "GENI_MASK_20,If GENI_MASK_20 is reset C2C_Sscm_GenI_20 signal is not masked If GENI_MASK_20 is set signal is masked" "0,1"
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bitfld.long 0x04 19. "GENI_MASK_19,If GENI_MASK_19 is reset C2C_Sscm_GenI_19 signal is not masked If GENI_MASK_19 is set signal is masked" "0,1"
bitfld.long 0x04 18. "GENI_MASK_18,If GENI_MASK_18 is reset C2C_Sscm_GenI_18 signal is not masked If GENI_MASK_18 is set signal is masked" "0,1"
bitfld.long 0x04 17. "GENI_MASK_17,If GENI_MASK_17 is reset C2C_Sscm_GenI_17 signal is not masked If GENI_MASK_17 is set signal is masked" "0,1"
bitfld.long 0x04 16. "GENI_MASK_16,If GENI_MASK_16 is reset C2C_Sscm_GenI_16 signal is not masked If GENI_MASK_16 is set signal is masked" "0,1"
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bitfld.long 0x04 15. "GENI_MASK_15,If GENI_MASK_15 is reset C2C_Sscm_GenI_15 signal is not masked If GENI_MASK_15 is set signal is masked" "0,1"
bitfld.long 0x04 14. "GENI_MASK_14,If GENI_MASK_14 is reset C2C_Sscm_GenI_14 signal is not masked If GENI_MASK_14 is set signal is masked" "0,1"
bitfld.long 0x04 13. "GENI_MASK_13,If GENI_MASK_13 is reset C2C_Sscm_GenI_13 signal is not masked If GENI_MASK_13 is set signal is masked" "0,1"
bitfld.long 0x04 12. "GENI_MASK_12,If GENI_MASK_12is reset C2C_Sscm_GenI_12 signal is not masked If GENI_MASK_12 is set signal is masked" "0,1"
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bitfld.long 0x04 11. "GENI_MASK_11,If GENI_MASK_11 is reset C2C_Sscm_GenI_11 signal is not masked If GENI_MASK_11 is set signal is masked" "0,1"
bitfld.long 0x04 10. "GENI_MASK_10,If GENI_MASK_10 is reset C2C_Sscm_GenI_10 signal is not masked If GENI_MASK_10 is set signal is masked" "0,1"
bitfld.long 0x04 9. "GENI_MASK_9,If GENI_MASK_9 is reset C2C_Sscm_GenI_9 signal is not masked If GENI_MASK_9 is set signal is masked" "0,1"
bitfld.long 0x04 8. "GENI_MASK_8,If GENI_MASK_8 is reset C2C_Sscm_GenI_8 signal is not masked If GENI_MASK_8 is set signal is masked" "0,1"
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bitfld.long 0x04 7. "GENI_MASK_7,If GENI_MASK_7 is reset C2C_Sscm_GenI_7 signal is not masked If GENI_MASK_7 is set signal is masked" "0,1"
bitfld.long 0x04 6. "GENI_MASK_6,If GENI_MASK_6 is reset C2C_Sscm_GenI_6 signal is not masked If GENI_MASK_6 is set signal is masked" "0,1"
bitfld.long 0x04 5. "GENI_MASK_5,If GENI_MASK_5 is reset C2C_Sscm_GenI_5 signal is not masked If GENI_MASK_5 is set signal is masked" "0,1"
bitfld.long 0x04 4. "GENI_MASK_4,If GENI_MASK_4 is reset C2C_Sscm_GenI_4 signal is not masked If GENI_MASK_4 is set signal is masked" "0,1"
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bitfld.long 0x04 3. "GENI_MASK_3,If GENI_MASK_3 is reset C2C_Sscm_GenI_3 signal is not masked If GENI_MASK_3 is set signal is masked" "0,1"
bitfld.long 0x04 2. "GENI_MASK_2,If GENI_MASK_2 is reset C2C_Sscm_GenI_2 signal is not masked If GENI_MASK_2 is set signal is masked" "0,1"
bitfld.long 0x04 1. "GENI_MASK_1,If GENI_MASK_1 is reset C2C_Sscm_GenI_1 signal is not masked If GENI_MASK_1 is set signal is masked" "0,1"
bitfld.long 0x04 0. "GENI_MASK_0,If GENI_MASK_0 is reset C2C_Sscm_GenI_0 signal is not masked If GENI_MASK_0 is set signal is masked" "0,1"
group.long 0x80++0x0B
line.long 0x00 "C2C_GENO_STATUS,"
bitfld.long 0x00 31. "GENO_31,GENO_31 is the value of C2C_Sscm_GenO_31 signal" "0,1"
bitfld.long 0x00 30. "GENO_30,GENO_30 is the value of C2C_Sscm_GenO_30 signal" "0,1"
bitfld.long 0x00 29. "GENO_29,GENO_29 is the value of C2C_Sscm_GenO_29 signal" "0,1"
bitfld.long 0x00 28. "GENO_28,GENO_28 is the value of C2C_Sscm_GenO_28 signal" "0,1"
newline
bitfld.long 0x00 27. "GENO_27,GENO_27 is the value of C2C_Sscm_GenO_27 signal" "0,1"
bitfld.long 0x00 26. "GENO_26,GENO_26 is the value of C2C_Sscm_GenO_26 signal" "0,1"
bitfld.long 0x00 25. "GENO_25,GENO_25 is the value of C2C_Sscm_GenO_25 signal" "0,1"
bitfld.long 0x00 24. "GENO_24,GENO_24 is the value of C2C_Sscm_GenO_24 signal" "0,1"
newline
bitfld.long 0x00 23. "GENO_23,GENO_23 is the value of C2C_Sscm_GenO_23 signal" "0,1"
bitfld.long 0x00 22. "GENO_22,GENO_22 is the value of C2C_Sscm_GenO_22 signal" "0,1"
bitfld.long 0x00 21. "GENO_21,GENO_21 is the value of C2C_Sscm_GenO_21 signal" "0,1"
bitfld.long 0x00 20. "GENO_20,GENO_20 is the value of C2C_Sscm_GenO_20 signal" "0,1"
newline
bitfld.long 0x00 19. "GENO_19,GENO_19 is the value of C2C_Sscm_GenO_19 signal" "0,1"
bitfld.long 0x00 18. "GENO_18,GENO_18 is the value of C2C_Sscm_GenO_18 signal" "0,1"
bitfld.long 0x00 17. "GENO_17,GENO_17 is the value of C2C_Sscm_GenO_17 signal" "0,1"
bitfld.long 0x00 16. "GENO_16,GENO_16 is the value of C2C_Sscm_GenO_16 signal" "0,1"
newline
bitfld.long 0x00 15. "GENO_15,GENO_15 is the value of C2C_Sscm_GenO_15 signal" "0,1"
bitfld.long 0x00 14. "GENO_14,GENO_14 is the value of C2C_Sscm_GenO_14 signal" "0,1"
bitfld.long 0x00 13. "GENO_13,GENO_13 is the value of C2C_Sscm_GenO_13 signal" "0,1"
bitfld.long 0x00 12. "GENO_12,GENO_12 is the value of C2C_Sscm_GenO_12 signal" "0,1"
newline
bitfld.long 0x00 11. "GENO_11,GENO_11 is the value of C2C_Sscm_GenO_11 signal" "0,1"
bitfld.long 0x00 10. "GENO_10,GENO_10 is the value of C2C_Sscm_GenO_10 signal" "0,1"
bitfld.long 0x00 9. "GENO_9,GENO_9 is the value of C2C_Sscm_GenO_9 signal" "0,1"
bitfld.long 0x00 8. "GENO_8,GENO_8 is the value of C2C_Sscm_GenO_8 signal" "0,1"
newline
bitfld.long 0x00 7. "GENO_7,GENO_7 is the value of C2C_Sscm_GenO_7 signal" "0,1"
bitfld.long 0x00 6. "GENO_6,GENO_6 is the value of C2C_Sscm_GenO_6 signal" "0,1"
bitfld.long 0x00 5. "GENO_5,GENO_5 is the value of C2C_Sscm_GenO_5 signal" "0,1"
bitfld.long 0x00 4. "GENO_4,GENO_4 is the value of C2C_Sscm_GenO_4 signal" "0,1"
newline
bitfld.long 0x00 3. "GENO_3,GENO_3 is the value of C2C_Sscm_GenO_3 signal" "0,1"
bitfld.long 0x00 2. "GENO_2,GENO_2 is the value of C2C_Sscm_GenO_2 signal" "0,1"
bitfld.long 0x00 1. "GENO_1,GENO_1 is the value of C2C_Sscm_GenO_1 signal" "0,1"
bitfld.long 0x00 0. "GENO_0,GENO_0 is the value of C2C_Sscm_GenO_0 signal" "0,1"
line.long 0x04 "C2C_GENO_INTERRUPT,"
bitfld.long 0x04 31. "GENO_INT_31,If GENO_INT_31=0 GENO_IRQ_31=1 when GENO_31 toggles; If GENO_INT_31=1: IF GENO_LEVEL_31=0 GENO_IRQ_31 =1 when GENO_31 toggles to 0" "0,1"
bitfld.long 0x04 30. "GENO_INT_30,If GENO_INT_30=0 GENO_IRQ_30=1 when GENO_30 toggles; If GENO_INT_30=1: IF GENO_LEVEL_30=0 GENO_IRQ_30 =1 when GENO_30 toggles to 0" "0,1"
bitfld.long 0x04 29. "GENO_INT_29,If GENO_INT_29=0 GENO_IRQ_29=1 when GENO_29 toggles; If GENO_INT_29=1: IF GENO_LEVEL_29=0 GENO_IRQ_29 =1 when GENO_29 toggles to 0" "0,1"
bitfld.long 0x04 28. "GENO_INT_28,If GENO_INT_28=0 GENO_IRQ_28=1 when GENO_28 toggles; If GENO_INT_28=1: IF GENO_LEVEL_28=0 GENO_IRQ_28 =1 when GENO_28 toggles to 0" "0,1"
newline
bitfld.long 0x04 27. "GENO_INT_27,If GENO_INT_27=0 GENO_IRQ_27=1 when GENO_27 toggles; If GENO_INT_27=1: IF GENO_LEVEL_27=0 GENO_IRQ_27 =1 when GENO_27 toggles to 0" "0,1"
bitfld.long 0x04 26. "GENO_INT_26,If GENO_INT_26=0 GENO_IRQ_26=1 when GENO_26 toggles; If GENO_INT_26=1: IF GENO_LEVEL_26=0 GENO_IRQ_26 =1 when GENO_26 toggles to 0" "0,1"
bitfld.long 0x04 25. "GENO_INT_25,If GENO_INT_25=0 GENO_IRQ_25=1 when GENO_25 toggles; If GENO_INT_25=1: IF GENO_LEVEL_25=0 GENO_IRQ_25 =1 when GENO_25 toggles to 0" "0,1"
bitfld.long 0x04 24. "GENO_INT_24,If GENO_INT_24=0 GENO_IRQ_24=1 when GENO_24 toggles; If GENO_INT_24=1: IF GENO_LEVEL_24=0 GENO_IRQ_24 =1 when GENO_24 toggles to 0" "0,1"
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bitfld.long 0x04 23. "GENO_INT_23,If GENO_INT_23=0 GENO_IRQ_23=1 when GENO_23 toggles; If GENO_INT_23=1: IF GENO_LEVEL_23=0 GENO_IRQ_23 =1 when GENO_23 toggles to 0" "0,1"
bitfld.long 0x04 22. "GENO_INT_22,If GENO_INT_22=0 GENO_IRQ_22=1 when GENO_22 toggles; If GENO_INT_22=1: IF GENO_LEVEL_22=0 GENO_IRQ_22 =1 when GENO_22 toggles to 0" "0,1"
bitfld.long 0x04 21. "GENO_INT_21,If GENO_INT_21=0 GENO_IRQ_21=1 when GENO_21 toggles; If GENO_INT_21=1: IF GENO_LEVEL_21=0 GENO_IRQ_21 =1 when GENO_21 toggles to 0" "0,1"
bitfld.long 0x04 20. "GENO_INT_20,If GENO_INT_20=0 GENO_IRQ_20=1 when GENO_20 toggles; If GENO_INT_20=1: IF GENO_LEVEL_20=0 GENO_IRQ_20 =1 when GENO_20 toggles to 0" "0,1"
newline
bitfld.long 0x04 19. "GENO_INT_19,If GENO_INT_19=0 GENO_IRQ_19=1 when GENO_19 toggles; If GENO_INT_19=1: IF GENO_LEVEL_19=0 GENO_IRQ_19 =1 when GENO_19 toggles to 0" "0,1"
bitfld.long 0x04 18. "GENO_INT_18,If GENO_INT_18=0 GENO_IRQ_18=1 when GENO_18 toggles; If GENO_INT_18=1: IF GENO_LEVEL_18=0 GENO_IRQ_18 =1 when GENO_18 toggles to 0" "0,1"
bitfld.long 0x04 17. "GENO_INT_17,If GENO_INT_17=0 GENO_IRQ_17=1 when GENO_17 toggles; If GENO_INT_17=1: IF GENO_LEVEL_17=0 GENO_IRQ_17 =1 when GENO_17 toggles to 0" "0,1"
bitfld.long 0x04 16. "GENO_INT_16,If GENO_INT_16=0 GENO_IRQ_16=1 when GENO_16 toggles; If GENO_INT_16=1: IF GENO_LEVEL_16=0 GENO_IRQ_16 =1 when GENO_16 toggles to 0" "0,1"
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bitfld.long 0x04 15. "GENO_INT_15,If GENO_INT_15=0 GENO_IRQ_15=1 when GENO_15 toggles; If GENO_INT_15=1: IF GENO_LEVEL_15=0 GENO_IRQ_15 =1 when GENO_15 toggles to 0" "0,1"
bitfld.long 0x04 14. "GENO_INT_14,If GENO_INT_14=0 GENO_IRQ_14=1 when GENO_14 toggles; If GENO_INT_14=1: IF GENO_LEVEL_14=0 GENO_IRQ_14 =1 when GENO_14 toggles to 0" "0,1"
bitfld.long 0x04 13. "GENO_INT_13,If GENO_INT_13=0 GENO_IRQ_13=1 when GENO_13 toggles; If GENO_INT_13=1: IF GENO_LEVEL_13=0 GENO_IRQ_13 =1 when GENO_13 toggles to 0" "0,1"
bitfld.long 0x04 12. "GENO_INT_12,If GENO_INT_12=0 GENO_IRQ_12=1 when GENO_12 toggles; If GENO_INT_12=1: IF GENO_LEVEL_12=0 GENO_IRQ_12 =1 when GENO_12 toggles to 0" "0,1"
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bitfld.long 0x04 11. "GENO_INT_11,If GENO_INT_11=0 GENO_IRQ_11=1 when GENO_11 toggles; If GENO_INT_11=1: IF GENO_LEVEL_11=0 GENO_IRQ_11 =1 when GENO_11 toggles to 0" "0,1"
bitfld.long 0x04 10. "GENO_INT_10,If GENO_INT_10=0 GENO_IRQ_10=1 when GENO_10 toggles; If GENO_INT_10=1: IF GENO_LEVEL_10=0 GENO_IRQ_10 =1 when GENO_10 toggles to 0" "0,1"
bitfld.long 0x04 9. "GENO_INT_9,If GENO_INT_9=0 GENO_IRQ_9=1 when GENO_9 toggles; If GENO_INT_9=1: IF GENO_LEVEL_9=0 GENO_IRQ_9 =1 when GENO_9 toggles to 0" "0,1"
bitfld.long 0x04 8. "GENO_INT_8,If GENO_INT_8=0 GENO_IRQ_8=1 when GENO_8 toggles; If GENO_INT_8=1: IF GENO_LEVEL_8=0 GENO_IRQ_8 =1 when GENO_8 toggles to 0" "0,1"
newline
bitfld.long 0x04 7. "GENO_INT_7,If GENO_INT_7=0 GENO_IRQ_7=1 when GENO_7 toggles; If GENO_INT_7=1: IF GENO_LEVEL_7=0 GENO_IRQ_7 =1 when GENO_7 toggles to 0" "0,1"
bitfld.long 0x04 6. "GENO_INT_6,If GENO_INT_6=0 GENO_IRQ_6=1 when GENO_6 toggles; If GENO_INT_6=1: IF GENO_LEVEL_6=0 GENO_IRQ_6 =1 when GENO_6 toggles to 0" "0,1"
bitfld.long 0x04 5. "GENO_INT_5,If GENO_INT_5=0 GENO_IRQ_5=1 when GENO_5 toggles; If GENO_INT_5=1: IF GENO_LEVEL_5=0 GENO_IRQ_5 =1 when GENO_5 toggles to 0" "0,1"
bitfld.long 0x04 4. "GENO_INT_4,If GENO_INT_4=0 GENO_IRQ_4=1 when GENO_4 toggles; If GENO_INT_4=1: IF GENO_LEVEL_4=0 GENO_IRQ_4 =1 when GENO_4 toggles to 0" "0,1"
newline
bitfld.long 0x04 3. "GENO_INT_3,If GENO_INT_3=0 GENO_IRQ_3=1 when GENO_3 toggles; If GENO_INT_3=1: IF GENO_LEVEL_3=0 GENO_IRQ_3 =1 when GENO_3 toggles to 0" "0,1"
bitfld.long 0x04 2. "GENO_INT_2,If GENO_INT_2=0 GENO_IRQ_2=1 when GENO_2 toggles; If GENO_INT_2=1: IF GENO_LEVEL_2=0 GENO_IRQ_2 =1 when GENO_2 toggles to 0" "0,1"
bitfld.long 0x04 1. "GENO_INT_1,If GENO_INT_1=0 GENO_IRQ_1=1 when GENO_1 toggles; If GENO_INT_1=1: IF GENO_LEVEL_1=0 GENO_IRQ_1 =1 when GENO_1 toggles to 0" "0,1"
bitfld.long 0x04 0. "GENO_INT_0,If GENO_INT_0=0 GENO_IRQ_0=1 when GENO_0 toggles; If GENO_INT_0=1: IF GENO_LEVEL_0=0 GENO_IRQ_0 =1 when GENO_0 toggles to 0" "0,1"
line.long 0x08 "C2C_GENO_LEVEL,"
bitfld.long 0x08 31. "GENO_LEVEL_31,IF GENO_LEVEL_31=0 GENO_IRQ_31 =1 when GENO_31 toggles to 0" "0,1"
bitfld.long 0x08 30. "GENO_LEVEL_30,IF GENO_LEVEL_30=0 GENO_IRQ_30 =1 when GENO_30 toggles to 0" "0,1"
bitfld.long 0x08 29. "GENO_LEVEL_29,IF GENO_LEVEL_29=0 GENO_IRQ_29 =1 when GENO_29 toggles to 0" "0,1"
bitfld.long 0x08 28. "GENO_LEVEL_28,IF GENO_LEVEL_28=0 GENO_IRQ_28 =1 when GENO_28 toggles to 0" "0,1"
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bitfld.long 0x08 27. "GENO_LEVEL_27,IF GENO_LEVEL_27=0 GENO_IRQ_27 =1 when GENO_27 toggles to 0" "0,1"
bitfld.long 0x08 26. "GENO_LEVEL_26,IF GENO_LEVEL_26=0 GENO_IRQ_26 =1 when GENO_26 toggles to 0" "0,1"
bitfld.long 0x08 25. "GENO_LEVEL_25,IF GENO_LEVEL_25=0 GENO_IRQ_25 =1 when GENO_25 toggles to 0" "0,1"
bitfld.long 0x08 24. "GENO_LEVEL_24,IF GENO_LEVEL_24=0 GENO_IRQ_24 =1 when GENO_24 toggles to 0" "0,1"
newline
bitfld.long 0x08 23. "GENO_LEVEL_23,IF GENO_LEVEL_23=0 GENO_IRQ_23 =1 when GENO_23 toggles to 0" "0,1"
bitfld.long 0x08 22. "GENO_LEVEL_22,IF GENO_LEVEL_22=0 GENO_IRQ_22 =1 when GENO_22 toggles to 0" "0,1"
bitfld.long 0x08 21. "GENO_LEVEL_21,IF GENO_LEVEL_21=0 GENO_IRQ_21 =1 when GENO_21 toggles to 0" "0,1"
bitfld.long 0x08 20. "GENO_LEVEL_20,IF GENO_LEVEL_20=0 GENO_IRQ_20 =1 when GENO_20 toggles to 0" "0,1"
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bitfld.long 0x08 19. "GENO_LEVEL_19,IF GENO_LEVEL_19=0 GENO_IRQ_19 =1 when GENO_19 toggles to 0" "0,1"
bitfld.long 0x08 18. "GENO_LEVEL_18,IF GENO_LEVEL_18=0 GENO_IRQ_18 =1 when GENO_18 toggles to 0" "0,1"
bitfld.long 0x08 17. "GENO_LEVEL_17,IF GENO_LEVEL_17=0 GENO_IRQ_17 =1 when GENO_17 toggles to 0" "0,1"
bitfld.long 0x08 16. "GENO_LEVEL_16,IF GENO_LEVEL_16=0 GENO_IRQ_16 =1 when GENO_16 toggles to 0" "0,1"
newline
bitfld.long 0x08 15. "GENO_LEVEL_15,IF GENO_LEVEL_15=0 GENO_IRQ_15 =1 when GENO_15 toggles to 0" "0,1"
bitfld.long 0x08 14. "GENO_LEVEL_14,IF GENO_LEVEL_14=0 GENO_IRQ_14 =1 when GENO_14 toggles to 0" "0,1"
bitfld.long 0x08 13. "GENO_LEVEL_13,IF GENO_LEVEL_13=0 GENO_IRQ_13 =1 when GENO_13 toggles to 0" "0,1"
bitfld.long 0x08 12. "GENO_LEVEL_12,IF GENO_LEVEL_12=0 GENO_IRQ_12 =1 when GENO_12 toggles to 0" "0,1"
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bitfld.long 0x08 11. "GENO_LEVEL_11,IF GENO_LEVEL_11=0 GENO_IRQ_11 =1 when GENO_11 toggles to 0" "0,1"
bitfld.long 0x08 10. "GENO_LEVEL_10,IF GENO_LEVEL_10=0 GENO_IRQ_10 =1 when GENO_10 toggles to 0" "0,1"
bitfld.long 0x08 9. "GENO_LEVEL_9,IF GENO_LEVEL_9=0 GENO_IRQ_9 =1 when GENO_9 toggles to 0" "0,1"
bitfld.long 0x08 8. "GENO_LEVEL_8,IF GENO_LEVEL_8=0 GENO_IRQ_8 =1 when GENO_8 toggles to 0" "0,1"
newline
bitfld.long 0x08 7. "GENO_LEVEL_7,IF GENO_LEVEL_7=0 GENO_IRQ_7 =1 when GENO_7 toggles to 0" "0,1"
bitfld.long 0x08 6. "GENO_LEVEL_6,IF GENO_LEVEL_6=0 GENO_IRQ_6 =1 when GENO_6 toggles to 0" "0,1"
bitfld.long 0x08 5. "GENO_LEVEL_5,IF GENO_LEVEL_5=0 GENO_IRQ_5 =1 when GENO_5 toggles to 0" "0,1"
bitfld.long 0x08 4. "GENO_LEVEL_4,IF GENO_LEVEL_4=0 GENO_IRQ_4 =1 when GENO_4 toggles to 0" "0,1"
newline
bitfld.long 0x08 3. "GENO_LEVEL_3,IF GENO_LEVEL_3=0 GENO_IRQ_3 =1 when GENO_3 toggles to 0" "0,1"
bitfld.long 0x08 2. "GENO_LEVEL_2,IF GENO_LEVEL_2=0 GENO_IRQ_2 =1 when GENO_2 toggles to 0" "0,1"
bitfld.long 0x08 1. "GENO_LEVEL_1,IF GENO_LEVEL_1=0 GENO_IRQ_1 =1 when GENO_1 toggles to 0" "0,1"
bitfld.long 0x08 0. "GENO_LEVEL_0,IF GENO_LEVEL_0=0 GENO_IRQ_0 =1 when GENO_0 toggles to 0" "0,1"
tree.end
tree "ICR_MDM"
base ansd:0x4A0CD000
rgroup.long 0x00++0x03
line.long 0x00 "ICR_REVISION,This register contains the IP revision code"
group.long 0x10++0x1F
line.long 0x00 "SYS_CONFIG,This register allows controlling various parameters of the OCP interface"
bitfld.long 0x00 3.--4. "IDLEMODE,Slave interface power management req/ack control" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 1. "SOFTRESET,Software reset" "0,1"
bitfld.long 0x00 0. "AUTOIDLE,Internal OCP clock gating0: OCP clock is free running1: Automatic OCP clock gating strategy is applied based on the OCP interface activity" "0,1"
line.long 0x04 "SYS_STATUS,This register provides status information about the module. excluding the interrupt status information"
bitfld.long 0x04 0. "RESETDONE,Internal reset monitoring0: Internal module reset ongoing1: Reset completed" "RESETDONE_0_r,RESETDONE_1_r"
line.long 0x08 "M_IRQ_STATUS,The interrupt status register regroups all the status of the module internal events that can generate an interrupt - Write 1 to a given bit resets this bit"
bitfld.long 0x08 1. "FLAG_SET,Flag has been set inG_ICR register" "FLAG_SET_0_r,FLAG_SET_1_r"
bitfld.long 0x08 0. "FLAG_RESET,Flag has been reset inM_ICR register" "FLAG_RESET_0_r,FLAG_RESET_1_r"
line.long 0x0C "G_IRQ_STATUS,The interrupt status register regroups all the status of the module internal events that can generate an interrupt - Write 1 to a given bit resets this bit"
bitfld.long 0x0C 1. "FLAG_SET,Flag has been set inM_ICR register" "FLAG_SET_0_r,FLAG_SET_1_r"
bitfld.long 0x0C 0. "FLAG_RESET,Flag has been reset inG_ICR register" "FLAG_RESET_0_r,FLAG_RESET_1_r"
line.long 0x10 "M_ICR,Flags are used to notify an event to the other subsystem"
line.long 0x14 "G_ICR,Flags are used to notify an event to the other subsystem"
line.long 0x18 "M_CTL,Enables interrupts to subsystems"
bitfld.long 0x18 1. "G_ICR_INTEN,Enable interrupt to MPU-S0: No interrupt is generated1: An interrupt is generated when Modem-S sets a flag to MPU-S" "0,1"
bitfld.long 0x18 0. "M_ICR_INTEN,Enable interrupt to MPU-S0: No interrupt is generated1: An interrupt is generated when Modem-S resets a flag set by MPU-S" "0,1"
line.long 0x1C "G_CTL,Enables interrupts to subsystems"
bitfld.long 0x1C 1. "M_ICR_INTEN,Enable interrupt to Modem-S0: No interrupt is generated1: An interrupt is generated when MPU-S sets a flag to Modem-S" "0,1"
bitfld.long 0x1C 0. "G_ICR_INTEN,Enable interrupt to Modem-S0: No interrupt is generated1: An interrupt is generated when MPU-S resets a flag set by Modem-S" "0,1"
tree.end
tree "ICR_MPU"
base ansd:0x4A0B6000
rgroup.long 0x00++0x03
line.long 0x00 "ICR_REVISION,This register contains the IP revision code"
group.long 0x10++0x1F
line.long 0x00 "SYS_CONFIG,This register allows controlling various parameters of the OCP interface"
bitfld.long 0x00 3.--4. "IDLEMODE,Slave interface power management req/ack control" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 1. "SOFTRESET,Software reset" "0,1"
bitfld.long 0x00 0. "AUTOIDLE,Internal OCP clock gating0: OCP clock is free running1: Automatic OCP clock gating strategy is applied based on the OCP interface activity" "0,1"
line.long 0x04 "SYS_STATUS,This register provides status information about the module. excluding the interrupt status information"
bitfld.long 0x04 0. "RESETDONE,Internal reset monitoring0: Internal module reset ongoing1: Reset completed" "RESETDONE_0_r,RESETDONE_1_r"
line.long 0x08 "M_IRQ_STATUS,The interrupt status register regroups all the status of the module internal events that can generate an interrupt - Write 1 to a given bit resets this bit"
bitfld.long 0x08 1. "FLAG_SET,Flag has been set inG_ICR register" "FLAG_SET_0_r,FLAG_SET_1_r"
bitfld.long 0x08 0. "FLAG_RESET,Flag has been reset inM_ICR register" "FLAG_RESET_0_r,FLAG_RESET_1_r"
line.long 0x0C "G_IRQ_STATUS,The interrupt status register regroups all the status of the module internal events that can generate an interrupt - Write 1 to a given bit resets this bit"
bitfld.long 0x0C 1. "FLAG_SET,Flag has been set inM_ICR register" "FLAG_SET_0_r,FLAG_SET_1_r"
bitfld.long 0x0C 0. "FLAG_RESET,Flag has been reset inG_ICR register" "FLAG_RESET_0_r,FLAG_RESET_1_r"
line.long 0x10 "M_ICR,Flags are used to notify an event to the other subsystem"
line.long 0x14 "G_ICR,Flags are used to notify an event to the other subsystem"
line.long 0x18 "M_CTL,Enables interrupts to subsystems"
bitfld.long 0x18 1. "G_ICR_INTEN,Enable interrupt to MPU-S0: No interrupt is generated1: An interrupt is generated when Modem-S sets a flag to MPU-S" "0,1"
bitfld.long 0x18 0. "M_ICR_INTEN,Enable interrupt to MPU-S0: No interrupt is generated1: An interrupt is generated when Modem-S resets a flag set by MPU-S" "0,1"
line.long 0x1C "G_CTL,Enables interrupts to subsystems"
bitfld.long 0x1C 1. "M_ICR_INTEN,Enable interrupt to Modem-S0: No interrupt is generated1: An interrupt is generated when MPU-S sets a flag to Modem-S" "0,1"
bitfld.long 0x1C 0. "G_ICR_INTEN,Enable interrupt to Modem-S0: No interrupt is generated1: An interrupt is generated when MPU-S resets a flag set by Modem-S" "0,1"
tree.end
tree.end
tree "Control_Module"
tree "SYSCTRL_GENERAL_CORE"
base ansd:0x4A002000
rgroup.long 0x00++0x07
line.long 0x00 "CONTROL_GEN_CORE_REVISION,Control module instance revision identifier"
line.long 0x04 "CONTROL_GEN_CORE_HWINFO,Information about the IP module hardware configuration"
group.long 0x10++0x03
line.long 0x00 "CONTROL_GEN_CORE_SYSCONFIG,Access conditions"
bitfld.long 0x00 2.--3. "IP_SYSCONFIG_IDLEMODE,Select the local clock-gating strategy" "IP_SYSCONFIG_IDLEMODE_0,IP_SYSCONFIG_IDLEMODE_1,?,?"
hgroup.long 0x200++0x03
hide.long 0x00 "CONTROL_STD_FUSE_DIE_ID_0,Die ID Register - Part 0"
rgroup.long 0x204++0x03
line.long 0x00 "CONTROL_ID_CODE,ID_CODE Key Register Access conditions"
bitfld.long 0x00 28.--31. "VERSION,Revision number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
hexmask.long.word 0x00 12.--27. 1. "RAMP_SYSTEM,Ramp system number"
newline
hexmask.long.word 0x00 1.--11. 1. "TI_IDM,Manufacturer identity(TI)"
newline
bitfld.long 0x00 0. "-,Always set to 1" "0,1"
hgroup.long 0x208++0x0B
hide.long 0x00 "CONTROL_STD_FUSE_DIE_ID_1,Die ID Register - Part 1"
hide.long 0x04 "CONTROL_STD_FUSE_DIE_ID_2,Die ID Register - Part 2"
hide.long 0x08 "CONTROL_STD_FUSE_DIE_ID_3,Die ID Register - Part 3"
rgroup.long 0x214++0x0F
line.long 0x00 "CONTROL_STD_FUSE_PROD_ID_0,Prod ID Register - Part 0"
hexmask.long.byte 0x00 0.--7. 1. "DEVICE_TYPE,Define the device type"
line.long 0x04 "CONTROL_STD_FUSE_PROD_ID_1,Prod ID Register - Part 1.This register shows the device type"
bitfld.long 0x04 16.--17. "SILICON_TYPE,Define the silicon performance type" "0,1,2,3"
line.long 0x08 "CONTROL_STD_FUSE_USB_CONF,Standard Fuse conf [31:0]"
hexmask.long.word 0x08 16.--31. 1. "USB_PROD_ID,USB Product Identification"
newline
hexmask.long.word 0x08 0.--15. 1. "USB_VENDOR_ID,USB Vendor Identification"
line.long 0x0C "CONTROL_STD_FUSE_CONF,Standard fuse configuration register"
bitfld.long 0x0C 16. "STD_FUSE_FACE_DETECT_DISABLE,Disables face detect" "STD_FUSE_FACE_DETECT_DISABLE_0_r,STD_FUSE_FACE_DETECT_DISABLE_1_r"
newline
bitfld.long 0x0C 15. "STD_FUSE_CRYPTO_DISABLE,Disables cryptographic modules" "STD_FUSE_CRYPTO_DISABLE_0_r,STD_FUSE_CRYPTO_DISABLE_1_r"
newline
bitfld.long 0x0C 14. "STD_FUSE_MODEM3G_DISABLE,Disables the 3G modem" "STD_FUSE_MODEM3G_DISABLE_0_r,STD_FUSE_MODEM3G_DISABLE_1_r"
newline
bitfld.long 0x0C 13. "STD_FUSE_CH_SPEEDUP_DISABLE,ROM code settings for configuration header block and speedup block" "STD_FUSE_CH_SPEEDUP_DISABLE_0_r,STD_FUSE_CH_SPEEDUP_DISABLE_1_r"
newline
bitfld.long 0x0C 12. "STD_FUSE_ROM_HIDE,MPU BOOT ROM space (4-KB ROM code protection)" "STD_FUSE_ROM_HIDE_0_r,STD_FUSE_ROM_HIDE_1_r"
newline
bitfld.long 0x0C 11. "STD_FUSE_DPLL_CLK_TRIMMING_DISABLE,Controls DPLLs" "STD_FUSE_DPLL_CLK_TRIMMING_DISABLE_0_r,STD_FUSE_DPLL_CLK_TRIMMING_DISABLE_1_r"
newline
bitfld.long 0x0C 9. "STD_FUSE_DSS_VENC_MVENAB,Enables implementation-specific features" "STD_FUSE_DSS_VENC_MVENAB_0_r,STD_FUSE_DSS_VENC_MVENAB_1_r"
newline
bitfld.long 0x0C 8. "STD_FUSE_ISS_EFUSE4_EN,Enables implementation-specific features" "STD_FUSE_ISS_EFUSE4_EN_0_r,STD_FUSE_ISS_EFUSE4_EN_1_r"
newline
bitfld.long 0x0C 7. "STD_FUSE_ISS_EFUSE3_EN,Enables implementation specific features" "STD_FUSE_ISS_EFUSE3_EN_0_r,STD_FUSE_ISS_EFUSE3_EN_1_r"
newline
bitfld.long 0x0C 6. "STD_FUSE_ISS_EFUSE2_EN,Enables implementation-specific features" "STD_FUSE_ISS_EFUSE2_EN_0_r,STD_FUSE_ISS_EFUSE2_EN_1_r"
newline
bitfld.long 0x0C 5. "STD_FUSE_ISS_EFUSE1_EN,Enables implementation-specific features" "STD_FUSE_ISS_EFUSE1_EN_0_r,STD_FUSE_ISS_EFUSE1_EN_1_r"
newline
bitfld.long 0x0C 4. "STD_FUSE_SGX540_3D_CLOCK_SOURCE,Force 3D graphic engine clock source" "0,1"
newline
bitfld.long 0x0C 3. "STD_FUSE_SGX540_3D_DISABLE,Disable the 3D Gx engine (SGX540)" "STD_FUSE_SGX540_3D_DISABLE_0_r,STD_FUSE_SGX540_3D_DISABLE_1_r"
newline
bitfld.long 0x0C 2. "STD_FUSE_CORTEXA9_MPU_DISABLE,Configures Cortex-A9 MPU boot mode" "STD_FUSE_CORTEXA9_MPU_DISABLE_0_r,STD_FUSE_CORTEXA9_MPU_DISABLE_1_r"
newline
bitfld.long 0x0C 1. "BSC_ACCESS_PROTECT,Reserved for bsc_access protect" "0,1"
newline
bitfld.long 0x0C 0. "CUST_IEEE1500_DISABLE,Customer eFuse control/IEEE1500 access path disable" "0,1"
rgroup.long 0x228++0x13
line.long 0x00 "CONTROL_STD_FUSE_OPP_VDD_WKUP,Standard Fuse OPP VDD_WKUP [31:0]"
line.long 0x04 "CONTROL_STD_FUSE_OPP_VDD_IVA_0,Standard Fuse OPP VDD_IVA_0"
hexmask.long.byte 0x04 24.--31. 1. "VDD_IVA_OPP100_SENN_REC,Voltage domain VDD_IVA OPP100 [7:0] from Standard Fuse"
newline
bitfld.long 0x04 20.--23. "VDD_IVA_OPP50_SENP_GAIN,Voltage domain VDD_IVA OPP50 [23:20] from Standard Fuse" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x04 16.--19. "VDD_IVA_OPP50_SENN_GAIN,Voltage domain VDD_IVA OPP50 [19:16] from Standard Fuse" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
hexmask.long.byte 0x04 8.--15. 1. "VDD_IVA_OPP50_SENP_REC,Voltage domain VDD_IVA OPP50 [15:8] from Standard Fuse"
newline
hexmask.long.byte 0x04 0.--7. 1. "VDD_IVA_OPP50_SENN_REC,Voltage domain VDD_IVA OPP50 [7:0] from Standard Fuse"
line.long 0x08 "CONTROL_STD_FUSE_OPP_VDD_IVA_1,Standard Fuse OPP VDD_IVA_1"
hexmask.long.byte 0x08 24.--31. 1. "VDD_IVA_OPP_TURBO_SENP_REC,Voltage domain VDD_IVA OPP_TURBO [15:8] from Standard Fuse"
newline
hexmask.long.byte 0x08 16.--23. 1. "VDD_IVA_OPP_TURBO_SENN_REC,Voltage domain VDD_IVA OPP_TURBO [7:0] from Standard Fuse"
newline
bitfld.long 0x08 12.--15. "VDD_IVA_OPP100_SENP_GAIN,Voltage domain VDD_IVA OPP100 [23:20] from Standard Fuse" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x08 8.--11. "VDD_IVA_OPP100_SENN_GAIN,Voltage domain VDD_IVA OPP100 [19:16] from Standard Fuse" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
hexmask.long.byte 0x08 0.--7. 1. "VDD_IVA_OPP100_SENP_REC,Voltage domain VDD_IVA OPP100 [15:8] from Standard Fuse"
line.long 0x0C "CONTROL_STD_FUSE_OPP_VDD_IVA_2,Standard Fuse OPP VDD_IVA_2"
bitfld.long 0x0C 28.--31. "VDD_IVA_OPP_NITRO_SENP_GAIN,Voltage domain VDD_IVA OPP_NITRO[23:20] from Standard Fuse" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x0C 24.--27. "VDD_IVA_OPP_NITRO_SENN_GAIN,Voltage domain VDD_IVA OPP_NITRO[19:16] from Standard Fuse" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
hexmask.long.byte 0x0C 16.--23. 1. "VDD_IVA_OPP_NITRO_SENP_REC,Voltage domain VDD_IVA OPP_NITRO[15:8] from Standard Fuse"
newline
hexmask.long.byte 0x0C 8.--15. 1. "VDD_IVA_OPP_NITRO_SENN_REC,Voltage domain VDD_IVA OPP_NITRO[7:0] from Standard Fuse"
newline
bitfld.long 0x0C 4.--7. "VDD_IVA_OPP_TURBO_SENP_GAIN,Voltage domain VDD_IVA OPP_TURBO[23:20] from Standard Fuse" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x0C 0.--3. "VDD_IVA_OPP_TURBO_SENN_GAIN,Voltage domain VDD_IVA OPP_TURBO[19:16] from Standard Fuse" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x10 "CONTROL_STD_FUSE_OPP_VDD_IVA_3,Standard Fuse OPP VDD_IVA_3"
bitfld.long 0x10 26.--27. "VDD_IVA_SR_SENN,VDD_IVA SmartReflex from Standard Fuse" "0,1,2,3"
newline
bitfld.long 0x10 24.--25. "VDD_IVA_SR_SENP,VDD_IVA SmartReflex from Standard Fuse" "0,1,2,3"
newline
bitfld.long 0x10 20.--23. "VDD_IVA_OPP_NTSB_SENP_GAIN,Voltage domain VDD_IVA OPP_NTSB[23:20] from Standard Fuse" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x10 16.--19. "VDD_IVA_OPP_NTSB_SENN_GAIN,Voltage domain VDD_IVA OPP_NTSB[19:16] from Standard Fuse" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
hexmask.long.byte 0x10 8.--15. 1. "VDD_IVA_OPP_NTSB_SENP_REC,Voltage domain VDD_IVA OPP_NTSB[15:8] from Standard Fuse"
newline
hexmask.long.byte 0x10 0.--7. 1. "VDD_IVA_OPP_NTSB_SENN_REC,Voltage domain VDD_IVA OPP_NTSB[7:0] from Standard Fuse"
rgroup.long 0x240++0x0F
line.long 0x00 "CONTROL_STD_FUSE_OPP_VDD_MPU_0,Standard Fuse OPP VDD_MPU_0"
hexmask.long.byte 0x00 24.--31. 1. "VDD_MPU_OPP100_SENN_REC,Voltage domain VDD_MPU OPP100[7:0] from Standard Fuse"
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bitfld.long 0x00 20.--23. "VDD_MPU_OPP50_SENP_GAIN,Voltage domain VDD_MPU OPP50[23:20] from Standard Fuse" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
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bitfld.long 0x00 16.--19. "VDD_MPU_OPP50_SENN_GAIN,Voltage domain VDD_MPU OPP50[19:16] from Standard Fuse" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
hexmask.long.byte 0x00 8.--15. 1. "VDD_MPU_OPP50_SENP_REC,Voltage domain VDD_MPU OPP50[15:8] from Standard Fuse"
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hexmask.long.byte 0x00 0.--7. 1. "VDD_MPU_OPP50_SENN_REC,Voltage domain VDD_MPU OPP50[7:0] from Standard Fuse"
line.long 0x04 "CONTROL_STD_FUSE_OPP_VDD_MPU_1,Standard Fuse OPP VDD_MPU_1"
hexmask.long.byte 0x04 24.--31. 1. "VDD_MPU_OPP_TURBO_SENP_REC,Voltage domain VDD_MPU OPP_TURBO[15:8] from Standard Fuse"
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hexmask.long.byte 0x04 16.--23. 1. "VDD_MPU_OPP_TURBO_SENN_REC,Voltage domain VDD_MPU OPP_TURBO[7:0] from Standard Fuse"
newline
bitfld.long 0x04 12.--15. "VDD_MPU_OPP100_SENP_GAIN,Voltage domain VDD_MPU OPP100[23:20] from Standard Fuse" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x04 8.--11. "VDD_MPU_OPP100_SENN_GAIN,Voltage domain VDD_MPU OPP100[19:16] from Standard Fuse" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
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hexmask.long.byte 0x04 0.--7. 1. "VDD_MPU_OPP100_SENP_REC,Voltage domain VDD_MPU OPP100[15:8] from Standard Fuse"
line.long 0x08 "CONTROL_STD_FUSE_OPP_VDD_MPU_2,Standard Fuse OPP VDD_MPU_2"
bitfld.long 0x08 28.--31. "VDD_MPU_OPP_NITRO_SENP_GAIN,Voltage domain VDD_MPU OPP_NITRO[23:20] from Standard Fuse" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
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bitfld.long 0x08 24.--27. "VDD_MPU_OPP_NITRO_SENN_GAIN,Voltage domain VDD_MPU OPP_NITRO[19:16] from Standard Fuse" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
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hexmask.long.byte 0x08 16.--23. 1. "VDD_MPU_OPP_NITRO_SENP_REC,Voltage domain VDD_MPU OPP_NITRO[15:8] from Standard Fuse"
newline
hexmask.long.byte 0x08 8.--15. 1. "VDD_MPU_OPP_NITRO_SENN_REC,Voltage domain VDD_MPU OPP_NITRO[7:0] from Standard Fuse"
newline
bitfld.long 0x08 4.--7. "VDD_MPU_OPP_TURBO_SENP_GAIN,Voltage domain VDD_MPU OPP_TURBO[23:20] from Standard Fuse" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x08 0.--3. "VDD_MPU_OPP_TURBO_SENN_GAIN,Voltage domain VDD_MPU OPP_TURBO[19:16] from Standard Fuse" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x0C "CONTROL_STD_FUSE_OPP_VDD_MPU_3,Standard Fuse OPP VDD_MPU_3"
bitfld.long 0x0C 26.--27. "VDD_MPU_SR_SENN,VDD_MPU SmartReflex from Standard Fuse" "0,1,2,3"
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bitfld.long 0x0C 24.--25. "VDD_MPU_SR_SENP,VDD_MPU SmartReflex from Standard Fuse" "0,1,2,3"
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bitfld.long 0x0C 20.--23. "VDD_MPU_OPP_NTSB_SENP_GAIN,Voltage domain VDD_MPU OPP_NTSB[23:20] from Standard Fuse" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
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bitfld.long 0x0C 16.--19. "VDD_MPU_OPP_NTSB_SENN_GAIN,Voltage domain VDD_MPU OPP_NTSB[19:16] from Standard Fuse" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
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hexmask.long.byte 0x0C 8.--15. 1. "VDD_MPU_OPP_NTSB_SENP_REC,Voltage domain VDD_MPU OPP_NTSB[15:8] from Standard Fuse"
newline
hexmask.long.byte 0x0C 0.--7. 1. "VDD_MPU_OPP_NTSB_SENN_REC,Voltage domain VDD_MPU OPP_NTSB[7:0] from Standard Fuse"
rgroup.long 0x254++0x17
line.long 0x00 "CONTROL_STD_FUSE_OPP_VDD_CORE_0,Standard Fuse OPP VDD_CORE_0"
hexmask.long.byte 0x00 24.--31. 1. "VDD_CORE_OPP100_SENN_REC,Voltage domain VDD_CORE OPP100[7:0] from Standard Fuse"
newline
bitfld.long 0x00 20.--23. "VDD_CORE_OPP50_SENP_GAIN,Voltage domain VDD_CORE OPP50 23:20] from Standard Fuse" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
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bitfld.long 0x00 16.--19. "VDD_CORE_OPP50_SENN_GAIN,Voltage domain VDD_CORE OPP50[19:16] from Standard Fuse" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
hexmask.long.byte 0x00 8.--15. 1. "VDD_CORE_OPP50_SENP_REC,Voltage domain VDD_CORE OPP50[15:8] from Standard Fuse"
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hexmask.long.byte 0x00 0.--7. 1. "VDD_CORE_OPP50_SENN_REC,Voltage domain VDD_CORE OPP50[7:0] from Standard Fuse"
line.long 0x04 "CONTROL_STD_FUSE_OPP_VDD_CORE_1,Standard Fuse OPP VDD_CORE_1"
hexmask.long.byte 0x04 24.--31. 1. "VDD_CORE_OPP119_SENP_REC,Voltage domain VDD_CORE OPP119[15:8] from Standard Fuse (overdrive mode)"
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hexmask.long.byte 0x04 16.--23. 1. "VDD_CORE_OPP119_SENN_REC,Voltage domain VDD_CORE OPP119[7:0] from Standard Fuse (overdrive mode)"
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bitfld.long 0x04 12.--15. "VDD_CORE_OPP100_SENP_GAIN,Voltage domain VDD_CORE OPP100[23:20] from Standard Fuse" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x04 8.--11. "VDD_CORE_OPP100_SENN_GAIN,Voltage domain VDD_CORE OPP100[19:16] from Standard Fuse" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
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hexmask.long.byte 0x04 0.--7. 1. "VDD_CORE_OPP100_SENP_REC,Voltage domain VDD_CORE OPP100[15:8] from Standard Fuse"
line.long 0x08 "CONTROL_STD_FUSE_OPP_VDD_CORE_2,Standard Fuse OPP VDD_CORE_2"
bitfld.long 0x08 10.--11. "VDD_CORE_SR_SENN,VDD_CORE SmartReflex from Standard Fuse" "0,1,2,3"
newline
bitfld.long 0x08 8.--9. "VDD_CORE_SR_SENP,VDD_CORE SmartReflex from Standard Fuse" "0,1,2,3"
newline
bitfld.long 0x08 4.--7. "VDD_CORE_OPP119_SENP_GAIN,Voltage domain VDD_CORE OPP119[23:20] from Standard Fuse (overdrive mode)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x08 0.--3. "VDD_CORE_OPP119_SENN_GAIN,Voltage domain VDD_CORE OPP119[19:16] from Standard Fuse (overdrive mode)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x0C "CONTROL_STD_FUSE_OPP_BGAP,Standard Fuse OPP BGAP"
line.long 0x10 "CONTROL_STD_FUSE_OPP_DPLL_0,Standard Fuse OPP DPLL"
line.long 0x14 "CONTROL_STD_FUSE_OPP_DPLL_1,Standard Fuse OPP DPLL"
bitfld.long 0x14 21. "IVA_RBB_TURBO,If trimmed ABB (Adaptive Body Bias) Set2 mode can be enabled at OPP TURBO on IVA" "IVA_RBB_TURBO_0,IVA_RBB_TURBO_1"
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bitfld.long 0x14 20. "MPU_RBB_TURBO,If trimmed ABB Set2 mode can be enabled at OPP TURBO on MPU" "MPU_RBB_TURBO_0,MPU_RBB_TURBO_1"
newline
bitfld.long 0x14 18.--19. "MPU_DPLL_TRIM_FREQ,Lock frequency at which the MPU DPLL is trimmed" "MPU_DPLL_TRIM_FREQ_0,MPU_DPLL_TRIM_FREQ_1,MPU_DPLL_TRIM_FREQ_2,MPU_DPLL_TRIM_FREQ_3"
rgroup.long 0x2C4++0x03
line.long 0x00 "CONTROL_STATUS,Control Module Status Register Access conditions"
bitfld.long 0x00 11.--12. "SYSCTRL_GENERAL_CONF,Sysctrl_General_ IP configuration" "?,SYSCTRL_GENERAL_CONF_1_r,?,?"
newline
bitfld.long 0x00 8.--10. "DEVICE_TYPE,Device type captured at reset time Device type value sampled at power-on reset" "?,?,?,DEVICE_TYPE_3_r,?,?,?,?"
newline
hexmask.long.byte 0x00 0.--7. 1. "SYS_BOOT,Sys.Boot pins state captured at reset time Sys.Boot pin values sampled at power-on reset"
rgroup.long 0x2D0++0x07
line.long 0x00 "CONTROL_SEC_ERR_STATUS_FUNC,Firewall Error Status functional Register Access conditions"
bitfld.long 0x00 20. "C2C_INIT_FW_ERROR,C2C init firewall" "C2C_INIT_FW_ERROR_0,C2C_INIT_FW_ERROR_1"
newline
bitfld.long 0x00 19. "L4_AUDIOBE_FW_ERROR,L4 AudioBE firewall" "L4_AUDIOBE_FW_ERROR_0,L4_AUDIOBE_FW_ERROR_1"
newline
bitfld.long 0x00 18. "DEBUGSS_FW_ERROR,DebugSS firewall" "DEBUGSS_FW_ERROR_0,DEBUGSS_FW_ERROR_1"
newline
bitfld.long 0x00 17. "L4_CONFIG_FW_ERROR,L4 Config firewall" "L4_CONFIG_FW_ERROR_0,L4_CONFIG_FW_ERROR_1"
newline
bitfld.long 0x00 16. "L4_PERIPH_FW_ERROR,L4 PER firewall" "L4_PERIPH_FW_ERROR_0,L4_PERIPH_FW_ERROR_1"
newline
bitfld.long 0x00 15. "ISS_FW_ERROR,ISS firewall" "ISS_FW_ERROR_0,ISS_FW_ERROR_1"
newline
bitfld.long 0x00 14. "DSS_FW_ERROR,DSS firewall" "DSS_FW_ERROR_0,DSS_FW_ERROR_1"
newline
bitfld.long 0x00 13. "SGX_FW_ERROR,SGX firewall" "SGX_FW_ERROR_0,SGX_FW_ERROR_1"
newline
bitfld.long 0x00 12. "C2C_FW_ERROR,C2C firewall" "C2C_FW_ERROR_0,C2C_FW_ERROR_1"
newline
bitfld.long 0x00 6. "SL2_FW_ERROR,SL2 firewall" "SL2_FW_ERROR_0,SL2_FW_ERROR_1"
newline
bitfld.long 0x00 5. "DUAL_CORTEX_M3_FW_ERROR,Dual Cortex M3 firewall" "DUAL_CORTEX_M3_FW_ERROR_0,DUAL_CORTEX_M3_FW_ERROR_1"
newline
bitfld.long 0x00 4. "IVAHD_FW_ERROR,IVAHD firewall" "IVAHD_FW_ERROR_0,IVAHD_FW_ERROR_1"
newline
bitfld.long 0x00 3. "EMIF_FW_ERROR,EMIF firewall" "EMIF_FW_ERROR_0,EMIF_FW_ERROR_1"
newline
bitfld.long 0x00 2. "GPMC_FW_ERROR,GPMC firewall" "GPMC_FW_ERROR_0,GPMC_FW_ERROR_1"
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bitfld.long 0x00 1. "L3RAM_FW_ERROR,L3RAM firewall" "L3RAM_FW_ERROR_0,L3RAM_FW_ERROR_1"
line.long 0x04 "CONTROL_SEC_ERR_STATUS_DEBUG,Error Status debug Register"
bitfld.long 0x04 20. "C2C_INIT_DBGFW_ERROR,C2C init debug firewall" "C2C_INIT_DBGFW_ERROR_0,C2C_INIT_DBGFW_ERROR_1"
newline
bitfld.long 0x04 19. "L4_AUDIOBE_DBGFW_ERROR,L4 AudioBE debug firewall" "L4_AUDIOBE_DBGFW_ERROR_0,L4_AUDIOBE_DBGFW_ERROR_1"
newline
bitfld.long 0x04 18. "DEBUGSS_DBGFW_ERROR,DebugSS debug firewall" "DEBUGSS_DBGFW_ERROR_0,DEBUGSS_DBGFW_ERROR_1"
newline
bitfld.long 0x04 17. "L4_CONFIG_DBGFW_ERROR,L4 Config debug firewall" "L4_CONFIG_DBGFW_ERROR_0,L4_CONFIG_DBGFW_ERROR_1"
newline
bitfld.long 0x04 16. "L4_PERIPH_DBGFW_ERROR,L4 PER debug firewall" "L4_PERIPH_DBGFW_ERROR_0,L4_PERIPH_DBGFW_ERROR_1"
newline
bitfld.long 0x04 15. "ISS_DBGFW_ERROR,ISS debug firewall" "ISS_DBGFW_ERROR_0,ISS_DBGFW_ERROR_1"
newline
bitfld.long 0x04 14. "DSS_DBGFW_ERROR,DSS debug firewall" "DSS_DBGFW_ERROR_0,DSS_DBGFW_ERROR_1"
newline
bitfld.long 0x04 13. "SGX_DBGFW_ERROR,SGX debug firewall" "SGX_DBGFW_ERROR_0,SGX_DBGFW_ERROR_1"
newline
bitfld.long 0x04 12. "C2C_DBGFW_ERROR,C2C debug firewall" "C2C_DBGFW_ERROR_0,C2C_DBGFW_ERROR_1"
newline
bitfld.long 0x04 6. "SL2_DBGFW_ERROR,SL2 debug firewall" "SL2_DBGFW_ERROR_0,SL2_DBGFW_ERROR_1"
newline
bitfld.long 0x04 5. "DUAL_CORTEX_M3_ DBGFW_ERROR,Dual Cortex M3 debug firewall" "DUAL_CORTEX_M3_ DBGFW_ERROR_0,DUAL_CORTEX_M3_ DBGFW_ERROR_1"
newline
bitfld.long 0x04 4. "IVAHD_DBGFW_ERROR,IVAHD debug firewall" "IVAHD_DBGFW_ERROR_0,IVAHD_DBGFW_ERROR_1"
newline
bitfld.long 0x04 3. "EMIF_DBGFW_ERROR,EMIF debug firewall" "EMIF_DBGFW_ERROR_0,EMIF_DBGFW_ERROR_1"
newline
bitfld.long 0x04 2. "GPMC_DBGFW_ERROR,GPMC debug firewall" "GPMC_DBGFW_ERROR_0,GPMC_DBGFW_ERROR_1"
newline
bitfld.long 0x04 1. "L3RAM_DBGFW_ERROR,L3RAM debug firewall" "L3RAM_DBGFW_ERROR_0,L3RAM_DBGFW_ERROR_1"
group.long 0x300++0x03
line.long 0x00 "CONTROL_DEV_CONF,Device configuration register"
hexmask.long 0x00 1.--31. 1. "DEV_CONF,Spare bits for device configuration"
newline
bitfld.long 0x00 0. "USBPHY_PD,Power down entire USB phy (data common module and UTMI)" "USBPHY_PD_0,USBPHY_PD_1"
group.long 0x314++0x07
line.long 0x00 "CONTROL_LDOVBB_IVA_VOLTAGE_CTRL,IVA Voltage Body Bias LDO control register Access conditions"
bitfld.long 0x00 26. "LDOVBBIVA_RBB_MUX_CTRL,Override control of EFUSE Adaptive Body Bias set2 voltage value" "LDOVBBIVA_RBB_MUX_CTRL_0,LDOVBBIVA_RBB_MUX_CTRL_1"
newline
rbitfld.long 0x00 21.--25. "LDOVBBIVA_RBB_VSET_IN,EFUSE Adaptive Body Bias set2 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"
newline
bitfld.long 0x00 16.--20. "LDOVBBIVA_RBB_VSET_OUT,Override value for Adaptive Body Bias set2 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"
newline
bitfld.long 0x00 10. "LDOVBBIVA_FBB_MUX_CTRL,Override control of EFUSE Adaptive Body Bias Set1 voltage value" "LDOVBBIVA_FBB_MUX_CTRL_0,LDOVBBIVA_FBB_MUX_CTRL_1"
newline
rbitfld.long 0x00 5.--9. "LDOVBBIVA_FBB_VSET_IN,EFUSE Adaptive Body Bias Set1 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"
newline
bitfld.long 0x00 0.--4. "LDOVBBIVA_FBB_VSET_OUT,Override value for Adaptive Body Bias Set1 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"
line.long 0x04 "CONTROL_LDOVBB_MPU_VOLTAGE_CTRL,MPU Voltage Body Bias LDO control register Access conditions"
bitfld.long 0x04 26. "LDOVBBMPU_RBB_MUX_CTRL,Override control of EFUSE Adaptive Body Bias Set2 voltage value" "LDOVBBMPU_RBB_MUX_CTRL_0,LDOVBBMPU_RBB_MUX_CTRL_1"
newline
rbitfld.long 0x04 21.--25. "LDOVBBMPU_RBB_VSET_IN,EFUSE Adaptive Body Bias Set2 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"
newline
bitfld.long 0x04 16.--20. "LDOVBBMPU_RBB_VSET_OUT,Override value for Adaptive Body Bias Set2 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"
newline
bitfld.long 0x04 10. "LDOVBBMPU_FBB_MUX_CTRL,Override control of EFUSE Adaptive Body Bias Set1 voltage value" "LDOVBBMPU_FBB_MUX_CTRL_0,LDOVBBMPU_FBB_MUX_CTRL_1"
newline
rbitfld.long 0x04 5.--9. "LDOVBBMPU_FBB_VSET_IN,EFUSE Adaptive Body Bias Set1 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"
newline
bitfld.long 0x04 0.--4. "LDOVBBMPU_FBB_VSET_OUT,Override value for Adaptive Body Bias Set1 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"
group.long 0x320++0x17
line.long 0x00 "CONTROL_LDOSRAM_IVA_VOLTAGE_CTRL,IVA SRAM LDO control register Access conditions"
bitfld.long 0x00 26. "LDOSRAMIVA_RETMODE_MUX_CTRL,Override control of EFUSE Retention Mode Voltage value" "LDOSRAMIVA_RETMODE_MUX_CTRL_0,LDOSRAMIVA_RETMODE_MUX_CTRL_1"
newline
rbitfld.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"
newline
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"
newline
bitfld.long 0x00 10. "LDOSRAMIVA_ACTMODE_MUX_CTRL,Override control of EFUSE Active Mode Voltage value" "LDOSRAMIVA_ACTMODE_MUX_CTRL_0,LDOSRAMIVA_ACTMODE_MUX_CTRL_1"
newline
rbitfld.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"
newline
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"
line.long 0x04 "CONTROL_LDOSRAM_MPU_VOLTAGE_CTRL,MPU SRAM LDO control register Access conditions"
bitfld.long 0x04 26. "LDOSRAMMPU_RETMODE_MUX_CTRL,Override control of EFUSE Retention Mode Voltage value" "LDOSRAMMPU_RETMODE_MUX_CTRL_0,LDOSRAMMPU_RETMODE_MUX_CTRL_1"
newline
rbitfld.long 0x04 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"
newline
bitfld.long 0x04 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"
newline
bitfld.long 0x04 10. "LDOSRAMMPU_ACTMODE_MUX_CTRL,Override control of EFUSE Active Mode Voltage value" "LDOSRAMMPU_ACTMODE_MUX_CTRL_0,LDOSRAMMPU_ACTMODE_MUX_CTRL_1"
newline
rbitfld.long 0x04 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"
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bitfld.long 0x04 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"
line.long 0x08 "CONTROL_LDOSRAM_CORE_VOLTAGE_CTRL,Core SRAM LDO control register Access conditions"
bitfld.long 0x08 26. "LDOSRAMCORE_RETMODE_MUX_CTRL,Override control of EFUSE Retention Mode Voltage value" "LDOSRAMCORE_RETMODE_MUX_CTRL_0,LDOSRAMCORE_RETMODE_MUX_CTRL_1"
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rbitfld.long 0x08 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"
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bitfld.long 0x08 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"
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bitfld.long 0x08 10. "LDOSRAMCORE_ACTMODE_MUX_CTRL,Override control of EFUSE Active Mode Voltage value" "LDOSRAMCORE_ACTMODE_MUX_CTRL_0,LDOSRAMCORE_ACTMODE_MUX_CTRL_1"
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rbitfld.long 0x08 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"
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bitfld.long 0x08 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"
line.long 0x0C "CONTROL_TEMP_SENSOR,Control VBGAPTS temperature sensor and thermal comparator shutdown register Access conditions"
bitfld.long 0x0C 13. "BGAP_TEMPSOFF,Temperature sensor and thermal shutdown mode" "BGAP_TEMPSOFF_0,BGAP_TEMPSOFF_1"
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bitfld.long 0x0C 11. "BGAP_TEMP_SENSOR_SOC,ADC Start of Conversion" "0,1"
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rbitfld.long 0x0C 10. "BGAP_TEMP_SENSOR_EOCZ,ADC End of Conversion" "0,1"
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hexmask.long.word 0x0C 0.--9. 1. "BGAP_TEMP_SENSOR_DTEMP,Temperature data from the ADC"
line.long 0x10 "CONTROL_DPLL_NWELL_TRIM_0,Dpll trim (SW override) - Part 0 Access conditions"
bitfld.long 0x10 29. "DPLL_ABE_NWELL_TRIM_MUX_CTRL,Software override selection over efuse values" "DPLL_ABE_NWELL_TRIM_MUX_CTRL_0,DPLL_ABE_NWELL_TRIM_MUX_CTRL_1"
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bitfld.long 0x10 24.--28. "DPLL_ABE_NWELL_TRIM,Software override 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"
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bitfld.long 0x10 23. "DPLL_PER_NWELL_TRIM_MUX_CTRL,Software override selection over efuse values" "DPLL_PER_NWELL_TRIM_MUX_CTRL_0,DPLL_PER_NWELL_TRIM_MUX_CTRL_1"
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bitfld.long 0x10 18.--22. "DPLL_PER_NWELL_TRIM,Software override 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"
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bitfld.long 0x10 17. "DPLL_CORE_NWELL_TRIM_MUX_CTRL,Software override selection over efuse values" "DPLL_CORE_NWELL_TRIM_MUX_CTRL_0,DPLL_CORE_NWELL_TRIM_MUX_CTRL_1"
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bitfld.long 0x10 12.--16. "DPLL_CORE_NWELL_TRIM,Software override 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"
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bitfld.long 0x10 11. "DPLL_IVA_NWELL_TRIM_MUX_CTRL,Software override selection over efuse values" "DPLL_IVA_NWELL_TRIM_MUX_CTRL_0,DPLL_IVA_NWELL_TRIM_MUX_CTRL_1"
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bitfld.long 0x10 6.--10. "DPLL_IVA_NWELL_TRIM,Software override 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"
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bitfld.long 0x10 5. "DPLL_MPU_NWELL_TRIM_MUX_CTRL,Software override selection over efuse values" "DPLL_MPU_NWELL_TRIM_MUX_CTRL_0,DPLL_MPU_NWELL_TRIM_MUX_CTRL_1"
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bitfld.long 0x10 0.--4. "DPLL_MPU_NWELL_TRIM,Software override 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"
line.long 0x14 "CONTROL_DPLL_NWELL_TRIM_1,Dpll trim (SW override) - Part 1 Access conditions"
bitfld.long 0x14 23. "DPLL_USB_NWELL_TRIM_MUX_CTRL,Software override selection over efuse values" "DPLL_USB_NWELL_TRIM_MUX_CTRL_0,DPLL_USB_NWELL_TRIM_MUX_CTRL_1"
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bitfld.long 0x14 18.--22. "DPLL_USB_NWELL_TRIM,Software override 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"
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bitfld.long 0x14 11. "DPLL_DSI2_NWELL_TRIM_MUX_CTRL,Software override selection over efuse values" "DPLL_DSI2_NWELL_TRIM_MUX_CTRL_0,DPLL_DSI2_NWELL_TRIM_MUX_CTRL_1"
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bitfld.long 0x14 6.--10. "DPLL_DSI2_NWELL_TRIM,Software override 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"
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bitfld.long 0x14 5. "DPLL_DSI1_NWELL_TRIM_MUX_CTRL,Software override selection over efuse values" "DPLL_DSI1_NWELL_TRIM_MUX_CTRL_0,DPLL_DSI1_NWELL_TRIM_MUX_CTRL_1"
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bitfld.long 0x14 0.--4. "DPLL_DSI1_NWELL_TRIM,Software override 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 0x33C++0x07
line.long 0x00 "CONTROL_USBOTGHS_CONTROL,USBOTGHS software control Access conditions"
rbitfld.long 0x00 8. "DISCHRGVBUS,USBOTGHS value for signal dischrgvbus (OTG_PD_VBUS )" "DISCHRGVBUS_0_r,DISCHRGVBUS_1_r"
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rbitfld.long 0x00 7. "CHRGVBUS,USBOTGHS value for signal chrgvbus (OTG_PU_VBUS)" "CHRGVBUS_0_r,CHRGVBUS_1_r"
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rbitfld.long 0x00 6. "DRVVBUS,USBOTGHS value for signal drvvbus (OTG_DRV_VBUS)" "DRVVBUS_0_r,DRVVBUS_1_r"
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rbitfld.long 0x00 5. "IDPULLUP,USBOTGHS value for signal Idpullup (OTG_PU_ID)" "IDPULLUP_0_r,IDPULLUP_1_r"
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bitfld.long 0x00 4. "IDDIG,Sets the USBOTGHS signal iddig (ID)" "IDDIG_0,IDDIG_1"
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bitfld.long 0x00 3. "SESSEND,Sets the USBOTGHS signal sessend (BSESSEND)" "SESSEND_0,SESSEND_1"
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bitfld.long 0x00 2. "VBUSVALID,Sets the USBOTGHS signal vbusvalid (VBUSVLD)" "0,1"
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bitfld.long 0x00 1. "BVALID,Sets the USBOTGHS signal bvalid (BSESSVLD)" "BVALID_0,BVALID_1"
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bitfld.long 0x00 0. "AVALID,Sets the USBOTGHS signal avalid (ASESSVLD)" "AVALID_0,AVALID_1"
line.long 0x04 "CONTROL_DSS_CONTROL,DSS software control Access conditions"
bitfld.long 0x04 0. "DSS_MUX6_SELECT,Mux6 select value for DSS" "DSS_MUX6_SELECT_0,DSS_MUX6_SELECT_1"
group.long 0x348++0x0B
line.long 0x00 "CONTROL_CORTEX_M3_MMUADDRTRANSLTR,CORTEX_M3 reg Access conditions"
hexmask.long.tbyte 0x00 0.--19. 1. "CORTEX_M3_MMUADDRTRANSLTR,Used to save the mmu address boot"
line.long 0x04 "CONTROL_CORTEX_M3_MMUADDRLOGICTR,Access conditions"
hexmask.long.tbyte 0x04 0.--19. 1. "CORTEX_M3_MMUADDRLOGICTR,"
line.long 0x08 "CONTROL_HWOBS_CONTROL,Hardware observability control"
bitfld.long 0x08 14.--18. "HWOBS_CLKDIV_SEL_2,Clock divider selection on po_hwobs(2)" "?,HWOBS_CLKDIV_SEL_2_1,HWOBS_CLKDIV_SEL_2_2,?,HWOBS_CLKDIV_SEL_2_4,?,?,?,HWOBS_CLKDIV_SEL_2_8,?,?,?,?,?,?,?,HWOBS_CLKDIV_SEL_2_16,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
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bitfld.long 0x08 9.--13. "HWOBS_CLKDIV_SEL_1,Clock divider selection on po_hwobs(1)" "?,HWOBS_CLKDIV_SEL_1_1,HWOBS_CLKDIV_SEL_1_2,?,HWOBS_CLKDIV_SEL_1_4,?,?,?,HWOBS_CLKDIV_SEL_1_8,?,?,?,?,?,?,?,HWOBS_CLKDIV_SEL_1_16,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
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bitfld.long 0x08 3.--7. "HWOBS_CLKDIV_SEL,Clock divider selection on po_hwobs(0)" "?,HWOBS_CLKDIV_SEL_1,HWOBS_CLKDIV_SEL_2,?,HWOBS_CLKDIV_SEL_4,?,?,?,HWOBS_CLKDIV_SEL_8,?,?,?,?,?,?,?,HWOBS_CLKDIV_SEL_16,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
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bitfld.long 0x08 2. "HWOBS_ALL_ZERO_MODE,Used to gate observable signals" "HWOBS_ALL_ZERO_MODE_0,HWOBS_ALL_ZERO_MODE_1"
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bitfld.long 0x08 1. "HWOBS_ALL_ONE_MODE,Used to gate observable signals" "HWOBS_ALL_ONE_MODE_0,HWOBS_ALL_ONE_MODE_1"
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bitfld.long 0x08 0. "HWOBS_MACRO_ENABLE,Used to gate observable signals coming from macros using the 32-bit HWOBS bus definition" "HWOBS_MACRO_ENABLE_0,HWOBS_MACRO_ENABLE_1"
group.long 0x360++0x2B
line.long 0x00 "CONTROL_EMIF1_OFFSET,emif1 offset Access conditions"
hexmask.long.byte 0x00 24.--31. 1. "EMIF1_DLL_OFFSET_3,8-bit signed offset value (-128 ... +127) for EMIF1 DLL Slave3 delay correction"
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hexmask.long.byte 0x00 16.--23. 1. "EMIF1_DLL_OFFSET_2,8-bit signed offset value (-128 ... +127) for EMIF1 DLL Slave2 delay correction"
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hexmask.long.byte 0x00 8.--15. 1. "EMIF1_DLL_OFFSET_1,8-bit signed offset value (-128 ... +127) for EMIF1 DLL Slave1 delay correction"
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hexmask.long.byte 0x00 0.--7. 1. "EMIF1_DLL_OFFSET_0,8-bit signed offset value (-128 ... +127) for EMIF1 DLL Slave0 delay correction"
line.long 0x04 "CONTROL_EMIF2_OFFSET,emif2 offset Access conditions"
hexmask.long.byte 0x04 24.--31. 1. "EMIF2_DLL_OFFSET_3,8-bit signed offset value (-128 ... +127) for EMIF2 DLL Slave3 delay correction"
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hexmask.long.byte 0x04 16.--23. 1. "EMIF2_DLL_OFFSET_2,8-bit signed offset value (-128 ... +127) for EMIF2 DLL Slave2 delay correction"
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hexmask.long.byte 0x04 8.--15. 1. "EMIF2_DLL_OFFSET_1,8-bit signed offset value (-128 ... +127) for EMIF2 DLL Slave1 delay correction"
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hexmask.long.byte 0x04 0.--7. 1. "EMIF2_DLL_OFFSET_0,8-bit signed offset value (-128 ... +127) for EMIF2 DLL Slave0 delay correction"
line.long 0x08 "CONTROL_EMIF1_MASTER_CODE_0,emif1 master code Access conditions"
hexmask.long.word 0x08 16.--25. 1. "EMIF1_MASTER_CODE_1,EMIF1 DLL Master1 code"
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hexmask.long.word 0x08 0.--9. 1. "EMIF1_MASTER_CODE_0,EMIF1 DLL Master0 code"
line.long 0x0C "CONTROL_EMIF1_MASTER_CODE_1,Access conditions"
hexmask.long.word 0x0C 16.--25. 1. "EMIF1_MASTER_CODE_3,EMIF1 DLL Master3 code"
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hexmask.long.word 0x0C 0.--9. 1. "EMIF1_MASTER_CODE_2,EMIF1 DLL Master2 code"
line.long 0x10 "CONTROL_EMIF2_MASTER_CODE_0,emif2 master code Access conditions"
hexmask.long.word 0x10 16.--25. 1. "EMIF2_MASTER_CODE_1,EMIF2 DLL Master1 code"
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hexmask.long.word 0x10 0.--9. 1. "EMIF2_MASTER_CODE_0,EMIF2 DLL Master0 code"
line.long 0x14 "CONTROL_EMIF2_MASTER_CODE_1,Access conditions"
hexmask.long.word 0x14 16.--25. 1. "EMIF2_MASTER_CODE_3,EMIF2 DLL Master3 code"
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hexmask.long.word 0x14 0.--9. 1. "EMIF2_MASTER_CODE_2,EMIF2 DLL Master2 code"
line.long 0x18 "CONTROL_BANDGAP_CTRL,bandgap control Access conditions"
bitfld.long 0x18 31. "SINGLE_MODE,Toggles between single mode or continuous mode (repeated single mode)" "SINGLE_MODE_0,SINGLE_MODE_1"
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bitfld.long 0x18 1. "MASK_HOT,Mask for hot events" "MASK_HOT_0,MASK_HOT_1"
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bitfld.long 0x18 0. "MASK_COLD,Mask for cold events" "MASK_COLD_0,MASK_COLD_1"
line.long 0x1C "CONTROL_BANDGAP_COUNTER,bandgap counter Access conditions"
hexmask.long.tbyte 0x1C 0.--23. 1. "COUNTER,Counter for continous mode"
line.long 0x20 "CONTROL_BANDGAP_THRESHOLD,bandgap threshold Access conditions"
hexmask.long.word 0x20 16.--25. 1. "T_HOT,Threshold for hot temperature"
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hexmask.long.word 0x20 0.--9. 1. "T_COLD,Threshold for cold temperature"
line.long 0x24 "CONTROL_TSHUT_THRESHOLD,bandgap tshut threshold Access conditions"
hexmask.long.word 0x24 16.--25. 1. "TSHUT_HOT,Tshut Threshold for hot temperature"
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hexmask.long.word 0x24 0.--9. 1. "TSHUT_COLD,Tshut Threshold for cold temperature"
line.long 0x28 "CONTROL_BANDGAP_STATUS,bandgap status Access conditions"
bitfld.long 0x28 3. "CLEAN_STOP,Show when clean stop" "0,1"
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bitfld.long 0x28 2. "BGAP_ALERT,Show when hot or cold event" "0,1"
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bitfld.long 0x28 1. "HOT_FLAG,Show when hot event" "0,1"
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bitfld.long 0x28 0. "COLD_FLAG,Show when cold event" "0,1"
group.long 0x3C0++0x03
line.long 0x00 "CONTROL_FORCEWRNP,Access conditions"
bitfld.long 0x00 0. "MPUFORCEWRNP," "0,1"
group.long 0x3FC++0x07
line.long 0x00 "CONTROL_GEN_CORE_OCPREG_SPARE,The lower 4-bits of this register are assigned to control PWRDN mode globally. and the LVCMOS buffers enable control of the EMIF1 and EMIF2 PHYs"
hexmask.long 0x00 4.--31. 1. "OCPREG_SPARE,Reserved"
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bitfld.long 0x00 3. "OCPREG_SPARE3,emif2phydata0-emif2phydata3 power-down mode control" "OCPREG_SPARE3_0,OCPREG_SPARE3_1"
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bitfld.long 0x00 2. "OCPREG_SPARE2,emif2phycmd0 emif2phydata0-emif2phydata3 I/O LVCMOS buffers enable" "OCPREG_SPARE2_0,OCPREG_SPARE2_1"
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bitfld.long 0x00 1. "OCPREG_SPARE1,emif1phydata0-emif1phydata3 power-down mode control" "OCPREG_SPARE1_0,OCPREG_SPARE1_1"
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bitfld.long 0x00 0. "OCPREG_SPARE0,emif1phycmd0 emif1phydata0-emif1phydata3 I/O LVCMOS buffers enable" "OCPREG_SPARE0_0,OCPREG_SPARE0_1"
line.long 0x04 "CONTROL_DEBOBS_FINAL_MUX_SEL,Final mux select signal"
group.long 0x408++0x03
line.long 0x00 "CONTROL_DEBOBS_MMR_MPU,Dual Cortex-A9 register to control hardware observability muxing inside dual Cortex-A9 (controls external observability logic)"
bitfld.long 0x00 0.--3. "SELECT,Control external observability logic" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x42C++0x0F
line.long 0x00 "CONTROL_CONF_SDMA_REQ_SEL0,System DMA requests view channel 0 Access conditions"
hexmask.long.byte 0x00 0.--6. 1. "MULT,Select one of the following signals"
line.long 0x04 "CONTROL_CONF_SDMA_REQ_SEL1,System DMA requests view channel 1 Access conditions"
hexmask.long.byte 0x04 0.--6. 1. "MULT,Select one of the following signals"
line.long 0x08 "CONTROL_CONF_SDMA_REQ_SEL2,System DMA requests view channel 2 Access conditions"
hexmask.long.byte 0x08 0.--6. 1. "MULT,Select one of the following signals"
line.long 0x0C "CONTROL_CONF_SDMA_REQ_SEL3,System DMA requests view channel 3 Access conditions"
hexmask.long.byte 0x0C 0.--6. 1. "MULT,Select one of the following signals"
group.long 0x440++0x17
line.long 0x00 "CONTROL_CONF_CLK_SEL0,clk view channel 0 Access conditions"
bitfld.long 0x00 0.--2. "MULT,Select one of the following signals" "MULT_0,MULT_1,MULT_2,MULT_3,MULT_4,MULT_5,MULT_6,MULT_7"
line.long 0x04 "CONTROL_CONF_CLK_SEL1,clk view channel 1 Access conditions"
bitfld.long 0x04 0.--2. "MULT,Select one of the following signals" "MULT_0,MULT_1,MULT_2,MULT_3,MULT_4,MULT_5,MULT_6,MULT_7"
line.long 0x08 "CONTROL_CONF_CLK_SEL2,clk view channel 2 Access conditions"
bitfld.long 0x08 0.--2. "MULT,Select one of the following signals" "MULT_0,MULT_1,MULT_2,MULT_3,MULT_4,MULT_5,MULT_6,MULT_7"
line.long 0x0C "CONTROL_CONF_DPLL_FREQLOCK_SEL,dpll_freqlock view Access conditions"
bitfld.long 0x0C 0.--2. "MULT,Select one of the following signals" "MULT_0,MULT_1,MULT_2,MULT_3,MULT_4,MULT_5,MULT_6,MULT_7"
line.long 0x10 "CONTROL_CONF_DPLL_TINITZ_SEL,dpll_tinitz view Access conditions"
bitfld.long 0x10 0.--2. "MULT,Select one of the following signals" "MULT_0,?,?,?,?,?,?,?"
line.long 0x14 "CONTROL_CONF_DPLL_PHASELOCK_SEL,dpll_phaselock view Access conditions"
bitfld.long 0x14 0.--2. "MULT,Select one of the following signals" "MULT_0,MULT_1,MULT_2,MULT_3,MULT_4,MULT_5,MULT_6,MULT_7"
group.long 0x45C++0x0F
line.long 0x00 "CONTROL_CONF_DPLL_TENABLE_SEL,dpll_tenable view Access conditions"
bitfld.long 0x00 0.--2. "MULT,Select one of the following signals" "MULT_0,MULT_1,MULT_2,MULT_3,MULT_4,MULT_5,MULT_6,MULT_7"
line.long 0x04 "CONTROL_CONF_DPLL_TENABLEDIV_SEL,dpll_tenablediv view Access conditions"
bitfld.long 0x04 0.--2. "MULT,Select one of the following signals" "MULT_0,MULT_1,MULT_2,MULT_3,MULT_4,MULT_5,MULT_6,MULT_7"
line.long 0x08 "CONTROL_CONF_DPLL_BYPASSACK_SEL,dpll_bypassack view Access conditions"
bitfld.long 0x08 0.--2. "MULT,Select one of the following signals" "MULT_0,MULT_1,MULT_2,MULT_3,MULT_4,MULT_5,MULT_6,MULT_7"
line.long 0x0C "CONTROL_CONF_DPLL_IDLE_SEL,dpll_idle view Access conditions"
bitfld.long 0x0C 0.--2. "MULT,Select one of the following signals" "MULT_0,MULT_1,MULT_2,MULT_3,MULT_4,MULT_5,MULT_6,MULT_7"
group.long 0x480++0x7F
line.long 0x00 "CONTROL_CORE_CONF_DEBUG_SEL_TST_0,Select mode for debug port Access conditions"
bitfld.long 0x00 0.--3. "MODE,Select one of the following signals" "MODE_0,MODE_1,MODE_2,MODE_3,MODE_4,MODE_5,MODE_6,MODE_7,MODE_8,MODE_9,MODE_10,MODE_11,MODE_12,?,?,?"
line.long 0x04 "CONTROL_CORE_CONF_DEBUG_SEL_TST_1,Select mode for debug port Access conditions"
bitfld.long 0x04 0.--3. "MODE,Select one of the following signals" "MODE_0,MODE_1,MODE_2,MODE_3,MODE_4,MODE_5,MODE_6,MODE_7,MODE_8,MODE_9,MODE_10,MODE_11,?,?,?,?"
line.long 0x08 "CONTROL_CORE_CONF_DEBUG_SEL_TST_2,Select mode for debug port Access conditions"
bitfld.long 0x08 0.--3. "MODE,Select one of the following signals" "MODE_0,MODE_1,MODE_2,MODE_3,MODE_4,MODE_5,MODE_6,MODE_7,MODE_8,MODE_9,MODE_10,MODE_11,?,?,?,?"
line.long 0x0C "CONTROL_CORE_CONF_DEBUG_SEL_TST_3,Select mode for debug port Access conditions"
bitfld.long 0x0C 0.--3. "MODE,Select one of the following signals" "MODE_0,MODE_1,MODE_2,MODE_3,MODE_4,MODE_5,MODE_6,MODE_7,MODE_8,MODE_9,MODE_10,MODE_11,?,?,?,?"
line.long 0x10 "CONTROL_CORE_CONF_DEBUG_SEL_TST_4,Select mode for debug port Access conditions"
bitfld.long 0x10 0.--3. "MODE,Select one of the following signals" "MODE_0,MODE_1,MODE_2,MODE_3,MODE_4,MODE_5,MODE_6,MODE_7,MODE_8,MODE_9,MODE_10,MODE_11,?,?,?,?"
line.long 0x14 "CONTROL_CORE_CONF_DEBUG_SEL_TST_5,Select mode for debug port Access conditions"
bitfld.long 0x14 0.--3. "MODE,Select one of the following signals" "MODE_0,MODE_1,MODE_2,MODE_3,MODE_4,MODE_5,MODE_6,MODE_7,MODE_8,MODE_9,MODE_10,MODE_11,?,?,?,?"
line.long 0x18 "CONTROL_CORE_CONF_DEBUG_SEL_TST_6,Select mode for debug port Access conditions"
bitfld.long 0x18 0.--3. "MODE,Select one of the following signals" "MODE_0,MODE_1,MODE_2,MODE_3,MODE_4,MODE_5,MODE_6,MODE_7,MODE_8,MODE_9,MODE_10,MODE_11,?,?,?,?"
line.long 0x1C "CONTROL_CORE_CONF_DEBUG_SEL_TST_7,Select mode for debug port Access conditions"
bitfld.long 0x1C 0.--3. "MODE,Select one of the following signals" "MODE_0,MODE_1,MODE_2,MODE_3,MODE_4,MODE_5,MODE_6,MODE_7,MODE_8,MODE_9,MODE_10,MODE_11,?,?,?,?"
line.long 0x20 "CONTROL_CORE_CONF_DEBUG_SEL_TST_8,Select mode for debug port Access conditions"
bitfld.long 0x20 0.--3. "MODE,Select one of the following signals" "MODE_0,MODE_1,MODE_2,MODE_3,MODE_4,MODE_5,MODE_6,MODE_7,MODE_8,MODE_9,MODE_10,MODE_11,?,?,?,?"
line.long 0x24 "CONTROL_CORE_CONF_DEBUG_SEL_TST_9,Select mode for debug port Access conditions"
bitfld.long 0x24 0.--3. "MODE,Select one of the following signals" "MODE_0,MODE_1,MODE_2,MODE_3,MODE_4,MODE_5,MODE_6,MODE_7,MODE_8,MODE_9,MODE_10,MODE_11,?,?,?,?"
line.long 0x28 "CONTROL_CORE_CONF_DEBUG_SEL_TST_10,Select mode for debug port Access conditions"
bitfld.long 0x28 0.--3. "MODE,Select one of the following signals" "MODE_0,MODE_1,MODE_2,MODE_3,MODE_4,MODE_5,MODE_6,MODE_7,MODE_8,MODE_9,MODE_10,MODE_11,?,?,?,?"
line.long 0x2C "CONTROL_CORE_CONF_DEBUG_SEL_TST_11,Select mode for debug port Access conditions"
bitfld.long 0x2C 0.--3. "MODE,Select one of the following signals" "MODE_0,MODE_1,MODE_2,MODE_3,MODE_4,MODE_5,MODE_6,MODE_7,MODE_8,MODE_9,MODE_10,MODE_11,?,?,?,?"
line.long 0x30 "CONTROL_CORE_CONF_DEBUG_SEL_TST_12,Select mode for debug port Access conditions"
bitfld.long 0x30 0.--3. "MODE,Select one of the following signals" "MODE_0,MODE_1,MODE_2,MODE_3,MODE_4,MODE_5,MODE_6,MODE_7,MODE_8,MODE_9,MODE_10,MODE_11,?,?,?,?"
line.long 0x34 "CONTROL_CORE_CONF_DEBUG_SEL_TST_13,Select mode for debug port Access conditions"
bitfld.long 0x34 0.--3. "MODE,Select one of the following signals" "MODE_0,MODE_1,MODE_2,MODE_3,MODE_4,MODE_5,MODE_6,MODE_7,MODE_8,MODE_9,MODE_10,MODE_11,?,?,?,?"
line.long 0x38 "CONTROL_CORE_CONF_DEBUG_SEL_TST_14,Select mode for debug port Access conditions"
bitfld.long 0x38 0.--3. "MODE,Select one of the following signals" "MODE_0,MODE_1,MODE_2,MODE_3,MODE_4,MODE_5,MODE_6,MODE_7,MODE_8,MODE_9,MODE_10,MODE_11,?,?,?,?"
line.long 0x3C "CONTROL_CORE_CONF_DEBUG_SEL_TST_15,Select mode for debug port Access conditions"
bitfld.long 0x3C 0.--3. "MODE,Select one of the following signals" "MODE_0,MODE_1,MODE_2,MODE_3,MODE_4,MODE_5,MODE_6,MODE_7,MODE_8,MODE_9,MODE_10,MODE_11,?,?,?,?"
line.long 0x40 "CONTROL_CORE_CONF_DEBUG_SEL_TST_16,Select mode for debug port Access conditions"
bitfld.long 0x40 0.--3. "MODE,Select one of the following signals" "MODE_0,MODE_1,MODE_2,MODE_3,MODE_4,MODE_5,MODE_6,MODE_7,MODE_8,MODE_9,MODE_10,MODE_11,?,?,?,?"
line.long 0x44 "CONTROL_CORE_CONF_DEBUG_SEL_TST_17,Select mode for debug port Access conditions"
bitfld.long 0x44 0.--3. "MODE,Select one of the following signals" "MODE_0,MODE_1,MODE_2,MODE_3,MODE_4,MODE_5,MODE_6,MODE_7,MODE_8,MODE_9,MODE_10,MODE_11,?,?,?,?"
line.long 0x48 "CONTROL_CORE_CONF_DEBUG_SEL_TST_18,Select mode for debug port Access conditions"
bitfld.long 0x48 0.--3. "MODE,Select one of the following signals" "MODE_0,MODE_1,MODE_2,MODE_3,MODE_4,MODE_5,MODE_6,MODE_7,MODE_8,MODE_9,MODE_10,MODE_11,?,?,?,?"
line.long 0x4C "CONTROL_CORE_CONF_DEBUG_SEL_TST_19,Select mode for debug port Access conditions"
bitfld.long 0x4C 0.--3. "MODE,Select one of the following signals" "MODE_0,MODE_1,MODE_2,MODE_3,MODE_4,MODE_5,MODE_6,MODE_7,MODE_8,MODE_9,MODE_10,MODE_11,?,?,?,?"
line.long 0x50 "CONTROL_CORE_CONF_DEBUG_SEL_TST_20,Select mode for debug port Access conditions"
bitfld.long 0x50 0.--3. "MODE,Select one of the following signals" "MODE_0,MODE_1,MODE_2,MODE_3,MODE_4,MODE_5,MODE_6,MODE_7,MODE_8,MODE_9,MODE_10,MODE_11,?,?,?,?"
line.long 0x54 "CONTROL_CORE_CONF_DEBUG_SEL_TST_21,Select mode for debug port Access conditions"
bitfld.long 0x54 0.--3. "MODE,Select one of the following signals" "MODE_0,MODE_1,MODE_2,MODE_3,MODE_4,MODE_5,MODE_6,MODE_7,MODE_8,MODE_9,MODE_10,?,?,?,?,?"
line.long 0x58 "CONTROL_CORE_CONF_DEBUG_SEL_TST_22,Select mode for debug port Access conditions"
bitfld.long 0x58 0.--3. "MODE,Select one of the following signals" "MODE_0,MODE_1,MODE_2,MODE_3,MODE_4,MODE_5,MODE_6,MODE_7,MODE_8,MODE_9,MODE_10,?,?,?,?,?"
line.long 0x5C "CONTROL_CORE_CONF_DEBUG_SEL_TST_23,Select mode for debug port Access conditions"
bitfld.long 0x5C 0.--3. "MODE,Select one of the following signals" "MODE_0,MODE_1,MODE_2,MODE_3,MODE_4,MODE_5,MODE_6,MODE_7,MODE_8,MODE_9,MODE_10,?,?,?,?,?"
line.long 0x60 "CONTROL_CORE_CONF_DEBUG_SEL_TST_24,Select mode for debug port Access conditions"
bitfld.long 0x60 0.--3. "MODE,Select one of the following signals" "MODE_0,MODE_1,MODE_2,MODE_3,MODE_4,MODE_5,MODE_6,MODE_7,MODE_8,MODE_9,MODE_10,?,?,?,?,?"
line.long 0x64 "CONTROL_CORE_CONF_DEBUG_SEL_TST_25,Select mode for debug port Access conditions"
bitfld.long 0x64 0.--3. "MODE,Select one of the following signals" "MODE_0,MODE_1,MODE_2,MODE_3,MODE_4,MODE_5,MODE_6,MODE_7,MODE_8,MODE_9,MODE_10,?,?,?,?,?"
line.long 0x68 "CONTROL_CORE_CONF_DEBUG_SEL_TST_26,Select mode for debug port Access conditions"
bitfld.long 0x68 0.--3. "MODE,Select one of the following signals" "MODE_0,MODE_1,MODE_2,MODE_3,MODE_4,MODE_5,MODE_6,MODE_7,MODE_8,MODE_9,MODE_10,?,?,?,?,?"
line.long 0x6C "CONTROL_CORE_CONF_DEBUG_SEL_TST_27,Select mode for debug port Access conditions"
bitfld.long 0x6C 0.--3. "MODE,Select one of the following signals" "MODE_0,MODE_1,MODE_2,MODE_3,MODE_4,MODE_5,MODE_6,MODE_7,MODE_8,MODE_9,MODE_10,MODE_11,MODE_12,?,?,?"
line.long 0x70 "CONTROL_CORE_CONF_DEBUG_SEL_TST_28,Select mode for debug port Access conditions"
bitfld.long 0x70 0.--3. "MODE,Select one of the following signals" "MODE_0,MODE_1,MODE_2,MODE_3,MODE_4,MODE_5,MODE_6,MODE_7,MODE_8,MODE_9,MODE_10,MODE_11,MODE_12,?,?,?"
line.long 0x74 "CONTROL_CORE_CONF_DEBUG_SEL_TST_29,Select mode for debug port Access conditions"
bitfld.long 0x74 0.--3. "MODE,Select one of the following signals" "MODE_0,MODE_1,MODE_2,MODE_3,MODE_4,MODE_5,MODE_6,MODE_7,MODE_8,MODE_9,MODE_10,MODE_11,MODE_12,?,?,?"
line.long 0x78 "CONTROL_CORE_CONF_DEBUG_SEL_TST_30,Select mode for debug port Access conditions"
bitfld.long 0x78 0.--3. "MODE,Select one of the following signals" "MODE_0,MODE_1,MODE_2,MODE_3,MODE_4,MODE_5,MODE_6,MODE_7,MODE_8,MODE_9,MODE_10,MODE_11,MODE_12,?,?,?"
line.long 0x7C "CONTROL_CORE_CONF_DEBUG_SEL_TST_31,Select mode for debug port Access conditions"
bitfld.long 0x7C 0.--3. "MODE,Select one of the following signals" "MODE_0,MODE_1,MODE_2,MODE_3,MODE_4,MODE_5,MODE_6,MODE_7,MODE_8,MODE_9,MODE_10,MODE_11,MODE_12,?,?,?"
tree.end
tree "SYSCTRL_GENERAL_WKUP"
base ansd:0x4A30C000
tree "Channel_0"
group.long 0x460++0x7F
line.long 0x00 "CONTROL_WKUP_CONF_DEBUG_SEL_TST_i_0,Select mode for debug port Access conditions"
bitfld.long 0x00 0. "MODE,Select one of the following signals" "MODE_0,MODE_1"
line.long 0x04 "CONTROL_WKUP_CONF_DEBUG_SEL_TST_i_1,Select mode for debug port Access conditions"
bitfld.long 0x04 0. "MODE,Select one of the following signals" "MODE_0,MODE_1"
line.long 0x08 "CONTROL_WKUP_CONF_DEBUG_SEL_TST_i_2,Select mode for debug port Access conditions"
bitfld.long 0x08 0. "MODE,Select one of the following signals" "MODE_0,MODE_1"
line.long 0x0C "CONTROL_WKUP_CONF_DEBUG_SEL_TST_i_3,Select mode for debug port Access conditions"
bitfld.long 0x0C 0. "MODE,Select one of the following signals" "MODE_0,MODE_1"
line.long 0x10 "CONTROL_WKUP_CONF_DEBUG_SEL_TST_i_4,Select mode for debug port Access conditions"
bitfld.long 0x10 0. "MODE,Select one of the following signals" "MODE_0,MODE_1"
line.long 0x14 "CONTROL_WKUP_CONF_DEBUG_SEL_TST_i_5,Select mode for debug port Access conditions"
bitfld.long 0x14 0. "MODE,Select one of the following signals" "MODE_0,MODE_1"
line.long 0x18 "CONTROL_WKUP_CONF_DEBUG_SEL_TST_i_6,Select mode for debug port Access conditions"
bitfld.long 0x18 0. "MODE,Select one of the following signals" "MODE_0,MODE_1"
line.long 0x1C "CONTROL_WKUP_CONF_DEBUG_SEL_TST_i_7,Select mode for debug port Access conditions"
bitfld.long 0x1C 0. "MODE,Select one of the following signals" "MODE_0,MODE_1"
line.long 0x20 "CONTROL_WKUP_CONF_DEBUG_SEL_TST_i_8,Select mode for debug port Access conditions"
bitfld.long 0x20 0. "MODE,Select one of the following signals" "MODE_0,MODE_1"
line.long 0x24 "CONTROL_WKUP_CONF_DEBUG_SEL_TST_i_9,Select mode for debug port Access conditions"
bitfld.long 0x24 0. "MODE,Select one of the following signals" "MODE_0,MODE_1"
line.long 0x28 "CONTROL_WKUP_CONF_DEBUG_SEL_TST_i_10,Select mode for debug port Access conditions"
bitfld.long 0x28 0. "MODE,Select one of the following signals" "MODE_0,MODE_1"
line.long 0x2C "CONTROL_WKUP_CONF_DEBUG_SEL_TST_i_11,Select mode for debug port Access conditions"
bitfld.long 0x2C 0. "MODE,Select one of the following signals" "MODE_0,MODE_1"
line.long 0x30 "CONTROL_WKUP_CONF_DEBUG_SEL_TST_i_12,Select mode for debug port Access conditions"
bitfld.long 0x30 0. "MODE,Select one of the following signals" "MODE_0,MODE_1"
line.long 0x34 "CONTROL_WKUP_CONF_DEBUG_SEL_TST_i_13,Select mode for debug port Access conditions"
bitfld.long 0x34 0. "MODE,Select one of the following signals" "MODE_0,MODE_1"
line.long 0x38 "CONTROL_WKUP_CONF_DEBUG_SEL_TST_i_14,Select mode for debug port Access conditions"
bitfld.long 0x38 0. "MODE,Select one of the following signals" "MODE_0,MODE_1"
line.long 0x3C "CONTROL_WKUP_CONF_DEBUG_SEL_TST_i_15,Select mode for debug port Access conditions"
bitfld.long 0x3C 0. "MODE,Select one of the following signals" "MODE_0,MODE_1"
line.long 0x40 "CONTROL_WKUP_CONF_DEBUG_SEL_TST_i_16,Select mode for debug port Access conditions"
bitfld.long 0x40 0. "MODE,Select one of the following signals" "MODE_0,MODE_1"
line.long 0x44 "CONTROL_WKUP_CONF_DEBUG_SEL_TST_i_17,Select mode for debug port Access conditions"
bitfld.long 0x44 0. "MODE,Select one of the following signals" "MODE_0,MODE_1"
line.long 0x48 "CONTROL_WKUP_CONF_DEBUG_SEL_TST_i_18,Select mode for debug port Access conditions"
bitfld.long 0x48 0. "MODE,Select one of the following signals" "MODE_0,MODE_1"
line.long 0x4C "CONTROL_WKUP_CONF_DEBUG_SEL_TST_i_19,Select mode for debug port Access conditions"
bitfld.long 0x4C 0. "MODE,Select one of the following signals" "MODE_0,MODE_1"
line.long 0x50 "CONTROL_WKUP_CONF_DEBUG_SEL_TST_i_20,Select mode for debug port Access conditions"
bitfld.long 0x50 0. "MODE,Select one of the following signals" "MODE_0,MODE_1"
line.long 0x54 "CONTROL_WKUP_CONF_DEBUG_SEL_TST_i_21,Select mode for debug port Access conditions"
bitfld.long 0x54 0. "MODE,Select one of the following signals" "MODE_0,MODE_1"
line.long 0x58 "CONTROL_WKUP_CONF_DEBUG_SEL_TST_i_22,Select mode for debug port Access conditions"
bitfld.long 0x58 0. "MODE,Select one of the following signals" "MODE_0,MODE_1"
line.long 0x5C "CONTROL_WKUP_CONF_DEBUG_SEL_TST_i_23,Select mode for debug port Access conditions"
bitfld.long 0x5C 0. "MODE,Select one of the following signals" "MODE_0,MODE_1"
line.long 0x60 "CONTROL_WKUP_CONF_DEBUG_SEL_TST_i_24,Select mode for debug port Access conditions"
bitfld.long 0x60 0. "MODE,Select one of the following signals" "MODE_0,MODE_1"
line.long 0x64 "CONTROL_WKUP_CONF_DEBUG_SEL_TST_i_25,Select mode for debug port Access conditions"
bitfld.long 0x64 0. "MODE,Select one of the following signals" "MODE_0,MODE_1"
line.long 0x68 "CONTROL_WKUP_CONF_DEBUG_SEL_TST_i_26,Select mode for debug port Access conditions"
bitfld.long 0x68 0. "MODE,Select one of the following signals" "MODE_0,MODE_1"
line.long 0x6C "CONTROL_WKUP_CONF_DEBUG_SEL_TST_i_27,Select mode for debug port Access conditions"
bitfld.long 0x6C 0. "MODE,Select one of the following signals" "MODE_0,MODE_1"
line.long 0x70 "CONTROL_WKUP_CONF_DEBUG_SEL_TST_i_28,Select mode for debug port Access conditions"
bitfld.long 0x70 0. "MODE,Select one of the following signals" "MODE_0,MODE_1"
line.long 0x74 "CONTROL_WKUP_CONF_DEBUG_SEL_TST_i_29,Select mode for debug port Access conditions"
bitfld.long 0x74 0. "MODE,Select one of the following signals" "MODE_0,MODE_1"
line.long 0x78 "CONTROL_WKUP_CONF_DEBUG_SEL_TST_i_30,Select mode for debug port Access conditions"
bitfld.long 0x78 0. "MODE,Select one of the following signals" "MODE_0,MODE_1"
line.long 0x7C "CONTROL_WKUP_CONF_DEBUG_SEL_TST_i_31,Select mode for debug port Access conditions"
bitfld.long 0x7C 0. "MODE,Select one of the following signals" "MODE_0,MODE_1"
tree.end
rgroup.long 0x04++0x03
line.long 0x00 "CONTROL_GEN_WKUP_HWINFO,Information about the IP module hardware configuration that is. typically the module HDL generics (if any)"
rgroup.long 0x00++0x03
line.long 0x00 "CONTROL_GEN_WKUP_REVISION,Control module revision identifier Access conditions"
group.long 0x10++0x03
line.long 0x00 "CONTROL_GEN_WKUP_SYSCONFIG,Access conditions"
bitfld.long 0x00 2.--3. "IP_SYSCONFIG_IDLEMODE,Select the local clock-gating strategy" "IP_SYSCONFIG_IDLEMODE_0,IP_SYSCONFIG_IDLEMODE_1,?,?"
group.long 0x10C++0x03
line.long 0x00 "CONTROL_OCPREG_SPARE,Spare Register Access conditions"
bitfld.long 0x00 31. "OCPREG_SPARE31,Spare register 31" "0,1"
bitfld.long 0x00 30. "OCPREG_SPARE30,Spare register 30" "0,1"
newline
bitfld.long 0x00 29. "OCPREG_SPARE29,Spare register 29" "0,1"
bitfld.long 0x00 28. "OCPREG_SPARE28,Spare register 28" "0,1"
newline
bitfld.long 0x00 27. "OCPREG_SPARE27,Spare register 27" "0,1"
bitfld.long 0x00 26. "OCPREG_SPARE26,Spare register 26" "0,1"
newline
bitfld.long 0x00 25. "OCPREG_SPARE25,Spare register 25" "0,1"
bitfld.long 0x00 24. "OCPREG_SPARE24,Spare register 24" "0,1"
newline
bitfld.long 0x00 23. "OCPREG_SPARE23,Spare register 23" "0,1"
bitfld.long 0x00 22. "OCPREG_SPARE22,Spare register 22" "0,1"
newline
bitfld.long 0x00 21. "OCPREG_SPARE21,Spare register 21" "0,1"
bitfld.long 0x00 20. "OCPREG_SPARE20,Spare register 20" "0,1"
newline
bitfld.long 0x00 19. "OCPREG_SPARE19,Spare register 19" "0,1"
bitfld.long 0x00 18. "OCPREG_SPARE18,Spare register 18" "0,1"
newline
bitfld.long 0x00 17. "OCPREG_SPARE17,Spare register 17" "0,1"
bitfld.long 0x00 16. "OCPREG_SPARE16,Spare register 16" "0,1"
newline
bitfld.long 0x00 15. "OCPREG_SPARE15,Spare register 15" "0,1"
bitfld.long 0x00 14. "OCPREG_SPARE14,Spare register 14" "0,1"
newline
bitfld.long 0x00 13. "OCPREG_SPARE13,Spare register 13" "0,1"
bitfld.long 0x00 12. "OCPREG_SPARE12,Spare register 12" "0,1"
newline
bitfld.long 0x00 11. "OCPREG_SPARE11,Spare register 11" "0,1"
bitfld.long 0x00 10. "OCPREG_SPARE10,Spare register 10" "0,1"
newline
bitfld.long 0x00 9. "OCPREG_SPARE9,Spare register 9" "0,1"
bitfld.long 0x00 8. "OCPREG_SPARE8,Spare register 8" "0,1"
newline
bitfld.long 0x00 7. "OCPREG_SPARE7,Spare register 7" "0,1"
bitfld.long 0x00 6. "OCPREG_SPARE6,Spare register 6" "0,1"
newline
bitfld.long 0x00 5. "OCPREG_SPARE5,Spare register 5" "0,1"
bitfld.long 0x00 4. "OCPREG_SPARE4,Spare register 4" "0,1"
newline
bitfld.long 0x00 3. "OCPREG_SPARE3,Spare register 3" "0,1"
bitfld.long 0x00 2. "OCPREG_SPARE2,Spare register 2" "0,1"
newline
bitfld.long 0x00 1. "OCPREG_SPARE1,Spare register 1" "0,1"
group.long 0x114++0x03
line.long 0x00 "CONTROL_WKUP_PROT_EMIF1_SDRAM_CONFIG2_REG,Protection EMIF1 SDRAM configuration register 2 Access conditions"
bitfld.long 0x00 30. "EMIF1_SDRAM_CS1NVMEN,CS1 LPDDR2-NVM enable: - Set to 0x1 if LPDDR2-NVM is connected to CS1" "0,1"
bitfld.long 0x00 4.--5. "EMIF1_SDRAM_RDBNUM,Row buffer setup" "0,1,2,3"
newline
bitfld.long 0x00 0.--2. "EMIF1_SDRAM_RDBSIZE,Row data buffer size" "0,1,2,3,4,5,6,7"
group.long 0x110++0x03
line.long 0x00 "CONTROL_WKUP_PROT_EMIF1_SDRAM_CONFIG_REG,Protection EMIF1 SDRAM configuration register 1 Access conditions"
bitfld.long 0x00 29.--31. "EMIF1_SDRAM_TYPE,SDRAM type selection: - Set to 0x4 for LPDDR2-S4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 27.--28. "EMIF1_SDRAM_IBANK_POS,Internal bank position: - Set to 0x0 to assign internal bank address bits from the L3 address as shown in 64-Byte Linear Read Starting at Address 0x0 and 64-Byte Linear Read Starting at Address 0x8 (LPDDR2-S2) in Memory Subsystem" "0,1,2,3"
newline
bitfld.long 0x00 23. "EMIF1_SDRAM_DDR2_DDQS,DDR2 differential DQS enable: - Set to 0 for single ended DQS" "0,1"
bitfld.long 0x00 20. "EMIF1_SDRAM_DDR_DISABLE_DLL,Disable DLL select: - Set to 0x0 to enable DLL inside SDRAM" "0,1"
newline
bitfld.long 0x00 14.--15. "EMIF1_SDRAM_NARROW_MODE,SDRAM data bus width: - Set to 0x0 for 64-bit width" "0,1,2,3"
bitfld.long 0x00 10.--13. "EMIF1_SDRAM_CL,CAS latency (RL latency)" "?,?,?,EMIF1_SDRAM_CL_3,EMIF1_SDRAM_CL_4,EMIF1_SDRAM_CL_5,EMIF1_SDRAM_CL_6,EMIF1_SDRAM_CL_7,EMIF1_SDRAM_CL_8,?,?,?,?,?,?,?"
newline
bitfld.long 0x00 7.--9. "EMIF1_SDRAM_ROWSIZE,Row size" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "EMIF1_SDRAM_IBANK,Internal bank setup" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 3. "EMIF1_SDRAM_EBANK,External CS setup" "0,1"
bitfld.long 0x00 0.--2. "EMIF1_SDRAM_PAGESIZE,Page size" "0,1,2,3,4,5,6,7"
group.long 0x11C++0x03
line.long 0x00 "CONTROL_WKUP_PROT_EMIF2_SDRAM_CONFIG2_REG,Protection EMIF1 SDRAM configuration register 2 Access conditions"
bitfld.long 0x00 30. "EMIF2_SDRAM_CS1NVMEN,CS1 LPDDR2-NVM enable: - Set to 0x1 if LPDDR2-NVM is connected to CS1" "0,1"
bitfld.long 0x00 4.--5. "EMIF2_SDRAM_RDBNUM,Row buffer setup" "0,1,2,3"
newline
bitfld.long 0x00 0.--2. "EMIF2_SDRAM_RDBSIZE,Row data buffer size" "0,1,2,3,4,5,6,7"
group.long 0x118++0x03
line.long 0x00 "CONTROL_WKUP_PROT_EMIF2_SDRAM_CONFIG_REG,Protection EMIF2 SDRAM configuration register 1 Access conditions"
bitfld.long 0x00 29.--31. "EMIF2_SDRAM_TYPE,SDRAM type selection: - Set to 0x4 for LPDDR2-S4" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 27.--28. "EMIF2_SDRAM_IBANK_POS,Internal bank position: - Set to 0x0 to assign internal bank address bits from the L3 address as shown in 64-Byte Linear Read Starting at Address 0x0 and 64-Byte Linear Read Starting at Address 0x8 (LPDDR2-S2) in Memory Subsystem" "0,1,2,3"
newline
bitfld.long 0x00 23. "EMIF2_SDRAM_DDR2_DDQS,DDR2 differential DQS enable: - Set to 0 for single ended DQS" "0,1"
bitfld.long 0x00 20. "EMIF2_SDRAM_DDR_DISABLE_DLL,Disable DLL select: - Set to 0x0 to enable DLL inside SDRAM" "0,1"
newline
bitfld.long 0x00 14.--15. "EMIF2_SDRAM_NARROW_MODE,SDRAM data bus width: - Set to 0x0 for 64-bit width" "0,1,2,3"
bitfld.long 0x00 10.--13. "EMIF2_SDRAM_CL,CAS latency (RL latency)" "?,?,?,EMIF2_SDRAM_CL_3,EMIF2_SDRAM_CL_4,EMIF2_SDRAM_CL_5,EMIF2_SDRAM_CL_6,EMIF2_SDRAM_CL_7,EMIF2_SDRAM_CL_8,?,?,?,?,?,?,?"
newline
bitfld.long 0x00 7.--9. "EMIF2_SDRAM_ROWSIZE,Row size" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 4.--6. "EMIF2_SDRAM_IBANK,Internal bank setup" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 3. "EMIF2_SDRAM_EBANK,External CS setup" "0,1"
bitfld.long 0x00 0.--2. "EMIF2_SDRAM_PAGESIZE,Page size" "0,1,2,3,4,5,6,7"
tree.end
tree "SYSCTRL_PADCONF_CORE"
base ansd:0x4A100000
rgroup.long 0x00++0x07
line.long 0x00 "CONTROL_PADCONF_CORE_REVISION,Control module revision identifier Access conditions"
line.long 0x04 "CONTROL_PADCONF_CORE_HWINFO,Information about the IP module hardware configuration that is. typically the module HDL generics (if any)"
group.long 0x10++0x03
line.long 0x00 "CONTROL_PADCONF_CORE_SYSCONFIG,Access conditions"
bitfld.long 0x00 2.--3. "IP_SYSCONFIG_IDLEMODE,Select the local clock-gating strategy" "IP_SYSCONFIG_IDLEMODE_0,IP_SYSCONFIG_IDLEMODE_1,?,?"
group.long 0x40++0x1B7
line.long 0x00 "CONTROL_CORE_PAD0_GPMC_AD0_PAD1_GPMC_AD1,Register control for Pads gpmc_ad0 and gpmc_ad1 Access conditions"
rbitfld.long 0x00 31. "GPMC_AD1_WAKEUPEVENT,Pad_x wake-up event status latched in the I/O" "GPMC_AD1_WAKEUPEVENT_0_r,GPMC_AD1_WAKEUPEVENT_1_r"
newline
bitfld.long 0x00 30. "GPMC_AD1_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_AD1_WAKEUPENABLE_0,GPMC_AD1_WAKEUPENABLE_1"
newline
bitfld.long 0x00 29. "GPMC_AD1_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_ad1" "GPMC_AD1_ OFFMODEPULLTYPESELECT_0,GPMC_AD1_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x00 28. "GPMC_AD1_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_ad1" "GPMC_AD1_ OFFMODEPULLUDENABLE_0,GPMC_AD1_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x00 27. "GPMC_AD1_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_ad1" "GPMC_AD1_OFFMODEOUTVALUE_0,GPMC_AD1_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x00 26. "GPMC_AD1_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_ad1" "GPMC_AD1_OFFMODEOUTENABLE_0,GPMC_AD1_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x00 25. "GPMC_AD1_OFFMODEENABLE,OffMode mode override control for pad gpmc_ad1" "GPMC_AD1_OFFMODEENABLE_0,GPMC_AD1_OFFMODEENABLE_1"
newline
bitfld.long 0x00 24. "GPMC_AD1_INPUTENABLE,Input enable value for pad gpmc_ad1" "GPMC_AD1_INPUTENABLE_0,GPMC_AD1_INPUTENABLE_1"
newline
bitfld.long 0x00 20. "GPMC_AD1_PULLTYPESELECT,pullup/down selection for pad gpmc_ad1" "GPMC_AD1_PULLTYPESELECT_0,GPMC_AD1_PULLTYPESELECT_1"
newline
bitfld.long 0x00 19. "GPMC_AD1_PULLUDENABLE,pullup/down enable for pad gpmc_ad1" "GPMC_AD1_PULLUDENABLE_0,GPMC_AD1_PULLUDENABLE_1"
newline
bitfld.long 0x00 16.--18. "GPMC_AD1_MUXMODE,Functional multiplexing selection for pad gpmc_ad1" "GPMC_AD1_MUXMODE_0,GPMC_AD1_MUXMODE_1,?,?,?,?,?,?"
newline
rbitfld.long 0x00 15. "GPMC_AD0_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_AD0_WAKEUPEVENT_0_r,GPMC_AD0_WAKEUPEVENT_1_r"
newline
bitfld.long 0x00 14. "GPMC_AD0_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_AD0_WAKEUPENABLE_0,GPMC_AD0_WAKEUPENABLE_1"
newline
bitfld.long 0x00 13. "GPMC_AD0_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_ad0" "GPMC_AD0_ OFFMODEPULLTYPESELECT_0,GPMC_AD0_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x00 12. "GPMC_AD0_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_ad0" "GPMC_AD0_ OFFMODEPULLUDENABLE_0,GPMC_AD0_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x00 11. "GPMC_AD0_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_ad0" "GPMC_AD0_OFFMODEOUTVALUE_0,GPMC_AD0_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x00 10. "GPMC_AD0_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_ad0" "GPMC_AD0_OFFMODEOUTENABLE_0,GPMC_AD0_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x00 9. "GPMC_AD0_OFFMODEENABLE,OffMode mode override control for pad gpmc_ad0" "GPMC_AD0_OFFMODEENABLE_0,GPMC_AD0_OFFMODEENABLE_1"
newline
bitfld.long 0x00 8. "GPMC_AD0_INPUTENABLE,Input enable value for pad gpmc_ad0" "GPMC_AD0_INPUTENABLE_0,GPMC_AD0_INPUTENABLE_1"
newline
bitfld.long 0x00 4. "GPMC_AD0_PULLTYPESELECT,pullup/down selection for pad gpmc_ad0" "GPMC_AD0_PULLTYPESELECT_0,GPMC_AD0_PULLTYPESELECT_1"
newline
bitfld.long 0x00 3. "GPMC_AD0_PULLUDENABLE,pullup/down enable for pad gpmc_ad0" "GPMC_AD0_PULLUDENABLE_0,GPMC_AD0_PULLUDENABLE_1"
newline
bitfld.long 0x00 0.--2. "GPMC_AD0_MUXMODE,Functional multiplexing selection for pad gpmc_ad0" "GPMC_AD0_MUXMODE_0,GPMC_AD0_MUXMODE_1,?,?,?,?,?,?"
line.long 0x04 "CONTROL_CORE_PAD0_GPMC_AD2_PAD1_GPMC_AD3,Register control for Pads gpmc_ad2 and gpmc_ad3 Access conditions"
rbitfld.long 0x04 31. "GPMC_AD3_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_AD3_WAKEUPEVENT_0_r,GPMC_AD3_WAKEUPEVENT_1_r"
newline
bitfld.long 0x04 30. "GPMC_AD3_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_AD3_WAKEUPENABLE_0,GPMC_AD3_WAKEUPENABLE_1"
newline
bitfld.long 0x04 29. "GPMC_AD3_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_ad3" "GPMC_AD3_ OFFMODEPULLTYPESELECT_0,GPMC_AD3_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x04 28. "GPMC_AD3_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_ad3" "GPMC_AD3_ OFFMODEPULLUDENABLE_0,GPMC_AD3_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x04 27. "GPMC_AD3_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_ad3" "GPMC_AD3_OFFMODEOUTVALUE_0,GPMC_AD3_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x04 26. "GPMC_AD3_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_ad3" "GPMC_AD3_OFFMODEOUTENABLE_0,GPMC_AD3_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x04 25. "GPMC_AD3_OFFMODEENABLE,OffMode mode override control for pad gpmc_ad3" "GPMC_AD3_OFFMODEENABLE_0,GPMC_AD3_OFFMODEENABLE_1"
newline
bitfld.long 0x04 24. "GPMC_AD3_INPUTENABLE,Input enable value for pad gpmc_ad3" "GPMC_AD3_INPUTENABLE_0,GPMC_AD3_INPUTENABLE_1"
newline
bitfld.long 0x04 20. "GPMC_AD3_PULLTYPESELECT,pullup/down selection for pad gpmc_ad3" "GPMC_AD3_PULLTYPESELECT_0,GPMC_AD3_PULLTYPESELECT_1"
newline
bitfld.long 0x04 19. "GPMC_AD3_PULLUDENABLE,pullup/down enable for pad gpmc_ad3" "GPMC_AD3_PULLUDENABLE_0,GPMC_AD3_PULLUDENABLE_1"
newline
bitfld.long 0x04 16.--18. "GPMC_AD3_MUXMODE,Functional multiplexing selection for pad gpmc_ad3" "GPMC_AD3_MUXMODE_0,GPMC_AD3_MUXMODE_1,?,?,?,?,?,?"
newline
rbitfld.long 0x04 15. "GPMC_AD2_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_AD2_WAKEUPEVENT_0_r,GPMC_AD2_WAKEUPEVENT_1_r"
newline
bitfld.long 0x04 14. "GPMC_AD2_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_AD2_WAKEUPENABLE_0,GPMC_AD2_WAKEUPENABLE_1"
newline
bitfld.long 0x04 13. "GPMC_AD2_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_ad2" "GPMC_AD2_ OFFMODEPULLTYPESELECT_0,GPMC_AD2_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x04 12. "GPMC_AD2_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_ad2" "GPMC_AD2_ OFFMODEPULLUDENABLE_0,GPMC_AD2_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x04 11. "GPMC_AD2_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_ad2" "GPMC_AD2_OFFMODEOUTVALUE_0,GPMC_AD2_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x04 10. "GPMC_AD2_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_ad2" "GPMC_AD2_OFFMODEOUTENABLE_0,GPMC_AD2_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x04 9. "GPMC_AD2_OFFMODEENABLE,OffMode mode override control for pad gpmc_ad2" "GPMC_AD2_OFFMODEENABLE_0,GPMC_AD2_OFFMODEENABLE_1"
newline
bitfld.long 0x04 8. "GPMC_AD2_INPUTENABLE,Input enable value for pad gpmc_ad2" "GPMC_AD2_INPUTENABLE_0,GPMC_AD2_INPUTENABLE_1"
newline
bitfld.long 0x04 4. "GPMC_AD2_PULLTYPESELECT,pullup/down selection for pad gpmc_ad2" "GPMC_AD2_PULLTYPESELECT_0,GPMC_AD2_PULLTYPESELECT_1"
newline
bitfld.long 0x04 3. "GPMC_AD2_PULLUDENABLE,pullup/down enable for pad gpmc_ad2" "GPMC_AD2_PULLUDENABLE_0,GPMC_AD2_PULLUDENABLE_1"
newline
bitfld.long 0x04 0.--2. "GPMC_AD2_MUXMODE,Functional multiplexing selection for pad gpmc_ad2" "GPMC_AD2_MUXMODE_0,GPMC_AD2_MUXMODE_1,?,?,?,?,?,?"
line.long 0x08 "CONTROL_CORE_PAD0_GPMC_AD4_PAD1_GPMC_AD5,Register control for Pads gpmc_ad4 and gpmc_ad5 Access conditions"
rbitfld.long 0x08 31. "GPMC_AD5_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_AD5_WAKEUPEVENT_0_r,GPMC_AD5_WAKEUPEVENT_1_r"
newline
bitfld.long 0x08 30. "GPMC_AD5_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_AD5_WAKEUPENABLE_0,GPMC_AD5_WAKEUPENABLE_1"
newline
bitfld.long 0x08 29. "GPMC_AD5_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_ad5" "GPMC_AD5_ OFFMODEPULLTYPESELECT_0,GPMC_AD5_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x08 28. "GPMC_AD5_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_ad5" "GPMC_AD5_ OFFMODEPULLUDENABLE_0,GPMC_AD5_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x08 27. "GPMC_AD5_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_ad5" "GPMC_AD5_OFFMODEOUTVALUE_0,GPMC_AD5_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x08 26. "GPMC_AD5_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_ad5" "GPMC_AD5_OFFMODEOUTENABLE_0,GPMC_AD5_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x08 25. "GPMC_AD5_OFFMODEENABLE,OffMode mode override control for pad gpmc_ad5" "GPMC_AD5_OFFMODEENABLE_0,GPMC_AD5_OFFMODEENABLE_1"
newline
bitfld.long 0x08 24. "GPMC_AD5_INPUTENABLE,Input enable value for pad gpmc_ad5" "GPMC_AD5_INPUTENABLE_0,GPMC_AD5_INPUTENABLE_1"
newline
bitfld.long 0x08 20. "GPMC_AD5_PULLTYPESELECT,pullup/down selection for pad gpmc_ad5" "GPMC_AD5_PULLTYPESELECT_0,GPMC_AD5_PULLTYPESELECT_1"
newline
bitfld.long 0x08 19. "GPMC_AD5_PULLUDENABLE,pullup/down enable for pad gpmc_ad5" "GPMC_AD5_PULLUDENABLE_0,GPMC_AD5_PULLUDENABLE_1"
newline
bitfld.long 0x08 16.--18. "GPMC_AD5_MUXMODE,Functional multiplexing selection for pad gpmc_ad5" "GPMC_AD5_MUXMODE_0,GPMC_AD5_MUXMODE_1,GPMC_AD5_MUXMODE_2,?,?,?,?,?"
newline
rbitfld.long 0x08 15. "GPMC_AD4_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_AD4_WAKEUPEVENT_0_r,GPMC_AD4_WAKEUPEVENT_1_r"
newline
bitfld.long 0x08 14. "GPMC_AD4_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_AD4_WAKEUPENABLE_0,GPMC_AD4_WAKEUPENABLE_1"
newline
bitfld.long 0x08 13. "GPMC_AD4_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_ad4" "GPMC_AD4_ OFFMODEPULLTYPESELECT_0,GPMC_AD4_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x08 12. "GPMC_AD4_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_ad4" "GPMC_AD4_ OFFMODEPULLUDENABLE_0,GPMC_AD4_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x08 11. "GPMC_AD4_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_ad4" "GPMC_AD4_OFFMODEOUTVALUE_0,GPMC_AD4_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x08 10. "GPMC_AD4_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_ad4" "GPMC_AD4_OFFMODEOUTENABLE_0,GPMC_AD4_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x08 9. "GPMC_AD4_OFFMODEENABLE,OffMode mode override control for pad gpmc_ad4" "GPMC_AD4_OFFMODEENABLE_0,GPMC_AD4_OFFMODEENABLE_1"
newline
bitfld.long 0x08 8. "GPMC_AD4_INPUTENABLE,Input enable value for pad gpmc_ad4" "GPMC_AD4_INPUTENABLE_0,GPMC_AD4_INPUTENABLE_1"
newline
bitfld.long 0x08 4. "GPMC_AD4_PULLTYPESELECT,pullup/down selection for pad gpmc_ad4" "GPMC_AD4_PULLTYPESELECT_0,GPMC_AD4_PULLTYPESELECT_1"
newline
bitfld.long 0x08 3. "GPMC_AD4_PULLUDENABLE,pullup/down enable for pad gpmc_ad4" "GPMC_AD4_PULLUDENABLE_0,GPMC_AD4_PULLUDENABLE_1"
newline
bitfld.long 0x08 0.--2. "GPMC_AD4_MUXMODE,Functional multiplexing selection for pad gpmc_ad4" "GPMC_AD4_MUXMODE_0,GPMC_AD4_MUXMODE_1,GPMC_AD4_MUXMODE_2,?,?,?,?,?"
line.long 0x0C "CONTROL_CORE_PAD0_GPMC_AD6_PAD1_GPMC_AD7,Register control for Pads gpmc_ad6 and gpmc_ad7 Access conditions"
rbitfld.long 0x0C 31. "GPMC_AD7_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_AD7_WAKEUPEVENT_0_r,GPMC_AD7_WAKEUPEVENT_1_r"
newline
bitfld.long 0x0C 30. "GPMC_AD7_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_AD7_WAKEUPENABLE_0,GPMC_AD7_WAKEUPENABLE_1"
newline
bitfld.long 0x0C 29. "GPMC_AD7_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_ad7" "GPMC_AD7_ OFFMODEPULLTYPESELECT_0,GPMC_AD7_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x0C 28. "GPMC_AD7_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_ad7" "GPMC_AD7_ OFFMODEPULLUDENABLE_0,GPMC_AD7_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x0C 27. "GPMC_AD7_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_ad7" "GPMC_AD7_OFFMODEOUTVALUE_0,GPMC_AD7_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x0C 26. "GPMC_AD7_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_ad7" "GPMC_AD7_OFFMODEOUTENABLE_0,GPMC_AD7_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x0C 25. "GPMC_AD7_OFFMODEENABLE,OffMode mode override control for pad gpmc_ad7" "GPMC_AD7_OFFMODEENABLE_0,GPMC_AD7_OFFMODEENABLE_1"
newline
bitfld.long 0x0C 24. "GPMC_AD7_INPUTENABLE,Input enable value for pad gpmc_ad7" "GPMC_AD7_INPUTENABLE_0,GPMC_AD7_INPUTENABLE_1"
newline
bitfld.long 0x0C 20. "GPMC_AD7_PULLTYPESELECT,pullup/down selection for pad gpmc_ad7" "GPMC_AD7_PULLTYPESELECT_0,GPMC_AD7_PULLTYPESELECT_1"
newline
bitfld.long 0x0C 19. "GPMC_AD7_PULLUDENABLE,pullup/down enable for pad gpmc_ad7" "GPMC_AD7_PULLUDENABLE_0,GPMC_AD7_PULLUDENABLE_1"
newline
bitfld.long 0x0C 16.--18. "GPMC_AD7_MUXMODE,Functional multiplexing selection for pad gpmc_ad7" "GPMC_AD7_MUXMODE_0,GPMC_AD7_MUXMODE_1,GPMC_AD7_MUXMODE_2,?,?,?,?,?"
newline
rbitfld.long 0x0C 15. "GPMC_AD6_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_AD6_WAKEUPEVENT_0_r,GPMC_AD6_WAKEUPEVENT_1_r"
newline
bitfld.long 0x0C 14. "GPMC_AD6_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_AD6_WAKEUPENABLE_0,GPMC_AD6_WAKEUPENABLE_1"
newline
bitfld.long 0x0C 13. "GPMC_AD6_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_ad6" "GPMC_AD6_ OFFMODEPULLTYPESELECT_0,GPMC_AD6_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x0C 12. "GPMC_AD6_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_ad6" "GPMC_AD6_ OFFMODEPULLUDENABLE_0,GPMC_AD6_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x0C 11. "GPMC_AD6_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_ad6" "GPMC_AD6_OFFMODEOUTVALUE_0,GPMC_AD6_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x0C 10. "GPMC_AD6_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_ad6" "GPMC_AD6_OFFMODEOUTENABLE_0,GPMC_AD6_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x0C 9. "GPMC_AD6_OFFMODEENABLE,OffMode mode override control for pad gpmc_ad6" "GPMC_AD6_OFFMODEENABLE_0,GPMC_AD6_OFFMODEENABLE_1"
newline
bitfld.long 0x0C 8. "GPMC_AD6_INPUTENABLE,Input enable value for pad gpmc_ad6" "GPMC_AD6_INPUTENABLE_0,GPMC_AD6_INPUTENABLE_1"
newline
bitfld.long 0x0C 4. "GPMC_AD6_PULLTYPESELECT,pullup/down selection for pad gpmc_ad6" "GPMC_AD6_PULLTYPESELECT_0,GPMC_AD6_PULLTYPESELECT_1"
newline
bitfld.long 0x0C 3. "GPMC_AD6_PULLUDENABLE,pullup/down enable for pad gpmc_ad6" "GPMC_AD6_PULLUDENABLE_0,GPMC_AD6_PULLUDENABLE_1"
newline
bitfld.long 0x0C 0.--2. "GPMC_AD6_MUXMODE,Functional multiplexing selection for pad gpmc_ad6" "GPMC_AD6_MUXMODE_0,GPMC_AD6_MUXMODE_1,GPMC_AD6_MUXMODE_2,?,?,?,?,?"
line.long 0x10 "CONTROL_CORE_PAD0_GPMC_AD8_PAD1_GPMC_AD9,Register control for Pads gpmc_ad8 and gpmc_ad9 Access conditions"
rbitfld.long 0x10 31. "GPMC_AD9_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_AD9_WAKEUPEVENT_0_r,GPMC_AD9_WAKEUPEVENT_1_r"
newline
bitfld.long 0x10 30. "GPMC_AD9_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_AD9_WAKEUPENABLE_0,GPMC_AD9_WAKEUPENABLE_1"
newline
bitfld.long 0x10 29. "GPMC_AD9_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_ad9" "GPMC_AD9_ OFFMODEPULLTYPESELECT_0,GPMC_AD9_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x10 28. "GPMC_AD9_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_ad9" "GPMC_AD9_ OFFMODEPULLUDENABLE_0,GPMC_AD9_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x10 27. "GPMC_AD9_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_ad9" "GPMC_AD9_OFFMODEOUTVALUE_0,GPMC_AD9_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x10 26. "GPMC_AD9_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_ad9" "GPMC_AD9_OFFMODEOUTENABLE_0,GPMC_AD9_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x10 25. "GPMC_AD9_OFFMODEENABLE,OffMode mode override control for pad gpmc_ad9" "GPMC_AD9_OFFMODEENABLE_0,GPMC_AD9_OFFMODEENABLE_1"
newline
bitfld.long 0x10 24. "GPMC_AD9_INPUTENABLE,Input enable value for pad gpmc_ad9" "GPMC_AD9_INPUTENABLE_0,GPMC_AD9_INPUTENABLE_1"
newline
bitfld.long 0x10 20. "GPMC_AD9_PULLTYPESELECT,pullup/down selection for pad gpmc_ad9" "GPMC_AD9_PULLTYPESELECT_0,GPMC_AD9_PULLTYPESELECT_1"
newline
bitfld.long 0x10 19. "GPMC_AD9_PULLUDENABLE,pullup/down enable for pad gpmc_ad9" "GPMC_AD9_PULLUDENABLE_0,GPMC_AD9_PULLUDENABLE_1"
newline
bitfld.long 0x10 16.--18. "GPMC_AD9_MUXMODE,Functional multiplexing selection for pad gpmc_ad9" "GPMC_AD9_MUXMODE_0,GPMC_AD9_MUXMODE_1,GPMC_AD9_MUXMODE_2,GPMC_AD9_MUXMODE_3,?,GPMC_AD9_MUXMODE_5,?,?"
newline
rbitfld.long 0x10 15. "GPMC_AD8_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_AD8_WAKEUPEVENT_0_r,GPMC_AD8_WAKEUPEVENT_1_r"
newline
bitfld.long 0x10 14. "GPMC_AD8_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_AD8_WAKEUPENABLE_0,GPMC_AD8_WAKEUPENABLE_1"
newline
bitfld.long 0x10 13. "GPMC_AD8_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_ad8" "GPMC_AD8_ OFFMODEPULLTYPESELECT_0,GPMC_AD8_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x10 12. "GPMC_AD8_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_ad8" "GPMC_AD8_ OFFMODEPULLUDENABLE_0,GPMC_AD8_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x10 11. "GPMC_AD8_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_ad8" "GPMC_AD8_OFFMODEOUTVALUE_0,GPMC_AD8_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x10 10. "GPMC_AD8_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_ad8" "GPMC_AD8_OFFMODEOUTENABLE_0,GPMC_AD8_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x10 9. "GPMC_AD8_OFFMODEENABLE,OffMode mode override control for pad gpmc_ad8" "GPMC_AD8_OFFMODEENABLE_0,GPMC_AD8_OFFMODEENABLE_1"
newline
bitfld.long 0x10 8. "GPMC_AD8_INPUTENABLE,Input enable value for pad gpmc_ad8" "GPMC_AD8_INPUTENABLE_0,GPMC_AD8_INPUTENABLE_1"
newline
bitfld.long 0x10 4. "GPMC_AD8_PULLTYPESELECT,pullup/down selection for pad gpmc_ad8" "GPMC_AD8_PULLTYPESELECT_0,GPMC_AD8_PULLTYPESELECT_1"
newline
bitfld.long 0x10 3. "GPMC_AD8_PULLUDENABLE,pullup/down enable for pad gpmc_ad8" "GPMC_AD8_PULLUDENABLE_0,GPMC_AD8_PULLUDENABLE_1"
newline
bitfld.long 0x10 0.--2. "GPMC_AD8_MUXMODE,Functional multiplexing selection for pad gpmc_ad8" "GPMC_AD8_MUXMODE_0,GPMC_AD8_MUXMODE_1,GPMC_AD8_MUXMODE_2,GPMC_AD8_MUXMODE_3,?,GPMC_AD8_MUXMODE_5,?,?"
line.long 0x14 "CONTROL_CORE_PAD0_GPMC_AD10_PAD1_GPMC_AD11,Register control for Pads gpmc_ad10 and gpmc_ad11 Access conditions"
rbitfld.long 0x14 31. "GPMC_AD11_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_AD11_WAKEUPEVENT_0_r,GPMC_AD11_WAKEUPEVENT_1_r"
newline
bitfld.long 0x14 30. "GPMC_AD11_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_AD11_WAKEUPENABLE_0,GPMC_AD11_WAKEUPENABLE_1"
newline
bitfld.long 0x14 29. "GPMC_AD11_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_ad11" "GPMC_AD11_ OFFMODEPULLTYPESELECT_0,GPMC_AD11_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x14 28. "GPMC_AD11_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_ad11" "GPMC_AD11_ OFFMODEPULLUDENABLE_0,GPMC_AD11_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x14 27. "GPMC_AD11_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_ad11" "GPMC_AD11_OFFMODEOUTVALUE_0,GPMC_AD11_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x14 26. "GPMC_AD11_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_ad11" "GPMC_AD11_OFFMODEOUTENABLE_0,GPMC_AD11_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x14 25. "GPMC_AD11_OFFMODEENABLE,OffMode mode override control for pad gpmc_ad11" "GPMC_AD11_OFFMODEENABLE_0,GPMC_AD11_OFFMODEENABLE_1"
newline
bitfld.long 0x14 24. "GPMC_AD11_INPUTENABLE,Input enable value for pad gpmc_ad11" "GPMC_AD11_INPUTENABLE_0,GPMC_AD11_INPUTENABLE_1"
newline
bitfld.long 0x14 20. "GPMC_AD11_PULLTYPESELECT,pullup/down selection for pad gpmc_ad11" "GPMC_AD11_PULLTYPESELECT_0,GPMC_AD11_PULLTYPESELECT_1"
newline
bitfld.long 0x14 19. "GPMC_AD11_PULLUDENABLE,pullup/down enable for pad gpmc_ad11" "GPMC_AD11_PULLUDENABLE_0,GPMC_AD11_PULLUDENABLE_1"
newline
bitfld.long 0x14 16.--18. "GPMC_AD11_MUXMODE,Functional multiplexing selection for pad gpmc_ad11" "GPMC_AD11_MUXMODE_0,GPMC_AD11_MUXMODE_1,GPMC_AD11_MUXMODE_2,GPMC_AD11_MUXMODE_3,?,GPMC_AD11_MUXMODE_5,?,?"
newline
rbitfld.long 0x14 15. "GPMC_AD10_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_AD10_WAKEUPEVENT_0_r,GPMC_AD10_WAKEUPEVENT_1_r"
newline
bitfld.long 0x14 14. "GPMC_AD10_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_AD10_WAKEUPENABLE_0,GPMC_AD10_WAKEUPENABLE_1"
newline
bitfld.long 0x14 13. "GPMC_AD10_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_ad10" "GPMC_AD10_ OFFMODEPULLTYPESELECT_0,GPMC_AD10_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x14 12. "GPMC_AD10_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_ad10" "GPMC_AD10_ OFFMODEPULLUDENABLE_0,GPMC_AD10_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x14 11. "GPMC_AD10_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_ad10" "GPMC_AD10_OFFMODEOUTVALUE_0,GPMC_AD10_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x14 10. "GPMC_AD10_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_ad10" "GPMC_AD10_OFFMODEOUTENABLE_0,GPMC_AD10_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x14 9. "GPMC_AD10_OFFMODEENABLE,OffMode mode override control for pad gpmc_ad10" "GPMC_AD10_OFFMODEENABLE_0,GPMC_AD10_OFFMODEENABLE_1"
newline
bitfld.long 0x14 8. "GPMC_AD10_INPUTENABLE,Input enable value for pad gpmc_ad10" "GPMC_AD10_INPUTENABLE_0,GPMC_AD10_INPUTENABLE_1"
newline
bitfld.long 0x14 4. "GPMC_AD10_PULLTYPESELECT,pullup/down selection for pad gpmc_ad10" "GPMC_AD10_PULLTYPESELECT_0,GPMC_AD10_PULLTYPESELECT_1"
newline
bitfld.long 0x14 3. "GPMC_AD10_PULLUDENABLE,pullup/down enable for pad gpmc_ad10" "GPMC_AD10_PULLUDENABLE_0,GPMC_AD10_PULLUDENABLE_1"
newline
bitfld.long 0x14 0.--2. "GPMC_AD10_MUXMODE,Functional multiplexing selection for pad gpmc_ad10" "GPMC_AD10_MUXMODE_0,GPMC_AD10_MUXMODE_1,GPMC_AD10_MUXMODE_2,GPMC_AD10_MUXMODE_3,?,GPMC_AD10_MUXMODE_5,?,?"
line.long 0x18 "CONTROL_CORE_PAD0_GPMC_AD12_PAD1_GPMC_AD13,Register control for Pads gpmc_ad12 and gpmc_ad13 Access conditions"
rbitfld.long 0x18 31. "GPMC_AD13_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_AD13_WAKEUPEVENT_0_r,GPMC_AD13_WAKEUPEVENT_1_r"
newline
bitfld.long 0x18 30. "GPMC_AD13_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_AD13_WAKEUPENABLE_0,GPMC_AD13_WAKEUPENABLE_1"
newline
bitfld.long 0x18 29. "GPMC_AD13_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_ad13" "GPMC_AD13_ OFFMODEPULLTYPESELECT_0,GPMC_AD13_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x18 28. "GPMC_AD13_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_ad13" "GPMC_AD13_ OFFMODEPULLUDENABLE_0,GPMC_AD13_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x18 27. "GPMC_AD13_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_ad13" "GPMC_AD13_OFFMODEOUTVALUE_0,GPMC_AD13_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x18 26. "GPMC_AD13_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_ad13" "GPMC_AD13_OFFMODEOUTENABLE_0,GPMC_AD13_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x18 25. "GPMC_AD13_OFFMODEENABLE,OffMode mode override control for pad gpmc_ad13" "GPMC_AD13_OFFMODEENABLE_0,GPMC_AD13_OFFMODEENABLE_1"
newline
bitfld.long 0x18 24. "GPMC_AD13_INPUTENABLE,Input enable value for pad gpmc_ad13" "GPMC_AD13_INPUTENABLE_0,GPMC_AD13_INPUTENABLE_1"
newline
bitfld.long 0x18 20. "GPMC_AD13_PULLTYPESELECT,pullup/down selection for pad gpmc_ad13" "GPMC_AD13_PULLTYPESELECT_0,GPMC_AD13_PULLTYPESELECT_1"
newline
bitfld.long 0x18 19. "GPMC_AD13_PULLUDENABLE,pullup/down enable for pad gpmc_ad13" "GPMC_AD13_PULLUDENABLE_0,GPMC_AD13_PULLUDENABLE_1"
newline
bitfld.long 0x18 16.--18. "GPMC_AD13_MUXMODE,Functional multiplexing selection for pad gpmc_ad13" "GPMC_AD13_MUXMODE_0,GPMC_AD13_MUXMODE_1,GPMC_AD13_MUXMODE_2,GPMC_AD13_MUXMODE_3,?,GPMC_AD13_MUXMODE_5,?,?"
newline
rbitfld.long 0x18 15. "GPMC_AD12_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_AD12_WAKEUPEVENT_0_r,GPMC_AD12_WAKEUPEVENT_1_r"
newline
bitfld.long 0x18 14. "GPMC_AD12_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_AD12_WAKEUPENABLE_0,GPMC_AD12_WAKEUPENABLE_1"
newline
bitfld.long 0x18 13. "GPMC_AD12_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_ad12" "GPMC_AD12_ OFFMODEPULLTYPESELECT_0,GPMC_AD12_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x18 12. "GPMC_AD12_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_ad12" "GPMC_AD12_ OFFMODEPULLUDENABLE_0,GPMC_AD12_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x18 11. "GPMC_AD12_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_ad12" "GPMC_AD12_OFFMODEOUTVALUE_0,GPMC_AD12_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x18 10. "GPMC_AD12_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_ad12" "GPMC_AD12_OFFMODEOUTENABLE_0,GPMC_AD12_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x18 9. "GPMC_AD12_OFFMODEENABLE,OffMode mode override control for pad gpmc_ad12" "GPMC_AD12_OFFMODEENABLE_0,GPMC_AD12_OFFMODEENABLE_1"
newline
bitfld.long 0x18 8. "GPMC_AD12_INPUTENABLE,Input enable value for pad gpmc_ad12" "GPMC_AD12_INPUTENABLE_0,GPMC_AD12_INPUTENABLE_1"
newline
bitfld.long 0x18 4. "GPMC_AD12_PULLTYPESELECT,pullup/down selection for pad gpmc_ad12" "GPMC_AD12_PULLTYPESELECT_0,GPMC_AD12_PULLTYPESELECT_1"
newline
bitfld.long 0x18 3. "GPMC_AD12_PULLUDENABLE,pullup/down enable for pad gpmc_ad12" "GPMC_AD12_PULLUDENABLE_0,GPMC_AD12_PULLUDENABLE_1"
newline
bitfld.long 0x18 0.--2. "GPMC_AD12_MUXMODE,Functional multiplexing selection for pad gpmc_ad12" "GPMC_AD12_MUXMODE_0,GPMC_AD12_MUXMODE_1,GPMC_AD12_MUXMODE_2,GPMC_AD12_MUXMODE_3,?,GPMC_AD12_MUXMODE_5,?,?"
line.long 0x1C "CONTROL_CORE_PAD0_GPMC_AD14_PAD1_GPMC_AD15,Register control for Pads gpmc_ad14 and gpmc_ad15 Access conditions"
rbitfld.long 0x1C 31. "GPMC_AD15_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_AD15_WAKEUPEVENT_0_r,GPMC_AD15_WAKEUPEVENT_1_r"
newline
bitfld.long 0x1C 30. "GPMC_AD15_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_AD15_WAKEUPENABLE_0,GPMC_AD15_WAKEUPENABLE_1"
newline
bitfld.long 0x1C 29. "GPMC_AD15_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_ad15" "GPMC_AD15_ OFFMODEPULLTYPESELECT_0,GPMC_AD15_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x1C 28. "GPMC_AD15_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_ad15" "GPMC_AD15_ OFFMODEPULLUDENABLE_0,GPMC_AD15_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x1C 27. "GPMC_AD15_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_ad15" "GPMC_AD15_OFFMODEOUTVALUE_0,GPMC_AD15_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x1C 26. "GPMC_AD15_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_ad15" "GPMC_AD15_OFFMODEOUTENABLE_0,GPMC_AD15_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x1C 25. "GPMC_AD15_OFFMODEENABLE,OffMode mode override control for pad gpmc_ad15" "GPMC_AD15_OFFMODEENABLE_0,GPMC_AD15_OFFMODEENABLE_1"
newline
bitfld.long 0x1C 24. "GPMC_AD15_INPUTENABLE,Input enable value for pad gpmc_ad15" "GPMC_AD15_INPUTENABLE_0,GPMC_AD15_INPUTENABLE_1"
newline
bitfld.long 0x1C 20. "GPMC_AD15_PULLTYPESELECT,pullup/down selection for pad gpmc_ad15" "GPMC_AD15_PULLTYPESELECT_0,GPMC_AD15_PULLTYPESELECT_1"
newline
bitfld.long 0x1C 19. "GPMC_AD15_PULLUDENABLE,pullup/down enable for pad gpmc_ad15" "GPMC_AD15_PULLUDENABLE_0,GPMC_AD15_PULLUDENABLE_1"
newline
bitfld.long 0x1C 16.--18. "GPMC_AD15_MUXMODE,Functional multiplexing selection for pad gpmc_ad15" "GPMC_AD15_MUXMODE_0,GPMC_AD15_MUXMODE_1,GPMC_AD15_MUXMODE_2,GPMC_AD15_MUXMODE_3,?,GPMC_AD15_MUXMODE_5,?,?"
newline
rbitfld.long 0x1C 15. "GPMC_AD14_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_AD14_WAKEUPEVENT_0_r,GPMC_AD14_WAKEUPEVENT_1_r"
newline
bitfld.long 0x1C 14. "GPMC_AD14_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_AD14_WAKEUPENABLE_0,GPMC_AD14_WAKEUPENABLE_1"
newline
bitfld.long 0x1C 13. "GPMC_AD14_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_ad14" "GPMC_AD14_ OFFMODEPULLTYPESELECT_0,GPMC_AD14_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x1C 12. "GPMC_AD14_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_ad14" "GPMC_AD14_ OFFMODEPULLUDENABLE_0,GPMC_AD14_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x1C 11. "GPMC_AD14_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_ad14" "GPMC_AD14_OFFMODEOUTVALUE_0,GPMC_AD14_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x1C 10. "GPMC_AD14_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_ad14" "GPMC_AD14_OFFMODEOUTENABLE_0,GPMC_AD14_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x1C 9. "GPMC_AD14_OFFMODEENABLE,OffMode mode override control for pad gpmc_ad14" "GPMC_AD14_OFFMODEENABLE_0,GPMC_AD14_OFFMODEENABLE_1"
newline
bitfld.long 0x1C 8. "GPMC_AD14_INPUTENABLE,Input enable value for pad gpmc_ad14" "GPMC_AD14_INPUTENABLE_0,GPMC_AD14_INPUTENABLE_1"
newline
bitfld.long 0x1C 4. "GPMC_AD14_PULLTYPESELECT,pullup/down selection for pad gpmc_ad14" "GPMC_AD14_PULLTYPESELECT_0,GPMC_AD14_PULLTYPESELECT_1"
newline
bitfld.long 0x1C 3. "GPMC_AD14_PULLUDENABLE,pullup/down enable for pad gpmc_ad14" "GPMC_AD14_PULLUDENABLE_0,GPMC_AD14_PULLUDENABLE_1"
newline
bitfld.long 0x1C 0.--2. "GPMC_AD14_MUXMODE,Functional multiplexing selection for pad gpmc_ad14" "GPMC_AD14_MUXMODE_0,GPMC_AD14_MUXMODE_1,GPMC_AD14_MUXMODE_2,GPMC_AD14_MUXMODE_3,?,GPMC_AD14_MUXMODE_5,?,?"
line.long 0x20 "CONTROL_CORE_PAD0_GPMC_A16_PAD1_GPMC_A17,Register control for Pads gpmc_a16 and gpmc_a17 Access conditions"
rbitfld.long 0x20 31. "GPMC_A17_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_A17_WAKEUPEVENT_0_r,GPMC_A17_WAKEUPEVENT_1_r"
newline
bitfld.long 0x20 30. "GPMC_A17_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_A17_WAKEUPENABLE_0,GPMC_A17_WAKEUPENABLE_1"
newline
bitfld.long 0x20 29. "GPMC_A17_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_a17" "GPMC_A17_ OFFMODEPULLTYPESELECT_0,GPMC_A17_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x20 28. "GPMC_A17_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_a17" "GPMC_A17_ OFFMODEPULLUDENABLE_0,GPMC_A17_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x20 27. "GPMC_A17_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_a17" "GPMC_A17_OFFMODEOUTVALUE_0,GPMC_A17_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x20 26. "GPMC_A17_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_a17" "GPMC_A17_OFFMODEOUTENABLE_0,GPMC_A17_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x20 25. "GPMC_A17_OFFMODEENABLE,OffMode mode override control for pad gpmc_a17" "GPMC_A17_OFFMODEENABLE_0,GPMC_A17_OFFMODEENABLE_1"
newline
bitfld.long 0x20 24. "GPMC_A17_INPUTENABLE,Input enable value for pad gpmc_a17" "GPMC_A17_INPUTENABLE_0,GPMC_A17_INPUTENABLE_1"
newline
bitfld.long 0x20 20. "GPMC_A17_PULLTYPESELECT,pullup/down selection for pad gpmc_a17" "GPMC_A17_PULLTYPESELECT_0,GPMC_A17_PULLTYPESELECT_1"
newline
bitfld.long 0x20 19. "GPMC_A17_PULLUDENABLE,pullup/down enable for pad gpmc_a17" "GPMC_A17_PULLUDENABLE_0,GPMC_A17_PULLUDENABLE_1"
newline
bitfld.long 0x20 16.--18. "GPMC_A17_MUXMODE,Functional multiplexing selection for pad gpmc_a17" "GPMC_A17_MUXMODE_0,GPMC_A17_MUXMODE_1,GPMC_A17_MUXMODE_2,GPMC_A17_MUXMODE_3,GPMC_A17_MUXMODE_4,?,?,GPMC_A17_MUXMODE_7"
newline
rbitfld.long 0x20 15. "GPMC_A16_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_A16_WAKEUPEVENT_0_r,GPMC_A16_WAKEUPEVENT_1_r"
newline
bitfld.long 0x20 14. "GPMC_A16_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_A16_WAKEUPENABLE_0,GPMC_A16_WAKEUPENABLE_1"
newline
bitfld.long 0x20 13. "GPMC_A16_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_a16" "GPMC_A16_ OFFMODEPULLTYPESELECT_0,GPMC_A16_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x20 12. "GPMC_A16_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_a16" "GPMC_A16_ OFFMODEPULLUDENABLE_0,GPMC_A16_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x20 11. "GPMC_A16_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_a16" "GPMC_A16_OFFMODEOUTVALUE_0,GPMC_A16_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x20 10. "GPMC_A16_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_a16" "GPMC_A16_OFFMODEOUTENABLE_0,GPMC_A16_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x20 9. "GPMC_A16_OFFMODEENABLE,OffMode mode override control for pad gpmc_a16" "GPMC_A16_OFFMODEENABLE_0,GPMC_A16_OFFMODEENABLE_1"
newline
bitfld.long 0x20 8. "GPMC_A16_INPUTENABLE,Input enable value for pad gpmc_a16" "GPMC_A16_INPUTENABLE_0,GPMC_A16_INPUTENABLE_1"
newline
bitfld.long 0x20 4. "GPMC_A16_PULLTYPESELECT,pullup/down selection for pad gpmc_a16" "GPMC_A16_PULLTYPESELECT_0,GPMC_A16_PULLTYPESELECT_1"
newline
bitfld.long 0x20 3. "GPMC_A16_PULLUDENABLE,pullup/down enable for pad gpmc_a16" "GPMC_A16_PULLUDENABLE_0,GPMC_A16_PULLUDENABLE_1"
newline
bitfld.long 0x20 0.--2. "GPMC_A16_MUXMODE,Functional multiplexing selection for pad gpmc_a16" "GPMC_A16_MUXMODE_0,GPMC_A16_MUXMODE_1,GPMC_A16_MUXMODE_2,GPMC_A16_MUXMODE_3,GPMC_A16_MUXMODE_4,?,?,GPMC_A16_MUXMODE_7"
line.long 0x24 "CONTROL_CORE_PAD0_GPMC_A18_PAD1_GPMC_A19,Register control for Pads gpmc_a18 and gpmc_a19 Access conditions"
rbitfld.long 0x24 31. "GPMC_A19_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_A19_WAKEUPEVENT_0_r,GPMC_A19_WAKEUPEVENT_1_r"
newline
bitfld.long 0x24 30. "GPMC_A19_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_A19_WAKEUPENABLE_0,GPMC_A19_WAKEUPENABLE_1"
newline
bitfld.long 0x24 29. "GPMC_A19_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_a19" "GPMC_A19_ OFFMODEPULLTYPESELECT_0,GPMC_A19_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x24 28. "GPMC_A19_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_a19" "GPMC_A19_ OFFMODEPULLUDENABLE_0,GPMC_A19_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x24 27. "GPMC_A19_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_a19" "GPMC_A19_OFFMODEOUTVALUE_0,GPMC_A19_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x24 26. "GPMC_A19_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_a19" "GPMC_A19_OFFMODEOUTENABLE_0,GPMC_A19_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x24 25. "GPMC_A19_OFFMODEENABLE,OffMode mode override control for pad gpmc_a19" "GPMC_A19_OFFMODEENABLE_0,GPMC_A19_OFFMODEENABLE_1"
newline
bitfld.long 0x24 24. "GPMC_A19_INPUTENABLE,Input enable value for pad gpmc_a19" "GPMC_A19_INPUTENABLE_0,GPMC_A19_INPUTENABLE_1"
newline
bitfld.long 0x24 20. "GPMC_A19_PULLTYPESELECT,pullup/down selection for pad gpmc_a19" "GPMC_A19_PULLTYPESELECT_0,GPMC_A19_PULLTYPESELECT_1"
newline
bitfld.long 0x24 19. "GPMC_A19_PULLUDENABLE,pullup/down enable for pad gpmc_a19" "GPMC_A19_PULLUDENABLE_0,GPMC_A19_PULLUDENABLE_1"
newline
bitfld.long 0x24 16.--18. "GPMC_A19_MUXMODE,Functional multiplexing selection for pad gpmc_a19" "GPMC_A19_MUXMODE_0,GPMC_A19_MUXMODE_1,GPMC_A19_MUXMODE_2,GPMC_A19_MUXMODE_3,GPMC_A19_MUXMODE_4,?,?,GPMC_A19_MUXMODE_7"
newline
rbitfld.long 0x24 15. "GPMC_A18_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_A18_WAKEUPEVENT_0_r,GPMC_A18_WAKEUPEVENT_1_r"
newline
bitfld.long 0x24 14. "GPMC_A18_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_A18_WAKEUPENABLE_0,GPMC_A18_WAKEUPENABLE_1"
newline
bitfld.long 0x24 13. "GPMC_A18_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_a18" "GPMC_A18_ OFFMODEPULLTYPESELECT_0,GPMC_A18_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x24 12. "GPMC_A18_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_a18" "GPMC_A18_ OFFMODEPULLUDENABLE_0,GPMC_A18_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x24 11. "GPMC_A18_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_a18" "GPMC_A18_OFFMODEOUTVALUE_0,GPMC_A18_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x24 10. "GPMC_A18_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_a18" "GPMC_A18_OFFMODEOUTENABLE_0,GPMC_A18_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x24 9. "GPMC_A18_OFFMODEENABLE,OffMode mode override control for pad gpmc_a18" "GPMC_A18_OFFMODEENABLE_0,GPMC_A18_OFFMODEENABLE_1"
newline
bitfld.long 0x24 8. "GPMC_A18_INPUTENABLE,Input enable value for pad gpmc_a18" "GPMC_A18_INPUTENABLE_0,GPMC_A18_INPUTENABLE_1"
newline
bitfld.long 0x24 4. "GPMC_A18_PULLTYPESELECT,pullup/down selection for pad gpmc_a18" "GPMC_A18_PULLTYPESELECT_0,GPMC_A18_PULLTYPESELECT_1"
newline
bitfld.long 0x24 3. "GPMC_A18_PULLUDENABLE,pullup/down enable for pad gpmc_a18" "GPMC_A18_PULLUDENABLE_0,GPMC_A18_PULLUDENABLE_1"
newline
bitfld.long 0x24 0.--2. "GPMC_A18_MUXMODE,Functional multiplexing selection for pad gpmc_a18" "GPMC_A18_MUXMODE_0,GPMC_A18_MUXMODE_1,GPMC_A18_MUXMODE_2,GPMC_A18_MUXMODE_3,GPMC_A18_MUXMODE_4,?,?,GPMC_A18_MUXMODE_7"
line.long 0x28 "CONTROL_CORE_PAD0_GPMC_A20_PAD1_GPMC_A21,Register control for Pads gpmc_a20 and gpmc_a21 Access conditions"
rbitfld.long 0x28 31. "GPMC_A21_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_A21_WAKEUPEVENT_0_r,GPMC_A21_WAKEUPEVENT_1_r"
newline
bitfld.long 0x28 30. "GPMC_A21_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_A21_WAKEUPENABLE_0,GPMC_A21_WAKEUPENABLE_1"
newline
bitfld.long 0x28 29. "GPMC_A21_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_a21" "GPMC_A21_ OFFMODEPULLTYPESELECT_0,GPMC_A21_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x28 28. "GPMC_A21_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_a21" "GPMC_A21_ OFFMODEPULLUDENABLE_0,GPMC_A21_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x28 27. "GPMC_A21_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_a21" "GPMC_A21_OFFMODEOUTVALUE_0,GPMC_A21_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x28 26. "GPMC_A21_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_a21" "GPMC_A21_OFFMODEOUTENABLE_0,GPMC_A21_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x28 25. "GPMC_A21_OFFMODEENABLE,OffMode mode override control for pad gpmc_a21" "GPMC_A21_OFFMODEENABLE_0,GPMC_A21_OFFMODEENABLE_1"
newline
bitfld.long 0x28 24. "GPMC_A21_INPUTENABLE,Input enable value for pad gpmc_a21" "GPMC_A21_INPUTENABLE_0,GPMC_A21_INPUTENABLE_1"
newline
bitfld.long 0x28 20. "GPMC_A21_PULLTYPESELECT,pullup/down selection for pad gpmc_a21" "GPMC_A21_PULLTYPESELECT_0,GPMC_A21_PULLTYPESELECT_1"
newline
bitfld.long 0x28 19. "GPMC_A21_PULLUDENABLE,pullup/down enable for pad gpmc_a21" "GPMC_A21_PULLUDENABLE_0,GPMC_A21_PULLUDENABLE_1"
newline
bitfld.long 0x28 16.--18. "GPMC_A21_MUXMODE,Functional multiplexing selection for pad gpmc_a21" "GPMC_A21_MUXMODE_0,GPMC_A21_MUXMODE_1,GPMC_A21_MUXMODE_2,GPMC_A21_MUXMODE_3,GPMC_A21_MUXMODE_4,?,?,GPMC_A21_MUXMODE_7"
newline
rbitfld.long 0x28 15. "GPMC_A20_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_A20_WAKEUPEVENT_0_r,GPMC_A20_WAKEUPEVENT_1_r"
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bitfld.long 0x28 14. "GPMC_A20_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_A20_WAKEUPENABLE_0,GPMC_A20_WAKEUPENABLE_1"
newline
bitfld.long 0x28 13. "GPMC_A20_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_a20" "GPMC_A20_ OFFMODEPULLTYPESELECT_0,GPMC_A20_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x28 12. "GPMC_A20_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_a20" "GPMC_A20_ OFFMODEPULLUDENABLE_0,GPMC_A20_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x28 11. "GPMC_A20_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_a20" "GPMC_A20_OFFMODEOUTVALUE_0,GPMC_A20_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x28 10. "GPMC_A20_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_a20" "GPMC_A20_OFFMODEOUTENABLE_0,GPMC_A20_OFFMODEOUTENABLE_1"
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bitfld.long 0x28 9. "GPMC_A20_OFFMODEENABLE,OffMode mode override control for pad gpmc_a20" "GPMC_A20_OFFMODEENABLE_0,GPMC_A20_OFFMODEENABLE_1"
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bitfld.long 0x28 8. "GPMC_A20_INPUTENABLE,Input enable value for pad gpmc_a20" "GPMC_A20_INPUTENABLE_0,GPMC_A20_INPUTENABLE_1"
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bitfld.long 0x28 4. "GPMC_A20_PULLTYPESELECT,pullup/down selection for pad gpmc_a20" "GPMC_A20_PULLTYPESELECT_0,GPMC_A20_PULLTYPESELECT_1"
newline
bitfld.long 0x28 3. "GPMC_A20_PULLUDENABLE,pullup/down enable for pad gpmc_a20" "GPMC_A20_PULLUDENABLE_0,GPMC_A20_PULLUDENABLE_1"
newline
bitfld.long 0x28 0.--2. "GPMC_A20_MUXMODE,Functional multiplexing selection for pad gpmc_a20" "GPMC_A20_MUXMODE_0,GPMC_A20_MUXMODE_1,GPMC_A20_MUXMODE_2,GPMC_A20_MUXMODE_3,GPMC_A20_MUXMODE_4,?,?,GPMC_A20_MUXMODE_7"
line.long 0x2C "CONTROL_CORE_PAD0_GPMC_A22_PAD1_GPMC_A23,Register control for Pads gpmc_a22 and gpmc_a23 Access conditions"
rbitfld.long 0x2C 31. "GPMC_A23_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_A23_WAKEUPEVENT_0_r,GPMC_A23_WAKEUPEVENT_1_r"
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bitfld.long 0x2C 30. "GPMC_A23_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_A23_WAKEUPENABLE_0,GPMC_A23_WAKEUPENABLE_1"
newline
bitfld.long 0x2C 29. "GPMC_A23_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_a23" "GPMC_A23_ OFFMODEPULLTYPESELECT_0,GPMC_A23_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x2C 28. "GPMC_A23_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_a23" "GPMC_A23_ OFFMODEPULLUDENABLE_0,GPMC_A23_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x2C 27. "GPMC_A23_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_a23" "GPMC_A23_OFFMODEOUTVALUE_0,GPMC_A23_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x2C 26. "GPMC_A23_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_a23" "GPMC_A23_OFFMODEOUTENABLE_0,GPMC_A23_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x2C 25. "GPMC_A23_OFFMODEENABLE,OffMode mode override control for pad gpmc_a23" "GPMC_A23_OFFMODEENABLE_0,GPMC_A23_OFFMODEENABLE_1"
newline
bitfld.long 0x2C 24. "GPMC_A23_INPUTENABLE,Input enable value for pad gpmc_a23" "GPMC_A23_INPUTENABLE_0,GPMC_A23_INPUTENABLE_1"
newline
bitfld.long 0x2C 20. "GPMC_A23_PULLTYPESELECT,pullup/down selection for pad gpmc_a23" "GPMC_A23_PULLTYPESELECT_0,GPMC_A23_PULLTYPESELECT_1"
newline
bitfld.long 0x2C 19. "GPMC_A23_PULLUDENABLE,pullup/down enable for pad gpmc_a23" "GPMC_A23_PULLUDENABLE_0,GPMC_A23_PULLUDENABLE_1"
newline
bitfld.long 0x2C 16.--18. "GPMC_A23_MUXMODE,Functional multiplexing selection for pad gpmc_a23" "GPMC_A23_MUXMODE_0,GPMC_A23_MUXMODE_1,GPMC_A23_MUXMODE_2,GPMC_A23_MUXMODE_3,GPMC_A23_MUXMODE_4,?,?,GPMC_A23_MUXMODE_7"
newline
rbitfld.long 0x2C 15. "GPMC_A22_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_A22_WAKEUPEVENT_0_r,GPMC_A22_WAKEUPEVENT_1_r"
newline
bitfld.long 0x2C 14. "GPMC_A22_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_A22_WAKEUPENABLE_0,GPMC_A22_WAKEUPENABLE_1"
newline
bitfld.long 0x2C 13. "GPMC_A22_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_a22" "GPMC_A22_ OFFMODEPULLTYPESELECT_0,GPMC_A22_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x2C 12. "GPMC_A22_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_a22" "GPMC_A22_ OFFMODEPULLUDENABLE_0,GPMC_A22_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x2C 11. "GPMC_A22_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_a22" "GPMC_A22_OFFMODEOUTVALUE_0,GPMC_A22_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x2C 10. "GPMC_A22_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_a22" "GPMC_A22_OFFMODEOUTENABLE_0,GPMC_A22_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x2C 9. "GPMC_A22_OFFMODEENABLE,OffMode mode override control for pad gpmc_a22" "GPMC_A22_OFFMODEENABLE_0,GPMC_A22_OFFMODEENABLE_1"
newline
bitfld.long 0x2C 8. "GPMC_A22_INPUTENABLE,Input enable value for pad gpmc_a22" "GPMC_A22_INPUTENABLE_0,GPMC_A22_INPUTENABLE_1"
newline
bitfld.long 0x2C 4. "GPMC_A22_PULLTYPESELECT,pullup/down selection for pad gpmc_a22" "GPMC_A22_PULLTYPESELECT_0,GPMC_A22_PULLTYPESELECT_1"
newline
bitfld.long 0x2C 3. "GPMC_A22_PULLUDENABLE,pullup/down enable for pad gpmc_a22" "GPMC_A22_PULLUDENABLE_0,GPMC_A22_PULLUDENABLE_1"
newline
bitfld.long 0x2C 0.--2. "GPMC_A22_MUXMODE,Functional multiplexing selection for pad gpmc_a22" "GPMC_A22_MUXMODE_0,GPMC_A22_MUXMODE_1,GPMC_A22_MUXMODE_2,GPMC_A22_MUXMODE_3,GPMC_A22_MUXMODE_4,?,?,GPMC_A22_MUXMODE_7"
line.long 0x30 "CONTROL_CORE_PAD0_GPMC_A24_PAD1_GPMC_A25,Register control for Pads gpmc_a24 and gpmc_a25 Access conditions"
rbitfld.long 0x30 31. "GPMC_A25_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_A25_WAKEUPEVENT_0_r,GPMC_A25_WAKEUPEVENT_1_r"
newline
bitfld.long 0x30 30. "GPMC_A25_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_A25_WAKEUPENABLE_0,GPMC_A25_WAKEUPENABLE_1"
newline
bitfld.long 0x30 29. "GPMC_A25_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_a25" "GPMC_A25_ OFFMODEPULLTYPESELECT_0,GPMC_A25_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x30 28. "GPMC_A25_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_a25" "GPMC_A25_ OFFMODEPULLUDENABLE_0,GPMC_A25_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x30 27. "GPMC_A25_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_a25" "GPMC_A25_OFFMODEOUTVALUE_0,GPMC_A25_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x30 26. "GPMC_A25_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_a25" "GPMC_A25_OFFMODEOUTENABLE_0,GPMC_A25_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x30 25. "GPMC_A25_OFFMODEENABLE,OffMode mode override control for pad gpmc_a25" "GPMC_A25_OFFMODEENABLE_0,GPMC_A25_OFFMODEENABLE_1"
newline
bitfld.long 0x30 24. "GPMC_A25_INPUTENABLE,Input enable value for pad gpmc_a25" "GPMC_A25_INPUTENABLE_0,GPMC_A25_INPUTENABLE_1"
newline
bitfld.long 0x30 20. "GPMC_A25_PULLTYPESELECT,pullup/down selection for pad gpmc_a25" "GPMC_A25_PULLTYPESELECT_0,GPMC_A25_PULLTYPESELECT_1"
newline
bitfld.long 0x30 19. "GPMC_A25_PULLUDENABLE,pullup/down enable for pad gpmc_a25" "GPMC_A25_PULLUDENABLE_0,GPMC_A25_PULLUDENABLE_1"
newline
bitfld.long 0x30 16.--18. "GPMC_A25_MUXMODE,Functional multiplexing selection for pad gpmc_a25" "GPMC_A25_MUXMODE_0,?,GPMC_A25_MUXMODE_2,GPMC_A25_MUXMODE_3,?,?,?,GPMC_A25_MUXMODE_7"
newline
rbitfld.long 0x30 15. "GPMC_A24_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_A24_WAKEUPEVENT_0_r,GPMC_A24_WAKEUPEVENT_1_r"
newline
bitfld.long 0x30 14. "GPMC_A24_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_A24_WAKEUPENABLE_0,GPMC_A24_WAKEUPENABLE_1"
newline
bitfld.long 0x30 13. "GPMC_A24_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_a24" "GPMC_A24_ OFFMODEPULLTYPESELECT_0,GPMC_A24_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x30 12. "GPMC_A24_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_a24" "GPMC_A24_ OFFMODEPULLUDENABLE_0,GPMC_A24_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x30 11. "GPMC_A24_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_a24" "GPMC_A24_OFFMODEOUTVALUE_0,GPMC_A24_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x30 10. "GPMC_A24_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_a24" "GPMC_A24_OFFMODEOUTENABLE_0,GPMC_A24_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x30 9. "GPMC_A24_OFFMODEENABLE,OffMode mode override control for pad gpmc_a24" "GPMC_A24_OFFMODEENABLE_0,GPMC_A24_OFFMODEENABLE_1"
newline
bitfld.long 0x30 8. "GPMC_A24_INPUTENABLE,Input enable value for pad gpmc_a24" "GPMC_A24_INPUTENABLE_0,GPMC_A24_INPUTENABLE_1"
newline
bitfld.long 0x30 4. "GPMC_A24_PULLTYPESELECT,pullup/down selection for pad gpmc_a24" "GPMC_A24_PULLTYPESELECT_0,GPMC_A24_PULLTYPESELECT_1"
newline
bitfld.long 0x30 3. "GPMC_A24_PULLUDENABLE,pullup/down enable for pad gpmc_a24" "GPMC_A24_PULLUDENABLE_0,GPMC_A24_PULLUDENABLE_1"
newline
bitfld.long 0x30 0.--2. "GPMC_A24_MUXMODE,Functional multiplexing selection for pad gpmc_a24" "GPMC_A24_MUXMODE_0,GPMC_A24_MUXMODE_1,GPMC_A24_MUXMODE_2,GPMC_A24_MUXMODE_3,?,?,?,GPMC_A24_MUXMODE_7"
line.long 0x34 "CONTROL_CORE_PAD0_GPMC_NCS0_PAD1_GPMC_NCS1,Register control for Pads gpmc_ncs0 and gpmc_ncs1 Access conditions"
rbitfld.long 0x34 31. "GPMC_NCS1_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_NCS1_WAKEUPEVENT_0_r,GPMC_NCS1_WAKEUPEVENT_1_r"
newline
bitfld.long 0x34 30. "GPMC_NCS1_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_NCS1_WAKEUPENABLE_0,GPMC_NCS1_WAKEUPENABLE_1"
newline
bitfld.long 0x34 29. "GPMC_NCS1_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_ncs1" "GPMC_NCS1_ OFFMODEPULLTYPESELECT_0,GPMC_NCS1_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x34 28. "GPMC_NCS1_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_ncs1" "GPMC_NCS1_ OFFMODEPULLUDENABLE_0,GPMC_NCS1_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x34 27. "GPMC_NCS1_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_ncs1" "GPMC_NCS1_OFFMODEOUTVALUE_0,GPMC_NCS1_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x34 26. "GPMC_NCS1_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_ncs1" "GPMC_NCS1_OFFMODEOUTENABLE_0,GPMC_NCS1_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x34 25. "GPMC_NCS1_OFFMODEENABLE,OffMode mode override control for pad gpmc_ncs1" "GPMC_NCS1_OFFMODEENABLE_0,GPMC_NCS1_OFFMODEENABLE_1"
newline
bitfld.long 0x34 24. "GPMC_NCS1_INPUTENABLE,Input enable value for pad gpmc_ncs1" "GPMC_NCS1_INPUTENABLE_0,GPMC_NCS1_INPUTENABLE_1"
newline
bitfld.long 0x34 20. "GPMC_NCS1_PULLTYPESELECT,pullup/down selection for pad gpmc_ncs1" "GPMC_NCS1_PULLTYPESELECT_0,GPMC_NCS1_PULLTYPESELECT_1"
newline
bitfld.long 0x34 19. "GPMC_NCS1_PULLUDENABLE,pullup/down enable for pad gpmc_ncs1" "GPMC_NCS1_PULLUDENABLE_0,GPMC_NCS1_PULLUDENABLE_1"
newline
bitfld.long 0x34 16.--18. "GPMC_NCS1_MUXMODE,Functional multiplexing selection for pad gpmc_ncs1" "GPMC_NCS1_MUXMODE_0,?,GPMC_NCS1_MUXMODE_2,GPMC_NCS1_MUXMODE_3,?,?,?,GPMC_NCS1_MUXMODE_7"
newline
rbitfld.long 0x34 15. "GPMC_NCS0_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_NCS0_WAKEUPEVENT_0_r,GPMC_NCS0_WAKEUPEVENT_1_r"
newline
bitfld.long 0x34 14. "GPMC_NCS0_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_NCS0_WAKEUPENABLE_0,GPMC_NCS0_WAKEUPENABLE_1"
newline
bitfld.long 0x34 13. "GPMC_NCS0_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_ncs0" "GPMC_NCS0_ OFFMODEPULLTYPESELECT_0,GPMC_NCS0_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x34 12. "GPMC_NCS0_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_ncs0" "GPMC_NCS0_ OFFMODEPULLUDENABLE_0,GPMC_NCS0_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x34 11. "GPMC_NCS0_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_ncs0" "GPMC_NCS0_OFFMODEOUTVALUE_0,GPMC_NCS0_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x34 10. "GPMC_NCS0_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_ncs0" "GPMC_NCS0_OFFMODEOUTENABLE_0,GPMC_NCS0_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x34 9. "GPMC_NCS0_OFFMODEENABLE,OffMode mode override control for pad gpmc_ncs0" "GPMC_NCS0_OFFMODEENABLE_0,GPMC_NCS0_OFFMODEENABLE_1"
newline
bitfld.long 0x34 8. "GPMC_NCS0_INPUTENABLE,Input enable value for pad gpmc_ncs0" "GPMC_NCS0_INPUTENABLE_0,GPMC_NCS0_INPUTENABLE_1"
newline
bitfld.long 0x34 4. "GPMC_NCS0_PULLTYPESELECT,pullup/down selection for pad gpmc_ncs0" "GPMC_NCS0_PULLTYPESELECT_0,GPMC_NCS0_PULLTYPESELECT_1"
newline
bitfld.long 0x34 3. "GPMC_NCS0_PULLUDENABLE,pullup/down enable for pad gpmc_ncs0" "GPMC_NCS0_PULLUDENABLE_0,GPMC_NCS0_PULLUDENABLE_1"
newline
bitfld.long 0x34 0.--2. "GPMC_NCS0_MUXMODE,Functional multiplexing selection for pad gpmc_ncs0" "GPMC_NCS0_MUXMODE_0,?,?,GPMC_NCS0_MUXMODE_3,GPMC_NCS0_MUXMODE_4,?,?,?"
line.long 0x38 "CONTROL_CORE_PAD0_GPMC_NCS2_PAD1_GPMC_NCS3,Register control for Pads gpmc_ncs2 and gpmc_ncs3 Access conditions"
rbitfld.long 0x38 31. "GPMC_NCS3_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_NCS3_WAKEUPEVENT_0_r,GPMC_NCS3_WAKEUPEVENT_1_r"
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bitfld.long 0x38 30. "GPMC_NCS3_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_NCS3_WAKEUPENABLE_0,GPMC_NCS3_WAKEUPENABLE_1"
newline
bitfld.long 0x38 29. "GPMC_NCS3_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_ncs3" "GPMC_NCS3_ OFFMODEPULLTYPESELECT_0,GPMC_NCS3_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x38 28. "GPMC_NCS3_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_ncs3" "GPMC_NCS3_ OFFMODEPULLUDENABLE_0,GPMC_NCS3_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x38 27. "GPMC_NCS3_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_ncs3" "GPMC_NCS3_OFFMODEOUTVALUE_0,GPMC_NCS3_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x38 26. "GPMC_NCS3_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_ncs3" "GPMC_NCS3_OFFMODEOUTENABLE_0,GPMC_NCS3_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x38 25. "GPMC_NCS3_OFFMODEENABLE,OffMode mode override control for pad gpmc_ncs3" "GPMC_NCS3_OFFMODEENABLE_0,GPMC_NCS3_OFFMODEENABLE_1"
newline
bitfld.long 0x38 24. "GPMC_NCS3_INPUTENABLE,Input enable value for pad gpmc_ncs3" "GPMC_NCS3_INPUTENABLE_0,GPMC_NCS3_INPUTENABLE_1"
newline
bitfld.long 0x38 20. "GPMC_NCS3_PULLTYPESELECT,pullup/down selection for pad gpmc_ncs3" "GPMC_NCS3_PULLTYPESELECT_0,GPMC_NCS3_PULLTYPESELECT_1"
newline
bitfld.long 0x38 19. "GPMC_NCS3_PULLUDENABLE,pullup/down enable for pad gpmc_ncs3" "GPMC_NCS3_PULLUDENABLE_0,GPMC_NCS3_PULLUDENABLE_1"
newline
bitfld.long 0x38 16.--18. "GPMC_NCS3_MUXMODE,Functional multiplexing selection for pad gpmc_ncs3" "GPMC_NCS3_MUXMODE_0,GPMC_NCS3_MUXMODE_1,GPMC_NCS3_MUXMODE_2,GPMC_NCS3_MUXMODE_3,?,?,?,GPMC_NCS3_MUXMODE_7"
newline
rbitfld.long 0x38 15. "GPMC_NCS2_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_NCS2_WAKEUPEVENT_0_r,GPMC_NCS2_WAKEUPEVENT_1_r"
newline
bitfld.long 0x38 14. "GPMC_NCS2_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_NCS2_WAKEUPENABLE_0,GPMC_NCS2_WAKEUPENABLE_1"
newline
bitfld.long 0x38 13. "GPMC_NCS2_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_ncs2" "GPMC_NCS2_ OFFMODEPULLTYPESELECT_0,GPMC_NCS2_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x38 12. "GPMC_NCS2_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_ncs2" "GPMC_NCS2_ OFFMODEPULLUDENABLE_0,GPMC_NCS2_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x38 11. "GPMC_NCS2_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_ncs2" "GPMC_NCS2_OFFMODEOUTVALUE_0,GPMC_NCS2_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x38 10. "GPMC_NCS2_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_ncs2" "GPMC_NCS2_OFFMODEOUTENABLE_0,GPMC_NCS2_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x38 9. "GPMC_NCS2_OFFMODEENABLE,OffMode mode override control for pad gpmc_ncs2" "GPMC_NCS2_OFFMODEENABLE_0,GPMC_NCS2_OFFMODEENABLE_1"
newline
bitfld.long 0x38 8. "GPMC_NCS2_INPUTENABLE,Input enable value for pad gpmc_ncs2" "GPMC_NCS2_INPUTENABLE_0,GPMC_NCS2_INPUTENABLE_1"
newline
bitfld.long 0x38 4. "GPMC_NCS2_PULLTYPESELECT,pullup/down selection for pad gpmc_ncs2" "GPMC_NCS2_PULLTYPESELECT_0,GPMC_NCS2_PULLTYPESELECT_1"
newline
bitfld.long 0x38 3. "GPMC_NCS2_PULLUDENABLE,pullup/down enable for pad gpmc_ncs2" "GPMC_NCS2_PULLUDENABLE_0,GPMC_NCS2_PULLUDENABLE_1"
newline
bitfld.long 0x38 0.--2. "GPMC_NCS2_MUXMODE,Functional multiplexing selection for pad gpmc_ncs2" "GPMC_NCS2_MUXMODE_0,GPMC_NCS2_MUXMODE_1,GPMC_NCS2_MUXMODE_2,GPMC_NCS2_MUXMODE_3,?,?,?,GPMC_NCS2_MUXMODE_7"
line.long 0x3C "CONTROL_CORE_PAD0_GPMC_NWP_PAD1_GPMC_CLK,Register control for Pads gpmc_nwp and gpmc_clk Access conditions"
rbitfld.long 0x3C 31. "GPMC_CLK_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_CLK_WAKEUPEVENT_0_r,GPMC_CLK_WAKEUPEVENT_1_r"
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bitfld.long 0x3C 30. "GPMC_CLK_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_CLK_WAKEUPENABLE_0,GPMC_CLK_WAKEUPENABLE_1"
newline
bitfld.long 0x3C 29. "GPMC_CLK_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_clk" "GPMC_CLK_ OFFMODEPULLTYPESELECT_0,GPMC_CLK_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x3C 28. "GPMC_CLK_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_clk" "GPMC_CLK_ OFFMODEPULLUDENABLE_0,GPMC_CLK_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x3C 27. "GPMC_CLK_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_clk" "GPMC_CLK_OFFMODEOUTVALUE_0,GPMC_CLK_OFFMODEOUTVALUE_1"
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bitfld.long 0x3C 26. "GPMC_CLK_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_clk" "GPMC_CLK_OFFMODEOUTENABLE_0,GPMC_CLK_OFFMODEOUTENABLE_1"
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bitfld.long 0x3C 25. "GPMC_CLK_OFFMODEENABLE,OffMode mode override control for pad gpmc_clk" "GPMC_CLK_OFFMODEENABLE_0,GPMC_CLK_OFFMODEENABLE_1"
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bitfld.long 0x3C 24. "GPMC_CLK_INPUTENABLE,Input enable value for pad gpmc_clk" "GPMC_CLK_INPUTENABLE_0,GPMC_CLK_INPUTENABLE_1"
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bitfld.long 0x3C 20. "GPMC_CLK_PULLTYPESELECT,pullup/down selection for pad gpmc_clk" "GPMC_CLK_PULLTYPESELECT_0,GPMC_CLK_PULLTYPESELECT_1"
newline
bitfld.long 0x3C 19. "GPMC_CLK_PULLUDENABLE,pullup/down enable for pad gpmc_clk" "GPMC_CLK_PULLUDENABLE_0,GPMC_CLK_PULLUDENABLE_1"
newline
bitfld.long 0x3C 16.--18. "GPMC_CLK_MUXMODE,Functional multiplexing selection for pad gpmc_clk" "GPMC_CLK_MUXMODE_0,?,?,GPMC_CLK_MUXMODE_3,GPMC_CLK_MUXMODE_4,GPMC_CLK_MUXMODE_5,?,?"
newline
rbitfld.long 0x3C 15. "GPMC_NWP_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_NWP_WAKEUPEVENT_0_r,GPMC_NWP_WAKEUPEVENT_1_r"
newline
bitfld.long 0x3C 14. "GPMC_NWP_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_NWP_WAKEUPENABLE_0,GPMC_NWP_WAKEUPENABLE_1"
newline
bitfld.long 0x3C 13. "GPMC_NWP_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_nwp" "GPMC_NWP_ OFFMODEPULLTYPESELECT_0,GPMC_NWP_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x3C 12. "GPMC_NWP_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_nwp" "GPMC_NWP_ OFFMODEPULLUDENABLE_0,GPMC_NWP_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x3C 11. "GPMC_NWP_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_nwp" "GPMC_NWP_OFFMODEOUTVALUE_0,GPMC_NWP_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x3C 10. "GPMC_NWP_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_nwp" "GPMC_NWP_OFFMODEOUTENABLE_0,GPMC_NWP_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x3C 9. "GPMC_NWP_OFFMODEENABLE,OffMode mode override control for pad gpmc_nwp" "GPMC_NWP_OFFMODEENABLE_0,GPMC_NWP_OFFMODEENABLE_1"
newline
bitfld.long 0x3C 8. "GPMC_NWP_INPUTENABLE,Input enable value for pad gpmc_nwp" "GPMC_NWP_INPUTENABLE_0,GPMC_NWP_INPUTENABLE_1"
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bitfld.long 0x3C 4. "GPMC_NWP_PULLTYPESELECT,pullup/down selection for pad gpmc_nwp" "GPMC_NWP_PULLTYPESELECT_0,GPMC_NWP_PULLTYPESELECT_1"
newline
bitfld.long 0x3C 3. "GPMC_NWP_PULLUDENABLE,pullup/down enable for pad gpmc_nwp" "GPMC_NWP_PULLUDENABLE_0,GPMC_NWP_PULLUDENABLE_1"
newline
bitfld.long 0x3C 0.--2. "GPMC_NWP_MUXMODE,Functional multiplexing selection for pad gpmc_nwp" "GPMC_NWP_MUXMODE_0,GPMC_NWP_MUXMODE_1,?,GPMC_NWP_MUXMODE_3,GPMC_NWP_MUXMODE_4,?,?,?"
line.long 0x40 "CONTROL_CORE_PAD0_GPMC_NADV_ALE_PAD1_GPMC_NOE,Register control for Pads gpmc_nadv_ale and gpmc_noe Access conditions"
rbitfld.long 0x40 31. "GPMC_NOE_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_NOE_WAKEUPEVENT_0_r,GPMC_NOE_WAKEUPEVENT_1_r"
newline
bitfld.long 0x40 30. "GPMC_NOE_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_NOE_WAKEUPENABLE_0,GPMC_NOE_WAKEUPENABLE_1"
newline
bitfld.long 0x40 29. "GPMC_NOE_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_noe" "GPMC_NOE_ OFFMODEPULLTYPESELECT_0,GPMC_NOE_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x40 28. "GPMC_NOE_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_noe" "GPMC_NOE_ OFFMODEPULLUDENABLE_0,GPMC_NOE_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x40 27. "GPMC_NOE_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_noe" "GPMC_NOE_OFFMODEOUTVALUE_0,GPMC_NOE_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x40 26. "GPMC_NOE_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_noe" "GPMC_NOE_OFFMODEOUTENABLE_0,GPMC_NOE_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x40 25. "GPMC_NOE_OFFMODEENABLE,OffMode mode override control for pad gpmc_noe" "GPMC_NOE_OFFMODEENABLE_0,GPMC_NOE_OFFMODEENABLE_1"
newline
bitfld.long 0x40 24. "GPMC_NOE_INPUTENABLE,Input enable value for pad gpmc_noe" "GPMC_NOE_INPUTENABLE_0,GPMC_NOE_INPUTENABLE_1"
newline
bitfld.long 0x40 20. "GPMC_NOE_PULLTYPESELECT,pullup/down selection for pad gpmc_noe" "GPMC_NOE_PULLTYPESELECT_0,GPMC_NOE_PULLTYPESELECT_1"
newline
bitfld.long 0x40 19. "GPMC_NOE_PULLUDENABLE,pullup/down enable for pad gpmc_noe" "GPMC_NOE_PULLUDENABLE_0,GPMC_NOE_PULLUDENABLE_1"
newline
bitfld.long 0x40 16.--18. "GPMC_NOE_MUXMODE,Functional multiplexing selection for pad gpmc_noe" "GPMC_NOE_MUXMODE_0,GPMC_NOE_MUXMODE_1,?,?,?,?,?,?"
newline
rbitfld.long 0x40 15. "GPMC_NADV_ALE_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_NADV_ALE_WAKEUPEVENT_0_r,GPMC_NADV_ALE_WAKEUPEVENT_1_r"
newline
bitfld.long 0x40 14. "GPMC_NADV_ALE_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_NADV_ALE_WAKEUPENABLE_0,GPMC_NADV_ALE_WAKEUPENABLE_1"
newline
bitfld.long 0x40 13. "GPMC_NADV_ALE_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_nadv_ale" "GPMC_NADV_ALE_ OFFMODEPULLTYPESELECT_0,GPMC_NADV_ALE_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x40 12. "GPMC_NADV_ALE_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_nadv_ale" "GPMC_NADV_ALE_ OFFMODEPULLUDENABLE_0,GPMC_NADV_ALE_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x40 11. "GPMC_NADV_ALE_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_nadv_ale" "GPMC_NADV_ALE_OFFMODEOUTVALUE_0,GPMC_NADV_ALE_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x40 10. "GPMC_NADV_ALE_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_nadv_ale" "GPMC_NADV_ALE_OFFMODEOUTENABLE_0,GPMC_NADV_ALE_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x40 9. "GPMC_NADV_ALE_OFFMODEENABLE,OffMode mode override control for pad gpmc_nadv_ale" "GPMC_NADV_ALE_OFFMODEENABLE_0,GPMC_NADV_ALE_OFFMODEENABLE_1"
newline
bitfld.long 0x40 8. "GPMC_NADV_ALE_INPUTENABLE,Input enable value for pad gpmc_nadv_ale" "GPMC_NADV_ALE_INPUTENABLE_0,GPMC_NADV_ALE_INPUTENABLE_1"
newline
bitfld.long 0x40 4. "GPMC_NADV_ALE_PULLTYPESELECT,pullup/down selection for pad gpmc_nadv_ale" "GPMC_NADV_ALE_PULLTYPESELECT_0,GPMC_NADV_ALE_PULLTYPESELECT_1"
newline
bitfld.long 0x40 3. "GPMC_NADV_ALE_PULLUDENABLE,pullup/down enable for pad gpmc_nadv_ale" "GPMC_NADV_ALE_PULLUDENABLE_0,GPMC_NADV_ALE_PULLUDENABLE_1"
newline
bitfld.long 0x40 0.--2. "GPMC_NADV_ALE_MUXMODE,Functional multiplexing selection for pad gpmc_nadv_ale" "GPMC_NADV_ALE_MUXMODE_0,GPMC_NADV_ALE_MUXMODE_1,?,GPMC_NADV_ALE_MUXMODE_3,GPMC_NADV_ALE_MUXMODE_4,GPMC_NADV_ALE_MUXMODE_5,?,?"
line.long 0x44 "CONTROL_CORE_PAD0_GPMC_NWE_PAD1_GPMC_NBE0_CLE,Register control for Pads gpmc_nwe and gpmc_nbe0_cle Access conditions"
rbitfld.long 0x44 31. "GPMC_NBE0_CLE_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_NBE0_CLE_WAKEUPEVENT_0_r,GPMC_NBE0_CLE_WAKEUPEVENT_1_r"
newline
bitfld.long 0x44 30. "GPMC_NBE0_CLE_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_NBE0_CLE_WAKEUPENABLE_0,GPMC_NBE0_CLE_WAKEUPENABLE_1"
newline
bitfld.long 0x44 29. "GPMC_NBE0_CLE_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_nbe0_cle" "GPMC_NBE0_CLE_ OFFMODEPULLTYPESELECT_0,GPMC_NBE0_CLE_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x44 28. "GPMC_NBE0_CLE_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_nbe0_cle" "GPMC_NBE0_CLE_ OFFMODEPULLUDENABLE_0,GPMC_NBE0_CLE_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x44 27. "GPMC_NBE0_CLE_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_nbe0_cle" "GPMC_NBE0_CLE_OFFMODEOUTVALUE_0,GPMC_NBE0_CLE_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x44 26. "GPMC_NBE0_CLE_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_nbe0_cle" "GPMC_NBE0_CLE_OFFMODEOUTENABLE_0,GPMC_NBE0_CLE_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x44 25. "GPMC_NBE0_CLE_OFFMODEENABLE,OffMode mode override control for pad gpmc_nbe0_cle" "GPMC_NBE0_CLE_OFFMODEENABLE_0,GPMC_NBE0_CLE_OFFMODEENABLE_1"
newline
bitfld.long 0x44 24. "GPMC_NBE0_CLE_INPUTENABLE,Input enable value for pad gpmc_nbe0_cle" "GPMC_NBE0_CLE_INPUTENABLE_0,GPMC_NBE0_CLE_INPUTENABLE_1"
newline
bitfld.long 0x44 20. "GPMC_NBE0_CLE_PULLTYPESELECT,pullup/down selection for pad gpmc_nbe0_cle" "GPMC_NBE0_CLE_PULLTYPESELECT_0,GPMC_NBE0_CLE_PULLTYPESELECT_1"
newline
bitfld.long 0x44 19. "GPMC_NBE0_CLE_PULLUDENABLE,pullup/down enable for pad gpmc_nbe0_cle" "GPMC_NBE0_CLE_PULLUDENABLE_0,GPMC_NBE0_CLE_PULLUDENABLE_1"
newline
bitfld.long 0x44 16.--18. "GPMC_NBE0_CLE_MUXMODE,Functional multiplexing selection for pad gpmc_nbe0_cle" "GPMC_NBE0_CLE_MUXMODE_0,GPMC_NBE0_CLE_MUXMODE_1,?,GPMC_NBE0_CLE_MUXMODE_3,?,?,?,?"
newline
rbitfld.long 0x44 15. "GPMC_NWE_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_NWE_WAKEUPEVENT_0_r,GPMC_NWE_WAKEUPEVENT_1_r"
newline
bitfld.long 0x44 14. "GPMC_NWE_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_NWE_WAKEUPENABLE_0,GPMC_NWE_WAKEUPENABLE_1"
newline
bitfld.long 0x44 13. "GPMC_NWE_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_nwe" "GPMC_NWE_ OFFMODEPULLTYPESELECT_0,GPMC_NWE_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x44 12. "GPMC_NWE_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_nwe" "GPMC_NWE_ OFFMODEPULLUDENABLE_0,GPMC_NWE_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x44 11. "GPMC_NWE_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_nwe" "GPMC_NWE_OFFMODEOUTVALUE_0,GPMC_NWE_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x44 10. "GPMC_NWE_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_nwe" "GPMC_NWE_OFFMODEOUTENABLE_0,GPMC_NWE_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x44 9. "GPMC_NWE_OFFMODEENABLE,OffMode mode override control for pad gpmc_nwe" "GPMC_NWE_OFFMODEENABLE_0,GPMC_NWE_OFFMODEENABLE_1"
newline
bitfld.long 0x44 8. "GPMC_NWE_INPUTENABLE,Input enable value for pad gpmc_nwe" "GPMC_NWE_INPUTENABLE_0,GPMC_NWE_INPUTENABLE_1"
newline
bitfld.long 0x44 4. "GPMC_NWE_PULLTYPESELECT,pullup/down selection for pad gpmc_nwe" "GPMC_NWE_PULLTYPESELECT_0,GPMC_NWE_PULLTYPESELECT_1"
newline
bitfld.long 0x44 3. "GPMC_NWE_PULLUDENABLE,pullup/down enable for pad gpmc_nwe" "GPMC_NWE_PULLUDENABLE_0,GPMC_NWE_PULLUDENABLE_1"
newline
bitfld.long 0x44 0.--2. "GPMC_NWE_MUXMODE,Functional multiplexing selection for pad gpmc_nwe" "GPMC_NWE_MUXMODE_0,GPMC_NWE_MUXMODE_1,?,?,?,?,?,?"
line.long 0x48 "CONTROL_CORE_PAD0_GPMC_NBE1_PAD1_GPMC_WAIT0,Register control for Pads gpmc_nbe1 and gpmc_wait0 Access conditions"
rbitfld.long 0x48 31. "GPMC_WAIT0_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_WAIT0_WAKEUPEVENT_0_r,GPMC_WAIT0_WAKEUPEVENT_1_r"
newline
bitfld.long 0x48 30. "GPMC_WAIT0_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_WAIT0_WAKEUPENABLE_0,GPMC_WAIT0_WAKEUPENABLE_1"
newline
bitfld.long 0x48 29. "GPMC_WAIT0_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_wait0" "GPMC_WAIT0_ OFFMODEPULLTYPESELECT_0,GPMC_WAIT0_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x48 28. "GPMC_WAIT0_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_wait0" "GPMC_WAIT0_ OFFMODEPULLUDENABLE_0,GPMC_WAIT0_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x48 27. "GPMC_WAIT0_ OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_wait0" "GPMC_WAIT0_ OFFMODEOUTVALUE_0,GPMC_WAIT0_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x48 26. "GPMC_WAIT0_ OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_wait0" "GPMC_WAIT0_ OFFMODEOUTENABLE_0,GPMC_WAIT0_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x48 25. "GPMC_WAIT0_OFFMODEENABLE,OffMode mode override control for pad gpmc_wait0" "GPMC_WAIT0_OFFMODEENABLE_0,GPMC_WAIT0_OFFMODEENABLE_1"
newline
bitfld.long 0x48 24. "GPMC_WAIT0_INPUTENABLE,Input enable value for pad gpmc_wait0" "GPMC_WAIT0_INPUTENABLE_0,GPMC_WAIT0_INPUTENABLE_1"
newline
bitfld.long 0x48 20. "GPMC_WAIT0_PULLTYPESELECT,pullup/down selection for pad gpmc_wait0" "GPMC_WAIT0_PULLTYPESELECT_0,GPMC_WAIT0_PULLTYPESELECT_1"
newline
bitfld.long 0x48 19. "GPMC_WAIT0_PULLUDENABLE,pullup/down enable for pad gpmc_wait0" "GPMC_WAIT0_PULLUDENABLE_0,GPMC_WAIT0_PULLUDENABLE_1"
newline
bitfld.long 0x48 16.--18. "GPMC_WAIT0_MUXMODE,Functional multiplexing selection for pad gpmc_wait0" "GPMC_WAIT0_MUXMODE_0,GPMC_WAIT0_MUXMODE_1,?,GPMC_WAIT0_MUXMODE_3,?,?,?,?"
newline
rbitfld.long 0x48 15. "GPMC_NBE1_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_NBE1_WAKEUPEVENT_0_r,GPMC_NBE1_WAKEUPEVENT_1_r"
newline
bitfld.long 0x48 14. "GPMC_NBE1_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_NBE1_WAKEUPENABLE_0,GPMC_NBE1_WAKEUPENABLE_1"
newline
bitfld.long 0x48 13. "GPMC_NBE1_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_nbe1" "GPMC_NBE1_ OFFMODEPULLTYPESELECT_0,GPMC_NBE1_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x48 12. "GPMC_NBE1_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_nbe1" "GPMC_NBE1_ OFFMODEPULLUDENABLE_0,GPMC_NBE1_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x48 11. "GPMC_NBE1_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_nbe1" "GPMC_NBE1_OFFMODEOUTVALUE_0,GPMC_NBE1_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x48 10. "GPMC_NBE1_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_nbe1" "GPMC_NBE1_OFFMODEOUTENABLE_0,GPMC_NBE1_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x48 9. "GPMC_NBE1_OFFMODEENABLE,OffMode mode override control for pad gpmc_nbe1" "GPMC_NBE1_OFFMODEENABLE_0,GPMC_NBE1_OFFMODEENABLE_1"
newline
bitfld.long 0x48 8. "GPMC_NBE1_INPUTENABLE,Input enable value for pad gpmc_nbe1" "GPMC_NBE1_INPUTENABLE_0,GPMC_NBE1_INPUTENABLE_1"
newline
bitfld.long 0x48 4. "GPMC_NBE1_PULLTYPESELECT,pullup/down selection for pad gpmc_nbe1" "GPMC_NBE1_PULLTYPESELECT_0,GPMC_NBE1_PULLTYPESELECT_1"
newline
bitfld.long 0x48 3. "GPMC_NBE1_PULLUDENABLE,pullup/down enable for pad gpmc_nbe1" "GPMC_NBE1_PULLUDENABLE_0,GPMC_NBE1_PULLUDENABLE_1"
newline
bitfld.long 0x48 0.--2. "GPMC_NBE1_MUXMODE,Functional multiplexing selection for pad gpmc_nbe1" "GPMC_NBE1_MUXMODE_0,?,GPMC_NBE1_MUXMODE_2,GPMC_NBE1_MUXMODE_3,?,?,?,GPMC_NBE1_MUXMODE_7"
line.long 0x4C "CONTROL_CORE_PAD0_GPMC_WAIT1_PAD1_GPMC_WAIT2,Register control for Pads gpmc_wait1 and gpmc_wait2 Access conditions"
rbitfld.long 0x4C 31. "GPMC_WAIT2_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_WAIT2_WAKEUPEVENT_0_r,GPMC_WAIT2_WAKEUPEVENT_1_r"
newline
bitfld.long 0x4C 30. "GPMC_WAIT2_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_WAIT2_WAKEUPENABLE_0,GPMC_WAIT2_WAKEUPENABLE_1"
newline
bitfld.long 0x4C 29. "GPMC_WAIT2_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_wait2" "GPMC_WAIT2_ OFFMODEPULLTYPESELECT_0,GPMC_WAIT2_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x4C 28. "GPMC_WAIT2_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_wait2" "GPMC_WAIT2_ OFFMODEPULLUDENABLE_0,GPMC_WAIT2_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x4C 27. "GPMC_WAIT2_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_wait2" "GPMC_WAIT2_OFFMODEOUTVALUE_0,GPMC_WAIT2_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x4C 26. "GPMC_WAIT2_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_wait2" "GPMC_WAIT2_OFFMODEOUTENABLE_0,GPMC_WAIT2_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x4C 25. "GPMC_WAIT2_OFFMODEENABLE,OffMode mode override control for pad gpmc_wait2" "GPMC_WAIT2_OFFMODEENABLE_0,GPMC_WAIT2_OFFMODEENABLE_1"
newline
bitfld.long 0x4C 24. "GPMC_WAIT2_INPUTENABLE,Input enable value for pad gpmc_wait2" "GPMC_WAIT2_INPUTENABLE_0,GPMC_WAIT2_INPUTENABLE_1"
newline
bitfld.long 0x4C 20. "GPMC_WAIT2_PULLTYPESELECT,pullup/down selection for pad gpmc_wait2" "GPMC_WAIT2_PULLTYPESELECT_0,GPMC_WAIT2_PULLTYPESELECT_1"
newline
bitfld.long 0x4C 19. "GPMC_WAIT2_PULLUDENABLE,pullup/down enable for pad gpmc_wait2" "GPMC_WAIT2_PULLUDENABLE_0,GPMC_WAIT2_PULLUDENABLE_1"
newline
bitfld.long 0x4C 16.--18. "GPMC_WAIT2_MUXMODE,Functional multiplexing selection for pad gpmc_wait2" "GPMC_WAIT2_MUXMODE_0,GPMC_WAIT2_MUXMODE_1,GPMC_WAIT2_MUXMODE_2,GPMC_WAIT2_MUXMODE_3,GPMC_WAIT2_MUXMODE_4,?,?,GPMC_WAIT2_MUXMODE_7"
newline
rbitfld.long 0x4C 15. "GPMC_WAIT1_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_WAIT1_WAKEUPEVENT_0_r,GPMC_WAIT1_WAKEUPEVENT_1_r"
newline
bitfld.long 0x4C 14. "GPMC_WAIT1_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_WAIT1_WAKEUPENABLE_0,GPMC_WAIT1_WAKEUPENABLE_1"
newline
bitfld.long 0x4C 13. "GPMC_WAIT1_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_wait1" "GPMC_WAIT1_ OFFMODEPULLTYPESELECT_0,GPMC_WAIT1_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x4C 12. "GPMC_WAIT1_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_wait1" "GPMC_WAIT1_ OFFMODEPULLUDENABLE_0,GPMC_WAIT1_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x4C 11. "GPMC_WAIT1_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_wait1" "GPMC_WAIT1_OFFMODEOUTVALUE_0,GPMC_WAIT1_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x4C 10. "GPMC_WAIT1_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_wait1" "GPMC_WAIT1_OFFMODEOUTENABLE_0,GPMC_WAIT1_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x4C 9. "GPMC_WAIT1_OFFMODEENABLE,OffMode mode override control for pad gpmc_wait1" "GPMC_WAIT1_OFFMODEENABLE_0,GPMC_WAIT1_OFFMODEENABLE_1"
newline
bitfld.long 0x4C 8. "GPMC_WAIT1_INPUTENABLE,Input enable value for pad gpmc_wait1" "GPMC_WAIT1_INPUTENABLE_0,GPMC_WAIT1_INPUTENABLE_1"
newline
bitfld.long 0x4C 4. "GPMC_WAIT1_PULLTYPESELECT,pullup/down selection for pad gpmc_wait1" "GPMC_WAIT1_PULLTYPESELECT_0,GPMC_WAIT1_PULLTYPESELECT_1"
newline
bitfld.long 0x4C 3. "GPMC_WAIT1_PULLUDENABLE,pullup/down enable for pad gpmc_wait1" "GPMC_WAIT1_PULLUDENABLE_0,GPMC_WAIT1_PULLUDENABLE_1"
newline
bitfld.long 0x4C 0.--2. "GPMC_WAIT1_MUXMODE,Functional multiplexing selection for pad gpmc_wait1" "GPMC_WAIT1_MUXMODE_0,?,GPMC_WAIT1_MUXMODE_2,GPMC_WAIT1_MUXMODE_3,?,?,?,GPMC_WAIT1_MUXMODE_7"
line.long 0x50 "CONTROL_CORE_PAD0_GPMC_NCS4_PAD1_GPMC_NCS5,Register control for Pads gpmc_ncs4 and gpmc_ncs5 Access conditions"
rbitfld.long 0x50 31. "GPMC_NCS5_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_NCS5_WAKEUPEVENT_0_r,GPMC_NCS5_WAKEUPEVENT_1_r"
newline
bitfld.long 0x50 30. "GPMC_NCS5_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_NCS5_WAKEUPENABLE_0,GPMC_NCS5_WAKEUPENABLE_1"
newline
bitfld.long 0x50 29. "GPMC_NCS5_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_ncs5" "GPMC_NCS5_ OFFMODEPULLTYPESELECT_0,GPMC_NCS5_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x50 28. "GPMC_NCS5_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_ncs5" "GPMC_NCS5_ OFFMODEPULLUDENABLE_0,GPMC_NCS5_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x50 27. "GPMC_NCS5_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_ncs5" "GPMC_NCS5_OFFMODEOUTVALUE_0,GPMC_NCS5_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x50 26. "GPMC_NCS5_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_ncs5" "GPMC_NCS5_OFFMODEOUTENABLE_0,GPMC_NCS5_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x50 25. "GPMC_NCS5_OFFMODEENABLE,OffMode mode override control for pad gpmc_ncs5" "GPMC_NCS5_OFFMODEENABLE_0,GPMC_NCS5_OFFMODEENABLE_1"
newline
bitfld.long 0x50 24. "GPMC_NCS5_INPUTENABLE,Input enable value for pad gpmc_ncs5" "GPMC_NCS5_INPUTENABLE_0,GPMC_NCS5_INPUTENABLE_1"
newline
bitfld.long 0x50 20. "GPMC_NCS5_PULLTYPESELECT,pullup/down selection for pad gpmc_ncs5" "GPMC_NCS5_PULLTYPESELECT_0,GPMC_NCS5_PULLTYPESELECT_1"
newline
bitfld.long 0x50 19. "GPMC_NCS5_PULLUDENABLE,pullup/down enable for pad gpmc_ncs5" "GPMC_NCS5_PULLUDENABLE_0,GPMC_NCS5_PULLUDENABLE_1"
newline
bitfld.long 0x50 16.--18. "GPMC_NCS5_MUXMODE,Functional multiplexing selection for pad gpmc_ncs5" "GPMC_NCS5_MUXMODE_0,GPMC_NCS5_MUXMODE_1,GPMC_NCS5_MUXMODE_2,GPMC_NCS5_MUXMODE_3,GPMC_NCS5_MUXMODE_4,?,?,GPMC_NCS5_MUXMODE_7"
newline
rbitfld.long 0x50 15. "GPMC_NCS4_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_NCS4_WAKEUPEVENT_0_r,GPMC_NCS4_WAKEUPEVENT_1_r"
newline
bitfld.long 0x50 14. "GPMC_NCS4_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_NCS4_WAKEUPENABLE_0,GPMC_NCS4_WAKEUPENABLE_1"
newline
bitfld.long 0x50 13. "GPMC_NCS4_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_ncs4" "GPMC_NCS4_ OFFMODEPULLTYPESELECT_0,GPMC_NCS4_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x50 12. "GPMC_NCS4_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_ncs4" "GPMC_NCS4_ OFFMODEPULLUDENABLE_0,GPMC_NCS4_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x50 11. "GPMC_NCS4_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_ncs4" "GPMC_NCS4_OFFMODEOUTVALUE_0,GPMC_NCS4_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x50 10. "GPMC_NCS4_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_ncs4" "GPMC_NCS4_OFFMODEOUTENABLE_0,GPMC_NCS4_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x50 9. "GPMC_NCS4_OFFMODEENABLE,OffMode mode override control for pad gpmc_ncs4" "GPMC_NCS4_OFFMODEENABLE_0,GPMC_NCS4_OFFMODEENABLE_1"
newline
bitfld.long 0x50 8. "GPMC_NCS4_INPUTENABLE,Input enable value for pad gpmc_ncs4" "GPMC_NCS4_INPUTENABLE_0,GPMC_NCS4_INPUTENABLE_1"
newline
bitfld.long 0x50 4. "GPMC_NCS4_PULLTYPESELECT,pullup/down selection for pad gpmc_ncs4" "GPMC_NCS4_PULLTYPESELECT_0,GPMC_NCS4_PULLTYPESELECT_1"
newline
bitfld.long 0x50 3. "GPMC_NCS4_PULLUDENABLE,pullup/down enable for pad gpmc_cs4" "GPMC_NCS4_PULLUDENABLE_0,GPMC_NCS4_PULLUDENABLE_1"
newline
bitfld.long 0x50 0.--2. "GPMC_NCS4_MUXMODE,Functional multiplexing selection for pad gpmc_ncs4" "GPMC_NCS4_MUXMODE_0,GPMC_NCS4_MUXMODE_1,GPMC_NCS4_MUXMODE_2,GPMC_NCS4_MUXMODE_3,GPMC_NCS4_MUXMODE_4,?,?,GPMC_NCS4_MUXMODE_7"
line.long 0x54 "CONTROL_CORE_PAD0_GPMC_NCS6_PAD1_GPMC_NCS7,Register control for Pads gpmc_ncs6 and gpmc_ncs7 Access conditions"
rbitfld.long 0x54 31. "GPMC_NCS7_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_NCS7_WAKEUPEVENT_0_r,GPMC_NCS7_WAKEUPEVENT_1_r"
newline
bitfld.long 0x54 30. "GPMC_NCS7_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_NCS7_WAKEUPENABLE_0,GPMC_NCS7_WAKEUPENABLE_1"
newline
bitfld.long 0x54 29. "GPMC_NCS7_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_ncs7" "GPMC_NCS7_ OFFMODEPULLTYPESELECT_0,GPMC_NCS7_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x54 28. "GPMC_NCS7_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_ncs7" "GPMC_NCS7_ OFFMODEPULLUDENABLE_0,GPMC_NCS7_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x54 27. "GPMC_NCS7_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_ncs7" "GPMC_NCS7_OFFMODEOUTVALUE_0,GPMC_NCS7_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x54 26. "GPMC_NCS7_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_ncs7" "GPMC_NCS7_OFFMODEOUTENABLE_0,GPMC_NCS7_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x54 25. "GPMC_NCS7_OFFMODEENABLE,OffMode mode override control for pad gpmc_ncs7" "GPMC_NCS7_OFFMODEENABLE_0,GPMC_NCS7_OFFMODEENABLE_1"
newline
bitfld.long 0x54 24. "GPMC_NCS7_INPUTENABLE,Input enable value for pad gpmc_ncs7" "GPMC_NCS7_INPUTENABLE_0,GPMC_NCS7_INPUTENABLE_1"
newline
bitfld.long 0x54 20. "GPMC_NCS7_PULLTYPESELECT,pullup/down selection for pad gpmc_ncs7" "GPMC_NCS7_PULLTYPESELECT_0,GPMC_NCS7_PULLTYPESELECT_1"
newline
bitfld.long 0x54 19. "GPMC_NCS7_PULLUDENABLE,pullup/down enable for pad gpmc_ncs7" "GPMC_NCS7_PULLUDENABLE_0,GPMC_NCS7_PULLUDENABLE_1"
newline
bitfld.long 0x54 16.--18. "GPMC_NCS7_MUXMODE,Functional multiplexing selection for pad gpmc_ncs7" "GPMC_NCS7_MUXMODE_0,GPMC_NCS7_MUXMODE_1,GPMC_NCS7_MUXMODE_2,GPMC_NCS7_MUXMODE_3,?,?,?,GPMC_NCS7_MUXMODE_7"
newline
rbitfld.long 0x54 15. "GPMC_NCS6_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPMC_NCS6_WAKEUPEVENT_0_r,GPMC_NCS6_WAKEUPEVENT_1_r"
newline
bitfld.long 0x54 14. "GPMC_NCS6_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPMC_NCS6_WAKEUPENABLE_0,GPMC_NCS6_WAKEUPENABLE_1"
newline
bitfld.long 0x54 13. "GPMC_NCS6_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpmc_ncs6" "GPMC_NCS6_ OFFMODEPULLTYPESELECT_0,GPMC_NCS6_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x54 12. "GPMC_NCS6_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpmc_ncs6" "GPMC_NCS6_ OFFMODEPULLUDENABLE_0,GPMC_NCS6_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x54 11. "GPMC_NCS6_OFFMODEOUTVALUE,OffMode mode output value for pad gpmc_ncs6" "GPMC_NCS6_OFFMODEOUTVALUE_0,GPMC_NCS6_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x54 10. "GPMC_NCS6_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpmc_ncs6" "GPMC_NCS6_OFFMODEOUTENABLE_0,GPMC_NCS6_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x54 9. "GPMC_NCS6_OFFMODEENABLE,OffMode mode override control for pad gpmc_ncs6" "GPMC_NCS6_OFFMODEENABLE_0,GPMC_NCS6_OFFMODEENABLE_1"
newline
bitfld.long 0x54 8. "GPMC_NCS6_INPUTENABLE,Input enable value for pad gpmc_ncs6" "GPMC_NCS6_INPUTENABLE_0,GPMC_NCS6_INPUTENABLE_1"
newline
bitfld.long 0x54 4. "GPMC_NCS6_PULLTYPESELECT,pullup/down selection for pad gpmc_ncs6" "GPMC_NCS6_PULLTYPESELECT_0,GPMC_NCS6_PULLTYPESELECT_1"
newline
bitfld.long 0x54 3. "GPMC_NCS6_PULLUDENABLE,pullup/down enable for pad gpmc_ncs6" "GPMC_NCS6_PULLUDENABLE_0,GPMC_NCS6_PULLUDENABLE_1"
newline
bitfld.long 0x54 0.--2. "GPMC_NCS6_MUXMODE,Functional multiplexing selection for pad gpmc_ncs6" "GPMC_NCS6_MUXMODE_0,GPMC_NCS6_MUXMODE_1,GPMC_NCS6_MUXMODE_2,GPMC_NCS6_MUXMODE_3,GPMC_NCS6_MUXMODE_4,?,?,GPMC_NCS6_MUXMODE_7"
line.long 0x58 "CONTROL_CORE_PAD0_GPIO63_PAD1_GPIO64,Register control for Pads gpio63 and gpio64 Access conditions"
rbitfld.long 0x58 31. "GPIO64_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPIO64_WAKEUPEVENT_0_r,GPIO64_WAKEUPEVENT_1_r"
newline
bitfld.long 0x58 30. "GPIO64_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPIO64_WAKEUPENABLE_0,GPIO64_WAKEUPENABLE_1"
newline
bitfld.long 0x58 29. "GPIO64_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpio64" "GPIO64_OFFMODEPULLTYPESELECT_0,GPIO64_OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x58 28. "GPIO64_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpio64" "GPIO64_OFFMODEPULLUDENABLE_0,GPIO64_OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x58 27. "GPIO64_OFFMODEOUTVALUE,OffMode mode output value for pad gpio64" "GPIO64_OFFMODEOUTVALUE_0,GPIO64_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x58 26. "GPIO64_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpio64" "GPIO64_OFFMODEOUTENABLE_0,GPIO64_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x58 25. "GPIO64_OFFMODEENABLE,OffMode mode override control for pad gpio64" "GPIO64_OFFMODEENABLE_0,GPIO64_OFFMODEENABLE_1"
newline
bitfld.long 0x58 24. "GPIO64_INPUTENABLE,Input enable value for pad gpio64" "GPIO64_INPUTENABLE_0,GPIO64_INPUTENABLE_1"
newline
bitfld.long 0x58 20. "GPIO64_PULLTYPESELECT,pullup/down selection for pad gpio64" "GPIO64_PULLTYPESELECT_0,GPIO64_PULLTYPESELECT_1"
newline
bitfld.long 0x58 19. "GPIO64_PULLUDENABLE,pullup/down enable for pad gpio64" "GPIO64_PULLUDENABLE_0,GPIO64_PULLUDENABLE_1"
newline
bitfld.long 0x58 16.--18. "GPIO64_MUXMODE,Functional multiplexing selection for pad gpio64" "GPIO64_MUXMODE_0,?,?,GPIO64_MUXMODE_3,?,?,?,GPIO64_MUXMODE_7"
newline
rbitfld.long 0x58 15. "GPIO63_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPIO63_WAKEUPEVENT_0_r,GPIO63_WAKEUPEVENT_1_r"
newline
bitfld.long 0x58 14. "GPIO63_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPIO63_WAKEUPENABLE_0,GPIO63_WAKEUPENABLE_1"
newline
bitfld.long 0x58 13. "GPIO63_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpio63" "GPIO63_OFFMODEPULLTYPESELECT_0,GPIO63_OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x58 12. "GPIO63_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpio63" "GPIO63_OFFMODEPULLUDENABLE_0,GPIO63_OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x58 11. "GPIO63_OFFMODEOUTVALUE,OffMode mode output value for pad gpio63" "GPIO63_OFFMODEOUTVALUE_0,GPIO63_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x58 10. "GPIO63_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpio63" "GPIO63_OFFMODEOUTENABLE_0,GPIO63_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x58 9. "GPIO63_OFFMODEENABLE,OffMode mode override control for pad gpio63" "GPIO63_OFFMODEENABLE_0,GPIO63_OFFMODEENABLE_1"
newline
bitfld.long 0x58 8. "GPIO63_INPUTENABLE,Input enable value for pad gpio63" "GPIO63_INPUTENABLE_0,GPIO63_INPUTENABLE_1"
newline
bitfld.long 0x58 4. "GPIO63_PULLTYPESELECT,pullup/down selection for pad gpio63" "GPIO63_PULLTYPESELECT_0,GPIO63_PULLTYPESELECT_1"
newline
bitfld.long 0x58 3. "GPIO63_PULLUDENABLE,pullup/down enable for pad gpio63" "GPIO63_PULLUDENABLE_0,GPIO63_PULLUDENABLE_1"
newline
bitfld.long 0x58 0.--2. "GPIO63_MUXMODE,Functional multiplexing selection for pad gpio63" "GPIO63_MUXMODE_0,?,?,GPIO63_MUXMODE_3,?,?,?,GPIO63_MUXMODE_7"
line.long 0x5C "CONTROL_CORE_PAD0_GPIO65_PAD1_GPIO66,Register control for Pads gpio65 and gpio66 Access conditions"
rbitfld.long 0x5C 31. "GPIO66_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPIO66_WAKEUPEVENT_0_r,GPIO66_WAKEUPEVENT_1_r"
newline
bitfld.long 0x5C 30. "GPIO66_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPIO66_WAKEUPENABLE_0,GPIO66_WAKEUPENABLE_1"
newline
bitfld.long 0x5C 29. "GPIO66_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpio66" "GPIO66_OFFMODEPULLTYPESELECT_0,GPIO66_OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x5C 28. "GPIO66_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpio66" "GPIO66_OFFMODEPULLUDENABLE_0,GPIO66_OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x5C 27. "GPIO66_OFFMODEOUTVALUE,OffMode mode output value for pad gpio66" "GPIO66_OFFMODEOUTVALUE_0,GPIO66_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x5C 26. "GPIO66_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpio66" "GPIO66_OFFMODEOUTENABLE_0,GPIO66_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x5C 25. "GPIO66_OFFMODEENABLE,OffMode mode override control for pad gpio66" "GPIO66_OFFMODEENABLE_0,GPIO66_OFFMODEENABLE_1"
newline
bitfld.long 0x5C 24. "GPIO66_INPUTENABLE,Input enable value for pad gpio66" "GPIO66_INPUTENABLE_0,GPIO66_INPUTENABLE_1"
newline
bitfld.long 0x5C 20. "GPIO66_PULLTYPESELECT,pullup/down selection for pad gpio66" "GPIO66_PULLTYPESELECT_0,GPIO66_PULLTYPESELECT_1"
newline
bitfld.long 0x5C 19. "GPIO66_PULLUDENABLE,pullup/down enable for pad gpio66" "GPIO66_PULLUDENABLE_0,GPIO66_PULLUDENABLE_1"
newline
bitfld.long 0x5C 16.--18. "GPIO66_MUXMODE,Functional multiplexing selection for pad gpio66" "GPIO66_MUXMODE_0,?,?,GPIO66_MUXMODE_3,?,?,?,GPIO66_MUXMODE_7"
newline
rbitfld.long 0x5C 15. "GPIO65_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPIO65_WAKEUPEVENT_0_r,GPIO65_WAKEUPEVENT_1_r"
newline
bitfld.long 0x5C 14. "GPIO65_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPIO65_WAKEUPENABLE_0,GPIO65_WAKEUPENABLE_1"
newline
bitfld.long 0x5C 13. "GPIO65_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad gpio65" "GPIO65_OFFMODEPULLTYPESELECT_0,GPIO65_OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x5C 12. "GPIO65_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad gpio65" "GPIO65_OFFMODEPULLUDENABLE_0,GPIO65_OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x5C 11. "GPIO65_OFFMODEOUTVALUE,OffMode mode output value for pad GPIO65" "GPIO65_OFFMODEOUTVALUE_0,GPIO65_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x5C 10. "GPIO65_OFFMODEOUTENABLE,OffMode mode output enable value for pad gpio65" "GPIO65_OFFMODEOUTENABLE_0,GPIO65_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x5C 9. "GPIO65_OFFMODEENABLE,OffMode mode override control for pad gpio65" "GPIO65_OFFMODEENABLE_0,GPIO65_OFFMODEENABLE_1"
newline
bitfld.long 0x5C 8. "GPIO65_INPUTENABLE,Input enable value for pad gpio65" "GPIO65_INPUTENABLE_0,GPIO65_INPUTENABLE_1"
newline
bitfld.long 0x5C 4. "GPIO65_PULLTYPESELECT,pullup/down selection for pad gpio65" "GPIO65_PULLTYPESELECT_0,GPIO65_PULLTYPESELECT_1"
newline
bitfld.long 0x5C 3. "GPIO65_PULLUDENABLE,pullup/down enable for pad gpio65" "GPIO65_PULLUDENABLE_0,GPIO65_PULLUDENABLE_1"
newline
bitfld.long 0x5C 0.--2. "GPIO65_MUXMODE,Functional multiplexing selection for pad gpio65" "GPIO65_MUXMODE_0,?,?,GPIO65_MUXMODE_3,?,?,?,GPIO65_MUXMODE_7"
line.long 0x60 "CONTROL_CORE_PAD0_CSI21_DX0_PAD1_CSI21_DY0,Register control for Pads csi21_dx0 and csi21_dy0 Access conditions"
rbitfld.long 0x60 31. "CSI21_DY0_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "CSI21_DY0_WAKEUPEVENT_0_r,CSI21_DY0_WAKEUPEVENT_1_r"
newline
bitfld.long 0x60 30. "CSI21_DY0_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "CSI21_DY0_WAKEUPENABLE_0,CSI21_DY0_WAKEUPENABLE_1"
newline
bitfld.long 0x60 24. "CSI21_DY0_INPUTENABLE,Input enable value for pad csi21_dy0" "CSI21_DY0_INPUTENABLE_0,CSI21_DY0_INPUTENABLE_1"
newline
bitfld.long 0x60 20. "CSI21_DY0_PULLTYPESELECT,pullup/down selection for pad csi21_dy0" "CSI21_DY0_PULLTYPESELECT_0,CSI21_DY0_PULLTYPESELECT_1"
newline
bitfld.long 0x60 19. "CSI21_DY0_PULLUDENABLE,pullup/down enable for pad csi21_dy0" "CSI21_DY0_PULLUDENABLE_0,CSI21_DY0_PULLUDENABLE_1"
newline
bitfld.long 0x60 16.--18. "CSI21_DY0_MUXMODE,Functional multiplexing selection for pad csi21_dy0" "CSI21_DY0_MUXMODE_0,?,?,CSI21_DY0_MUXMODE_3,?,?,?,CSI21_DY0_MUXMODE_7"
newline
rbitfld.long 0x60 15. "CSI21_DX0_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "CSI21_DX0_WAKEUPEVENT_0_r,CSI21_DX0_WAKEUPEVENT_1_r"
newline
bitfld.long 0x60 14. "CSI21_DX0_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "CSI21_DX0_WAKEUPENABLE_0,CSI21_DX0_WAKEUPENABLE_1"
newline
bitfld.long 0x60 8. "CSI21_DX0_INPUTENABLE,Input enable value for pad csi21_dx0" "CSI21_DX0_INPUTENABLE_0,CSI21_DX0_INPUTENABLE_1"
newline
bitfld.long 0x60 4. "CSI21_DX0_PULLTYPESELECT,pullup/down selection for pad csi21_dx0" "CSI21_DX0_PULLTYPESELECT_0,CSI21_DX0_PULLTYPESELECT_1"
newline
bitfld.long 0x60 3. "CSI21_DX0_PULLUDENABLE,pullup/down enable for pad csi21_dx0" "CSI21_DX0_PULLUDENABLE_0,CSI21_DX0_PULLUDENABLE_1"
newline
bitfld.long 0x60 0.--2. "CSI21_DX0_MUXMODE,Functional multiplexing selection for pad csi21_dx0" "CSI21_DX0_MUXMODE_0,?,?,CSI21_DX0_MUXMODE_3,?,?,?,CSI21_DX0_MUXMODE_7"
line.long 0x64 "CONTROL_CORE_PAD0_CSI21_DX1_PAD1_CSI21_DY1,Register control for Pads csi21_dx1 and csi21_dy1 Access conditions"
rbitfld.long 0x64 31. "CSI21_DY1_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "CSI21_DY1_WAKEUPEVENT_0_r,CSI21_DY1_WAKEUPEVENT_1_r"
newline
bitfld.long 0x64 30. "CSI21_DY1_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "CSI21_DY1_WAKEUPENABLE_0,CSI21_DY1_WAKEUPENABLE_1"
newline
bitfld.long 0x64 24. "CSI21_DY1_INPUTENABLE,Input enable value for pad csi21_dy1" "CSI21_DY1_INPUTENABLE_0,CSI21_DY1_INPUTENABLE_1"
newline
bitfld.long 0x64 20. "CSI21_DY1_PULLTYPESELECT,pullup/down selection for pad csi21_dy1" "CSI21_DY1_PULLTYPESELECT_0,CSI21_DY1_PULLTYPESELECT_1"
newline
bitfld.long 0x64 19. "CSI21_DY1_PULLUDENABLE,pullup/down enable for pad csi21_dy1" "CSI21_DY1_PULLUDENABLE_0,CSI21_DY1_PULLUDENABLE_1"
newline
bitfld.long 0x64 16.--18. "CSI21_DY1_MUXMODE,Functional multiplexing selection for pad csi21_dy1" "CSI21_DY1_MUXMODE_0,?,?,CSI21_DY1_MUXMODE_3,?,?,?,CSI21_DY1_MUXMODE_7"
newline
rbitfld.long 0x64 15. "CSI21_DX1_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "CSI21_DX1_WAKEUPEVENT_0_r,CSI21_DX1_WAKEUPEVENT_1_r"
newline
bitfld.long 0x64 14. "CSI21_DX1_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "CSI21_DX1_WAKEUPENABLE_0,CSI21_DX1_WAKEUPENABLE_1"
newline
bitfld.long 0x64 8. "CSI21_DX1_INPUTENABLE,Input enable value for pad csi21_dx1" "CSI21_DX1_INPUTENABLE_0,CSI21_DX1_INPUTENABLE_1"
newline
bitfld.long 0x64 4. "CSI21_DX1_PULLTYPESELECT,pullup/down selection for pad csi21_dx1" "CSI21_DX1_PULLTYPESELECT_0,CSI21_DX1_PULLTYPESELECT_1"
newline
bitfld.long 0x64 3. "CSI21_DX1_PULLUDENABLE,pullup/down enable for pad csi21_dx1" "CSI21_DX1_PULLUDENABLE_0,CSI21_DX1_PULLUDENABLE_1"
newline
bitfld.long 0x64 0.--2. "CSI21_DX1_MUXMODE,Functional multiplexing selection for pad csi21_dx1" "CSI21_DX1_MUXMODE_0,?,?,CSI21_DX1_MUXMODE_3,?,?,?,CSI21_DX1_MUXMODE_7"
line.long 0x68 "CONTROL_CORE_PAD0_CSI21_DX2_PAD1_CSI21_DY2,Register control for Pads csi21_dx2 and csi21_dy2 Access conditions"
rbitfld.long 0x68 31. "CSI21_DY2_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "CSI21_DY2_WAKEUPEVENT_0_r,CSI21_DY2_WAKEUPEVENT_1_r"
newline
bitfld.long 0x68 30. "CSI21_DY2_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "CSI21_DY2_WAKEUPENABLE_0,CSI21_DY2_WAKEUPENABLE_1"
newline
bitfld.long 0x68 24. "CSI21_DY2_INPUTENABLE,Input enable value for pad csi21_dy2" "CSI21_DY2_INPUTENABLE_0,CSI21_DY2_INPUTENABLE_1"
newline
bitfld.long 0x68 20. "CSI21_DY2_PULLTYPESELECT,pullup/down selection for pad csi21_dy2" "CSI21_DY2_PULLTYPESELECT_0,CSI21_DY2_PULLTYPESELECT_1"
newline
bitfld.long 0x68 19. "CSI21_DY2_PULLUDENABLE,pullup/down enable for pad csi21_dy2" "CSI21_DY2_PULLUDENABLE_0,CSI21_DY2_PULLUDENABLE_1"
newline
bitfld.long 0x68 16.--18. "CSI21_DY2_MUXMODE,Functional multiplexing selection for pad csi21_dy2" "CSI21_DY2_MUXMODE_0,?,?,CSI21_DY2_MUXMODE_3,?,?,?,CSI21_DY2_MUXMODE_7"
newline
rbitfld.long 0x68 15. "CSI21_DX2_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "CSI21_DX2_WAKEUPEVENT_0_r,CSI21_DX2_WAKEUPEVENT_1_r"
newline
bitfld.long 0x68 14. "CSI21_DX2_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "CSI21_DX2_WAKEUPENABLE_0,CSI21_DX2_WAKEUPENABLE_1"
newline
bitfld.long 0x68 8. "CSI21_DX2_INPUTENABLE,Input enable value for pad csi21_dx2" "CSI21_DX2_INPUTENABLE_0,CSI21_DX2_INPUTENABLE_1"
newline
bitfld.long 0x68 4. "CSI21_DX2_PULLTYPESELECT,pullup/down selection for pad csi21_dx2" "CSI21_DX2_PULLTYPESELECT_0,CSI21_DX2_PULLTYPESELECT_1"
newline
bitfld.long 0x68 3. "CSI21_DX2_PULLUDENABLE,pullup/down enable for pad csi21_dx2" "CSI21_DX2_PULLUDENABLE_0,CSI21_DX2_PULLUDENABLE_1"
newline
bitfld.long 0x68 0.--2. "CSI21_DX2_MUXMODE,Functional multiplexing selection for pad csi21_dx2" "CSI21_DX2_MUXMODE_0,?,?,CSI21_DX2_MUXMODE_3,?,?,?,CSI21_DX2_MUXMODE_7"
line.long 0x6C "CONTROL_CORE_PAD0_CSI21_DX3_PAD1_CSI21_DY3,Register control for Pads csi21_dx3 and csi21_dy3 Access conditions"
rbitfld.long 0x6C 31. "CSI21_DY3_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "CSI21_DY3_WAKEUPEVENT_0_r,CSI21_DY3_WAKEUPEVENT_1_r"
newline
bitfld.long 0x6C 30. "CSI21_DY3_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "CSI21_DY3_WAKEUPENABLE_0,CSI21_DY3_WAKEUPENABLE_1"
newline
bitfld.long 0x6C 24. "CSI21_DY3_INPUTENABLE,Input enable value for pad csi21_dy3" "CSI21_DY3_INPUTENABLE_0,CSI21_DY3_INPUTENABLE_1"
newline
bitfld.long 0x6C 20. "CSI21_DY3_PULLTYPESELECT,pullup/down selection for pad csi21_dy3" "CSI21_DY3_PULLTYPESELECT_0,CSI21_DY3_PULLTYPESELECT_1"
newline
bitfld.long 0x6C 19. "CSI21_DY3_PULLUDENABLE,pullup/down enable for pad csi21_dy3" "CSI21_DY3_PULLUDENABLE_0,CSI21_DY3_PULLUDENABLE_1"
newline
bitfld.long 0x6C 16.--18. "CSI21_DY3_MUXMODE,Functional multiplexing selection for pad csi21_dy3" "CSI21_DY3_MUXMODE_0,CSI21_DY3_MUXMODE_1,?,CSI21_DY3_MUXMODE_3,?,?,?,CSI21_DY3_MUXMODE_7"
newline
rbitfld.long 0x6C 15. "CSI21_DX3_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "CSI21_DX3_WAKEUPEVENT_0_r,CSI21_DX3_WAKEUPEVENT_1_r"
newline
bitfld.long 0x6C 14. "CSI21_DX3_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "CSI21_DX3_WAKEUPENABLE_0,CSI21_DX3_WAKEUPENABLE_1"
newline
bitfld.long 0x6C 8. "CSI21_DX3_INPUTENABLE,Input enable value for pad csi21_dx3" "CSI21_DX3_INPUTENABLE_0,CSI21_DX3_INPUTENABLE_1"
newline
bitfld.long 0x6C 4. "CSI21_DX3_PULLTYPESELECT,pullup/down selection for pad csi21_dx3" "CSI21_DX3_PULLTYPESELECT_0,CSI21_DX3_PULLTYPESELECT_1"
newline
bitfld.long 0x6C 3. "CSI21_DX3_PULLUDENABLE,pullup/down enable for pad csi21_dx3" "CSI21_DX3_PULLUDENABLE_0,CSI21_DX3_PULLUDENABLE_1"
newline
bitfld.long 0x6C 0.--2. "CSI21_DX3_MUXMODE,Functional multiplexing selection for pad csi21_dx3" "CSI21_DX3_MUXMODE_0,CSI21_DX3_MUXMODE_1,?,CSI21_DX3_MUXMODE_3,?,?,?,CSI21_DX3_MUXMODE_7"
line.long 0x70 "CONTROL_CORE_PAD0_CSI21_DX4_PAD1_CSI21_DY4,Register control for Pads csi21_dx4 and csi21_dy4 Access conditions"
rbitfld.long 0x70 31. "CSI21_DY4_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "CSI21_DY4_WAKEUPEVENT_0_r,CSI21_DY4_WAKEUPEVENT_1_r"
newline
bitfld.long 0x70 30. "CSI21_DY4_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "CSI21_DY4_WAKEUPENABLE_0,CSI21_DY4_WAKEUPENABLE_1"
newline
bitfld.long 0x70 24. "CSI21_DY4_INPUTENABLE,Input enable value for pad csi21_dy4" "CSI21_DY4_INPUTENABLE_0,CSI21_DY4_INPUTENABLE_1"
newline
bitfld.long 0x70 20. "CSI21_DY4_PULLTYPESELECT,pullup/down selection for pad csi21_dy4" "CSI21_DY4_PULLTYPESELECT_0,CSI21_DY4_PULLTYPESELECT_1"
newline
bitfld.long 0x70 19. "CSI21_DY4_PULLUDENABLE,pullup/down enable for pad csi21_dy4" "CSI21_DY4_PULLUDENABLE_0,CSI21_DY4_PULLUDENABLE_1"
newline
bitfld.long 0x70 16.--18. "CSI21_DY4_MUXMODE,Functional multiplexing selection for pad csi21_dy4" "CSI21_DY4_MUXMODE_0,CSI21_DY4_MUXMODE_1,?,CSI21_DY4_MUXMODE_3,?,?,?,CSI21_DY4_MUXMODE_7"
newline
rbitfld.long 0x70 15. "CSI21_DX4_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "CSI21_DX4_WAKEUPEVENT_0_r,CSI21_DX4_WAKEUPEVENT_1_r"
newline
bitfld.long 0x70 14. "CSI21_DX4_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "CSI21_DX4_WAKEUPENABLE_0,CSI21_DX4_WAKEUPENABLE_1"
newline
bitfld.long 0x70 8. "CSI21_DX4_INPUTENABLE,Input enable value for pad csi21_dx4" "CSI21_DX4_INPUTENABLE_0,CSI21_DX4_INPUTENABLE_1"
newline
bitfld.long 0x70 4. "CSI21_DX4_PULLTYPESELECT,pullup/down selection for pad csi21_dx4" "CSI21_DX4_PULLTYPESELECT_0,CSI21_DX4_PULLTYPESELECT_1"
newline
bitfld.long 0x70 3. "CSI21_DX4_PULLUDENABLE,pullup/down enable for pad csi21_dx4" "CSI21_DX4_PULLUDENABLE_0,CSI21_DX4_PULLUDENABLE_1"
newline
bitfld.long 0x70 0.--2. "CSI21_DX4_MUXMODE,Functional multiplexing selection for pad csi21_dx4" "CSI21_DX4_MUXMODE_0,CSI21_DX4_MUXMODE_1,?,CSI21_DX4_MUXMODE_3,?,?,?,CSI21_DX4_MUXMODE_7"
line.long 0x74 "CONTROL_CORE_PAD0_CSI22_DX0_PAD1_CSI22_DY0,Register control for Pads csi22_dx0 and csi22_dy0 Access conditions"
rbitfld.long 0x74 31. "CSI22_DY0_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "CSI22_DY0_WAKEUPEVENT_0_r,CSI22_DY0_WAKEUPEVENT_1_r"
newline
bitfld.long 0x74 30. "CSI22_DY0_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "CSI22_DY0_WAKEUPENABLE_0,CSI22_DY0_WAKEUPENABLE_1"
newline
bitfld.long 0x74 24. "CSI22_DY0_INPUTENABLE,Input enable value for pad csi22_dy0" "CSI22_DY0_INPUTENABLE_0,CSI22_DY0_INPUTENABLE_1"
newline
bitfld.long 0x74 20. "CSI22_DY0_PULLTYPESELECT,pullup/down selection for pad csi22_dy0" "CSI22_DY0_PULLTYPESELECT_0,CSI22_DY0_PULLTYPESELECT_1"
newline
bitfld.long 0x74 19. "CSI22_DY0_PULLUDENABLE,pullup/down enable for pad csi22_dy0" "CSI22_DY0_PULLUDENABLE_0,CSI22_DY0_PULLUDENABLE_1"
newline
bitfld.long 0x74 16.--18. "CSI22_DY0_MUXMODE,Functional multiplexing selection for pad csi22_dy0" "CSI22_DY0_MUXMODE_0,CSI22_DY0_MUXMODE_1,CSI22_DY0_MUXMODE_2,CSI22_DY0_MUXMODE_3,?,?,?,CSI22_DY0_MUXMODE_7"
newline
rbitfld.long 0x74 15. "CSI22_DX0_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "CSI22_DX0_WAKEUPEVENT_0_r,CSI22_DX0_WAKEUPEVENT_1_r"
newline
bitfld.long 0x74 14. "CSI22_DX0_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "CSI22_DX0_WAKEUPENABLE_0,CSI22_DX0_WAKEUPENABLE_1"
newline
bitfld.long 0x74 8. "CSI22_DX0_INPUTENABLE,Input enable value for pad csi22_dx0" "CSI22_DX0_INPUTENABLE_0,CSI22_DX0_INPUTENABLE_1"
newline
bitfld.long 0x74 4. "CSI22_DX0_PULLTYPESELECT,pullup/down selection for pad csi22_dx0" "CSI22_DX0_PULLTYPESELECT_0,CSI22_DX0_PULLTYPESELECT_1"
newline
bitfld.long 0x74 3. "CSI22_DX0_PULLUDENABLE,pullup/down enable for pad csi22_dx0" "CSI22_DX0_PULLUDENABLE_0,CSI22_DX0_PULLUDENABLE_1"
newline
bitfld.long 0x74 0.--2. "CSI22_DX0_MUXMODE,Functional multiplexing selection for pad csi22_dx0" "CSI22_DX0_MUXMODE_0,CSI22_DX0_MUXMODE_1,CSI22_DX0_MUXMODE_2,CSI22_DX0_MUXMODE_3,?,?,?,CSI22_DX0_MUXMODE_7"
line.long 0x78 "CONTROL_CORE_PAD0_CSI22_DX1_PAD1_CSI22_DY1,Register control for Pads csi22_dx1 and csi22_dy1 Access conditions"
rbitfld.long 0x78 31. "CSI22_DY1_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "CSI22_DY1_WAKEUPEVENT_0_r,CSI22_DY1_WAKEUPEVENT_1_r"
newline
bitfld.long 0x78 30. "CSI22_DY1_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "CSI22_DY1_WAKEUPENABLE_0,CSI22_DY1_WAKEUPENABLE_1"
newline
bitfld.long 0x78 24. "CSI22_DY1_INPUTENABLE,Input enable value for pad csi22_dy1" "CSI22_DY1_INPUTENABLE_0,CSI22_DY1_INPUTENABLE_1"
newline
bitfld.long 0x78 20. "CSI22_DY1_PULLTYPESELECT,pullup/down selection for pad csi22_dy1" "CSI22_DY1_PULLTYPESELECT_0,CSI22_DY1_PULLTYPESELECT_1"
newline
bitfld.long 0x78 19. "CSI22_DY1_PULLUDENABLE,pullup/down enable for pad csi22_dy1" "CSI22_DY1_PULLUDENABLE_0,CSI22_DY1_PULLUDENABLE_1"
newline
bitfld.long 0x78 16.--18. "CSI22_DY1_MUXMODE,Functional multiplexing selection for pad csi22_dy1" "CSI22_DY1_MUXMODE_0,CSI22_DY1_MUXMODE_1,CSI22_DY1_MUXMODE_2,CSI22_DY1_MUXMODE_3,?,?,?,CSI22_DY1_MUXMODE_7"
newline
rbitfld.long 0x78 15. "CSI22_DX1_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "CSI22_DX1_WAKEUPEVENT_0_r,CSI22_DX1_WAKEUPEVENT_1_r"
newline
bitfld.long 0x78 14. "CSI22_DX1_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "CSI22_DX1_WAKEUPENABLE_0,CSI22_DX1_WAKEUPENABLE_1"
newline
bitfld.long 0x78 8. "CSI22_DX1_INPUTENABLE,Input enable value for pad csi22_dx1" "CSI22_DX1_INPUTENABLE_0,CSI22_DX1_INPUTENABLE_1"
newline
bitfld.long 0x78 4. "CSI22_DX1_PULLTYPESELECT,pullup/down selection for pad csi22_dx1" "CSI22_DX1_PULLTYPESELECT_0,CSI22_DX1_PULLTYPESELECT_1"
newline
bitfld.long 0x78 3. "CSI22_DX1_PULLUDENABLE,pullup/down enable for pad csi22_dx1" "CSI22_DX1_PULLUDENABLE_0,CSI22_DX1_PULLUDENABLE_1"
newline
bitfld.long 0x78 0.--2. "CSI22_DX1_MUXMODE,Functional multiplexing selection for pad csi22_dx1" "CSI22_DX1_MUXMODE_0,CSI22_DX1_MUXMODE_1,CSI22_DX1_MUXMODE_2,CSI22_DX1_MUXMODE_3,?,?,?,CSI22_DX1_MUXMODE_7"
line.long 0x7C "CONTROL_CORE_PAD0_CAM_SHUTTER_PAD1_CAM_STROBE,Register control for Pads cam_shutter and cam_strobe Access conditions"
rbitfld.long 0x7C 31. "CAM_STROBE_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "CAM_STROBE_WAKEUPEVENT_0_r,CAM_STROBE_WAKEUPEVENT_1_r"
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bitfld.long 0x7C 30. "CAM_STROBE_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "CAM_STROBE_WAKEUPENABLE_0,CAM_STROBE_WAKEUPENABLE_1"
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bitfld.long 0x7C 29. "CAM_STROBE_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad cam_strobe" "CAM_STROBE_ OFFMODEPULLTYPESELECT_0,CAM_STROBE_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x7C 28. "CAM_STROBE_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad cam_strobe" "CAM_STROBE_ OFFMODEPULLUDENABLE_0,CAM_STROBE_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0x7C 27. "CAM_STROBE_OFFMODEOUTVALUE,OffMode mode output value for pad cam_strobe" "CAM_STROBE_OFFMODEOUTVALUE_0,CAM_STROBE_OFFMODEOUTVALUE_1"
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bitfld.long 0x7C 26. "CAM_STROBE_OFFMODEOUTENABLE,OffMode mode output enable value for pad cam_strobe" "CAM_STROBE_OFFMODEOUTENABLE_0,CAM_STROBE_OFFMODEOUTENABLE_1"
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bitfld.long 0x7C 25. "CAM_STROBE_OFFMODEENABLE,OffMode mode override control for pad cam_strobe" "CAM_STROBE_OFFMODEENABLE_0,CAM_STROBE_OFFMODEENABLE_1"
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bitfld.long 0x7C 24. "CAM_STROBE_INPUTENABLE,Input enable value for pad cam_strobe" "CAM_STROBE_INPUTENABLE_0,CAM_STROBE_INPUTENABLE_1"
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bitfld.long 0x7C 20. "CAM_STROBE_PULLTYPESELECT,pullup/down selection for pad cam_strobe" "CAM_STROBE_PULLTYPESELECT_0,CAM_STROBE_PULLTYPESELECT_1"
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bitfld.long 0x7C 19. "CAM_STROBE_PULLUDENABLE,pullup/down enable for pad cam_strobe" "CAM_STROBE_PULLUDENABLE_0,CAM_STROBE_PULLUDENABLE_1"
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bitfld.long 0x7C 16.--18. "CAM_STROBE_MUXMODE,Functional multiplexing selection for pad cam_strobe" "CAM_STROBE_MUXMODE_0,?,CAM_STROBE_MUXMODE_2,CAM_STROBE_MUXMODE_3,?,?,?,CAM_STROBE_MUXMODE_7"
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rbitfld.long 0x7C 15. "CAM_SHUTTER_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "CAM_SHUTTER_WAKEUPEVENT_0_r,CAM_SHUTTER_WAKEUPEVENT_1_r"
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bitfld.long 0x7C 14. "CAM_SHUTTER_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "CAM_SHUTTER_WAKEUPENABLE_0,CAM_SHUTTER_WAKEUPENABLE_1"
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bitfld.long 0x7C 13. "CAM_SHUTTER_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad" "CAM_SHUTTER_ OFFMODEPULLTYPESELECT_0,CAM_SHUTTER_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x7C 12. "CAM_SHUTTER_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad" "CAM_SHUTTER_ OFFMODEPULLUDENABLE_0,CAM_SHUTTER_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0x7C 11. "CAM_SHUTTER_ OFFMODEOUTVALUE,OffMode mode output value for pad" "CAM_SHUTTER_ OFFMODEOUTVALUE_0,CAM_SHUTTER_ OFFMODEOUTVALUE_1"
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bitfld.long 0x7C 10. "CAM_SHUTTER_ OFFMODEOUTENABLE,OffMode mode output enable value for pad cam_shutter" "CAM_SHUTTER_ OFFMODEOUTENABLE_0,CAM_SHUTTER_ OFFMODEOUTENABLE_1"
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bitfld.long 0x7C 9. "CAM_SHUTTER_ OFFMODEENABLE,OffMode mode override control for pad" "CAM_SHUTTER_ OFFMODEENABLE_0,CAM_SHUTTER_ OFFMODEENABLE_1"
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bitfld.long 0x7C 8. "CAM_SHUTTER_INPUTENABLE,Input enable value for pad" "CAM_SHUTTER_INPUTENABLE_0,CAM_SHUTTER_INPUTENABLE_1"
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bitfld.long 0x7C 4. "CAM_SHUTTER_ PULLTYPESELECT,pullup/down selection for pad" "CAM_SHUTTER_ PULLTYPESELECT_0,CAM_SHUTTER_ PULLTYPESELECT_1"
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bitfld.long 0x7C 3. "CAM_SHUTTER_ PULLUDENABLE,pullup/down enable for pad" "CAM_SHUTTER_ PULLUDENABLE_0,CAM_SHUTTER_ PULLUDENABLE_1"
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bitfld.long 0x7C 0.--2. "CAM_SHUTTER_ MUXMODE,Functional multiplexing selection for pad" "CAM_SHUTTER_ MUXMODE_0,?,CAM_SHUTTER_ MUXMODE_2,CAM_SHUTTER_ MUXMODE_3,?,?,?,CAM_SHUTTER_ MUXMODE_7"
line.long 0x80 "CONTROL_CORE_PAD0_CAM_GLOBALRESET_PAD1_USBB1_ULPITLL_CLK,Register control for Pads cam_globalreset and usbb1_ulpitll_clk Access conditions"
rbitfld.long 0x80 31. "USBB1_ULPITLL_CLK_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "USBB1_ULPITLL_CLK_WAKEUPEVENT_0_r,USBB1_ULPITLL_CLK_WAKEUPEVENT_1_r"
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bitfld.long 0x80 30. "USBB1_ULPITLL_CLK_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "USBB1_ULPITLL_CLK_WAKEUPENABLE_0,USBB1_ULPITLL_CLK_WAKEUPENABLE_1"
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bitfld.long 0x80 29. "USBB1_ULPITLL_CLK_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad usbb1_ulpitll_clk" "USBB1_ULPITLL_CLK_ OFFMODEPULLTYPESELECT_0,USBB1_ULPITLL_CLK_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x80 28. "USBB1_ULPITLL_CLK_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad usbb1_ulpitll_clk" "USBB1_ULPITLL_CLK_ OFFMODEPULLUDENABLE_0,USBB1_ULPITLL_CLK_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0x80 27. "USBB1_ULPITLL_CLK_ OFFMODEOUTVALUE,OffMode mode output value for pad usbb1_ulpitll_clk" "USBB1_ULPITLL_CLK_ OFFMODEOUTVALUE_0,USBB1_ULPITLL_CLK_ OFFMODEOUTVALUE_1"
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bitfld.long 0x80 26. "USBB1_ULPITLL_CLK_ OFFMODEOUTENABLE,OffMode mode output enable value for pad usbb1_ulpitll_clk" "USBB1_ULPITLL_CLK_ OFFMODEOUTENABLE_0,USBB1_ULPITLL_CLK_ OFFMODEOUTENABLE_1"
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bitfld.long 0x80 25. "USBB1_ULPITLL_CLK_ OFFMODEENABLE,OffMode mode override control for pad usbb1_ulpitll_clk" "USBB1_ULPITLL_CLK_ OFFMODEENABLE_0,USBB1_ULPITLL_CLK_ OFFMODEENABLE_1"
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bitfld.long 0x80 24. "USBB1_ULPITLL_CLK_ INPUTENABLE,Input enable value for pad usbb1_ulpitll_clk" "USBB1_ULPITLL_CLK_ INPUTENABLE_0,USBB1_ULPITLL_CLK_ INPUTENABLE_1"
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bitfld.long 0x80 20. "USBB1_ULPITLL_CLK_ PULLTYPESELECT,pullup/down selection for pad usbb1_ulpitll_clk" "USBB1_ULPITLL_CLK_ PULLTYPESELECT_0,USBB1_ULPITLL_CLK_ PULLTYPESELECT_1"
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bitfld.long 0x80 19. "USBB1_ULPITLL_CLK_ PULLUDENABLE,pullup/down enable for pad usbb1_ulpitll_clk" "USBB1_ULPITLL_CLK_ PULLUDENABLE_0,USBB1_ULPITLL_CLK_ PULLUDENABLE_1"
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bitfld.long 0x80 16.--18. "USBB1_ULPITLL_CLK_ MUXMODE,Functional multiplexing selection for pad usbb1_ulpitll_clk" "USBB1_ULPITLL_CLK_ MUXMODE_0,USBB1_ULPITLL_CLK_ MUXMODE_1,?,USBB1_ULPITLL_CLK_ MUXMODE_3,USBB1_ULPITLL_CLK_ MUXMODE_4,?,USBB1_ULPITLL_CLK_ MUXMODE_6,USBB1_ULPITLL_CLK_ MUXMODE_7"
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rbitfld.long 0x80 15. "CAM_GLOBALRESET_ WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "CAM_GLOBALRESET_ WAKEUPEVENT_0_r,CAM_GLOBALRESET_ WAKEUPEVENT_1_r"
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bitfld.long 0x80 14. "CAM_GLOBALRESET_ WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "CAM_GLOBALRESET_ WAKEUPENABLE_0,CAM_GLOBALRESET_ WAKEUPENABLE_1"
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bitfld.long 0x80 13. "CAM_GLOBALRESET_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad cam_globalreset" "CAM_GLOBALRESET_ OFFMODEPULLTYPESELECT_0,CAM_GLOBALRESET_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x80 12. "CAM_GLOBALRESET_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad cam_globalreset" "CAM_GLOBALRESET_ OFFMODEPULLUDENABLE_0,CAM_GLOBALRESET_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0x80 11. "CAM_GLOBALRESET_ OFFMODEOUTVALUE,OffMode mode output value for pad cam_globalreset" "CAM_GLOBALRESET_ OFFMODEOUTVALUE_0,CAM_GLOBALRESET_ OFFMODEOUTVALUE_1"
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bitfld.long 0x80 10. "CAM_GLOBALRESET_ OFFMODEOUTENABLE,OffMode mode output enable value for pad cam_globalreset" "CAM_GLOBALRESET_ OFFMODEOUTENABLE_0,CAM_GLOBALRESET_ OFFMODEOUTENABLE_1"
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bitfld.long 0x80 9. "CAM_GLOBALRESET_ OFFMODEENABLE,OffMode mode override control for pad cam_globalreset" "CAM_GLOBALRESET_ OFFMODEENABLE_0,CAM_GLOBALRESET_ OFFMODEENABLE_1"
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bitfld.long 0x80 8. "CAM_GLOBALRESET_ INPUTENABLE,Input enable value for pad cam_globalreset" "CAM_GLOBALRESET_ INPUTENABLE_0,CAM_GLOBALRESET_ INPUTENABLE_1"
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bitfld.long 0x80 4. "CAM_GLOBALRESET_ PULLTYPESELECT,pullup/down selection for pad cam_globalreset" "CAM_GLOBALRESET_ PULLTYPESELECT_0,CAM_GLOBALRESET_ PULLTYPESELECT_1"
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bitfld.long 0x80 3. "CAM_GLOBALRESET_ PULLUDENABLE,pullup/down enable for pad cam_globalreset" "CAM_GLOBALRESET_ PULLUDENABLE_0,CAM_GLOBALRESET_ PULLUDENABLE_1"
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bitfld.long 0x80 0.--2. "CAM_GLOBALRESET_ MUXMODE,Functional multiplexing selection for pad cam_globalreset" "CAM_GLOBALRESET_ MUXMODE_0,?,CAM_GLOBALRESET_ MUXMODE_2,CAM_GLOBALRESET_ MUXMODE_3,?,?,?,CAM_GLOBALRESET_ MUXMODE_7"
line.long 0x84 "CONTROL_CORE_PAD0_USBB1_ULPITLL_STP_PAD1_USBB1_ULPITLL_DIR,Register control for Pads usbb1_ulpitll_stp and usbb1_ulpitll_dir Access conditions"
rbitfld.long 0x84 31. "USBB1_ULPITLL_ DIR_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "USBB1_ULPITLL_ DIR_WAKEUPEVENT_0_r,USBB1_ULPITLL_ DIR_WAKEUPEVENT_1_r"
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bitfld.long 0x84 30. "USBB1_ULPITLL_ DIR_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "USBB1_ULPITLL_ DIR_WAKEUPENABLE_0,USBB1_ULPITLL_ DIR_WAKEUPENABLE_1"
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bitfld.long 0x84 29. "USBB1_ULPITLL_DIR_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad usbb1_ulpitll_dir" "USBB1_ULPITLL_DIR_OFFMODEPULLTYPESELECT_0,USBB1_ULPITLL_DIR_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x84 28. "USBB1_ULPITLL_DIR_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad usbb1_ulpitll_dir" "USBB1_ULPITLL_DIR_OFFMODEPULLUDENABLE_0,USBB1_ULPITLL_DIR_OFFMODEPULLUDENABLE_1"
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bitfld.long 0x84 27. "USBB1_ULPITLL_DIR_OFFMODEOUTVALUE,OffMode mode output value for pad usbb1_ulpitll_dir" "USBB1_ULPITLL_DIR_OFFMODEOUTVALUE_0,USBB1_ULPITLL_DIR_OFFMODEOUTVALUE_1"
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bitfld.long 0x84 26. "USBB1_ULPITLL_DIR_OFFMODEOUTENABLE,OffMode mode output enable value for pad usbb1_ulpitll_dir" "USBB1_ULPITLL_DIR_OFFMODEOUTENABLE_0,USBB1_ULPITLL_DIR_OFFMODEOUTENABLE_1"
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bitfld.long 0x84 25. "USBB1_ULPITLL_DIR_OFFMODEENABLE,OffMode mode override control for pad usbb1_ulpitll_dir" "USBB1_ULPITLL_DIR_OFFMODEENABLE_0,USBB1_ULPITLL_DIR_OFFMODEENABLE_1"
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bitfld.long 0x84 24. "USBB1_ULPITLL_ DIR_INPUTENABLE,Input enable value for pad usbb1_ulpitll_dir" "USBB1_ULPITLL_ DIR_INPUTENABLE_0,USBB1_ULPITLL_ DIR_INPUTENABLE_1"
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bitfld.long 0x84 20. "USBB1_ULPITLL_ DIR_PULLTYPESELECT,pullup/down selection for pad usbb1_ulpitll_dir" "USBB1_ULPITLL_ DIR_PULLTYPESELECT_0,USBB1_ULPITLL_ DIR_PULLTYPESELECT_1"
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bitfld.long 0x84 19. "USBB1_ULPITLL_ DIR_PULLUDENABLE,pullup/down enable for pad usbb1_ulpitll_dir" "USBB1_ULPITLL_ DIR_PULLUDENABLE_0,USBB1_ULPITLL_ DIR_PULLUDENABLE_1"
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bitfld.long 0x84 16.--18. "USBB1_ULPITLL_ DIR_MUXMODE,Functional multiplexing selection for pad usbb1_ulpitll_dir" "USBB1_ULPITLL_ DIR_MUXMODE_0,USBB1_ULPITLL_ DIR_MUXMODE_1,USBB1_ULPITLL_ DIR_MUXMODE_2,USBB1_ULPITLL_ DIR_MUXMODE_3,USBB1_ULPITLL_ DIR_MUXMODE_4,?,USBB1_ULPITLL_ DIR_MUXMODE_6,USBB1_ULPITLL_ DIR_MUXMODE_7"
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rbitfld.long 0x84 15. "USBB1_ULPITLL_ STP_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "USBB1_ULPITLL_ STP_WAKEUPEVENT_0_r,USBB1_ULPITLL_ STP_WAKEUPEVENT_1_r"
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bitfld.long 0x84 14. "USBB1_ULPITLL_ STP_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "USBB1_ULPITLL_ STP_WAKEUPENABLE_0,USBB1_ULPITLL_ STP_WAKEUPENABLE_1"
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bitfld.long 0x84 13. "USBB1_ULPITLL_ STP_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad usbb1_ulpitll_stp" "USBB1_ULPITLL_ STP_OFFMODEPULLTYPESELECT_0,USBB1_ULPITLL_ STP_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x84 12. "USBB1_ULPITLL_ STP_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad usbb1_ulpitll_stp" "USBB1_ULPITLL_ STP_OFFMODEPULLUDENABLE_0,USBB1_ULPITLL_ STP_OFFMODEPULLUDENABLE_1"
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bitfld.long 0x84 11. "USBB1_ULPITLL_ STP_OFFMODEOUTVALUE,OffMode mode output value for pad usbb1_ulpitll_stp" "USBB1_ULPITLL_ STP_OFFMODEOUTVALUE_0,USBB1_ULPITLL_ STP_OFFMODEOUTVALUE_1"
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bitfld.long 0x84 10. "USBB1_ULPITLL_ STP_OFFMODEOUTENABLE,OffMode mode output enable value for pad usbb1_ulpitll_stp" "USBB1_ULPITLL_ STP_OFFMODEOUTENABLE_0,USBB1_ULPITLL_ STP_OFFMODEOUTENABLE_1"
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bitfld.long 0x84 9. "USBB1_ULPITLL_ STP_OFFMODEENABLE,OffMode mode override control for pad usbb1_ulpitll_stp" "USBB1_ULPITLL_ STP_OFFMODEENABLE_0,USBB1_ULPITLL_ STP_OFFMODEENABLE_1"
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bitfld.long 0x84 8. "USBB1_ULPITLL_ STP_INPUTENABLE,Input enable value for pad usbb1_ulpitll_stp" "USBB1_ULPITLL_ STP_INPUTENABLE_0,USBB1_ULPITLL_ STP_INPUTENABLE_1"
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bitfld.long 0x84 4. "USBB1_ULPITLL_ STP_PULLTYPESELECT,pullup/down selection for pad usbb1_ulpitll_stp" "USBB1_ULPITLL_ STP_PULLTYPESELECT_0,USBB1_ULPITLL_ STP_PULLTYPESELECT_1"
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bitfld.long 0x84 3. "USBB1_ULPITLL_ STP_PULLUDENABLE,pullup/down enable for pad usbb1_ulpitll_stp" "USBB1_ULPITLL_ STP_PULLUDENABLE_0,USBB1_ULPITLL_ STP_PULLUDENABLE_1"
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bitfld.long 0x84 0.--2. "USBB1_ULPITLL_ STP_MUXMODE,Functional multiplexing selection for pad usbb1_ulpitll_stp" "USBB1_ULPITLL_ STP_MUXMODE_0,USBB1_ULPITLL_ STP_MUXMODE_1,USBB1_ULPITLL_ STP_MUXMODE_2,USBB1_ULPITLL_ STP_MUXMODE_3,USBB1_ULPITLL_ STP_MUXMODE_4,USBB1_ULPITLL_ STP_MUXMODE_5,USBB1_ULPITLL_ STP_MUXMODE_6,USBB1_ULPITLL_ STP_MUXMODE_7"
line.long 0x88 "CONTROL_CORE_PAD0_USBB1_ULPITLL_NXT_PAD1_USBB1_ULPITLL_DAT0,Register control for Pads usbb1_ulpitll_nxt and usbb1_ulpitll_dat0 Access conditions"
rbitfld.long 0x88 31. "USBB1_ULPITLL_ DAT0_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "USBB1_ULPITLL_ DAT0_WAKEUPEVENT_0_r,USBB1_ULPITLL_ DAT0_WAKEUPEVENT_1_r"
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bitfld.long 0x88 30. "USBB1_ULPITLL_ DAT0_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "USBB1_ULPITLL_ DAT0_WAKEUPENABLE_0,USBB1_ULPITLL_ DAT0_WAKEUPENABLE_1"
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bitfld.long 0x88 29. "USBB1_ULPITLL_DAT0_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad usbb1_ulpitll_dat0" "USBB1_ULPITLL_DAT0_OFFMODEPULLTYPESELECT_0,USBB1_ULPITLL_DAT0_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x88 28. "USBB1_ULPITLL_DAT0_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad usbb1_ulpitll_dat0" "USBB1_ULPITLL_DAT0_OFFMODEPULLUDENABLE_0,USBB1_ULPITLL_DAT0_OFFMODEPULLUDENABLE_1"
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bitfld.long 0x88 27. "USBB1_ULPITLL_ DAT0_OFFMODEOUTVALUE,OffMode mode output value for pad usbb1_ulpitll_dat0" "USBB1_ULPITLL_ DAT0_OFFMODEOUTVALUE_0,USBB1_ULPITLL_ DAT0_OFFMODEOUTVALUE_1"
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bitfld.long 0x88 26. "USBB1_ULPITLL_ DAT0_OFFMODEOUTENABLE,OffMode mode output enable value for pad usbb1_ulpitll_dat0" "USBB1_ULPITLL_ DAT0_OFFMODEOUTENABLE_0,USBB1_ULPITLL_ DAT0_OFFMODEOUTENABLE_1"
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bitfld.long 0x88 25. "USBB1_ULPITLL_ DAT0_OFFMODEENABLE,OffMode mode override control for pad usbb1_ulpitll_dat0" "USBB1_ULPITLL_ DAT0_OFFMODEENABLE_0,USBB1_ULPITLL_ DAT0_OFFMODEENABLE_1"
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bitfld.long 0x88 24. "USBB1_ULPITLL_ DAT0_INPUTENABLE,Input enable value for pad usbb1_ulpitll_dat0" "USBB1_ULPITLL_ DAT0_INPUTENABLE_0,USBB1_ULPITLL_ DAT0_INPUTENABLE_1"
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bitfld.long 0x88 20. "USBB1_ULPITLL_ DAT0_PULLTYPESELECT,pullup/down selection for pad usbb1_ulpitll_dat0" "USBB1_ULPITLL_ DAT0_PULLTYPESELECT_0,USBB1_ULPITLL_ DAT0_PULLTYPESELECT_1"
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bitfld.long 0x88 19. "USBB1_ULPITLL_ DAT0_PULLUDENABLE,pullup/down enable for pad usbb1_ulpitll_dat0" "USBB1_ULPITLL_ DAT0_PULLUDENABLE_0,USBB1_ULPITLL_ DAT0_PULLUDENABLE_1"
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bitfld.long 0x88 16.--18. "USBB1_ULPITLL_ DAT0_MUXMODE,Functional multiplexing selection for pad usbb1_ulpitll_dat0" "USBB1_ULPITLL_ DAT0_MUXMODE_0,USBB1_ULPITLL_ DAT0_MUXMODE_1,USBB1_ULPITLL_ DAT0_MUXMODE_2,USBB1_ULPITLL_ DAT0_MUXMODE_3,USBB1_ULPITLL_ DAT0_MUXMODE_4,USBB1_ULPITLL_ DAT0_MUXMODE_5,USBB1_ULPITLL_ DAT0_MUXMODE_6,USBB1_ULPITLL_ DAT0_MUXMODE_7"
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rbitfld.long 0x88 15. "USBB1_ULPITLL_ NXT_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "USBB1_ULPITLL_ NXT_WAKEUPEVENT_0_r,USBB1_ULPITLL_ NXT_WAKEUPEVENT_1_r"
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bitfld.long 0x88 14. "USBB1_ULPITLL_ NXT_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "USBB1_ULPITLL_ NXT_WAKEUPENABLE_0,USBB1_ULPITLL_ NXT_WAKEUPENABLE_1"
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bitfld.long 0x88 13. "USBB1_ULPITLL_ NXT_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad usbb1_ulpitll_nxt" "USBB1_ULPITLL_ NXT_OFFMODEPULLTYPESELECT_0,USBB1_ULPITLL_ NXT_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x88 12. "USBB1_ULPITLL_ NXT_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad usbb1_ulpitll_nxt" "USBB1_ULPITLL_ NXT_OFFMODEPULLUDENABLE_0,USBB1_ULPITLL_ NXT_OFFMODEPULLUDENABLE_1"
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bitfld.long 0x88 11. "USBB1_ULPITLL_ NXT_OFFMODEOUTVALUE,OffMode mode output value for pad usbb1_ulpitll_nxt" "USBB1_ULPITLL_ NXT_OFFMODEOUTVALUE_0,USBB1_ULPITLL_ NXT_OFFMODEOUTVALUE_1"
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bitfld.long 0x88 10. "USBB1_ULPITLL_ NXT_OFFMODEOUTENABLE,OffMode mode output enable value for pad usbb1_ulpitll_nxt" "USBB1_ULPITLL_ NXT_OFFMODEOUTENABLE_0,USBB1_ULPITLL_ NXT_OFFMODEOUTENABLE_1"
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bitfld.long 0x88 9. "USBB1_ULPITLL_ NXT_OFFMODEENABLE,OffMode mode override control for pad usbb1_ulpitll_nxt" "USBB1_ULPITLL_ NXT_OFFMODEENABLE_0,USBB1_ULPITLL_ NXT_OFFMODEENABLE_1"
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bitfld.long 0x88 8. "USBB1_ULPITLL_ NXT_INPUTENABLE,Input enable value for pad usbb1_ulpitll_nxt" "USBB1_ULPITLL_ NXT_INPUTENABLE_0,USBB1_ULPITLL_ NXT_INPUTENABLE_1"
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bitfld.long 0x88 4. "USBB1_ULPITLL_ NXT_PULLTYPESELECT,pullup/down selection for pad usbb1_ulpitll_nxt" "USBB1_ULPITLL_ NXT_PULLTYPESELECT_0,USBB1_ULPITLL_ NXT_PULLTYPESELECT_1"
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bitfld.long 0x88 3. "USBB1_ULPITLL_ NXT_PULLUDENABLE,pullup/down enable for pad usbb1_ulpitll_nxt" "USBB1_ULPITLL_ NXT_PULLUDENABLE_0,USBB1_ULPITLL_ NXT_PULLUDENABLE_1"
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bitfld.long 0x88 0.--2. "USBB1_ULPITLL_ NXT_MUXMODE,Functional multiplexing selection for pad usbb1_ulpitll_nxt" "USBB1_ULPITLL_ NXT_MUXMODE_0,USBB1_ULPITLL_ NXT_MUXMODE_1,USBB1_ULPITLL_ NXT_MUXMODE_2,USBB1_ULPITLL_ NXT_MUXMODE_3,USBB1_ULPITLL_ NXT_MUXMODE_4,USBB1_ULPITLL_ NXT_MUXMODE_5,USBB1_ULPITLL_ NXT_MUXMODE_6,USBB1_ULPITLL_ NXT_MUXMODE_7"
line.long 0x8C "CONTROL_CORE_PAD0_USBB1_ULPITLL_DAT1_PAD1_USBB1_ULPITLL_DAT2,Register control for Pads usbb1_ulpitll_dat1 and usbb1_ulpitll_dat2 Access conditions"
rbitfld.long 0x8C 31. "USBB1_ULPITLL_ DAT2_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "USBB1_ULPITLL_ DAT2_WAKEUPEVENT_0_r,USBB1_ULPITLL_ DAT2_WAKEUPEVENT_1_r"
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bitfld.long 0x8C 30. "USBB1_ULPITLL_ DAT2_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "USBB1_ULPITLL_ DAT2_WAKEUPENABLE_0,USBB1_ULPITLL_ DAT2_WAKEUPENABLE_1"
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bitfld.long 0x8C 29. "USBB1_ULPITLL_ DAT2_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad usbb1_ulpitll_dat2" "USBB1_ULPITLL_ DAT2_OFFMODEPULLTYPESELECT_0,USBB1_ULPITLL_ DAT2_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x8C 28. "USBB1_ULPITLL_ DAT2_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad usbb1_ulpitll_dat2" "USBB1_ULPITLL_ DAT2_OFFMODEPULLUDENABLE_0,USBB1_ULPITLL_ DAT2_OFFMODEPULLUDENABLE_1"
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bitfld.long 0x8C 27. "USBB1_ULPITLL_ DAT2_OFFMODEOUTVALUE,OffMode mode output value for pad usbb1_ulpitll_dat2" "USBB1_ULPITLL_ DAT2_OFFMODEOUTVALUE_0,USBB1_ULPITLL_ DAT2_OFFMODEOUTVALUE_1"
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bitfld.long 0x8C 26. "USBB1_ULPITLL_ DAT2_OFFMODEOUTENABLE,OffMode mode output enable value for pad usbb1_ulpitll_dat2" "USBB1_ULPITLL_ DAT2_OFFMODEOUTENABLE_0,USBB1_ULPITLL_ DAT2_OFFMODEOUTENABLE_1"
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bitfld.long 0x8C 25. "USBB1_ULPITLL_ DAT2_OFFMODEENABLE,OffMode mode override control for pad usbb1_ulpitll_dat2" "USBB1_ULPITLL_ DAT2_OFFMODEENABLE_0,USBB1_ULPITLL_ DAT2_OFFMODEENABLE_1"
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bitfld.long 0x8C 24. "USBB1_ULPITLL_ DAT2_INPUTENABLE,Input enable value for pad usbb1_ulpitll_dat2" "USBB1_ULPITLL_ DAT2_INPUTENABLE_0,USBB1_ULPITLL_ DAT2_INPUTENABLE_1"
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bitfld.long 0x8C 20. "USBB1_ULPITLL_ DAT2_PULLTYPESELECT,pullup/down selection for pad usbb1_ulpitll_dat2" "USBB1_ULPITLL_ DAT2_PULLTYPESELECT_0,USBB1_ULPITLL_ DAT2_PULLTYPESELECT_1"
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bitfld.long 0x8C 19. "USBB1_ULPITLL_ DAT2_PULLUDENABLE,pullup/down enable for pad usbb1_ulpitll_dat2" "USBB1_ULPITLL_ DAT2_PULLUDENABLE_0,USBB1_ULPITLL_ DAT2_PULLUDENABLE_1"
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bitfld.long 0x8C 16.--18. "USBB1_ULPITLL_ DAT2_MUXMODE,Functional multiplexing selection for pad usbb1_ulpitll_dat2" "USBB1_ULPITLL_ DAT2_MUXMODE_0,USBB1_ULPITLL_ DAT2_MUXMODE_1,USBB1_ULPITLL_ DAT2_MUXMODE_2,USBB1_ULPITLL_ DAT2_MUXMODE_3,USBB1_ULPITLL_ DAT2_MUXMODE_4,USBB1_ULPITLL_ DAT2_MUXMODE_5,USBB1_ULPITLL_ DAT2_MUXMODE_6,USBB1_ULPITLL_ DAT2_MUXMODE_7"
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rbitfld.long 0x8C 15. "USBB1_ULPITLL_ DAT1_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "USBB1_ULPITLL_ DAT1_WAKEUPEVENT_0_r,USBB1_ULPITLL_ DAT1_WAKEUPEVENT_1_r"
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bitfld.long 0x8C 14. "USBB1_ULPITLL_ DAT1_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "USBB1_ULPITLL_ DAT1_WAKEUPENABLE_0,USBB1_ULPITLL_ DAT1_WAKEUPENABLE_1"
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bitfld.long 0x8C 13. "USBB1_ULPITLL_ DAT1_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad usbb1_ulpitll_dat1" "USBB1_ULPITLL_ DAT1_OFFMODEPULLTYPESELECT_0,USBB1_ULPITLL_ DAT1_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x8C 12. "USBB1_ULPITLL_ DAT1_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad usbb1_ulpitll_dat1" "USBB1_ULPITLL_ DAT1_OFFMODEPULLUDENABLE_0,USBB1_ULPITLL_ DAT1_OFFMODEPULLUDENABLE_1"
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bitfld.long 0x8C 11. "USBB1_ULPITLL_ DAT1_OFFMODEOUTVALUE,OffMode mode output value for pad usbb1_ulpitll_dat1" "USBB1_ULPITLL_ DAT1_OFFMODEOUTVALUE_0,USBB1_ULPITLL_ DAT1_OFFMODEOUTVALUE_1"
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bitfld.long 0x8C 10. "USBB1_ULPITLL_ DAT1_OFFMODEOUTENABLE,OffMode mode output enable value for pad usbb1_ulpitll_dat1" "USBB1_ULPITLL_ DAT1_OFFMODEOUTENABLE_0,USBB1_ULPITLL_ DAT1_OFFMODEOUTENABLE_1"
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bitfld.long 0x8C 9. "USBB1_ULPITLL_ DAT1_OFFMODEENABLE,OffMode mode override control for pad usbb1_ulpitll_dat1" "USBB1_ULPITLL_ DAT1_OFFMODEENABLE_0,USBB1_ULPITLL_ DAT1_OFFMODEENABLE_1"
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bitfld.long 0x8C 8. "USBB1_ULPITLL_ DAT1_INPUTENABLE,Input enable value for pad usbb1_ulpitll_dat1" "USBB1_ULPITLL_ DAT1_INPUTENABLE_0,USBB1_ULPITLL_ DAT1_INPUTENABLE_1"
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bitfld.long 0x8C 4. "USBB1_ULPITLL_ DAT1_PULLTYPESELECT,pullup/down selection for pad usbb1_ulpitll_dat1" "USBB1_ULPITLL_ DAT1_PULLTYPESELECT_0,USBB1_ULPITLL_ DAT1_PULLTYPESELECT_1"
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bitfld.long 0x8C 3. "USBB1_ULPITLL_ DAT1_PULLUDENABLE,pullup/down enable for pad usbb1_ulpitll_dat1" "USBB1_ULPITLL_ DAT1_PULLUDENABLE_0,USBB1_ULPITLL_ DAT1_PULLUDENABLE_1"
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bitfld.long 0x8C 0.--2. "USBB1_ULPITLL_ DAT1_MUXMODE,Functional multiplexing selection for pad usbb1_ulpitll_dat1" "USBB1_ULPITLL_ DAT1_MUXMODE_0,USBB1_ULPITLL_ DAT1_MUXMODE_1,USBB1_ULPITLL_ DAT1_MUXMODE_2,USBB1_ULPITLL_ DAT1_MUXMODE_3,USBB1_ULPITLL_ DAT1_MUXMODE_4,USBB1_ULPITLL_ DAT1_MUXMODE_5,USBB1_ULPITLL_ DAT1_MUXMODE_6,USBB1_ULPITLL_ DAT1_MUXMODE_7"
line.long 0x90 "CONTROL_CORE_PAD0_USBB1_ULPITLL_DAT3_PAD1_USBB1_ULPITLL_DAT4,Register control for Pads usbb1_ulpitll_dat3 and usbb1_ulpitll_dat4 Access conditions"
rbitfld.long 0x90 31. "USBB1_ULPITLL_ DAT4_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "USBB1_ULPITLL_ DAT4_WAKEUPEVENT_0_r,USBB1_ULPITLL_ DAT4_WAKEUPEVENT_1_r"
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bitfld.long 0x90 30. "USBB1_ULPITLL_ DAT4_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "USBB1_ULPITLL_ DAT4_WAKEUPENABLE_0,USBB1_ULPITLL_ DAT4_WAKEUPENABLE_1"
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bitfld.long 0x90 29. "USBB1_ULPITLL_ DAT4_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad usbb1_ulpitll_dat4" "USBB1_ULPITLL_ DAT4_OFFMODEPULLTYPESELECT_0,USBB1_ULPITLL_ DAT4_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x90 28. "USBB1_ULPITLL_ DAT4_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad usbb1_ulpitll_dat4" "USBB1_ULPITLL_ DAT4_OFFMODEPULLUDENABLE_0,USBB1_ULPITLL_ DAT4_OFFMODEPULLUDENABLE_1"
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bitfld.long 0x90 27. "USBB1_ULPITLL_ DAT4_OFFMODEOUTVALUE,OffMode mode output value for pad usbb1_ulpitll_dat4" "USBB1_ULPITLL_ DAT4_OFFMODEOUTVALUE_0,USBB1_ULPITLL_ DAT4_OFFMODEOUTVALUE_1"
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bitfld.long 0x90 26. "USBB1_ULPITLL_ DAT4_OFFMODEOUTENABLE,OffMode mode output enable value for pad usbb1_ulpitll_dat4" "USBB1_ULPITLL_ DAT4_OFFMODEOUTENABLE_0,USBB1_ULPITLL_ DAT4_OFFMODEOUTENABLE_1"
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bitfld.long 0x90 25. "USBB1_ULPITLL_ DAT4_OFFMODEENABLE,OffMode mode override control for pad usbb1_ulpitll_dat4" "USBB1_ULPITLL_ DAT4_OFFMODEENABLE_0,USBB1_ULPITLL_ DAT4_OFFMODEENABLE_1"
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bitfld.long 0x90 24. "USBB1_ULPITLL_ DAT4_INPUTENABLE,Input enable value for pad usbb1_ulpitll_dat4" "USBB1_ULPITLL_ DAT4_INPUTENABLE_0,USBB1_ULPITLL_ DAT4_INPUTENABLE_1"
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bitfld.long 0x90 20. "USBB1_ULPITLL_ DAT4_PULLTYPESELECT,pullup/down selection for pad usbb1_ulpitll_dat4" "USBB1_ULPITLL_ DAT4_PULLTYPESELECT_0,USBB1_ULPITLL_ DAT4_PULLTYPESELECT_1"
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bitfld.long 0x90 19. "USBB1_ULPITLL_ DAT4_PULLUDENABLE,pullup/down enable for pad usbb1_ulpitll_dat4" "USBB1_ULPITLL_ DAT4_PULLUDENABLE_0,USBB1_ULPITLL_ DAT4_PULLUDENABLE_1"
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bitfld.long 0x90 16.--18. "USBB1_ULPITLL_DAT4_MUXMODE,Functional multiplexing selection for pad usbb1_ulpitll_dat4" "USBB1_ULPITLL_DAT4_MUXMODE_0,USBB1_ULPITLL_DAT4_MUXMODE_1,USBB1_ULPITLL_DAT4_MUXMODE_2,USBB1_ULPITLL_DAT4_MUXMODE_3,USBB1_ULPITLL_DAT4_MUXMODE_4,?,USBB1_ULPITLL_DAT4_MUXMODE_6,USBB1_ULPITLL_DAT4_MUXMODE_7"
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rbitfld.long 0x90 15. "USBB1_ULPITLL_ DAT3_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "USBB1_ULPITLL_ DAT3_WAKEUPEVENT_0_r,USBB1_ULPITLL_ DAT3_WAKEUPEVENT_1_r"
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bitfld.long 0x90 14. "USBB1_ULPITLL_ DAT3_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "USBB1_ULPITLL_ DAT3_WAKEUPENABLE_0,USBB1_ULPITLL_ DAT3_WAKEUPENABLE_1"
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bitfld.long 0x90 13. "USBB1_ULPITLL_ DAT3_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad usbb1_ulpitll_dat3" "USBB1_ULPITLL_ DAT3_OFFMODEPULLTYPESELECT_0,USBB1_ULPITLL_ DAT3_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x90 12. "USBB1_ULPITLL_ DAT3_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad usbb1_ulpitll_dat3" "USBB1_ULPITLL_ DAT3_OFFMODEPULLUDENABLE_0,USBB1_ULPITLL_ DAT3_OFFMODEPULLUDENABLE_1"
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bitfld.long 0x90 11. "USBB1_ULPITLL_ DAT3_OFFMODEOUTVALUE,OffMode mode output value for pad usbb1_ulpitll_dat3" "USBB1_ULPITLL_ DAT3_OFFMODEOUTVALUE_0,USBB1_ULPITLL_ DAT3_OFFMODEOUTVALUE_1"
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bitfld.long 0x90 10. "USBB1_ULPITLL_ DAT3_OFFMODEOUTENABLE,OffMode mode output enable value for pad usbb1_ulpitll_dat3" "USBB1_ULPITLL_ DAT3_OFFMODEOUTENABLE_0,USBB1_ULPITLL_ DAT3_OFFMODEOUTENABLE_1"
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bitfld.long 0x90 9. "USBB1_ULPITLL_ DAT3_OFFMODEENABLE,OffMode mode override control for pad usbb1_ulpitll_dat3" "USBB1_ULPITLL_ DAT3_OFFMODEENABLE_0,USBB1_ULPITLL_ DAT3_OFFMODEENABLE_1"
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bitfld.long 0x90 8. "USBB1_ULPITLL_ DAT3_INPUTENABLE,Input enable value for pad usbb1_ulpitll_dat3" "USBB1_ULPITLL_ DAT3_INPUTENABLE_0,USBB1_ULPITLL_ DAT3_INPUTENABLE_1"
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bitfld.long 0x90 4. "USBB1_ULPITLL_ DAT3_PULLTYPESELECT,pullup/down selection for pad usbb1_ulpitll_dat3" "USBB1_ULPITLL_ DAT3_PULLTYPESELECT_0,USBB1_ULPITLL_ DAT3_PULLTYPESELECT_1"
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bitfld.long 0x90 3. "USBB1_ULPITLL_ DAT3_PULLUDENABLE,pullup/down enable for pad usbb1_ulpitll_dat3" "USBB1_ULPITLL_ DAT3_PULLUDENABLE_0,USBB1_ULPITLL_ DAT3_PULLUDENABLE_1"
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bitfld.long 0x90 0.--2. "USBB1_ULPITLL_ DAT3_MUXMODE,Functional multiplexing selection for pad usbb1_ulpitll_dat3" "USBB1_ULPITLL_ DAT3_MUXMODE_0,USBB1_ULPITLL_ DAT3_MUXMODE_1,?,USBB1_ULPITLL_ DAT3_MUXMODE_3,USBB1_ULPITLL_ DAT3_MUXMODE_4,USBB1_ULPITLL_ DAT3_MUXMODE_5,USBB1_ULPITLL_ DAT3_MUXMODE_6,USBB1_ULPITLL_ DAT3_MUXMODE_7"
line.long 0x94 "CONTROL_CORE_PAD0_USBB1_ULPITLL_DAT5_PAD1_USBB1_ULPITLL_DAT6,Register control for Pads usbb1_ulpitll_dat5 and usbb1_ulpitll_dat6 Access conditions"
rbitfld.long 0x94 31. "USBB1_ULPITLL_ DAT6_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "USBB1_ULPITLL_ DAT6_WAKEUPEVENT_0_r,USBB1_ULPITLL_ DAT6_WAKEUPEVENT_1_r"
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bitfld.long 0x94 30. "USBB1_ULPITLL_ DAT6_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "USBB1_ULPITLL_ DAT6_WAKEUPENABLE_0,USBB1_ULPITLL_ DAT6_WAKEUPENABLE_1"
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bitfld.long 0x94 29. "USBB1_ULPITLL_DAT6_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad usbb1_ulpitll_dat6" "USBB1_ULPITLL_DAT6_OFFMODEPULLTYPESELECT_0,USBB1_ULPITLL_DAT6_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x94 28. "USBB1_ULPITLL_DAT6_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad usbb1_ulpitll_dat6" "USBB1_ULPITLL_DAT6_OFFMODEPULLUDENABLE_0,USBB1_ULPITLL_DAT6_OFFMODEPULLUDENABLE_1"
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bitfld.long 0x94 27. "USBB1_ULPITLL_DAT6_OFFMODEOUTVALUE,OffMode mode output value for pad usbb1_ulpitll_dat6" "USBB1_ULPITLL_DAT6_OFFMODEOUTVALUE_0,USBB1_ULPITLL_DAT6_OFFMODEOUTVALUE_1"
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bitfld.long 0x94 26. "USBB1_ULPITLL_DAT6_OFFMODEOUTENABLE,OffMode mode output enable value for pad usbb1_ulpitll_dat6" "USBB1_ULPITLL_DAT6_OFFMODEOUTENABLE_0,USBB1_ULPITLL_DAT6_OFFMODEOUTENABLE_1"
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bitfld.long 0x94 25. "USBB1_ULPITLL_DAT6_OFFMODEENABLE,OffMode mode override control for pad usbb1_ulpitll_dat6" "USBB1_ULPITLL_DAT6_OFFMODEENABLE_0,USBB1_ULPITLL_DAT6_OFFMODEENABLE_1"
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bitfld.long 0x94 24. "USBB1_ULPITLL_ DAT6_INPUTENABLE,Input enable value for pad usbb1_ulpitll_dat6" "USBB1_ULPITLL_ DAT6_INPUTENABLE_0,USBB1_ULPITLL_ DAT6_INPUTENABLE_1"
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bitfld.long 0x94 20. "USBB1_ULPITLL_ DAT6_PULLTYPESELECT,pullup/down selection for pad usbb1_ulpitll_dat6" "USBB1_ULPITLL_ DAT6_PULLTYPESELECT_0,USBB1_ULPITLL_ DAT6_PULLTYPESELECT_1"
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bitfld.long 0x94 19. "USBB1_ULPITLL_ DAT6_PULLUDENABLE,pullup/down enable for pad usbb1_ulpitll_dat6" "USBB1_ULPITLL_ DAT6_PULLUDENABLE_0,USBB1_ULPITLL_ DAT6_PULLUDENABLE_1"
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bitfld.long 0x94 16.--18. "USBB1_ULPITLL_DAT6_MUXMODE,Functional multiplexing selection for pad usbb1_ulpitll_dat6" "USBB1_ULPITLL_DAT6_MUXMODE_0,USBB1_ULPITLL_DAT6_MUXMODE_1,USBB1_ULPITLL_DAT6_MUXMODE_2,USBB1_ULPITLL_DAT6_MUXMODE_3,USBB1_ULPITLL_DAT6_MUXMODE_4,USBB1_ULPITLL_DAT6_MUXMODE_5,USBB1_ULPITLL_DAT6_MUXMODE_6,USBB1_ULPITLL_DAT6_MUXMODE_7"
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rbitfld.long 0x94 15. "USBB1_ULPITLL_ DAT5_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "USBB1_ULPITLL_ DAT5_WAKEUPEVENT_0_r,USBB1_ULPITLL_ DAT5_WAKEUPEVENT_1_r"
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bitfld.long 0x94 14. "USBB1_ULPITLL_ DAT5_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "USBB1_ULPITLL_ DAT5_WAKEUPENABLE_0,USBB1_ULPITLL_ DAT5_WAKEUPENABLE_1"
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bitfld.long 0x94 13. "USBB1_ULPITLL_ DAT5_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad usbb1_ulpitll_dat5" "USBB1_ULPITLL_ DAT5_OFFMODEPULLTYPESELECT_0,USBB1_ULPITLL_ DAT5_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x94 12. "USBB1_ULPITLL_ DAT5_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad usbb1_ulpitll_dat5" "USBB1_ULPITLL_ DAT5_OFFMODEPULLUDENABLE_0,USBB1_ULPITLL_ DAT5_OFFMODEPULLUDENABLE_1"
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bitfld.long 0x94 11. "USBB1_ULPITLL_ DAT5_OFFMODEOUTVALUE,OffMode mode output value for pad usbb1_ulpitll_dat5" "USBB1_ULPITLL_ DAT5_OFFMODEOUTVALUE_0,USBB1_ULPITLL_ DAT5_OFFMODEOUTVALUE_1"
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bitfld.long 0x94 10. "USBB1_ULPITLL_ DAT5_OFFMODEOUTENABLE,OffMode mode output enable value for pad usbb1_ulpitll_dat5" "USBB1_ULPITLL_ DAT5_OFFMODEOUTENABLE_0,USBB1_ULPITLL_ DAT5_OFFMODEOUTENABLE_1"
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bitfld.long 0x94 9. "USBB1_ULPITLL_ DAT5_OFFMODEENABLE,OffMode mode override control for pad usbb1_ulpitll_dat5" "USBB1_ULPITLL_ DAT5_OFFMODEENABLE_0,USBB1_ULPITLL_ DAT5_OFFMODEENABLE_1"
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bitfld.long 0x94 8. "USBB1_ULPITLL_ DAT5_INPUTENABLE,Input enable value for pad usbb1_ulpitll_dat5" "USBB1_ULPITLL_ DAT5_INPUTENABLE_0,USBB1_ULPITLL_ DAT5_INPUTENABLE_1"
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bitfld.long 0x94 4. "USBB1_ULPITLL_ DAT5_PULLTYPESELECT,pullup/down selection for pad usbb1_ulpitll_dat5" "USBB1_ULPITLL_ DAT5_PULLTYPESELECT_0,USBB1_ULPITLL_ DAT5_PULLTYPESELECT_1"
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bitfld.long 0x94 3. "USBB1_ULPITLL_ DAT5_PULLUDENABLE,pullup/down enable for pad usbb1_ulpitll_dat5" "USBB1_ULPITLL_ DAT5_PULLUDENABLE_0,USBB1_ULPITLL_ DAT5_PULLUDENABLE_1"
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bitfld.long 0x94 0.--2. "USBB1_ULPITLL_ DAT5_MUXMODE,Functional multiplexing selection for pad usbb1_ulpitll_dat5" "USBB1_ULPITLL_ DAT5_MUXMODE_0,USBB1_ULPITLL_ DAT5_MUXMODE_1,USBB1_ULPITLL_ DAT5_MUXMODE_2,USBB1_ULPITLL_ DAT5_MUXMODE_3,USBB1_ULPITLL_ DAT5_MUXMODE_4,?,USBB1_ULPITLL_ DAT5_MUXMODE_6,USBB1_ULPITLL_ DAT5_MUXMODE_7"
line.long 0x98 "CONTROL_CORE_PAD0_USBB1_ULPITLL_DAT7_PAD1_USBB1_HSIC_DATA,Register control for Pads usbb1_ulpitll_dat7 and usbb1_hsic_data Access conditions"
rbitfld.long 0x98 31. "USBB1_HSIC_DATA_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "USBB1_HSIC_DATA_WAKEUPEVENT_0_r,USBB1_HSIC_DATA_WAKEUPEVENT_1_r"
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bitfld.long 0x98 30. "USBB1_HSIC_DATA_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "USBB1_HSIC_DATA_WAKEUPENABLE_0,USBB1_HSIC_DATA_WAKEUPENABLE_1"
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bitfld.long 0x98 27. "USBB1_HSIC_ DATA_OFFMODEOUTVALUE,OffMode mode output value for pad usbb1_hsic_data" "USBB1_HSIC_ DATA_OFFMODEOUTVALUE_0,USBB1_HSIC_ DATA_OFFMODEOUTVALUE_1"
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bitfld.long 0x98 26. "USBB1_HSIC_ DATA_OFFMODEOUTENABLE,OffMode mode output enable value for pad usbb1_hsic_data" "USBB1_HSIC_ DATA_OFFMODEOUTENABLE_0,USBB1_HSIC_ DATA_OFFMODEOUTENABLE_1"
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bitfld.long 0x98 25. "USBB1_HSIC_ DATA_OFFMODEENABLE,OffMode mode override control for pad usbb1_hsic_data" "USBB1_HSIC_ DATA_OFFMODEENABLE_0,USBB1_HSIC_ DATA_OFFMODEENABLE_1"
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bitfld.long 0x98 16.--18. "USBB1_HSIC_DATA_MUXMODE,Functional multiplexing selection for pad usbb1_hsic_data" "USBB1_HSIC_DATA_MUXMODE_0,?,?,USBB1_HSIC_DATA_MUXMODE_3,?,?,?,USBB1_HSIC_DATA_MUXMODE_7"
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rbitfld.long 0x98 15. "USBB1_ULPITLL_ DAT7_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "USBB1_ULPITLL_ DAT7_WAKEUPEVENT_0_r,USBB1_ULPITLL_ DAT7_WAKEUPEVENT_1_r"
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bitfld.long 0x98 14. "USBB1_ULPITLL_ DAT7_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "USBB1_ULPITLL_ DAT7_WAKEUPENABLE_0,USBB1_ULPITLL_ DAT7_WAKEUPENABLE_1"
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bitfld.long 0x98 13. "USBB1_ULPITLL_ DAT7_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad usbb1_ulpitll_dat7" "USBB1_ULPITLL_ DAT7_OFFMODEPULLTYPESELECT_0,USBB1_ULPITLL_ DAT7_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x98 12. "USBB1_ULPITLL_ DAT7_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad usbb1_ulpitll_dat7" "USBB1_ULPITLL_ DAT7_OFFMODEPULLUDENABLE_0,USBB1_ULPITLL_ DAT7_OFFMODEPULLUDENABLE_1"
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bitfld.long 0x98 11. "USBB1_ULPITLL_ DAT7_OFFMODEOUTVALUE,OffMode mode output value for pad usbb1_ulpitll_dat7" "USBB1_ULPITLL_ DAT7_OFFMODEOUTVALUE_0,USBB1_ULPITLL_ DAT7_OFFMODEOUTVALUE_1"
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bitfld.long 0x98 10. "USBB1_ULPITLL_ DAT7_OFFMODEOUTENABLE,OffMode mode output enable value for pad usbb1_ulpitll_dat7" "USBB1_ULPITLL_ DAT7_OFFMODEOUTENABLE_0,USBB1_ULPITLL_ DAT7_OFFMODEOUTENABLE_1"
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bitfld.long 0x98 9. "USBB1_ULPITLL_ DAT7_OFFMODEENABLE,OffMode mode override control for pad usbb1_ulpitll_dat7" "USBB1_ULPITLL_ DAT7_OFFMODEENABLE_0,USBB1_ULPITLL_ DAT7_OFFMODEENABLE_1"
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bitfld.long 0x98 8. "USBB1_ULPITLL_ DAT7_INPUTENABLE,Input enable value for pad usbb1_ulpitll_dat7" "USBB1_ULPITLL_ DAT7_INPUTENABLE_0,USBB1_ULPITLL_ DAT7_INPUTENABLE_1"
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bitfld.long 0x98 4. "USBB1_ULPITLL_ DAT7_PULLTYPESELECT,pullup/down selection for pad usbb1_ulpitll_dat7" "USBB1_ULPITLL_ DAT7_PULLTYPESELECT_0,USBB1_ULPITLL_ DAT7_PULLTYPESELECT_1"
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bitfld.long 0x98 3. "USBB1_ULPITLL_ DAT7_PULLUDENABLE,pullup/down enable for pad usbb1_ulpitll_dat7" "USBB1_ULPITLL_ DAT7_PULLUDENABLE_0,USBB1_ULPITLL_ DAT7_PULLUDENABLE_1"
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bitfld.long 0x98 0.--2. "USBB1_ULPITLL_ DAT7_MUXMODE,Functional multiplexing selection for pad usbb1_ulpitll_dat7" "USBB1_ULPITLL_ DAT7_MUXMODE_0,USBB1_ULPITLL_ DAT7_MUXMODE_1,USBB1_ULPITLL_ DAT7_MUXMODE_2,USBB1_ULPITLL_ DAT7_MUXMODE_3,USBB1_ULPITLL_ DAT7_MUXMODE_4,USBB1_ULPITLL_ DAT7_MUXMODE_5,USBB1_ULPITLL_ DAT7_MUXMODE_6,USBB1_ULPITLL_ DAT7_MUXMODE_7"
line.long 0x9C "CONTROL_CORE_PAD0_USBB1_HSIC_STROBE_PAD1_USBC1_ICUSB_DP,Register control for Pads usbb1_hsic_strobe and usbc1_icusb_dp Access conditions"
rbitfld.long 0x9C 31. "USBC1_ICUSB_ DP_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "USBC1_ICUSB_ DP_WAKEUPEVENT_0_r,USBC1_ICUSB_ DP_WAKEUPEVENT_1_r"
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bitfld.long 0x9C 30. "USBC1_ICUSB_DP_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "USBC1_ICUSB_DP_WAKEUPENABLE_0,USBC1_ICUSB_DP_WAKEUPENABLE_1"
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bitfld.long 0x9C 29. "USBC1_ICUSB_DP_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad usbc1_icusb_dp" "USBC1_ICUSB_DP_OFFMODEPULLTYPESELECT_0,USBC1_ICUSB_DP_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x9C 28. "USBC1_ICUSB_DP_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad usbc1_icusb_dp" "USBC1_ICUSB_DP_OFFMODEPULLUDENABLE_0,USBC1_ICUSB_DP_OFFMODEPULLUDENABLE_1"
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bitfld.long 0x9C 27. "USBC1_ICUSB_DP_OFFMODEOUTVALUE,OffMode mode output value for pad usbc1_icusb_dp" "USBC1_ICUSB_DP_OFFMODEOUTVALUE_0,USBC1_ICUSB_DP_OFFMODEOUTVALUE_1"
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bitfld.long 0x9C 26. "USBC1_ICUSB_DP_OFFMODEOUTENABLE,OffMode mode output enable value for pad usbc1_icusb_dp" "USBC1_ICUSB_DP_OFFMODEOUTENABLE_0,USBC1_ICUSB_DP_OFFMODEOUTENABLE_1"
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bitfld.long 0x9C 25. "USBC1_ICUSB_DP_OFFMODEENABLE,OffMode mode override control for pad usbc1_icusb_dp" "USBC1_ICUSB_DP_OFFMODEENABLE_0,USBC1_ICUSB_DP_OFFMODEENABLE_1"
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bitfld.long 0x9C 24. "USBC1_ICUSB_ DP_INPUTENABLE,Input enable value for pad usbc1_icusb_dp" "USBC1_ICUSB_ DP_INPUTENABLE_0,USBC1_ICUSB_ DP_INPUTENABLE_1"
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bitfld.long 0x9C 20. "USBC1_ICUSB_ DP_PULLTYPESELECT,pullup/down selection for pad usbc1_icusb_dp" "USBC1_ICUSB_ DP_PULLTYPESELECT_0,USBC1_ICUSB_ DP_PULLTYPESELECT_1"
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bitfld.long 0x9C 19. "USBC1_ICUSB_DP_PULLUDENABLE,pullup/down enable for pad usbc1_icusb_dp" "USBC1_ICUSB_DP_PULLUDENABLE_0,USBC1_ICUSB_DP_PULLUDENABLE_1"
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bitfld.long 0x9C 16.--18. "USBC1_ICUSB_DP_MUXMODE,Functional multiplexing selection for pad usbc1_icusb_dp" "USBC1_ICUSB_DP_MUXMODE_0,?,?,USBC1_ICUSB_DP_MUXMODE_3,?,?,?,USBC1_ICUSB_DP_MUXMODE_7"
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rbitfld.long 0x9C 15. "USBB1_HSIC_STROBE_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "USBB1_HSIC_STROBE_WAKEUPEVENT_0_r,USBB1_HSIC_STROBE_WAKEUPEVENT_1_r"
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bitfld.long 0x9C 14. "USBB1_HSIC_STROBE_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "USBB1_HSIC_STROBE_WAKEUPENABLE_0,USBB1_HSIC_STROBE_WAKEUPENABLE_1"
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bitfld.long 0x9C 11. "USBB1_HSIC_ STROBE_OFFMODEOUTVALUE,OffMode mode output value for pad usbb1_hsic_strobe" "USBB1_HSIC_ STROBE_OFFMODEOUTVALUE_0,USBB1_HSIC_ STROBE_OFFMODEOUTVALUE_1"
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bitfld.long 0x9C 10. "USBB1_HSIC_ STROBE_OFFMODEOUTENABLE,OffMode mode output enable value for pad usbb1_hsic_strobe" "USBB1_HSIC_ STROBE_OFFMODEOUTENABLE_0,USBB1_HSIC_ STROBE_OFFMODEOUTENABLE_1"
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bitfld.long 0x9C 9. "USBB1_HSIC_ STROBE_OFFMODEENABLE,OffMode mode override control for pad usbb1_hsic_strobe" "USBB1_HSIC_ STROBE_OFFMODEENABLE_0,USBB1_HSIC_ STROBE_OFFMODEENABLE_1"
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bitfld.long 0x9C 0.--2. "USBB1_HSIC_ STROBE_MUXMODE,Functional multiplexing selection for pad usbb1_hsic_strobe" "USBB1_HSIC_ STROBE_MUXMODE_0,?,?,USBB1_HSIC_ STROBE_MUXMODE_3,?,?,?,USBB1_HSIC_ STROBE_MUXMODE_7"
line.long 0xA0 "CONTROL_CORE_PAD0_USBC1_ICUSB_DM_PAD1_SDMMC1_CLK,Register control for Pads usbc1_icusb_dm and sdmmc1_clk Access conditions"
rbitfld.long 0xA0 31. "SDMMC1_ CLK_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "SDMMC1_ CLK_WAKEUPEVENT_0_r,SDMMC1_ CLK_WAKEUPEVENT_1_r"
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bitfld.long 0xA0 30. "SDMMC1_CLK_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "SDMMC1_CLK_WAKEUPENABLE_0,SDMMC1_CLK_WAKEUPENABLE_1"
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bitfld.long 0xA0 29. "SDMMC1_CLK_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad sdmmc1_clk" "SDMMC1_CLK_ OFFMODEPULLTYPESELECT_0,SDMMC1_CLK_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xA0 28. "SDMMC1_CLK_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad sdmmc1_clk" "SDMMC1_CLK_ OFFMODEPULLUDENABLE_0,SDMMC1_CLK_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0xA0 27. "SDMMC1_CLK_OFFMODEOUTVALUE,OffMode mode output value for pad sdmmc1_clk" "SDMMC1_CLK_OFFMODEOUTVALUE_0,SDMMC1_CLK_OFFMODEOUTVALUE_1"
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bitfld.long 0xA0 26. "SDMMC1_CLK_OFFMODEOUTENABLE,OffMode mode output enable value for pad sdmmc1_clk" "SDMMC1_CLK_OFFMODEOUTENABLE_0,SDMMC1_CLK_OFFMODEOUTENABLE_1"
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bitfld.long 0xA0 25. "SDMMC1_CLK_OFFMODEENABLE,OffMode mode override control for pad sdmmc1_clk" "SDMMC1_CLK_OFFMODEENABLE_0,SDMMC1_CLK_OFFMODEENABLE_1"
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bitfld.long 0xA0 24. "SDMMC1_CLK_INPUTENABLE,Input enable value for pad sdmmc1_clk" "SDMMC1_CLK_INPUTENABLE_0,SDMMC1_CLK_INPUTENABLE_1"
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bitfld.long 0xA0 20. "SDMMC1_ CLK_PULLTYPESELECT,pullup/down selection for pad sdmmc1_clk" "SDMMC1_ CLK_PULLTYPESELECT_0,SDMMC1_ CLK_PULLTYPESELECT_1"
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bitfld.long 0xA0 19. "SDMMC1_CLK_PULLUDENABLE,pullup/down enable for pad sdmmc1_clk" "SDMMC1_CLK_PULLUDENABLE_0,SDMMC1_CLK_PULLUDENABLE_1"
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bitfld.long 0xA0 16.--18. "SDMMC1_CLK_MUXMODE,Functional multiplexing selection for pad sdmmc1_clk" "SDMMC1_CLK_MUXMODE_0,?,SDMMC1_CLK_MUXMODE_2,SDMMC1_CLK_MUXMODE_3,?,?,?,SDMMC1_CLK_MUXMODE_7"
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rbitfld.long 0xA0 15. "USBC1_ICUSB_ DM_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "USBC1_ICUSB_ DM_WAKEUPEVENT_0_r,USBC1_ICUSB_ DM_WAKEUPEVENT_1_r"
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bitfld.long 0xA0 14. "USBC1_ICUSB_DM_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "USBC1_ICUSB_DM_WAKEUPENABLE_0,USBC1_ICUSB_DM_WAKEUPENABLE_1"
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bitfld.long 0xA0 13. "USBC1_ICUSB_ DM_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad usbc1_icusb_dm" "USBC1_ICUSB_ DM_OFFMODEPULLTYPESELECT_0,USBC1_ICUSB_ DM_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xA0 12. "USBC1_ICUSB_ DM_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad usbc1_icusb_dm" "USBC1_ICUSB_ DM_OFFMODEPULLUDENABLE_0,USBC1_ICUSB_ DM_OFFMODEPULLUDENABLE_1"
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bitfld.long 0xA0 11. "USBC1_ICUSB_ DM_OFFMODEOUTVALUE,OffMode mode output value for pad usbc1_icusb_dm" "USBC1_ICUSB_ DM_OFFMODEOUTVALUE_0,USBC1_ICUSB_ DM_OFFMODEOUTVALUE_1"
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bitfld.long 0xA0 10. "USBC1_ICUSB_ DM_OFFMODEOUTENABLE,OffMode mode output enable value for pad usbc1_icusb_dm" "USBC1_ICUSB_ DM_OFFMODEOUTENABLE_0,USBC1_ICUSB_ DM_OFFMODEOUTENABLE_1"
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bitfld.long 0xA0 9. "USBC1_ICUSB_ DM_OFFMODEENABLE,OffMode mode override control for pad usbc1_icusb_dm" "USBC1_ICUSB_ DM_OFFMODEENABLE_0,USBC1_ICUSB_ DM_OFFMODEENABLE_1"
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bitfld.long 0xA0 8. "USBC1_ICUSB_ DM_INPUTENABLE,Input enable value for pad usbc1_icusb_dm" "USBC1_ICUSB_ DM_INPUTENABLE_0,USBC1_ICUSB_ DM_INPUTENABLE_1"
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bitfld.long 0xA0 4. "USBC1_ICUSB_ DM_PULLTYPESELECT,pullup/down selection for pad usbc1_icusb_dm" "USBC1_ICUSB_ DM_PULLTYPESELECT_0,USBC1_ICUSB_ DM_PULLTYPESELECT_1"
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bitfld.long 0xA0 3. "USBC1_ICUSB_ DM_PULLUDENABLE,pullup/down enable for pad usbc1_icusb_dm" "USBC1_ICUSB_ DM_PULLUDENABLE_0,USBC1_ICUSB_ DM_PULLUDENABLE_1"
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bitfld.long 0xA0 0.--2. "USBC1_ICUSB_ DM_MUXMODE,Functional multiplexing selection for pad usbc1_icusb_dm" "USBC1_ICUSB_ DM_MUXMODE_0,?,?,USBC1_ICUSB_ DM_MUXMODE_3,?,?,?,USBC1_ICUSB_ DM_MUXMODE_7"
line.long 0xA4 "CONTROL_CORE_PAD0_SDMMC1_CMD_PAD1_SDMMC1_DAT0,Register control for Pads sdmmc1_cmd and sdmmc1_dat0 Access conditions"
rbitfld.long 0xA4 31. "SDMMC1_DAT0_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "SDMMC1_DAT0_WAKEUPEVENT_0_r,SDMMC1_DAT0_WAKEUPEVENT_1_r"
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bitfld.long 0xA4 30. "SDMMC1_DAT0_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "SDMMC1_DAT0_WAKEUPENABLE_0,SDMMC1_DAT0_WAKEUPENABLE_1"
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bitfld.long 0xA4 29. "SDMMC1_DAT0_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad sdmmc1_dat0" "SDMMC1_DAT0_ OFFMODEPULLTYPESELECT_0,SDMMC1_DAT0_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xA4 28. "SDMMC1_DAT0_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad sdmmc1_dat0" "SDMMC1_DAT0_ OFFMODEPULLUDENABLE_0,SDMMC1_DAT0_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0xA4 27. "SDMMC1_DAT0_ OFFMODEOUTVALUE,OffMode mode output value for pad sdmmc1_dat0" "SDMMC1_DAT0_ OFFMODEOUTVALUE_0,SDMMC1_DAT0_ OFFMODEOUTVALUE_1"
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bitfld.long 0xA4 26. "SDMMC1_DAT0_ OFFMODEOUTENABLE,OffMode mode output enable value for pad sdmmc1_dat0" "SDMMC1_DAT0_ OFFMODEOUTENABLE_0,SDMMC1_DAT0_ OFFMODEOUTENABLE_1"
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bitfld.long 0xA4 25. "SDMMC1_DAT0_ OFFMODEENABLE,OffMode mode override control for pad sdmmc1_dat0" "SDMMC1_DAT0_ OFFMODEENABLE_0,SDMMC1_DAT0_ OFFMODEENABLE_1"
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bitfld.long 0xA4 24. "SDMMC1_DAT0_ INPUTENABLE,Input enable value for pad sdmmc1_dat0" "SDMMC1_DAT0_ INPUTENABLE_0,SDMMC1_DAT0_ INPUTENABLE_1"
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bitfld.long 0xA4 20. "SDMMC1_DAT0_ PULLTYPESELECT,pullup/down selection for pad sdmmc1_dat0" "SDMMC1_DAT0_ PULLTYPESELECT_0,SDMMC1_DAT0_ PULLTYPESELECT_1"
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bitfld.long 0xA4 19. "SDMMC1_DAT0_ PULLUDENABLE,pullup/down enable for pad sdmmc1_dat0" "SDMMC1_DAT0_ PULLUDENABLE_0,SDMMC1_DAT0_ PULLUDENABLE_1"
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bitfld.long 0xA4 16.--18. "SDMMC1_DAT0_ MUXMODE,Functional multiplexing selection for pad sdmmc1_dat0" "SDMMC1_DAT0_ MUXMODE_0,?,SDMMC1_DAT0_ MUXMODE_2,SDMMC1_DAT0_ MUXMODE_3,?,?,?,SDMMC1_DAT0_ MUXMODE_7"
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rbitfld.long 0xA4 15. "SDMMC1_CMD_ WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "SDMMC1_CMD_ WAKEUPEVENT_0_r,SDMMC1_CMD_ WAKEUPEVENT_1_r"
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bitfld.long 0xA4 14. "SDMMC1_CMD_ WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "SDMMC1_CMD_ WAKEUPENABLE_0,SDMMC1_CMD_ WAKEUPENABLE_1"
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bitfld.long 0xA4 13. "SDMMC1_CMD_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad sdmmc1_cmd" "SDMMC1_CMD_ OFFMODEPULLTYPESELECT_0,SDMMC1_CMD_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xA4 12. "SDMMC1_CMD_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad sdmmc1_cmd" "SDMMC1_CMD_ OFFMODEPULLUDENABLE_0,SDMMC1_CMD_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0xA4 11. "SDMMC1_CMD_ OFFMODEOUTVALUE,OffMode mode output value for pad sdmmc1_cmd" "SDMMC1_CMD_ OFFMODEOUTVALUE_0,SDMMC1_CMD_ OFFMODEOUTVALUE_1"
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bitfld.long 0xA4 10. "SDMMC1_CMD_ OFFMODEOUTENABLE,OffMode mode output enable value for pad sdmmc1_cmd" "SDMMC1_CMD_ OFFMODEOUTENABLE_0,SDMMC1_CMD_ OFFMODEOUTENABLE_1"
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bitfld.long 0xA4 9. "SDMMC1_CMD_ OFFMODEENABLE,OffMode mode override control for pad sdmmc1_cmd" "SDMMC1_CMD_ OFFMODEENABLE_0,SDMMC1_CMD_ OFFMODEENABLE_1"
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bitfld.long 0xA4 8. "SDMMC1_CMD_ INPUTENABLE,Input enable value for pad sdmmc1_cmd" "SDMMC1_CMD_ INPUTENABLE_0,SDMMC1_CMD_ INPUTENABLE_1"
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bitfld.long 0xA4 4. "SDMMC1_CMD_ PULLTYPESELECT,pullup/down selection for pad sdmmc1_cmd" "SDMMC1_CMD_ PULLTYPESELECT_0,SDMMC1_CMD_ PULLTYPESELECT_1"
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bitfld.long 0xA4 3. "SDMMC1_CMD_ PULLUDENABLE,pullup/down enable for pad sdmmc1_cmd" "SDMMC1_CMD_ PULLUDENABLE_0,SDMMC1_CMD_ PULLUDENABLE_1"
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bitfld.long 0xA4 0.--2. "SDMMC1_CMD_ MUXMODE,Functional multiplexing selection for pad sdmmc1_cmd" "SDMMC1_CMD_ MUXMODE_0,?,SDMMC1_CMD_ MUXMODE_2,SDMMC1_CMD_ MUXMODE_3,?,?,?,SDMMC1_CMD_ MUXMODE_7"
line.long 0xA8 "CONTROL_CORE_PAD0_SDMMC1_DAT1_PAD1_SDMMC1_DAT2,Register control for Pads sdmmc1_dat1 and sdmmc1_dat2 Access conditions"
rbitfld.long 0xA8 31. "SDMMC1_DAT2_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "SDMMC1_DAT2_WAKEUPEVENT_0_r,SDMMC1_DAT2_WAKEUPEVENT_1_r"
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bitfld.long 0xA8 30. "SDMMC1_DAT2_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "SDMMC1_DAT2_WAKEUPENABLE_0,SDMMC1_DAT2_WAKEUPENABLE_1"
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bitfld.long 0xA8 29. "SDMMC1_DAT2_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad sdmmc1_dat2" "SDMMC1_DAT2_ OFFMODEPULLTYPESELECT_0,SDMMC1_DAT2_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xA8 28. "SDMMC1_DAT2_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad sdmmc1_dat2" "SDMMC1_DAT2_ OFFMODEPULLUDENABLE_0,SDMMC1_DAT2_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0xA8 27. "SDMMC1_DAT2_ OFFMODEOUTVALUE,OffMode mode output value for pad sdmmc1_dat2" "SDMMC1_DAT2_ OFFMODEOUTVALUE_0,SDMMC1_DAT2_ OFFMODEOUTVALUE_1"
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bitfld.long 0xA8 26. "SDMMC1_DAT2_ OFFMODEOUTENABLE,OffMode mode output enable value for pad sdmmc1_dat2" "SDMMC1_DAT2_ OFFMODEOUTENABLE_0,SDMMC1_DAT2_ OFFMODEOUTENABLE_1"
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bitfld.long 0xA8 25. "SDMMC1_DAT2_ OFFMODEENABLE,OffMode mode override control for pad sdmmc1_dat2" "SDMMC1_DAT2_ OFFMODEENABLE_0,SDMMC1_DAT2_ OFFMODEENABLE_1"
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bitfld.long 0xA8 24. "SDMMC1_DAT2_ INPUTENABLE,Input enable value for pad sdmmc1_dat2" "SDMMC1_DAT2_ INPUTENABLE_0,SDMMC1_DAT2_ INPUTENABLE_1"
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bitfld.long 0xA8 20. "SDMMC1_DAT2_ PULLTYPESELECT,pullup/down selection for pad sdmmc1_dat2" "SDMMC1_DAT2_ PULLTYPESELECT_0,SDMMC1_DAT2_ PULLTYPESELECT_1"
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bitfld.long 0xA8 19. "SDMMC1_DAT2_ PULLUDENABLE,pullup/down enable for pad sdmmc1_dat2" "SDMMC1_DAT2_ PULLUDENABLE_0,SDMMC1_DAT2_ PULLUDENABLE_1"
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bitfld.long 0xA8 16.--18. "SDMMC1_DAT2_ MUXMODE,Functional multiplexing selection for pad sdmmc1_dat2" "SDMMC1_DAT2_ MUXMODE_0,?,SDMMC1_DAT2_ MUXMODE_2,SDMMC1_DAT2_ MUXMODE_3,SDMMC1_DAT2_ MUXMODE_4,?,?,SDMMC1_DAT2_ MUXMODE_7"
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rbitfld.long 0xA8 15. "SDMMC1_DAT1_ WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "SDMMC1_DAT1_ WAKEUPEVENT_0_r,SDMMC1_DAT1_ WAKEUPEVENT_1_r"
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bitfld.long 0xA8 14. "SDMMC1_DAT1_ WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "SDMMC1_DAT1_ WAKEUPENABLE_0,SDMMC1_DAT1_ WAKEUPENABLE_1"
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bitfld.long 0xA8 13. "SDMMC1_DAT1_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad sdmmc1_dat1" "SDMMC1_DAT1_ OFFMODEPULLTYPESELECT_0,SDMMC1_DAT1_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xA8 12. "SDMMC1_DAT1_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad sdmmc1_dat1" "SDMMC1_DAT1_ OFFMODEPULLUDENABLE_0,SDMMC1_DAT1_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0xA8 11. "SDMMC1_DAT1_ OFFMODEOUTVALUE,OffMode mode output value for pad sdmmc1_dat1" "SDMMC1_DAT1_ OFFMODEOUTVALUE_0,SDMMC1_DAT1_ OFFMODEOUTVALUE_1"
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bitfld.long 0xA8 10. "SDMMC1_DAT1_ OFFMODEOUTENABLE,OffMode mode output enable value for pad sdmmc1_dat1" "SDMMC1_DAT1_ OFFMODEOUTENABLE_0,SDMMC1_DAT1_ OFFMODEOUTENABLE_1"
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bitfld.long 0xA8 9. "SDMMC1_DAT1_ OFFMODEENABLE,OffMode mode override control for pad sdmmc1_dat1" "SDMMC1_DAT1_ OFFMODEENABLE_0,SDMMC1_DAT1_ OFFMODEENABLE_1"
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bitfld.long 0xA8 8. "SDMMC1_DAT1_ INPUTENABLE,Input enable value for pad sdmmc1_dat1" "SDMMC1_DAT1_ INPUTENABLE_0,SDMMC1_DAT1_ INPUTENABLE_1"
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bitfld.long 0xA8 4. "SDMMC1_DAT1_ PULLTYPESELECT,pullup/down selection for pad sdmmc1_dat1" "SDMMC1_DAT1_ PULLTYPESELECT_0,SDMMC1_DAT1_ PULLTYPESELECT_1"
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bitfld.long 0xA8 3. "SDMMC1_DAT1_ PULLUDENABLE,pullup/down enable for pad sdmmc1_dat1" "SDMMC1_DAT1_ PULLUDENABLE_0,SDMMC1_DAT1_ PULLUDENABLE_1"
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bitfld.long 0xA8 0.--2. "SDMMC1_DAT1_ MUXMODE,Functional multiplexing selection for pad sdmmc1_dat1" "SDMMC1_DAT1_ MUXMODE_0,?,SDMMC1_DAT1_ MUXMODE_2,SDMMC1_DAT1_ MUXMODE_3,?,?,?,SDMMC1_DAT1_ MUXMODE_7"
line.long 0xAC "CONTROL_CORE_PAD0_SDMMC1_DAT3_PAD1_SDMMC1_DAT4,Register control for Pads sdmmc1_dat3 and sdmmc1_dat4 Access conditions"
rbitfld.long 0xAC 31. "SDMMC1_DAT4_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "SDMMC1_DAT4_WAKEUPEVENT_0_r,SDMMC1_DAT4_WAKEUPEVENT_1_r"
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bitfld.long 0xAC 30. "SDMMC1_DAT4_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "SDMMC1_DAT4_WAKEUPENABLE_0,SDMMC1_DAT4_WAKEUPENABLE_1"
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bitfld.long 0xAC 29. "SDMMC1_DAT4_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad sdmmc1_dat4" "SDMMC1_DAT4_ OFFMODEPULLTYPESELECT_0,SDMMC1_DAT4_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xAC 28. "SDMMC1_DAT4_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad sdmmc1_dat4" "SDMMC1_DAT4_ OFFMODEPULLUDENABLE_0,SDMMC1_DAT4_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0xAC 27. "SDMMC1_DAT4_ OFFMODEOUTVALUE,OffMode mode output value for pad sdmmc1_dat4" "SDMMC1_DAT4_ OFFMODEOUTVALUE_0,SDMMC1_DAT4_ OFFMODEOUTVALUE_1"
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bitfld.long 0xAC 26. "SDMMC1_DAT4_ OFFMODEOUTENABLE,OffMode mode output enable value for pad sdmmc1_dat4" "SDMMC1_DAT4_ OFFMODEOUTENABLE_0,SDMMC1_DAT4_ OFFMODEOUTENABLE_1"
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bitfld.long 0xAC 25. "SDMMC1_DAT4_ OFFMODEENABLE,OffMode mode override control for pad sdmmc1_dat4" "SDMMC1_DAT4_ OFFMODEENABLE_0,SDMMC1_DAT4_ OFFMODEENABLE_1"
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bitfld.long 0xAC 24. "SDMMC1_DAT4_ INPUTENABLE,Input enable value for pad sdmmc1_dat4" "SDMMC1_DAT4_ INPUTENABLE_0,SDMMC1_DAT4_ INPUTENABLE_1"
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bitfld.long 0xAC 20. "SDMMC1_DAT4_ PULLTYPESELECT,pullup/down selection for pad sdmmc1_dat4" "SDMMC1_DAT4_ PULLTYPESELECT_0,SDMMC1_DAT4_ PULLTYPESELECT_1"
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bitfld.long 0xAC 19. "SDMMC1_DAT4_ PULLUDENABLE,pullup/down enable for pad sdmmc1_dat4" "SDMMC1_DAT4_ PULLUDENABLE_0,SDMMC1_DAT4_ PULLUDENABLE_1"
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bitfld.long 0xAC 16.--18. "SDMMC1_DAT4_ MUXMODE,Functional multiplexing selection for pad sdmmc1_dat4" "SDMMC1_DAT4_ MUXMODE_0,?,?,SDMMC1_DAT4_ MUXMODE_3,?,?,?,SDMMC1_DAT4_ MUXMODE_7"
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rbitfld.long 0xAC 15. "SDMMC1_DAT3_ WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "SDMMC1_DAT3_ WAKEUPEVENT_0_r,SDMMC1_DAT3_ WAKEUPEVENT_1_r"
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bitfld.long 0xAC 14. "SDMMC1_DAT3_ WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "SDMMC1_DAT3_ WAKEUPENABLE_0,SDMMC1_DAT3_ WAKEUPENABLE_1"
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bitfld.long 0xAC 13. "SDMMC1_DAT3_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad sdmmc1_dat3" "SDMMC1_DAT3_ OFFMODEPULLTYPESELECT_0,SDMMC1_DAT3_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xAC 12. "SDMMC1_DAT3_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad sdmmc1_dat3" "SDMMC1_DAT3_ OFFMODEPULLUDENABLE_0,SDMMC1_DAT3_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0xAC 11. "SDMMC1_DAT3_ OFFMODEOUTVALUE,OffMode mode output value for pad sdmmc1_dat3" "SDMMC1_DAT3_ OFFMODEOUTVALUE_0,SDMMC1_DAT3_ OFFMODEOUTVALUE_1"
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bitfld.long 0xAC 10. "SDMMC1_DAT3_ OFFMODEOUTENABLE,OffMode mode output enable value for pad sdmmc1_dat3" "SDMMC1_DAT3_ OFFMODEOUTENABLE_0,SDMMC1_DAT3_ OFFMODEOUTENABLE_1"
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bitfld.long 0xAC 9. "SDMMC1_DAT3_ OFFMODEENABLE,OffMode mode override control for pad sdmmc1_dat3" "SDMMC1_DAT3_ OFFMODEENABLE_0,SDMMC1_DAT3_ OFFMODEENABLE_1"
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bitfld.long 0xAC 8. "SDMMC1_DAT3_ INPUTENABLE,Input enable value for pad sdmmc1_dat3" "SDMMC1_DAT3_ INPUTENABLE_0,SDMMC1_DAT3_ INPUTENABLE_1"
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bitfld.long 0xAC 4. "SDMMC1_DAT3_ PULLTYPESELECT,pullup/down selection for pad sdmmc1_dat3" "SDMMC1_DAT3_ PULLTYPESELECT_0,SDMMC1_DAT3_ PULLTYPESELECT_1"
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bitfld.long 0xAC 3. "SDMMC1_DAT3_ PULLUDENABLE,pullup/down enable for pad sdmmc1_dat3" "SDMMC1_DAT3_ PULLUDENABLE_0,SDMMC1_DAT3_ PULLUDENABLE_1"
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bitfld.long 0xAC 0.--2. "SDMMC1_DAT3_ MUXMODE,Functional multiplexing selection for pad sdmmc1_dat3" "SDMMC1_DAT3_ MUXMODE_0,?,SDMMC1_DAT3_ MUXMODE_2,SDMMC1_DAT3_ MUXMODE_3,SDMMC1_DAT3_ MUXMODE_4,?,?,SDMMC1_DAT3_ MUXMODE_7"
line.long 0xB0 "CONTROL_CORE_PAD0_SDMMC1_DAT5_PAD1_SDMMC1_DAT6,Register control for Pads sdmmc1_dat5 and sdmmc1_dat6 Access conditions"
rbitfld.long 0xB0 31. "SDMMC1_DAT6_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "SDMMC1_DAT6_WAKEUPEVENT_0_r,SDMMC1_DAT6_WAKEUPEVENT_1_r"
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bitfld.long 0xB0 30. "SDMMC1_DAT6_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "SDMMC1_DAT6_WAKEUPENABLE_0,SDMMC1_DAT6_WAKEUPENABLE_1"
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bitfld.long 0xB0 29. "SDMMC1_DAT6_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad sdmmc1_dat6" "SDMMC1_DAT6_ OFFMODEPULLTYPESELECT_0,SDMMC1_DAT6_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xB0 28. "SDMMC1_DAT6_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad sdmmc1_dat6" "SDMMC1_DAT6_ OFFMODEPULLUDENABLE_0,SDMMC1_DAT6_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0xB0 27. "SDMMC1_DAT6_ OFFMODEOUTVALUE,OffMode mode output value for pad sdmmc1_dat6" "SDMMC1_DAT6_ OFFMODEOUTVALUE_0,SDMMC1_DAT6_ OFFMODEOUTVALUE_1"
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bitfld.long 0xB0 26. "SDMMC1_DAT6_ OFFMODEOUTENABLE,OffMode mode output enable value for pad sdmmc1_dat6" "SDMMC1_DAT6_ OFFMODEOUTENABLE_0,SDMMC1_DAT6_ OFFMODEOUTENABLE_1"
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bitfld.long 0xB0 25. "SDMMC1_DAT6_ OFFMODEENABLE,OffMode mode override control for pad sdmmc1_dat6" "SDMMC1_DAT6_ OFFMODEENABLE_0,SDMMC1_DAT6_ OFFMODEENABLE_1"
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bitfld.long 0xB0 24. "SDMMC1_DAT6_ INPUTENABLE,Input enable value for pad sdmmc1_dat6" "SDMMC1_DAT6_ INPUTENABLE_0,SDMMC1_DAT6_ INPUTENABLE_1"
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bitfld.long 0xB0 20. "SDMMC1_DAT6_ PULLTYPESELECT,pullup/down selection for pad sdmmc1_dat6" "SDMMC1_DAT6_ PULLTYPESELECT_0,SDMMC1_DAT6_ PULLTYPESELECT_1"
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bitfld.long 0xB0 19. "SDMMC1_DAT6_ PULLUDENABLE,pullup/down enable for pad sdmmc1_dat6" "SDMMC1_DAT6_ PULLUDENABLE_0,SDMMC1_DAT6_ PULLUDENABLE_1"
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bitfld.long 0xB0 16.--18. "SDMMC1_DAT6_ MUXMODE,Functional multiplexing selection for pad sdmmc1_dat6" "SDMMC1_DAT6_ MUXMODE_0,?,?,SDMMC1_DAT6_ MUXMODE_3,?,?,?,SDMMC1_DAT6_ MUXMODE_7"
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rbitfld.long 0xB0 15. "SDMMC1_DAT5_ WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "SDMMC1_DAT5_ WAKEUPEVENT_0_r,SDMMC1_DAT5_ WAKEUPEVENT_1_r"
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bitfld.long 0xB0 14. "SDMMC1_DAT5_ WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "SDMMC1_DAT5_ WAKEUPENABLE_0,SDMMC1_DAT5_ WAKEUPENABLE_1"
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bitfld.long 0xB0 13. "SDMMC1_DAT5_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad sdmmc1_dat5" "SDMMC1_DAT5_ OFFMODEPULLTYPESELECT_0,SDMMC1_DAT5_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xB0 12. "SDMMC1_DAT5_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad sdmmc1_dat5" "SDMMC1_DAT5_ OFFMODEPULLUDENABLE_0,SDMMC1_DAT5_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0xB0 11. "SDMMC1_DAT5_ OFFMODEOUTVALUE,OffMode mode output value for pad sdmmc1_dat5" "SDMMC1_DAT5_ OFFMODEOUTVALUE_0,SDMMC1_DAT5_ OFFMODEOUTVALUE_1"
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bitfld.long 0xB0 10. "SDMMC1_DAT5_ OFFMODEOUTENABLE,OffMode mode output enable value for pad sdmmc1_dat5" "SDMMC1_DAT5_ OFFMODEOUTENABLE_0,SDMMC1_DAT5_ OFFMODEOUTENABLE_1"
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bitfld.long 0xB0 9. "SDMMC1_DAT5_ OFFMODEENABLE,OffMode mode override control for pad sdmmc1_dat5" "SDMMC1_DAT5_ OFFMODEENABLE_0,SDMMC1_DAT5_ OFFMODEENABLE_1"
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bitfld.long 0xB0 8. "SDMMC1_DAT5_ INPUTENABLE,Input enable value for pad sdmmc1_dat5" "SDMMC1_DAT5_ INPUTENABLE_0,SDMMC1_DAT5_ INPUTENABLE_1"
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bitfld.long 0xB0 4. "SDMMC1_DAT5_ PULLTYPESELECT,pullup/down selection for pad sdmmc1_dat5" "SDMMC1_DAT5_ PULLTYPESELECT_0,SDMMC1_DAT5_ PULLTYPESELECT_1"
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bitfld.long 0xB0 3. "SDMMC1_DAT5_ PULLUDENABLE,pullup/down enable for pad sdmmc1_dat5" "SDMMC1_DAT5_ PULLUDENABLE_0,SDMMC1_DAT5_ PULLUDENABLE_1"
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bitfld.long 0xB0 0.--2. "SDMMC1_DAT5_ MUXMODE,Functional multiplexing selection for pad sdmmc1_dat5" "SDMMC1_DAT5_ MUXMODE_0,?,?,SDMMC1_DAT5_ MUXMODE_3,?,?,?,SDMMC1_DAT5_ MUXMODE_7"
line.long 0xB4 "CONTROL_CORE_PAD0_SDMMC1_DAT7_PAD1_ABE_MCBSP2_CLKX,Register control for Pads sdmmc1_dat7 and abe_mcbsp2_clkx Access conditions"
rbitfld.long 0xB4 31. "ABE_MCBSP2_ CLKX_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "ABE_MCBSP2_ CLKX_WAKEUPEVENT_0_r,ABE_MCBSP2_ CLKX_WAKEUPEVENT_1_r"
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bitfld.long 0xB4 30. "ABE_MCBSP2_ CLKX_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "ABE_MCBSP2_ CLKX_WAKEUPENABLE_0,ABE_MCBSP2_ CLKX_WAKEUPENABLE_1"
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bitfld.long 0xB4 29. "ABE_MCBSP2_ CLKX_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad abe_mcbsp2_clkx" "ABE_MCBSP2_ CLKX_OFFMODEPULLTYPESELECT_0,ABE_MCBSP2_ CLKX_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xB4 28. "ABE_MCBSP2_ CLKX_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad abe_mcbsp2_clkx" "ABE_MCBSP2_ CLKX_OFFMODEPULLUDENABLE_0,ABE_MCBSP2_ CLKX_OFFMODEPULLUDENABLE_1"
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bitfld.long 0xB4 27. "ABE_MCBSP2_ CLKX_OFFMODEOUTVALUE,OffMode mode output value for pad abe_mcbsp2_clkx" "ABE_MCBSP2_ CLKX_OFFMODEOUTVALUE_0,ABE_MCBSP2_ CLKX_OFFMODEOUTVALUE_1"
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bitfld.long 0xB4 26. "ABE_MCBSP2_ CLKX_OFFMODEOUTENABLE,OffMode mode output enable value for pad abe_mcbsp2_clkx" "ABE_MCBSP2_ CLKX_OFFMODEOUTENABLE_0,ABE_MCBSP2_ CLKX_OFFMODEOUTENABLE_1"
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bitfld.long 0xB4 25. "ABE_MCBSP2_ CLKX_OFFMODEENABLE,OffMode mode override control for pad abe_mcbsp2_clkx" "ABE_MCBSP2_ CLKX_OFFMODEENABLE_0,ABE_MCBSP2_ CLKX_OFFMODEENABLE_1"
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bitfld.long 0xB4 24. "ABE_MCBSP2_ CLKX_INPUTENABLE,Input enable value for pad abe_mcbsp2_clkx" "ABE_MCBSP2_ CLKX_INPUTENABLE_0,ABE_MCBSP2_ CLKX_INPUTENABLE_1"
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bitfld.long 0xB4 20. "ABE_MCBSP2_ CLKX_PULLTYPESELECT,pullup/down selection for pad abe_mcbsp2_clkx" "ABE_MCBSP2_ CLKX_PULLTYPESELECT_0,ABE_MCBSP2_ CLKX_PULLTYPESELECT_1"
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bitfld.long 0xB4 19. "ABE_MCBSP2_ CLKX_PULLUDENABLE,pullup/down enable for pad abe_mcbsp2_clkx" "ABE_MCBSP2_ CLKX_PULLUDENABLE_0,ABE_MCBSP2_ CLKX_PULLUDENABLE_1"
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bitfld.long 0xB4 16.--18. "ABE_MCBSP2_ CLKX_MUXMODE,Functional multiplexing selection for pad abe_mcbsp2_clkx" "ABE_MCBSP2_ CLKX_MUXMODE_0,ABE_MCBSP2_ CLKX_MUXMODE_1,ABE_MCBSP2_ CLKX_MUXMODE_2,ABE_MCBSP2_ CLKX_MUXMODE_3,ABE_MCBSP2_ CLKX_MUXMODE_4,?,?,ABE_MCBSP2_ CLKX_MUXMODE_7"
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rbitfld.long 0xB4 15. "SDMMC1_DAT7_ WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "SDMMC1_DAT7_ WAKEUPEVENT_0_r,SDMMC1_DAT7_ WAKEUPEVENT_1_r"
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bitfld.long 0xB4 14. "SDMMC1_DAT7_ WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "SDMMC1_DAT7_ WAKEUPENABLE_0,SDMMC1_DAT7_ WAKEUPENABLE_1"
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bitfld.long 0xB4 13. "SDMMC1_DAT7_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad sdmmc1_dat7" "SDMMC1_DAT7_ OFFMODEPULLTYPESELECT_0,SDMMC1_DAT7_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xB4 12. "SDMMC1_DAT7_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad sdmmc1_dat7" "SDMMC1_DAT7_ OFFMODEPULLUDENABLE_0,SDMMC1_DAT7_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0xB4 11. "SDMMC1_DAT7_ OFFMODEOUTVALUE,OffMode mode output value for pad sdmmc1_dat7" "SDMMC1_DAT7_ OFFMODEOUTVALUE_0,SDMMC1_DAT7_ OFFMODEOUTVALUE_1"
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bitfld.long 0xB4 10. "SDMMC1_DAT7_ OFFMODEOUTENABLE,OffMode mode output enable value for pad sdmmc1_dat7" "SDMMC1_DAT7_ OFFMODEOUTENABLE_0,SDMMC1_DAT7_ OFFMODEOUTENABLE_1"
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bitfld.long 0xB4 9. "SDMMC1_DAT7_ OFFMODEENABLE,OffMode mode override control for pad sdmmc1_dat7" "SDMMC1_DAT7_ OFFMODEENABLE_0,SDMMC1_DAT7_ OFFMODEENABLE_1"
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bitfld.long 0xB4 8. "SDMMC1_DAT7_ INPUTENABLE,Input enable value for pad sdmmc1_dat7" "SDMMC1_DAT7_ INPUTENABLE_0,SDMMC1_DAT7_ INPUTENABLE_1"
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bitfld.long 0xB4 4. "SDMMC1_DAT7_ PULLTYPESELECT,pullup/down selection for pad sdmmc1_dat7" "SDMMC1_DAT7_ PULLTYPESELECT_0,SDMMC1_DAT7_ PULLTYPESELECT_1"
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bitfld.long 0xB4 3. "SDMMC1_DAT7_ PULLUDENABLE,pullup/down enable for pad sdmmc1_dat7" "SDMMC1_DAT7_ PULLUDENABLE_0,SDMMC1_DAT7_ PULLUDENABLE_1"
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bitfld.long 0xB4 0.--2. "SDMMC1_DAT7_ MUXMODE,Functional multiplexing selection for pad sdmmc1_dat7" "SDMMC1_DAT7_ MUXMODE_0,?,?,SDMMC1_DAT7_ MUXMODE_3,?,?,?,SDMMC1_DAT7_ MUXMODE_7"
line.long 0xB8 "CONTROL_CORE_PAD0_ABE_MCBSP2_DR_PAD1_ABE_MCBSP2_DX,Register control for Pads abe_mcbsp2_dr and abe_mcbsp2_dx Access conditions"
rbitfld.long 0xB8 31. "ABE_MCBSP2_DX_ WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "ABE_MCBSP2_DX_ WAKEUPEVENT_0_r,ABE_MCBSP2_DX_ WAKEUPEVENT_1_r"
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bitfld.long 0xB8 30. "ABE_MCBSP2_DX_ WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "ABE_MCBSP2_DX_ WAKEUPENABLE_0,ABE_MCBSP2_DX_ WAKEUPENABLE_1"
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bitfld.long 0xB8 29. "ABE_MCBSP2_DX_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad abe_mcbsp2_dx" "ABE_MCBSP2_DX_ OFFMODEPULLTYPESELECT_0,ABE_MCBSP2_DX_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xB8 28. "ABE_MCBSP2_DX_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad abe_mcbsp2_dx" "ABE_MCBSP2_DX_ OFFMODEPULLUDENABLE_0,ABE_MCBSP2_DX_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0xB8 27. "ABE_MCBSP2_DX_ OFFMODEOUTVALUE,OffMode mode output value for pad abe_mcbsp2_dx" "ABE_MCBSP2_DX_ OFFMODEOUTVALUE_0,ABE_MCBSP2_DX_ OFFMODEOUTVALUE_1"
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bitfld.long 0xB8 26. "ABE_MCBSP2_DX_ OFFMODEOUTENABLE,OffMode mode output enable value for pad abe_mcbsp2_dx" "ABE_MCBSP2_DX_ OFFMODEOUTENABLE_0,ABE_MCBSP2_DX_ OFFMODEOUTENABLE_1"
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bitfld.long 0xB8 25. "ABE_MCBSP2_DX_ OFFMODEENABLE,OffMode mode override control for pad abe_mcbsp2_dx" "ABE_MCBSP2_DX_ OFFMODEENABLE_0,ABE_MCBSP2_DX_ OFFMODEENABLE_1"
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bitfld.long 0xB8 24. "ABE_MCBSP2_DX_ INPUTENABLE,Input enable value for pad abe_mcbsp2_dx" "ABE_MCBSP2_DX_ INPUTENABLE_0,ABE_MCBSP2_DX_ INPUTENABLE_1"
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bitfld.long 0xB8 20. "ABE_MCBSP2_DX_ PULLTYPESELECT,pullup/down selection for pad abe_mcbsp2_dx" "ABE_MCBSP2_DX_ PULLTYPESELECT_0,ABE_MCBSP2_DX_ PULLTYPESELECT_1"
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bitfld.long 0xB8 19. "ABE_MCBSP2_DX_ PULLUDENABLE,pullup/down enable for pad abe_mcbsp2_dx" "ABE_MCBSP2_DX_ PULLUDENABLE_0,ABE_MCBSP2_DX_ PULLUDENABLE_1"
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bitfld.long 0xB8 16.--18. "ABE_MCBSP2_DX_ MUXMODE,Functional multiplexing selection for pad abe_mcbsp2_dx" "ABE_MCBSP2_DX_ MUXMODE_0,ABE_MCBSP2_DX_ MUXMODE_1,ABE_MCBSP2_DX_ MUXMODE_2,ABE_MCBSP2_DX_ MUXMODE_3,ABE_MCBSP2_DX_ MUXMODE_4,?,?,ABE_MCBSP2_DX_ MUXMODE_7"
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rbitfld.long 0xB8 15. "ABE_MCBSP2_DR_ WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "ABE_MCBSP2_DR_ WAKEUPEVENT_0_r,ABE_MCBSP2_DR_ WAKEUPEVENT_1_r"
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bitfld.long 0xB8 14. "ABE_MCBSP2_DR_ WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "ABE_MCBSP2_DR_ WAKEUPENABLE_0,ABE_MCBSP2_DR_ WAKEUPENABLE_1"
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bitfld.long 0xB8 13. "ABE_MCBSP2_DR_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad abe_mcbsp2_dr" "ABE_MCBSP2_DR_ OFFMODEPULLTYPESELECT_0,ABE_MCBSP2_DR_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xB8 12. "ABE_MCBSP2_DR_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad abe_mcbsp2_dr" "ABE_MCBSP2_DR_ OFFMODEPULLUDENABLE_0,ABE_MCBSP2_DR_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0xB8 11. "ABE_MCBSP2_DR_ OFFMODEOUTVALUE,OffMode mode output value for pad abe_mcbsp2_dr" "ABE_MCBSP2_DR_ OFFMODEOUTVALUE_0,ABE_MCBSP2_DR_ OFFMODEOUTVALUE_1"
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bitfld.long 0xB8 10. "ABE_MCBSP2_DR_ OFFMODEOUTENABLE,OffMode mode output enable value for pad abe_mcbsp2_dr" "ABE_MCBSP2_DR_ OFFMODEOUTENABLE_0,ABE_MCBSP2_DR_ OFFMODEOUTENABLE_1"
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bitfld.long 0xB8 9. "ABE_MCBSP2_DR_ OFFMODEENABLE,OffMode mode override control for pad abe_mcbsp2_dr" "ABE_MCBSP2_DR_ OFFMODEENABLE_0,ABE_MCBSP2_DR_ OFFMODEENABLE_1"
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bitfld.long 0xB8 8. "ABE_MCBSP2_DR_ INPUTENABLE,Input enable value for pad abe_mcbsp2_dr" "ABE_MCBSP2_DR_ INPUTENABLE_0,ABE_MCBSP2_DR_ INPUTENABLE_1"
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bitfld.long 0xB8 4. "ABE_MCBSP2_DR_ PULLTYPESELECT,pullup/down selection for pad abe_mcbsp2_dr" "ABE_MCBSP2_DR_ PULLTYPESELECT_0,ABE_MCBSP2_DR_ PULLTYPESELECT_1"
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bitfld.long 0xB8 3. "ABE_MCBSP2_DR_ PULLUDENABLE,pullup/down enable for pad abe_mcbsp2_dr" "ABE_MCBSP2_DR_ PULLUDENABLE_0,ABE_MCBSP2_DR_ PULLUDENABLE_1"
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bitfld.long 0xB8 0.--2. "ABE_MCBSP2_DR_ MUXMODE,Functional multiplexing selection for pad abe_mcbsp2_dr" "ABE_MCBSP2_DR_ MUXMODE_0,ABE_MCBSP2_DR_ MUXMODE_1,ABE_MCBSP2_DR_ MUXMODE_2,ABE_MCBSP2_DR_ MUXMODE_3,ABE_MCBSP2_DR_ MUXMODE_4,?,?,ABE_MCBSP2_DR_ MUXMODE_7"
line.long 0xBC "CONTROL_CORE_PAD0_ABE_MCBSP2_FSX_PAD1_ABE_MCBSP1_CLKX,Register control for Pads abe_mcbsp2_fsx and abe_mcbsp1_clkx Access conditions"
rbitfld.long 0xBC 31. "ABE_MCBSP1_CLKX_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "ABE_MCBSP1_CLKX_WAKEUPEVENT_0_r,ABE_MCBSP1_CLKX_WAKEUPEVENT_1_r"
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bitfld.long 0xBC 30. "ABE_MCBSP1_CLKX_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "ABE_MCBSP1_CLKX_WAKEUPENABLE_0,ABE_MCBSP1_CLKX_WAKEUPENABLE_1"
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bitfld.long 0xBC 29. "ABE_MCBSP1_CLKX_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad abe_mcbsp1_clkx" "ABE_MCBSP1_CLKX_ OFFMODEPULLTYPESELECT_0,ABE_MCBSP1_CLKX_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xBC 28. "ABE_MCBSP1_CLKX_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad abe_mcbsp1_clkx" "ABE_MCBSP1_CLKX_ OFFMODEPULLUDENABLE_0,ABE_MCBSP1_CLKX_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0xBC 27. "ABE_MCBSP1_CLKX_ OFFMODEOUTVALUE,OffMode mode output value for pad abe_mcbsp1_clkx" "ABE_MCBSP1_CLKX_ OFFMODEOUTVALUE_0,ABE_MCBSP1_CLKX_ OFFMODEOUTVALUE_1"
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bitfld.long 0xBC 26. "ABE_MCBSP1_CLKX_ OFFMODEOUTENABLE,OffMode mode output enable value for pad abe_mcbsp1_clkx" "ABE_MCBSP1_CLKX_ OFFMODEOUTENABLE_0,ABE_MCBSP1_CLKX_ OFFMODEOUTENABLE_1"
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bitfld.long 0xBC 25. "ABE_MCBSP1_CLKX_ OFFMODEENABLE,OffMode mode override control for pad abe_mcbsp1_clkx" "ABE_MCBSP1_CLKX_ OFFMODEENABLE_0,ABE_MCBSP1_CLKX_ OFFMODEENABLE_1"
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bitfld.long 0xBC 24. "ABE_MCBSP1_CLKX_ INPUTENABLE,Input enable value for pad abe_mcbsp1_clkx" "ABE_MCBSP1_CLKX_ INPUTENABLE_0,ABE_MCBSP1_CLKX_ INPUTENABLE_1"
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bitfld.long 0xBC 20. "ABE_MCBSP1_CLKX_ PULLTYPESELECT,pullup/down selection for pad abe_mcbsp1_clkx" "ABE_MCBSP1_CLKX_ PULLTYPESELECT_0,ABE_MCBSP1_CLKX_ PULLTYPESELECT_1"
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bitfld.long 0xBC 19. "ABE_MCBSP1_CLKX_ PULLUDENABLE,pullup/down enable for pad abe_mcbsp1_clkx" "ABE_MCBSP1_CLKX_ PULLUDENABLE_0,ABE_MCBSP1_CLKX_ PULLUDENABLE_1"
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bitfld.long 0xBC 16.--18. "ABE_MCBSP1_CLKX_ MUXMODE,Functional multiplexing selection for pad abe_mcbsp1_clkx" "ABE_MCBSP1_CLKX_ MUXMODE_0,ABE_MCBSP1_CLKX_ MUXMODE_1,?,ABE_MCBSP1_CLKX_ MUXMODE_3,?,?,?,ABE_MCBSP1_CLKX_ MUXMODE_7"
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rbitfld.long 0xBC 15. "ABE_MCBSP2_FSX_ WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "ABE_MCBSP2_FSX_ WAKEUPEVENT_0_r,ABE_MCBSP2_FSX_ WAKEUPEVENT_1_r"
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bitfld.long 0xBC 14. "ABE_MCBSP2_FSX_ WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "ABE_MCBSP2_FSX_ WAKEUPENABLE_0,ABE_MCBSP2_FSX_ WAKEUPENABLE_1"
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bitfld.long 0xBC 13. "ABE_MCBSP2_FSX_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad abe_mcbsp2_fsx" "ABE_MCBSP2_FSX_ OFFMODEPULLTYPESELECT_0,ABE_MCBSP2_FSX_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xBC 12. "ABE_MCBSP2_FSX_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad abe_mcbsp2_fsx" "ABE_MCBSP2_FSX_ OFFMODEPULLUDENABLE_0,ABE_MCBSP2_FSX_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0xBC 11. "ABE_MCBSP2_FSX_ OFFMODEOUTVALUE,OffMode mode output value for pad abe_mcbsp2_fsx" "ABE_MCBSP2_FSX_ OFFMODEOUTVALUE_0,ABE_MCBSP2_FSX_ OFFMODEOUTVALUE_1"
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bitfld.long 0xBC 10. "ABE_MCBSP2_FSX_ OFFMODEOUTENABLE,OffMode mode output enable value for pad abe_mcbsp2_fsx" "ABE_MCBSP2_FSX_ OFFMODEOUTENABLE_0,ABE_MCBSP2_FSX_ OFFMODEOUTENABLE_1"
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bitfld.long 0xBC 9. "ABE_MCBSP2_FSX_ OFFMODEENABLE,OffMode mode override control for pad abe_mcbsp2_fsx" "ABE_MCBSP2_FSX_ OFFMODEENABLE_0,ABE_MCBSP2_FSX_ OFFMODEENABLE_1"
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bitfld.long 0xBC 8. "ABE_MCBSP2_FSX_ INPUTENABLE,Input enable value for pad abe_mcbsp2_fsx" "ABE_MCBSP2_FSX_ INPUTENABLE_0,ABE_MCBSP2_FSX_ INPUTENABLE_1"
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bitfld.long 0xBC 4. "ABE_MCBSP2_FSX_ PULLTYPESELECT,pullup/down selection for pad abe_mcbsp2_fsx" "ABE_MCBSP2_FSX_ PULLTYPESELECT_0,ABE_MCBSP2_FSX_ PULLTYPESELECT_1"
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bitfld.long 0xBC 3. "ABE_MCBSP2_FSX_ PULLUDENABLE,pullup/down enable for pad abe_mcbsp2_fsx" "ABE_MCBSP2_FSX_ PULLUDENABLE_0,ABE_MCBSP2_FSX_ PULLUDENABLE_1"
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bitfld.long 0xBC 0.--2. "ABE_MCBSP2_FSX_ MUXMODE,Functional multiplexing selection for pad abe_mcbsp2_fsx" "ABE_MCBSP2_FSX_ MUXMODE_0,ABE_MCBSP2_FSX_ MUXMODE_1,ABE_MCBSP2_FSX_ MUXMODE_2,ABE_MCBSP2_FSX_ MUXMODE_3,ABE_MCBSP2_FSX_ MUXMODE_4,?,?,ABE_MCBSP2_FSX_ MUXMODE_7"
line.long 0xC0 "CONTROL_CORE_PAD0_ABE_MCBSP1_DR_PAD1_ABE_MCBSP1_DX,Register control for Pads abe_mcbsp1_dr and abe_mcbsp1_dx Access conditions"
rbitfld.long 0xC0 31. "ABE_MCBSP1_DX_ WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "ABE_MCBSP1_DX_ WAKEUPEVENT_0_r,ABE_MCBSP1_DX_ WAKEUPEVENT_1_r"
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bitfld.long 0xC0 30. "ABE_MCBSP1_DX_ WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "ABE_MCBSP1_DX_ WAKEUPENABLE_0,ABE_MCBSP1_DX_ WAKEUPENABLE_1"
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bitfld.long 0xC0 29. "ABE_MCBSP1_ DX_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad abe_mcbsp1_dx" "ABE_MCBSP1_ DX_OFFMODEPULLTYPESELECT_0,ABE_MCBSP1_ DX_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xC0 28. "ABE_MCBSP1_ DX_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad abe_mcbsp1_dx" "ABE_MCBSP1_ DX_OFFMODEPULLUDENABLE_0,ABE_MCBSP1_ DX_OFFMODEPULLUDENABLE_1"
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bitfld.long 0xC0 27. "ABE_MCBSP1_ DX_OFFMODEOUTVALUE,OffMode mode output value for pad abe_mcbsp1_dx" "ABE_MCBSP1_ DX_OFFMODEOUTVALUE_0,ABE_MCBSP1_ DX_OFFMODEOUTVALUE_1"
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bitfld.long 0xC0 26. "ABE_MCBSP1_ DX_OFFMODEOUTENABLE,OffMode mode output enable value for pad abe_mcbsp1_dx" "ABE_MCBSP1_ DX_OFFMODEOUTENABLE_0,ABE_MCBSP1_ DX_OFFMODEOUTENABLE_1"
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bitfld.long 0xC0 25. "ABE_MCBSP1_ DX_OFFMODEENABLE,OffMode mode override control for pad abe_mcbsp1_dx" "ABE_MCBSP1_ DX_OFFMODEENABLE_0,ABE_MCBSP1_ DX_OFFMODEENABLE_1"
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bitfld.long 0xC0 24. "ABE_MCBSP1_ DX_INPUTENABLE,Input enable value for pad abe_mcbsp1_dx" "ABE_MCBSP1_ DX_INPUTENABLE_0,ABE_MCBSP1_ DX_INPUTENABLE_1"
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bitfld.long 0xC0 20. "ABE_MCBSP1_ DX_PULLTYPESELECT,pullup/down selection for pad abe_mcbsp1_dx" "ABE_MCBSP1_ DX_PULLTYPESELECT_0,ABE_MCBSP1_ DX_PULLTYPESELECT_1"
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bitfld.long 0xC0 19. "ABE_MCBSP1_ DX_PULLUDENABLE,pullup/down enable for pad abe_mcbsp1_dx" "ABE_MCBSP1_ DX_PULLUDENABLE_0,ABE_MCBSP1_ DX_PULLUDENABLE_1"
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bitfld.long 0xC0 16.--18. "ABE_MCBSP1_ DX_MUXMODE,Functional multiplexing selection for pad abe_mcbsp1_dx" "ABE_MCBSP1_ DX_MUXMODE_0,ABE_MCBSP1_ DX_MUXMODE_1,ABE_MCBSP1_ DX_MUXMODE_2,ABE_MCBSP1_ DX_MUXMODE_3,?,?,?,ABE_MCBSP1_ DX_MUXMODE_7"
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rbitfld.long 0xC0 15. "ABE_MCBSP1_ DR_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "ABE_MCBSP1_ DR_WAKEUPEVENT_0_r,ABE_MCBSP1_ DR_WAKEUPEVENT_1_r"
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bitfld.long 0xC0 14. "ABE_MCBSP1_ DR_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "ABE_MCBSP1_ DR_WAKEUPENABLE_0,ABE_MCBSP1_ DR_WAKEUPENABLE_1"
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bitfld.long 0xC0 13. "ABE_MCBSP1_ DR_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad abe_mcbsp1_dr" "ABE_MCBSP1_ DR_OFFMODEPULLTYPESELECT_0,ABE_MCBSP1_ DR_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xC0 12. "ABE_MCBSP1_ DR_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad abe_mcbsp1_dr" "ABE_MCBSP1_ DR_OFFMODEPULLUDENABLE_0,ABE_MCBSP1_ DR_OFFMODEPULLUDENABLE_1"
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bitfld.long 0xC0 11. "ABE_MCBSP1_ DR_OFFMODEOUTVALUE,OffMode mode output value for pad abe_mcbsp1_dr" "ABE_MCBSP1_ DR_OFFMODEOUTVALUE_0,ABE_MCBSP1_ DR_OFFMODEOUTVALUE_1"
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bitfld.long 0xC0 10. "ABE_MCBSP1_ DR_OFFMODEOUTENABLE,OffMode mode output enable value for pad abe_mcbsp1_dr" "ABE_MCBSP1_ DR_OFFMODEOUTENABLE_0,ABE_MCBSP1_ DR_OFFMODEOUTENABLE_1"
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bitfld.long 0xC0 9. "ABE_MCBSP1_ DR_OFFMODEENABLE,OffMode mode override control for pad abe_mcbsp1_dr" "ABE_MCBSP1_ DR_OFFMODEENABLE_0,ABE_MCBSP1_ DR_OFFMODEENABLE_1"
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bitfld.long 0xC0 8. "ABE_MCBSP1_ DR_INPUTENABLE,Input enable value for pad abe_mcbsp1_dr" "ABE_MCBSP1_ DR_INPUTENABLE_0,ABE_MCBSP1_ DR_INPUTENABLE_1"
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bitfld.long 0xC0 4. "ABE_MCBSP1_ DR_PULLTYPESELECT,pullup/down selection for pad abe_mcbsp1_dr" "ABE_MCBSP1_ DR_PULLTYPESELECT_0,ABE_MCBSP1_ DR_PULLTYPESELECT_1"
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bitfld.long 0xC0 3. "ABE_MCBSP1_ DR_PULLUDENABLE,pullup/down enable for pad abe_mcbsp1_dr" "ABE_MCBSP1_ DR_PULLUDENABLE_0,ABE_MCBSP1_ DR_PULLUDENABLE_1"
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bitfld.long 0xC0 0.--2. "ABE_MCBSP1_ DR_MUXMODE,Functional multiplexing selection for pad abe_mcbsp1_dr" "ABE_MCBSP1_ DR_MUXMODE_0,ABE_MCBSP1_ DR_MUXMODE_1,?,ABE_MCBSP1_ DR_MUXMODE_3,?,?,?,ABE_MCBSP1_ DR_MUXMODE_7"
line.long 0xC4 "CONTROL_CORE_PAD0_ABE_MCBSP1_FSX_PAD1_ABE_PDM_UL_DATA,Register control for Pads abe_mcbsp1_fsx and abe_pdm_ul_data Access conditions"
rbitfld.long 0xC4 31. "ABE_PDM_UL_ DATA_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "ABE_PDM_UL_ DATA_WAKEUPEVENT_0_r,ABE_PDM_UL_ DATA_WAKEUPEVENT_1_r"
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bitfld.long 0xC4 30. "ABE_PDM_UL_ DATA_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "ABE_PDM_UL_ DATA_WAKEUPENABLE_0,ABE_PDM_UL_ DATA_WAKEUPENABLE_1"
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bitfld.long 0xC4 24. "ABE_PDM_UL_ DATA_INPUTENABLE,Input enable value for pad abe_pdm_ul_data" "ABE_PDM_UL_ DATA_INPUTENABLE_0,ABE_PDM_UL_ DATA_INPUTENABLE_1"
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bitfld.long 0xC4 20. "ABE_PDM_UL_ DATA_PULLTYPESELECT,pullup/down selection for pad abe_pdm_ul_data" "ABE_PDM_UL_ DATA_PULLTYPESELECT_0,ABE_PDM_UL_ DATA_PULLTYPESELECT_1"
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bitfld.long 0xC4 19. "ABE_PDM_UL_DATA_PULLUDENABLE,pullup/down enable for pad abe_pdm_ul_data" "ABE_PDM_UL_DATA_PULLUDENABLE_0,ABE_PDM_UL_DATA_PULLUDENABLE_1"
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bitfld.long 0xC4 16.--18. "ABE_PDM_UL_DATA_MUXMODE,Functional multiplexing selection for pad abe_pdm_ul_data" "ABE_PDM_UL_DATA_MUXMODE_0,ABE_PDM_UL_DATA_MUXMODE_1,?,?,?,?,?,ABE_PDM_UL_DATA_MUXMODE_7"
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rbitfld.long 0xC4 15. "ABE_MCBSP1_FSX_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "ABE_MCBSP1_FSX_WAKEUPEVENT_0_r,ABE_MCBSP1_FSX_WAKEUPEVENT_1_r"
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bitfld.long 0xC4 14. "ABE_MCBSP1_ FSX_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "ABE_MCBSP1_ FSX_WAKEUPENABLE_0,ABE_MCBSP1_ FSX_WAKEUPENABLE_1"
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bitfld.long 0xC4 13. "ABE_MCBSP1_ FSX_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad abe_mcbsp1_fsx" "ABE_MCBSP1_ FSX_OFFMODEPULLTYPESELECT_0,ABE_MCBSP1_ FSX_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xC4 12. "ABE_MCBSP1_ FSX_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad abe_mcbsp1_fsx" "ABE_MCBSP1_ FSX_OFFMODEPULLUDENABLE_0,ABE_MCBSP1_ FSX_OFFMODEPULLUDENABLE_1"
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bitfld.long 0xC4 11. "ABE_MCBSP1_ FSX_OFFMODEOUTVALUE,OffMode mode output value for pad abe_mcbsp1_fsx" "ABE_MCBSP1_ FSX_OFFMODEOUTVALUE_0,ABE_MCBSP1_ FSX_OFFMODEOUTVALUE_1"
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bitfld.long 0xC4 10. "ABE_MCBSP1_ FSX_OFFMODEOUTENABLE,OffMode mode output enable value for pad abe_mcbsp1_fsx" "ABE_MCBSP1_ FSX_OFFMODEOUTENABLE_0,ABE_MCBSP1_ FSX_OFFMODEOUTENABLE_1"
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bitfld.long 0xC4 9. "ABE_MCBSP1_FSX_OFFMODEENABLE,OffMode mode override control for pad abe_mcbsp1_fsx" "ABE_MCBSP1_FSX_OFFMODEENABLE_0,ABE_MCBSP1_FSX_OFFMODEENABLE_1"
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bitfld.long 0xC4 8. "ABE_MCBSP1_FSX_INPUTENABLE,Input enable value for pad abe_mcbsp1_fsx" "ABE_MCBSP1_FSX_INPUTENABLE_0,ABE_MCBSP1_FSX_INPUTENABLE_1"
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bitfld.long 0xC4 4. "ABE_MCBSP1_FSX_PULLTYPESELECT,pullup/down selection for pad abe_mcbsp1_fsx" "ABE_MCBSP1_FSX_PULLTYPESELECT_0,ABE_MCBSP1_FSX_PULLTYPESELECT_1"
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bitfld.long 0xC4 3. "ABE_MCBSP1_FSX_PULLUDENABLE,pullup/down enable for pad abe_mcbsp1_fsx" "ABE_MCBSP1_FSX_PULLUDENABLE_0,ABE_MCBSP1_FSX_PULLUDENABLE_1"
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bitfld.long 0xC4 0.--2. "ABE_MCBSP1_FSX_MUXMODE,Functional multiplexing selection for pad abe_mcbsp1_fsx" "ABE_MCBSP1_FSX_MUXMODE_0,ABE_MCBSP1_FSX_MUXMODE_1,ABE_MCBSP1_FSX_MUXMODE_2,ABE_MCBSP1_FSX_MUXMODE_3,?,?,?,ABE_MCBSP1_FSX_MUXMODE_7"
line.long 0xC8 "CONTROL_CORE_PAD0_ABE_PDM_DL_DATA_PAD1_ABE_PDM_FRAME,Register control for Pads abe_pdm_dl_data and abe_pdm_frame Access conditions"
rbitfld.long 0xC8 31. "ABE_PDM_ FRAME_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "ABE_PDM_ FRAME_WAKEUPEVENT_0_r,ABE_PDM_ FRAME_WAKEUPEVENT_1_r"
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bitfld.long 0xC8 30. "ABE_PDM_ FRAME_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "ABE_PDM_ FRAME_WAKEUPENABLE_0,ABE_PDM_ FRAME_WAKEUPENABLE_1"
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bitfld.long 0xC8 29. "ABE_PDM_FRAME_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad abe_pdm_frame" "ABE_PDM_FRAME_ OFFMODEPULLTYPESELECT_0,ABE_PDM_FRAME_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xC8 28. "ABE_PDM_FRAME_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad abe_pdm_frame" "ABE_PDM_FRAME_ OFFMODEPULLUDENABLE_0,ABE_PDM_FRAME_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0xC8 27. "ABE_PDM_ FRAME_OFFMODEOUTVALUE,OffMode mode output value for pad abe_pdm_frame" "ABE_PDM_ FRAME_OFFMODEOUTVALUE_0,ABE_PDM_ FRAME_OFFMODEOUTVALUE_1"
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bitfld.long 0xC8 26. "ABE_PDM_ FRAME_OFFMODEOUTENABLE,OffMode mode output enable value for pad abe_pdm_frame" "ABE_PDM_ FRAME_OFFMODEOUTENABLE_0,ABE_PDM_ FRAME_OFFMODEOUTENABLE_1"
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bitfld.long 0xC8 25. "ABE_PDM_ FRAME_OFFMODEENABLE,OffMode mode override control for pad abe_pdm_frame" "ABE_PDM_ FRAME_OFFMODEENABLE_0,ABE_PDM_ FRAME_OFFMODEENABLE_1"
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bitfld.long 0xC8 24. "ABE_PDM_FRAME_INPUTENABLE,Input enable value for pad abe_pdm_frame" "ABE_PDM_FRAME_INPUTENABLE_0,ABE_PDM_FRAME_INPUTENABLE_1"
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bitfld.long 0xC8 20. "ABE_PDM_FRAME_PULLTYPESELECT,pullup/down selection for pad abe_pdm_frame" "ABE_PDM_FRAME_PULLTYPESELECT_0,ABE_PDM_FRAME_PULLTYPESELECT_1"
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bitfld.long 0xC8 19. "ABE_PDM_FRAME_PULLUDENABLE,pullup/down enable for pad abe_pdm_frame" "ABE_PDM_FRAME_PULLUDENABLE_0,ABE_PDM_FRAME_PULLUDENABLE_1"
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bitfld.long 0xC8 16.--18. "ABE_PDM_FRAME_MUXMODE,Functional multiplexing selection for pad abe_pdm_frame" "ABE_PDM_FRAME_MUXMODE_0,ABE_PDM_FRAME_MUXMODE_1,?,?,?,?,?,ABE_PDM_FRAME_MUXMODE_7"
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rbitfld.long 0xC8 15. "ABE_PDM_DL_ DATA_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "ABE_PDM_DL_ DATA_WAKEUPEVENT_0_r,ABE_PDM_DL_ DATA_WAKEUPEVENT_1_r"
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bitfld.long 0xC8 14. "ABE_PDM_ DL_DATA_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "ABE_PDM_ DL_DATA_WAKEUPENABLE_0,ABE_PDM_ DL_DATA_WAKEUPENABLE_1"
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bitfld.long 0xC8 13. "ABE_PDM_ DL_DATA_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad abe_pdm_dl_data" "ABE_PDM_ DL_DATA_OFFMODEPULLTYPESELECT_0,ABE_PDM_ DL_DATA_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xC8 12. "ABE_PDM_DL_ DATA_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad abe_pdm_dl_data" "ABE_PDM_DL_ DATA_OFFMODEPULLUDENABLE_0,ABE_PDM_DL_ DATA_OFFMODEPULLUDENABLE_1"
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bitfld.long 0xC8 11. "ABE_PDM_DL_ DATA_OFFMODEOUTVALUE,OffMode mode output value for pad abe_pdm_dl_data" "ABE_PDM_DL_ DATA_OFFMODEOUTVALUE_0,ABE_PDM_DL_ DATA_OFFMODEOUTVALUE_1"
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bitfld.long 0xC8 10. "ABE_PDM_DL_ DATA_OFFMODEOUTENABLE,OffMode mode output enable value for pad abe_pdm_dl_data" "ABE_PDM_DL_ DATA_OFFMODEOUTENABLE_0,ABE_PDM_DL_ DATA_OFFMODEOUTENABLE_1"
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bitfld.long 0xC8 9. "ABE_PDM_DL_ DATA_OFFMODEENABLE,OffMode mode override control for pad abe_pdm_dl_data" "ABE_PDM_DL_ DATA_OFFMODEENABLE_0,ABE_PDM_DL_ DATA_OFFMODEENABLE_1"
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bitfld.long 0xC8 8. "ABE_PDM_DL_ DATA_INPUTENABLE,Input enable value for pad abe_pdm_dl_data" "ABE_PDM_DL_ DATA_INPUTENABLE_0,ABE_PDM_DL_ DATA_INPUTENABLE_1"
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bitfld.long 0xC8 4. "ABE_PDM_DL_ DATA_PULLTYPESELECT,pullup/down selection for pad abe_pdm_dl_data" "ABE_PDM_DL_ DATA_PULLTYPESELECT_0,ABE_PDM_DL_ DATA_PULLTYPESELECT_1"
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bitfld.long 0xC8 3. "ABE_PDM_DL_ DATA_PULLUDENABLE,pullup/down enable for pad abe_pdm_dl_data" "ABE_PDM_DL_ DATA_PULLUDENABLE_0,ABE_PDM_DL_ DATA_PULLUDENABLE_1"
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bitfld.long 0xC8 0.--2. "ABE_PDM_DL_ DATA_MUXMODE,Functional multiplexing selection for pad abe_pdm_dl_data" "ABE_PDM_DL_ DATA_MUXMODE_0,ABE_PDM_DL_ DATA_MUXMODE_1,?,?,?,?,?,ABE_PDM_DL_ DATA_MUXMODE_7"
line.long 0xCC "CONTROL_CORE_PAD0_ABE_PDM_LB_CLK_PAD1_ABE_CLKS,Register control for Pads abe_pdm_lb_clk and abe_clks Access conditions"
rbitfld.long 0xCC 31. "ABE_CLKS_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "ABE_CLKS_WAKEUPEVENT_0_r,ABE_CLKS_WAKEUPEVENT_1_r"
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bitfld.long 0xCC 30. "ABE_CLKS_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "ABE_CLKS_WAKEUPENABLE_0,ABE_CLKS_WAKEUPENABLE_1"
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bitfld.long 0xCC 29. "ABE_CLKS_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad abe_clks" "ABE_CLKS_ OFFMODEPULLTYPESELECT_0,ABE_CLKS_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xCC 28. "ABE_CLKS_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad abe_clks" "ABE_CLKS_OFFMODEPULLUDENABLE_0,ABE_CLKS_OFFMODEPULLUDENABLE_1"
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bitfld.long 0xCC 27. "ABE_CLKS_OFFMODEOUTVALUE,OffMode mode output value for pad abe_clks" "ABE_CLKS_OFFMODEOUTVALUE_0,ABE_CLKS_OFFMODEOUTVALUE_1"
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bitfld.long 0xCC 26. "ABE_CLKS_OFFMODEOUTENABLE,OffMode mode output enable value for pad abe_clks" "ABE_CLKS_OFFMODEOUTENABLE_0,ABE_CLKS_OFFMODEOUTENABLE_1"
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bitfld.long 0xCC 25. "ABE_CLKS_OFFMODEENABLE,OffMode mode override control for pad abe_clks" "ABE_CLKS_OFFMODEENABLE_0,ABE_CLKS_OFFMODEENABLE_1"
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bitfld.long 0xCC 24. "ABE_CLKS_INPUTENABLE,Input enable value for pad abe_clks" "ABE_CLKS_INPUTENABLE_0,ABE_CLKS_INPUTENABLE_1"
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bitfld.long 0xCC 20. "ABE_CLKS_PULLTYPESELECT,pullup/down selection for pad abe_clks" "ABE_CLKS_PULLTYPESELECT_0,ABE_CLKS_PULLTYPESELECT_1"
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bitfld.long 0xCC 19. "ABE_CLKS_PULLUDENABLE,pullup/down enable for pad abe_clks" "ABE_CLKS_PULLUDENABLE_0,ABE_CLKS_PULLUDENABLE_1"
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bitfld.long 0xCC 16.--18. "ABE_CLKS_MUXMODE,Functional multiplexing selection for pad abe_clks" "ABE_CLKS_MUXMODE_0,?,?,ABE_CLKS_MUXMODE_3,?,?,?,ABE_CLKS_MUXMODE_7"
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rbitfld.long 0xCC 15. "ABE_PDM_LB_ CLK_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "ABE_PDM_LB_ CLK_WAKEUPEVENT_0_r,ABE_PDM_LB_ CLK_WAKEUPEVENT_1_r"
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bitfld.long 0xCC 14. "ABE_PDM_LB_ CLK_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "ABE_PDM_LB_ CLK_WAKEUPENABLE_0,ABE_PDM_LB_ CLK_WAKEUPENABLE_1"
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bitfld.long 0xCC 13. "ABE_PDM_LB_ CLK_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad abe_pdm_lb_clk" "ABE_PDM_LB_ CLK_OFFMODEPULLTYPESELECT_0,ABE_PDM_LB_ CLK_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xCC 12. "ABE_PDM_LB_CLK_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad abe_pdm_lb_clk" "ABE_PDM_LB_CLK_OFFMODEPULLUDENABLE_0,ABE_PDM_LB_CLK_OFFMODEPULLUDENABLE_1"
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bitfld.long 0xCC 11. "ABE_PDM_LB_CLK_OFFMODEOUTVALUE,OffMode mode output value for pad abe_pdm_lb_clk" "ABE_PDM_LB_CLK_OFFMODEOUTVALUE_0,ABE_PDM_LB_CLK_OFFMODEOUTVALUE_1"
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bitfld.long 0xCC 10. "ABE_PDM_LB_CLK_OFFMODEOUTENABLE,OffMode mode output enable value for pad abe_pdm_lb_clk" "ABE_PDM_LB_CLK_OFFMODEOUTENABLE_0,ABE_PDM_LB_CLK_OFFMODEOUTENABLE_1"
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bitfld.long 0xCC 9. "ABE_PDM_LB_CLK_OFFMODEENABLE,OffMode mode override control for pad abe_pdm_lb_clk" "ABE_PDM_LB_CLK_OFFMODEENABLE_0,ABE_PDM_LB_CLK_OFFMODEENABLE_1"
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bitfld.long 0xCC 8. "ABE_PDM_LB_CLK_INPUTENABLE,Input enable value for pad abe_pdm_lb_clk" "ABE_PDM_LB_CLK_INPUTENABLE_0,ABE_PDM_LB_CLK_INPUTENABLE_1"
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bitfld.long 0xCC 4. "ABE_PDM_LB_CLK_PULLTYPESELECT,pullup/down selection for pad abe_pdm_lb_clk" "ABE_PDM_LB_CLK_PULLTYPESELECT_0,ABE_PDM_LB_CLK_PULLTYPESELECT_1"
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bitfld.long 0xCC 3. "ABE_PDM_LB_CLK_PULLUDENABLE,pullup/down enable for pad abe_pdm_lb_clk" "ABE_PDM_LB_CLK_PULLUDENABLE_0,ABE_PDM_LB_CLK_PULLUDENABLE_1"
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bitfld.long 0xCC 0.--2. "ABE_PDM_LB_CLK_MUXMODE,Functional multiplexing selection for pad abe_pdm_lb_clk" "ABE_PDM_LB_CLK_MUXMODE_0,ABE_PDM_LB_CLK_MUXMODE_1,?,?,?,?,?,ABE_PDM_LB_CLK_MUXMODE_7"
line.long 0xD0 "CONTROL_CORE_PAD0_ABE_DMIC_CLK1_PAD1_ABE_DMIC_DIN1,Register control for Pads abe_dmic_clk1 and abe_dmic_din1 Access conditions"
rbitfld.long 0xD0 31. "ABE_DMIC_DIN1_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "ABE_DMIC_DIN1_WAKEUPEVENT_0_r,ABE_DMIC_DIN1_WAKEUPEVENT_1_r"
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bitfld.long 0xD0 30. "ABE_DMIC_DIN1_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "ABE_DMIC_DIN1_WAKEUPENABLE_0,ABE_DMIC_DIN1_WAKEUPENABLE_1"
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bitfld.long 0xD0 29. "ABE_DMIC_ DIN1_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad abe_dmic_din1" "ABE_DMIC_ DIN1_OFFMODEPULLTYPESELECT_0,ABE_DMIC_ DIN1_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xD0 28. "ABE_DMIC_DIN1_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad abe_dmic_din1" "ABE_DMIC_DIN1_OFFMODEPULLUDENABLE_0,ABE_DMIC_DIN1_OFFMODEPULLUDENABLE_1"
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bitfld.long 0xD0 27. "ABE_DMIC_DIN1_OFFMODEOUTVALUE,OffMode mode output value for pad abe_dmic_din1" "ABE_DMIC_DIN1_OFFMODEOUTVALUE_0,ABE_DMIC_DIN1_OFFMODEOUTVALUE_1"
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bitfld.long 0xD0 26. "ABE_DMIC_DIN1_OFFMODEOUTENABLE,OffMode mode output enable value for pad abe_dmic_din1" "ABE_DMIC_DIN1_OFFMODEOUTENABLE_0,ABE_DMIC_DIN1_OFFMODEOUTENABLE_1"
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bitfld.long 0xD0 25. "ABE_DMIC_DIN1_OFFMODEENABLE,OffMode mode override control for pad abe_dmic_din1" "ABE_DMIC_DIN1_OFFMODEENABLE_0,ABE_DMIC_DIN1_OFFMODEENABLE_1"
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bitfld.long 0xD0 24. "ABE_DMIC_DIN1_INPUTENABLE,Input enable value for pad abe_dmic_din1" "ABE_DMIC_DIN1_INPUTENABLE_0,ABE_DMIC_DIN1_INPUTENABLE_1"
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bitfld.long 0xD0 20. "ABE_DMIC_DIN1_PULLTYPESELECT,pullup/down selection for pad abe_dmic_din1" "ABE_DMIC_DIN1_PULLTYPESELECT_0,ABE_DMIC_DIN1_PULLTYPESELECT_1"
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bitfld.long 0xD0 19. "ABE_DMIC_DIN1_PULLUDENABLE,pullup/down enable for pad abe_dmic_din1" "ABE_DMIC_DIN1_PULLUDENABLE_0,ABE_DMIC_DIN1_PULLUDENABLE_1"
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bitfld.long 0xD0 16.--18. "ABE_DMIC_DIN1_MUXMODE,Functional multiplexing selection for pad abe_dmic_din1" "ABE_DMIC_DIN1_MUXMODE_0,?,?,ABE_DMIC_DIN1_MUXMODE_3,ABE_DMIC_DIN1_MUXMODE_4,ABE_DMIC_DIN1_MUXMODE_5,?,ABE_DMIC_DIN1_MUXMODE_7"
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rbitfld.long 0xD0 15. "ABE_DMIC_CLK1_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "ABE_DMIC_CLK1_WAKEUPEVENT_0_r,ABE_DMIC_CLK1_WAKEUPEVENT_1_r"
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bitfld.long 0xD0 14. "ABE_DMIC_CLK1_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "ABE_DMIC_CLK1_WAKEUPENABLE_0,ABE_DMIC_CLK1_WAKEUPENABLE_1"
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bitfld.long 0xD0 13. "ABE_DMIC_ CLK1_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad abe_dmic_clk1" "ABE_DMIC_ CLK1_OFFMODEPULLTYPESELECT_0,ABE_DMIC_ CLK1_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xD0 12. "ABE_DMIC_ CLK1_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad abe_dmic_clk1" "ABE_DMIC_ CLK1_OFFMODEPULLUDENABLE_0,ABE_DMIC_ CLK1_OFFMODEPULLUDENABLE_1"
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bitfld.long 0xD0 11. "ABE_DMIC_CLK1_OFFMODEOUTVALUE,OffMode mode output value for pad abe_dmic_clk1" "ABE_DMIC_CLK1_OFFMODEOUTVALUE_0,ABE_DMIC_CLK1_OFFMODEOUTVALUE_1"
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bitfld.long 0xD0 10. "ABE_DMIC_CLK1_OFFMODEOUTENABLE,OffMode mode output enable value for pad abe_dmic_clk1" "ABE_DMIC_CLK1_OFFMODEOUTENABLE_0,ABE_DMIC_CLK1_OFFMODEOUTENABLE_1"
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bitfld.long 0xD0 9. "ABE_DMIC_CLK1_OFFMODEENABLE,OffMode mode override control for pad abe_dmic_clk1" "ABE_DMIC_CLK1_OFFMODEENABLE_0,ABE_DMIC_CLK1_OFFMODEENABLE_1"
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bitfld.long 0xD0 8. "ABE_DMIC_CLK1_INPUTENABLE,Input enable value for pad abe_dmic_clk1" "ABE_DMIC_CLK1_INPUTENABLE_0,ABE_DMIC_CLK1_INPUTENABLE_1"
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bitfld.long 0xD0 4. "ABE_DMIC_CLK1_PULLTYPESELECT,pullup/down selection for pad abe_dmic_clk1" "ABE_DMIC_CLK1_PULLTYPESELECT_0,ABE_DMIC_CLK1_PULLTYPESELECT_1"
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bitfld.long 0xD0 3. "ABE_DMIC_CLK1_PULLUDENABLE,pullup/down enable for pad abe_dmic_clk1" "ABE_DMIC_CLK1_PULLUDENABLE_0,ABE_DMIC_CLK1_PULLUDENABLE_1"
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bitfld.long 0xD0 0.--2. "ABE_DMIC_CLK1_MUXMODE,Functional multiplexing selection for pad abe_dmic_clk1" "ABE_DMIC_CLK1_MUXMODE_0,?,?,ABE_DMIC_CLK1_MUXMODE_3,ABE_DMIC_CLK1_MUXMODE_4,ABE_DMIC_CLK1_MUXMODE_5,?,ABE_DMIC_CLK1_MUXMODE_7"
line.long 0xD4 "CONTROL_CORE_PAD0_ABE_DMIC_DIN2_PAD1_ABE_DMIC_DIN3,Register control for Pads abe_dmic_din2 and abe_dmic_din3 Access conditions"
rbitfld.long 0xD4 31. "ABE_DMIC_DIN3_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "ABE_DMIC_DIN3_WAKEUPEVENT_0_r,ABE_DMIC_DIN3_WAKEUPEVENT_1_r"
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bitfld.long 0xD4 30. "ABE_DMIC_DIN3_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "ABE_DMIC_DIN3_WAKEUPENABLE_0,ABE_DMIC_DIN3_WAKEUPENABLE_1"
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bitfld.long 0xD4 29. "ABE_DMIC_ DIN3_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad abe_dmic_din3" "ABE_DMIC_ DIN3_OFFMODEPULLTYPESELECT_0,ABE_DMIC_ DIN3_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xD4 28. "ABE_DMIC_DIN3_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad abe_dmic_din3" "ABE_DMIC_DIN3_OFFMODEPULLUDENABLE_0,ABE_DMIC_DIN3_OFFMODEPULLUDENABLE_1"
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bitfld.long 0xD4 27. "ABE_DMIC_DIN3_OFFMODEOUTVALUE,OffMode mode output value for pad abe_dmic_din3" "ABE_DMIC_DIN3_OFFMODEOUTVALUE_0,ABE_DMIC_DIN3_OFFMODEOUTVALUE_1"
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bitfld.long 0xD4 26. "ABE_DMIC_DIN3_OFFMODEOUTENABLE,OffMode mode output enable value for pad abe_dmic_din3" "ABE_DMIC_DIN3_OFFMODEOUTENABLE_0,ABE_DMIC_DIN3_OFFMODEOUTENABLE_1"
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bitfld.long 0xD4 25. "ABE_DMIC_DIN3_OFFMODEENABLE,OffMode mode override control for pad abe_dmic_din3" "ABE_DMIC_DIN3_OFFMODEENABLE_0,ABE_DMIC_DIN3_OFFMODEENABLE_1"
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bitfld.long 0xD4 24. "ABE_DMIC_DIN3_INPUTENABLE,Input enable value for pad abe_dmic_din3" "ABE_DMIC_DIN3_INPUTENABLE_0,ABE_DMIC_DIN3_INPUTENABLE_1"
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bitfld.long 0xD4 20. "ABE_DMIC_DIN3_PULLTYPESELECT,pullup/down selection for pad abe_dmic_din3" "ABE_DMIC_DIN3_PULLTYPESELECT_0,ABE_DMIC_DIN3_PULLTYPESELECT_1"
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bitfld.long 0xD4 19. "ABE_DMIC_DIN3_PULLUDENABLE,pullup/down enable for pad abe_dmic_din3" "ABE_DMIC_DIN3_PULLUDENABLE_0,ABE_DMIC_DIN3_PULLUDENABLE_1"
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bitfld.long 0xD4 16.--18. "ABE_DMIC_DIN3_MUXMODE,Functional multiplexing selection for pad abe_dmic_din3" "ABE_DMIC_DIN3_MUXMODE_0,ABE_DMIC_DIN3_MUXMODE_1,ABE_DMIC_DIN3_MUXMODE_2,ABE_DMIC_DIN3_MUXMODE_3,?,ABE_DMIC_DIN3_MUXMODE_5,?,ABE_DMIC_DIN3_MUXMODE_7"
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rbitfld.long 0xD4 15. "ABE_DMIC_DIN2_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "ABE_DMIC_DIN2_WAKEUPEVENT_0_r,ABE_DMIC_DIN2_WAKEUPEVENT_1_r"
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bitfld.long 0xD4 14. "ABE_DMIC_DIN2_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "ABE_DMIC_DIN2_WAKEUPENABLE_0,ABE_DMIC_DIN2_WAKEUPENABLE_1"
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bitfld.long 0xD4 13. "ABE_DMIC_ DIN2_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad abe_dmic_din2" "ABE_DMIC_ DIN2_OFFMODEPULLTYPESELECT_0,ABE_DMIC_ DIN2_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xD4 12. "ABE_DMIC_ DIN2_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad abe_dmic_din2" "ABE_DMIC_ DIN2_OFFMODEPULLUDENABLE_0,ABE_DMIC_ DIN2_OFFMODEPULLUDENABLE_1"
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bitfld.long 0xD4 11. "ABE_DMIC_DIN2_OFFMODEOUTVALUE,OffMode mode output value for pad abe_dmic_din2" "ABE_DMIC_DIN2_OFFMODEOUTVALUE_0,ABE_DMIC_DIN2_OFFMODEOUTVALUE_1"
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bitfld.long 0xD4 10. "ABE_DMIC_DIN2_OFFMODEOUTENABLE,OffMode mode output enable value for pad abe_dmic_din2" "ABE_DMIC_DIN2_OFFMODEOUTENABLE_0,ABE_DMIC_DIN2_OFFMODEOUTENABLE_1"
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bitfld.long 0xD4 9. "ABE_DMIC_DIN2_OFFMODEENABLE,OffMode mode override control for pad abe_dmic_din2" "ABE_DMIC_DIN2_OFFMODEENABLE_0,ABE_DMIC_DIN2_OFFMODEENABLE_1"
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bitfld.long 0xD4 8. "ABE_DMIC_DIN2_INPUTENABLE,Input enable value for pad abe_dmic_din2" "ABE_DMIC_DIN2_INPUTENABLE_0,ABE_DMIC_DIN2_INPUTENABLE_1"
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bitfld.long 0xD4 4. "ABE_DMIC_DIN2_PULLTYPESELECT,pullup/down selection for pad abe_dmic_din2" "ABE_DMIC_DIN2_PULLTYPESELECT_0,ABE_DMIC_DIN2_PULLTYPESELECT_1"
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bitfld.long 0xD4 3. "ABE_DMIC_DIN2_PULLUDENABLE,pullup/down enable for pad abe_dmic_din2" "ABE_DMIC_DIN2_PULLUDENABLE_0,ABE_DMIC_DIN2_PULLUDENABLE_1"
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bitfld.long 0xD4 0.--2. "ABE_DMIC_DIN2_MUXMODE,Functional multiplexing selection for pad abe_dmic_din2" "ABE_DMIC_DIN2_MUXMODE_0,ABE_DMIC_DIN2_MUXMODE_1,ABE_DMIC_DIN2_MUXMODE_2,ABE_DMIC_DIN2_MUXMODE_3,?,ABE_DMIC_DIN2_MUXMODE_5,?,ABE_DMIC_DIN2_MUXMODE_7"
line.long 0xD8 "CONTROL_CORE_PAD0_UART2_CTS_PAD1_UART2_RTS,Register control for Pads uart2_cts and uart2_rts Access conditions"
rbitfld.long 0xD8 31. "UART2_RTS_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "UART2_RTS_WAKEUPEVENT_0_r,UART2_RTS_WAKEUPEVENT_1_r"
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bitfld.long 0xD8 30. "UART2_RTS_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "UART2_RTS_WAKEUPENABLE_0,UART2_RTS_WAKEUPENABLE_1"
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bitfld.long 0xD8 29. "UART2_RTS_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad uart2_rts" "UART2_RTS_ OFFMODEPULLTYPESELECT_0,UART2_RTS_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xD8 28. "UART2_RTS_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad uart2_rts" "UART2_RTS_OFFMODEPULLUDENABLE_0,UART2_RTS_OFFMODEPULLUDENABLE_1"
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bitfld.long 0xD8 27. "UART2_RTS_OFFMODEOUTVALUE,OffMode mode output value for pad uart2_rts" "UART2_RTS_OFFMODEOUTVALUE_0,UART2_RTS_OFFMODEOUTVALUE_1"
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bitfld.long 0xD8 26. "UART2_RTS_OFFMODEOUTENABLE,OffMode mode output enable value for pad uart2_rts" "UART2_RTS_OFFMODEOUTENABLE_0,UART2_RTS_OFFMODEOUTENABLE_1"
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bitfld.long 0xD8 25. "UART2_RTS_OFFMODEENABLE,OffMode mode override control for pad uart2_rts" "UART2_RTS_OFFMODEENABLE_0,UART2_RTS_OFFMODEENABLE_1"
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bitfld.long 0xD8 24. "UART2_RTS_INPUTENABLE,Input enable value for pad uart2_rts" "UART2_RTS_INPUTENABLE_0,UART2_RTS_INPUTENABLE_1"
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bitfld.long 0xD8 20. "UART2_RTS_PULLTYPESELECT,pullup/down selection for pad uart2_rts" "UART2_RTS_PULLTYPESELECT_0,UART2_RTS_PULLTYPESELECT_1"
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bitfld.long 0xD8 19. "UART2_RTS_PULLUDENABLE,pullup/down enable for pad uart2_rts" "UART2_RTS_PULLUDENABLE_0,UART2_RTS_PULLUDENABLE_1"
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bitfld.long 0xD8 16.--18. "UART2_RTS_MUXMODE,Functional multiplexing selection for pad uart2_rts" "UART2_RTS_MUXMODE_0,UART2_RTS_MUXMODE_1,?,UART2_RTS_MUXMODE_3,?,?,?,UART2_RTS_MUXMODE_7"
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rbitfld.long 0xD8 15. "UART2_CTS_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "UART2_CTS_WAKEUPEVENT_0_r,UART2_CTS_WAKEUPEVENT_1_r"
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bitfld.long 0xD8 14. "UART2_CTS_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "UART2_CTS_WAKEUPENABLE_0,UART2_CTS_WAKEUPENABLE_1"
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bitfld.long 0xD8 13. "UART2_CTS_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad uart2_cts" "UART2_CTS_ OFFMODEPULLTYPESELECT_0,UART2_CTS_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xD8 12. "UART2_CTS_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad uart2_cts" "UART2_CTS_ OFFMODEPULLUDENABLE_0,UART2_CTS_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0xD8 11. "UART2_CTS_OFFMODEOUTVALUE,OffMode mode output value for pad uart2_cts" "UART2_CTS_OFFMODEOUTVALUE_0,UART2_CTS_OFFMODEOUTVALUE_1"
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bitfld.long 0xD8 10. "UART2_CTS_OFFMODEOUTENABLE,OffMode mode output enable value for pad uart2_cts" "UART2_CTS_OFFMODEOUTENABLE_0,UART2_CTS_OFFMODEOUTENABLE_1"
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bitfld.long 0xD8 9. "UART2_CTS_OFFMODEENABLE,OffMode mode override control for pad uart2_cts" "UART2_CTS_OFFMODEENABLE_0,UART2_CTS_OFFMODEENABLE_1"
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bitfld.long 0xD8 8. "UART2_CTS_INPUTENABLE,Input enable value for pad uart2_cts" "UART2_CTS_INPUTENABLE_0,UART2_CTS_INPUTENABLE_1"
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bitfld.long 0xD8 4. "UART2_CTS_PULLTYPESELECT,pullup/down selection for pad uart2_cts" "UART2_CTS_PULLTYPESELECT_0,UART2_CTS_PULLTYPESELECT_1"
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bitfld.long 0xD8 3. "UART2_CTS_PULLUDENABLE,pullup/down enable for pad uart2_cts" "UART2_CTS_PULLUDENABLE_0,UART2_CTS_PULLUDENABLE_1"
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bitfld.long 0xD8 0.--2. "UART2_CTS_MUXMODE,Functional multiplexing selection for pad uart2_cts" "UART2_CTS_MUXMODE_0,UART2_CTS_MUXMODE_1,?,UART2_CTS_MUXMODE_3,?,?,?,UART2_CTS_MUXMODE_7"
line.long 0xDC "CONTROL_CORE_PAD0_UART2_RX_PAD1_UART2_TX,Register control for Pads uart2_rx and uart2_tx Access conditions"
rbitfld.long 0xDC 31. "UART2_TX_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "UART2_TX_WAKEUPEVENT_0_r,UART2_TX_WAKEUPEVENT_1_r"
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bitfld.long 0xDC 30. "UART2_TX_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "UART2_TX_WAKEUPENABLE_0,UART2_TX_WAKEUPENABLE_1"
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bitfld.long 0xDC 29. "UART2_TX_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad uart2_tx" "UART2_TX_ OFFMODEPULLTYPESELECT_0,UART2_TX_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xDC 28. "UART2_TX_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad uart2_tx" "UART2_TX_OFFMODEPULLUDENABLE_0,UART2_TX_OFFMODEPULLUDENABLE_1"
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bitfld.long 0xDC 27. "UART2_TX_OFFMODEOUTVALUE,OffMode mode output value for pad uart2_tx" "UART2_TX_OFFMODEOUTVALUE_0,UART2_TX_OFFMODEOUTVALUE_1"
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bitfld.long 0xDC 26. "UART2_TX_OFFMODEOUTENABLE,OffMode mode output enable value for pad uart2_tx" "UART2_TX_OFFMODEOUTENABLE_0,UART2_TX_OFFMODEOUTENABLE_1"
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bitfld.long 0xDC 25. "UART2_TX_OFFMODEENABLE,OffMode mode override control for pad uart2_tx" "UART2_TX_OFFMODEENABLE_0,UART2_TX_OFFMODEENABLE_1"
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bitfld.long 0xDC 24. "UART2_TX_INPUTENABLE,Input enable value for pad uart2_tx" "UART2_TX_INPUTENABLE_0,UART2_TX_INPUTENABLE_1"
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bitfld.long 0xDC 20. "UART2_TX_PULLTYPESELECT,pullup/down selection for pad uart2_tx" "UART2_TX_PULLTYPESELECT_0,UART2_TX_PULLTYPESELECT_1"
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bitfld.long 0xDC 19. "UART2_TX_PULLUDENABLE,pullup/down enable for pad uart2_tx" "UART2_TX_PULLUDENABLE_0,UART2_TX_PULLUDENABLE_1"
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bitfld.long 0xDC 16.--18. "UART2_TX_MUXMODE,Functional multiplexing selection for pad uart2_tx" "UART2_TX_MUXMODE_0,UART2_TX_MUXMODE_1,?,UART2_TX_MUXMODE_3,?,?,?,UART2_TX_MUXMODE_7"
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rbitfld.long 0xDC 15. "UART2_RX_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "UART2_RX_WAKEUPEVENT_0_r,UART2_RX_WAKEUPEVENT_1_r"
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bitfld.long 0xDC 14. "UART2_RX_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "UART2_RX_WAKEUPENABLE_0,UART2_RX_WAKEUPENABLE_1"
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bitfld.long 0xDC 13. "UART2_RX_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad uart2_rx" "UART2_RX_ OFFMODEPULLTYPESELECT_0,UART2_RX_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xDC 12. "UART2_RX_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad uart2_rx" "UART2_RX_ OFFMODEPULLUDENABLE_0,UART2_RX_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0xDC 11. "UART2_RX_OFFMODEOUTVALUE,OffMode mode output value for pad uart2_rx" "UART2_RX_OFFMODEOUTVALUE_0,UART2_RX_OFFMODEOUTVALUE_1"
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bitfld.long 0xDC 10. "UART2_RX_OFFMODEOUTENABLE,OffMode mode output enable value for pad uart2_rx" "UART2_RX_OFFMODEOUTENABLE_0,UART2_RX_OFFMODEOUTENABLE_1"
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bitfld.long 0xDC 9. "UART2_RX_OFFMODEENABLE,OffMode mode override control for pad uart2_rx" "UART2_RX_OFFMODEENABLE_0,UART2_RX_OFFMODEENABLE_1"
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bitfld.long 0xDC 8. "UART2_RX_INPUTENABLE,Input enable value for pad uart2_rx" "UART2_RX_INPUTENABLE_0,UART2_RX_INPUTENABLE_1"
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bitfld.long 0xDC 4. "UART2_RX_PULLTYPESELECT,pullup/down selection for pad uart2_rx" "UART2_RX_PULLTYPESELECT_0,UART2_RX_PULLTYPESELECT_1"
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bitfld.long 0xDC 3. "UART2_RX_PULLUDENABLE,pullup/down enable for pad uart2_rx" "UART2_RX_PULLUDENABLE_0,UART2_RX_PULLUDENABLE_1"
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bitfld.long 0xDC 0.--2. "UART2_RX_MUXMODE,Functional multiplexing selection for pad uart2_rx" "UART2_RX_MUXMODE_0,UART2_RX_MUXMODE_1,?,UART2_RX_MUXMODE_3,?,?,?,UART2_RX_MUXMODE_7"
line.long 0xE0 "CONTROL_CORE_PAD0_HDQ_SIO_PAD1_I2C1_SCL,Register control for Pads hdq_sio and i2c1_scl Access conditions"
rbitfld.long 0xE0 31. "I2C1_SCL_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "I2C1_SCL_WAKEUPEVENT_0_r,I2C1_SCL_WAKEUPEVENT_1_r"
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bitfld.long 0xE0 30. "I2C1_SCL_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "I2C1_SCL_WAKEUPENABLE_0,I2C1_SCL_WAKEUPENABLE_1"
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bitfld.long 0xE0 24. "I2C1_SCL_INPUTENABLE,Input enable value for pad i2c1_scl" "I2C1_SCL_INPUTENABLE_0,I2C1_SCL_INPUTENABLE_1"
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bitfld.long 0xE0 20. "I2C1_SCL_PULLTYPESELECT,pullup/down selection for pad i2c1_scl" "I2C1_SCL_PULLTYPESELECT_0,I2C1_SCL_PULLTYPESELECT_1"
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bitfld.long 0xE0 19. "I2C1_SCL_PULLUDENABLE,pullup/down enable for pad i2c1_scl" "I2C1_SCL_PULLUDENABLE_0,I2C1_SCL_PULLUDENABLE_1"
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rbitfld.long 0xE0 15. "HDQ_SIO_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "HDQ_SIO_WAKEUPEVENT_0_r,HDQ_SIO_WAKEUPEVENT_1_r"
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bitfld.long 0xE0 14. "HDQ_SIO_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "HDQ_SIO_WAKEUPENABLE_0,HDQ_SIO_WAKEUPENABLE_1"
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bitfld.long 0xE0 13. "HDQ_SIO_OFFMODEPULLTYPESELECT,OffMode mode Pull-Up/Down selection for pad hdq_sio" "HDQ_SIO_OFFMODEPULLTYPESELECT_0,HDQ_SIO_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xE0 12. "HDQ_SIO_OFFMODEPULLUDENABLE,OffMode mode Pull-Up/Down enable for pad hdq_sio" "HDQ_SIO_OFFMODEPULLUDENABLE_0,HDQ_SIO_OFFMODEPULLUDENABLE_1"
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bitfld.long 0xE0 11. "HDQ_SIO_OFFMODEOUTVALUE,OffMode mode output value for pad hdq_sio" "HDQ_SIO_OFFMODEOUTVALUE_0,HDQ_SIO_OFFMODEOUTVALUE_1"
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bitfld.long 0xE0 10. "HDQ_SIO_OFFMODEOUTENABLE,OffMode mode output enable value for pad hdq_sio" "HDQ_SIO_OFFMODEOUTENABLE_0,HDQ_SIO_OFFMODEOUTENABLE_1"
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bitfld.long 0xE0 9. "HDQ_SIO_OFFMODEENABLE,OffMode mode override control for pad hdq_sio" "HDQ_SIO_OFFMODEENABLE_0,HDQ_SIO_OFFMODEENABLE_1"
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bitfld.long 0xE0 8. "HDQ_SIO_INPUTENABLE,Input enable value for pad hdq_sio" "HDQ_SIO_INPUTENABLE_0,HDQ_SIO_INPUTENABLE_1"
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bitfld.long 0xE0 4. "HDQ_SIO_PULLTYPESELECT,Pull-Up/Down selection for pad hdq_sio" "HDQ_SIO_PULLTYPESELECT_0,HDQ_SIO_PULLTYPESELECT_1"
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bitfld.long 0xE0 3. "HDQ_SIO_PULLUDENABLE,Pull-Up/Down enable for pad hdq_sio" "HDQ_SIO_PULLUDENABLE_0,HDQ_SIO_PULLUDENABLE_1"
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bitfld.long 0xE0 0.--2. "HDQ_SIO_MUXMODE,Functional multiplexing selection for pad hdq_sio" "HDQ_SIO_MUXMODE_0,HDQ_SIO_MUXMODE_1,HDQ_SIO_MUXMODE_2,HDQ_SIO_MUXMODE_3,?,?,?,HDQ_SIO_MUXMODE_7"
line.long 0xE4 "CONTROL_CORE_PAD0_I2C1_SDA_PAD1_I2C2_SCL,Register control for Pads i2c1_sda and i2c2_scl Access conditions"
rbitfld.long 0xE4 31. "I2C2_SCL_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "I2C2_SCL_WAKEUPEVENT_0_r,I2C2_SCL_WAKEUPEVENT_1_r"
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bitfld.long 0xE4 30. "I2C2_SCL_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "I2C2_SCL_WAKEUPENABLE_0,I2C2_SCL_WAKEUPENABLE_1"
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bitfld.long 0xE4 29. "I2C2_SCL_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad i2c2_scl" "I2C2_SCL_ OFFMODEPULLTYPESELECT_0,I2C2_SCL_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xE4 28. "I2C2_SCL_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad i2c2_scl" "I2C2_SCL_ OFFMODEPULLUDENABLE_0,I2C2_SCL_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0xE4 27. "I2C2_SCL_OFFMODEOUTVALUE,OffMode mode output value for pad i2c2_scl" "I2C2_SCL_OFFMODEOUTVALUE_0,I2C2_SCL_OFFMODEOUTVALUE_1"
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bitfld.long 0xE4 26. "I2C2_SCL_OFFMODEOUTENABLE,OffMode mode output enable value for pad i2c2_scl" "I2C2_SCL_OFFMODEOUTENABLE_0,I2C2_SCL_OFFMODEOUTENABLE_1"
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bitfld.long 0xE4 25. "I2C2_SCL_OFFMODEENABLE,OffMode mode override control for pad i2c2_scl" "I2C2_SCL_OFFMODEENABLE_0,I2C2_SCL_OFFMODEENABLE_1"
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bitfld.long 0xE4 24. "I2C2_SCL_INPUTENABLE,Input enable value for pad i2c2_scl" "I2C2_SCL_INPUTENABLE_0,I2C2_SCL_INPUTENABLE_1"
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bitfld.long 0xE4 20. "I2C2_SCL_PULLTYPESELECT,pullup/down selection for pad i2c2_scl" "I2C2_SCL_PULLTYPESELECT_0,I2C2_SCL_PULLTYPESELECT_1"
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bitfld.long 0xE4 19. "I2C2_SCL_PULLUDENABLE,pullup/down enable for pad i2c2_scl" "I2C2_SCL_PULLUDENABLE_0,I2C2_SCL_PULLUDENABLE_1"
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bitfld.long 0xE4 16.--18. "I2C2_SCL_MUXMODE,Functional multiplexing selection for pad i2c2_scl" "I2C2_SCL_MUXMODE_0,I2C2_SCL_MUXMODE_1,?,I2C2_SCL_MUXMODE_3,?,?,?,I2C2_SCL_MUXMODE_7"
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rbitfld.long 0xE4 15. "I2C1_SDA_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "I2C1_SDA_WAKEUPEVENT_0_r,I2C1_SDA_WAKEUPEVENT_1_r"
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bitfld.long 0xE4 14. "I2C1_SDA_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "I2C1_SDA_WAKEUPENABLE_0,I2C1_SDA_WAKEUPENABLE_1"
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bitfld.long 0xE4 8. "I2C1_SDA_INPUTENABLE,Input enable value for pad i2c1_sda" "I2C1_SDA_INPUTENABLE_0,I2C1_SDA_INPUTENABLE_1"
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bitfld.long 0xE4 4. "I2C1_SDA_PULLTYPESELECT,pullup/down selection for pad i2c1_sda" "I2C1_SDA_PULLTYPESELECT_0,I2C1_SDA_PULLTYPESELECT_1"
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bitfld.long 0xE4 3. "I2C1_SDA_PULLUDENABLE,pullup/down enable for pad i2c1_sda" "I2C1_SDA_PULLUDENABLE_0,I2C1_SDA_PULLUDENABLE_1"
line.long 0xE8 "CONTROL_CORE_PAD0_I2C2_SDA_PAD1_I2C3_SCL,Register control for Pads i2c2_sda and i2c3_scl Access conditions"
rbitfld.long 0xE8 31. "I2C3_SCL_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "I2C3_SCL_WAKEUPEVENT_0_r,I2C3_SCL_WAKEUPEVENT_1_r"
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bitfld.long 0xE8 30. "I2C3_SCL_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "I2C3_SCL_WAKEUPENABLE_0,I2C3_SCL_WAKEUPENABLE_1"
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bitfld.long 0xE8 29. "I2C3_SCL_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad i2c3_scl" "I2C3_SCL_ OFFMODEPULLTYPESELECT_0,I2C3_SCL_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xE8 28. "I2C3_SCL_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad i2c3_scl" "I2C3_SCL_ OFFMODEPULLUDENABLE_0,I2C3_SCL_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0xE8 27. "I2C3_SCL_OFFMODEOUTVALUE,OffMode mode output value for pad i2c3_scl" "I2C3_SCL_OFFMODEOUTVALUE_0,I2C3_SCL_OFFMODEOUTVALUE_1"
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bitfld.long 0xE8 26. "I2C3_SCL_OFFMODEOUTENABLE,OffMode mode output enable value for pad i2c3_scl" "I2C3_SCL_OFFMODEOUTENABLE_0,I2C3_SCL_OFFMODEOUTENABLE_1"
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bitfld.long 0xE8 25. "I2C3_SCL_OFFMODEENABLE,OffMode mode override control for pad i2c3_scl" "I2C3_SCL_OFFMODEENABLE_0,I2C3_SCL_OFFMODEENABLE_1"
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bitfld.long 0xE8 24. "I2C3_SCL_INPUTENABLE,Input enable value for pad i2c3_scl" "I2C3_SCL_INPUTENABLE_0,I2C3_SCL_INPUTENABLE_1"
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bitfld.long 0xE8 20. "I2C3_SCL_PULLTYPESELECT,pullup/down selection for pad i2c3_scl" "I2C3_SCL_PULLTYPESELECT_0,I2C3_SCL_PULLTYPESELECT_1"
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bitfld.long 0xE8 19. "I2C3_SCL_PULLUDENABLE,pullup/down enable for pad i2c3_scl" "I2C3_SCL_PULLUDENABLE_0,I2C3_SCL_PULLUDENABLE_1"
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bitfld.long 0xE8 16.--18. "I2C3_SCL_MUXMODE,Functional multiplexing selection for pad i2c3_scl" "I2C3_SCL_MUXMODE_0,?,?,I2C3_SCL_MUXMODE_3,?,?,?,I2C3_SCL_MUXMODE_7"
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rbitfld.long 0xE8 15. "I2C2_SDA_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "I2C2_SDA_WAKEUPEVENT_0_r,I2C2_SDA_WAKEUPEVENT_1_r"
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bitfld.long 0xE8 14. "I2C2_SDA_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "I2C2_SDA_WAKEUPENABLE_0,I2C2_SDA_WAKEUPENABLE_1"
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bitfld.long 0xE8 13. "I2C2_SDA_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad i2c2_sda" "I2C2_SDA_ OFFMODEPULLTYPESELECT_0,I2C2_SDA_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xE8 12. "I2C2_SDA_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad i2c2_sda" "I2C2_SDA_ OFFMODEPULLUDENABLE_0,I2C2_SDA_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0xE8 11. "I2C2_SDA_OFFMODEOUTVALUE,OffMode mode output value for pad i2c2_sda" "I2C2_SDA_OFFMODEOUTVALUE_0,I2C2_SDA_OFFMODEOUTVALUE_1"
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bitfld.long 0xE8 10. "I2C2_SDA_OFFMODEOUTENABLE,OffMode mode output enable value for pad i2c2_sda" "I2C2_SDA_OFFMODEOUTENABLE_0,I2C2_SDA_OFFMODEOUTENABLE_1"
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bitfld.long 0xE8 9. "I2C2_SDA_OFFMODEENABLE,OffMode mode override control for pad i2c2_sda" "I2C2_SDA_OFFMODEENABLE_0,I2C2_SDA_OFFMODEENABLE_1"
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bitfld.long 0xE8 8. "I2C2_SDA_INPUTENABLE,Input enable value for pad i2c2_sda" "I2C2_SDA_INPUTENABLE_0,I2C2_SDA_INPUTENABLE_1"
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bitfld.long 0xE8 4. "I2C2_SDA_PULLTYPESELECT,pullup/down selection for pad i2c2_sda" "I2C2_SDA_PULLTYPESELECT_0,I2C2_SDA_PULLTYPESELECT_1"
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bitfld.long 0xE8 3. "I2C2_SDA_PULLUDENABLE,pullup/down enable for pad i2c2_sda" "I2C2_SDA_PULLUDENABLE_0,I2C2_SDA_PULLUDENABLE_1"
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bitfld.long 0xE8 0.--2. "I2C2_SDA_MUXMODE,Functional multiplexing selection for pad i2c2_sda" "I2C2_SDA_MUXMODE_0,I2C2_SDA_MUXMODE_1,?,I2C2_SDA_MUXMODE_3,?,?,?,I2C2_SDA_MUXMODE_7"
line.long 0xEC "CONTROL_CORE_PAD0_I2C3_SDA_PAD1_I2C4_SCL,Register control for Pads i2c3_sda and i2c4_scl Access conditions"
rbitfld.long 0xEC 31. "I2C4_SCL_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "I2C4_SCL_WAKEUPEVENT_0_r,I2C4_SCL_WAKEUPEVENT_1_r"
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bitfld.long 0xEC 30. "I2C4_SCL_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "I2C4_SCL_WAKEUPENABLE_0,I2C4_SCL_WAKEUPENABLE_1"
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bitfld.long 0xEC 29. "I2C4_SCL_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad i2c4_scl" "I2C4_SCL_ OFFMODEPULLTYPESELECT_0,I2C4_SCL_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xEC 28. "I2C4_SCL_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad i2c4_scl" "I2C4_SCL_ OFFMODEPULLUDENABLE_0,I2C4_SCL_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0xEC 27. "I2C4_SCL_OFFMODEOUTVALUE,OffMode mode output value for pad i2c4_scl" "I2C4_SCL_OFFMODEOUTVALUE_0,I2C4_SCL_OFFMODEOUTVALUE_1"
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bitfld.long 0xEC 26. "I2C4_SCL_OFFMODEOUTENABLE,OffMode mode output enable value for pad i2c4_scl" "I2C4_SCL_OFFMODEOUTENABLE_0,I2C4_SCL_OFFMODEOUTENABLE_1"
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bitfld.long 0xEC 25. "I2C4_SCL_OFFMODEENABLE,OffMode mode override control for pad i2c4_scl" "I2C4_SCL_OFFMODEENABLE_0,I2C4_SCL_OFFMODEENABLE_1"
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bitfld.long 0xEC 24. "I2C4_SCL_INPUTENABLE,Input enable value for pad i2c4_scl" "I2C4_SCL_INPUTENABLE_0,I2C4_SCL_INPUTENABLE_1"
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bitfld.long 0xEC 20. "I2C4_SCL_PULLTYPESELECT,pullup/down selection for pad i2c4_scl" "I2C4_SCL_PULLTYPESELECT_0,I2C4_SCL_PULLTYPESELECT_1"
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bitfld.long 0xEC 19. "I2C4_SCL_PULLUDENABLE,pullup/down enable for pad i2c4_scl" "I2C4_SCL_PULLUDENABLE_0,I2C4_SCL_PULLUDENABLE_1"
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bitfld.long 0xEC 16.--18. "I2C4_SCL_MUXMODE,Functional multiplexing selection for pad i2c4_scl" "I2C4_SCL_MUXMODE_0,?,?,I2C4_SCL_MUXMODE_3,?,?,?,I2C4_SCL_MUXMODE_7"
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rbitfld.long 0xEC 15. "I2C3_SDA_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "I2C3_SDA_WAKEUPEVENT_0_r,I2C3_SDA_WAKEUPEVENT_1_r"
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bitfld.long 0xEC 14. "I2C3_SDA_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "I2C3_SDA_WAKEUPENABLE_0,I2C3_SDA_WAKEUPENABLE_1"
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bitfld.long 0xEC 13. "I2C3_SDA_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad i2c3_sda" "I2C3_SDA_ OFFMODEPULLTYPESELECT_0,I2C3_SDA_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xEC 12. "I2C3_SDA_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad i2c3_sda" "I2C3_SDA_ OFFMODEPULLUDENABLE_0,I2C3_SDA_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0xEC 11. "I2C3_SDA_OFFMODEOUTVALUE,OffMode mode output value for pad i2c3_sda" "I2C3_SDA_OFFMODEOUTVALUE_0,I2C3_SDA_OFFMODEOUTVALUE_1"
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bitfld.long 0xEC 10. "I2C3_SDA_OFFMODEOUTENABLE,OffMode mode output enable value for pad i2c3_sda" "I2C3_SDA_OFFMODEOUTENABLE_0,I2C3_SDA_OFFMODEOUTENABLE_1"
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bitfld.long 0xEC 9. "I2C3_SDA_OFFMODEENABLE,OffMode mode override control for pad i2c3_sda" "I2C3_SDA_OFFMODEENABLE_0,I2C3_SDA_OFFMODEENABLE_1"
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bitfld.long 0xEC 8. "I2C3_SDA_INPUTENABLE,Input enable value for pad i2c3_sda" "I2C3_SDA_INPUTENABLE_0,I2C3_SDA_INPUTENABLE_1"
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bitfld.long 0xEC 4. "I2C3_SDA_PULLTYPESELECT,pullup/down selection for pad i2c3_sda" "I2C3_SDA_PULLTYPESELECT_0,I2C3_SDA_PULLTYPESELECT_1"
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bitfld.long 0xEC 3. "I2C3_SDA_PULLUDENABLE,pullup/down enable for pad i2c3_sda" "I2C3_SDA_PULLUDENABLE_0,I2C3_SDA_PULLUDENABLE_1"
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bitfld.long 0xEC 0.--2. "I2C3_SDA_MUXMODE,Functional multiplexing selection for pad i2c3_sda" "I2C3_SDA_MUXMODE_0,?,?,I2C3_SDA_MUXMODE_3,?,?,?,I2C3_SDA_MUXMODE_7"
line.long 0xF0 "CONTROL_CORE_PAD0_I2C4_SDA_PAD1_MCSPI1_CLK,Register control for Pads i2c4_sda and mcspi1_clk Access conditions"
rbitfld.long 0xF0 31. "MCSPI1_CLK_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "MCSPI1_CLK_WAKEUPEVENT_0_r,MCSPI1_CLK_WAKEUPEVENT_1_r"
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bitfld.long 0xF0 30. "MCSPI1_CLK_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "MCSPI1_CLK_WAKEUPENABLE_0,MCSPI1_CLK_WAKEUPENABLE_1"
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bitfld.long 0xF0 29. "MCSPI1_CLK_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad mcspi1_clk" "MCSPI1_CLK_OFFMODEPULLTYPESELECT_0,MCSPI1_CLK_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xF0 28. "MCSPI1_CLK_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad mcspi1_clk" "MCSPI1_CLK_OFFMODEPULLUDENABLE_0,MCSPI1_CLK_OFFMODEPULLUDENABLE_1"
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bitfld.long 0xF0 27. "MCSPI1_CLK_OFFMODEOUTVALUE,OffMode mode output value for pad mcspi1_clk" "MCSPI1_CLK_OFFMODEOUTVALUE_0,MCSPI1_CLK_OFFMODEOUTVALUE_1"
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bitfld.long 0xF0 26. "MCSPI1_CLK_OFFMODEOUTENABLE,OffMode mode output enable value for pad mcspi1_clk" "MCSPI1_CLK_OFFMODEOUTENABLE_0,MCSPI1_CLK_OFFMODEOUTENABLE_1"
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bitfld.long 0xF0 25. "MCSPI1_CLK_OFFMODEENABLE,OffMode mode override control for pad mcspi1_clk" "MCSPI1_CLK_OFFMODEENABLE_0,MCSPI1_CLK_OFFMODEENABLE_1"
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bitfld.long 0xF0 24. "MCSPI1_CLK_INPUTENABLE,Input enable value for pad mcspi1_clk" "MCSPI1_CLK_INPUTENABLE_0,MCSPI1_CLK_INPUTENABLE_1"
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bitfld.long 0xF0 20. "MCSPI1_ CLK_PULLTYPESELECT,pullup/down selection for pad mcspi1_clk" "MCSPI1_ CLK_PULLTYPESELECT_0,MCSPI1_ CLK_PULLTYPESELECT_1"
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bitfld.long 0xF0 19. "MCSPI1_ CLK_PULLUDENABLE,pullup/down enable for pad mcspi1_clk" "MCSPI1_ CLK_PULLUDENABLE_0,MCSPI1_ CLK_PULLUDENABLE_1"
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bitfld.long 0xF0 16.--18. "MCSPI1_ CLK_MUXMODE,Functional multiplexing selection for pad mcspi1_clk" "MCSPI1_ CLK_MUXMODE_0,?,?,MCSPI1_ CLK_MUXMODE_3,?,?,?,MCSPI1_ CLK_MUXMODE_7"
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rbitfld.long 0xF0 15. "I2C4_ SDA_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "I2C4_ SDA_WAKEUPEVENT_0_r,I2C4_ SDA_WAKEUPEVENT_1_r"
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bitfld.long 0xF0 14. "I2C4_SDA_ WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "I2C4_SDA_ WAKEUPENABLE_0,I2C4_SDA_ WAKEUPENABLE_1"
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bitfld.long 0xF0 13. "I2C4_SDA_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad i2c4_sda" "I2C4_SDA_ OFFMODEPULLTYPESELECT_0,I2C4_SDA_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xF0 12. "I2C4_SDA_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad i2c4_sda" "I2C4_SDA_ OFFMODEPULLUDENABLE_0,I2C4_SDA_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0xF0 11. "I2C4_SDA_ OFFMODEOUTVALUE,OffMode mode output value for pad i2c4_sda" "I2C4_SDA_ OFFMODEOUTVALUE_0,I2C4_SDA_ OFFMODEOUTVALUE_1"
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bitfld.long 0xF0 10. "I2C4_SDA_ OFFMODEOUTENABLE,OffMode mode output enable value for pad i2c4_sda" "I2C4_SDA_ OFFMODEOUTENABLE_0,I2C4_SDA_ OFFMODEOUTENABLE_1"
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bitfld.long 0xF0 9. "I2C4_SDA_ OFFMODEENABLE,OffMode mode override control for pad i2c4_sda" "I2C4_SDA_ OFFMODEENABLE_0,I2C4_SDA_ OFFMODEENABLE_1"
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bitfld.long 0xF0 8. "I2C4_SDA_ INPUTENABLE,Input enable value for pad i2c4_sda" "I2C4_SDA_ INPUTENABLE_0,I2C4_SDA_ INPUTENABLE_1"
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bitfld.long 0xF0 4. "I2C4_SDA_ PULLTYPESELECT,pullup/down selection for pad i2c4_sda" "I2C4_SDA_ PULLTYPESELECT_0,I2C4_SDA_ PULLTYPESELECT_1"
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bitfld.long 0xF0 3. "I2C4_SDA_ PULLUDENABLE,pullup/down enable for pad i2c4_sda" "I2C4_SDA_ PULLUDENABLE_0,I2C4_SDA_ PULLUDENABLE_1"
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bitfld.long 0xF0 0.--2. "I2C4_SDA_ MUXMODE,Functional multiplexing selection for pad i2c4_sda" "I2C4_SDA_ MUXMODE_0,?,?,I2C4_SDA_ MUXMODE_3,?,?,?,I2C4_SDA_ MUXMODE_7"
line.long 0xF4 "CONTROL_CORE_PAD0_MCSPI1_SOMI_PAD1_MCSPI1_SIMO,Register control for Pads mcspi1_somi and mcspi1_simo Access conditions"
rbitfld.long 0xF4 31. "MCSPI1_SIMO_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "MCSPI1_SIMO_WAKEUPEVENT_0_r,MCSPI1_SIMO_WAKEUPEVENT_1_r"
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bitfld.long 0xF4 30. "MCSPI1_SIMO_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "MCSPI1_SIMO_WAKEUPENABLE_0,MCSPI1_SIMO_WAKEUPENABLE_1"
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bitfld.long 0xF4 29. "MCSPI1_SIMO_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad mcspi1_simo" "MCSPI1_SIMO_ OFFMODEPULLTYPESELECT_0,MCSPI1_SIMO_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xF4 28. "MCSPI1_SIMO_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad mcspi1_simo" "MCSPI1_SIMO_ OFFMODEPULLUDENABLE_0,MCSPI1_SIMO_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0xF4 27. "MCSPI1_SIMO_ OFFMODEOUTVALUE,OffMode mode output value for pad mcspi1_simo" "MCSPI1_SIMO_ OFFMODEOUTVALUE_0,MCSPI1_SIMO_ OFFMODEOUTVALUE_1"
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bitfld.long 0xF4 26. "MCSPI1_SIMO_ OFFMODEOUTENABLE,OffMode mode output enable value for pad mcspi1_simo" "MCSPI1_SIMO_ OFFMODEOUTENABLE_0,MCSPI1_SIMO_ OFFMODEOUTENABLE_1"
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bitfld.long 0xF4 25. "MCSPI1_SIMO_ OFFMODEENABLE,OffMode mode override control for pad mcspi1_simo" "MCSPI1_SIMO_ OFFMODEENABLE_0,MCSPI1_SIMO_ OFFMODEENABLE_1"
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bitfld.long 0xF4 24. "MCSPI1_SIMO_ INPUTENABLE,Input enable value for pad mcspi1_simo" "MCSPI1_SIMO_ INPUTENABLE_0,MCSPI1_SIMO_ INPUTENABLE_1"
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bitfld.long 0xF4 20. "MCSPI1_SIMO_ PULLTYPESELECT,pullup/down selection for pad mcspi1_simo" "MCSPI1_SIMO_ PULLTYPESELECT_0,MCSPI1_SIMO_ PULLTYPESELECT_1"
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bitfld.long 0xF4 19. "MCSPI1_SIMO_ PULLUDENABLE,pullup/down enable for pad mcspi1_simo" "MCSPI1_SIMO_ PULLUDENABLE_0,MCSPI1_SIMO_ PULLUDENABLE_1"
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bitfld.long 0xF4 16.--18. "MCSPI1_ SIMO_MUXMODE,Functional multiplexing selection for pad mcspi1_simo" "MCSPI1_ SIMO_MUXMODE_0,?,?,MCSPI1_ SIMO_MUXMODE_3,?,?,?,MCSPI1_ SIMO_MUXMODE_7"
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rbitfld.long 0xF4 15. "MCSPI1_ SOMI_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "MCSPI1_ SOMI_WAKEUPEVENT_0_r,MCSPI1_ SOMI_WAKEUPEVENT_1_r"
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bitfld.long 0xF4 14. "MCSPI1_ SOMI_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "MCSPI1_ SOMI_WAKEUPENABLE_0,MCSPI1_ SOMI_WAKEUPENABLE_1"
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bitfld.long 0xF4 13. "MCSPI1_ SOMI_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad mcspi1_somi" "MCSPI1_ SOMI_OFFMODEPULLTYPESELECT_0,MCSPI1_ SOMI_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xF4 12. "MCSPI1_ SOMI_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad mcspi1_somi" "MCSPI1_ SOMI_OFFMODEPULLUDENABLE_0,MCSPI1_ SOMI_OFFMODEPULLUDENABLE_1"
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bitfld.long 0xF4 11. "MCSPI1_ SOMI_OFFMODEOUTVALUE,OffMode mode output value for pad mcspi1_somi" "MCSPI1_ SOMI_OFFMODEOUTVALUE_0,MCSPI1_ SOMI_OFFMODEOUTVALUE_1"
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bitfld.long 0xF4 10. "MCSPI1_ SOMI_OFFMODEOUTENABLE,OffMode mode output enable value for pad mcspi1_somi" "MCSPI1_ SOMI_OFFMODEOUTENABLE_0,MCSPI1_ SOMI_OFFMODEOUTENABLE_1"
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bitfld.long 0xF4 9. "MCSPI1_ SOMI_OFFMODEENABLE,OffMode mode override control for pad mcspi1_somi" "MCSPI1_ SOMI_OFFMODEENABLE_0,MCSPI1_ SOMI_OFFMODEENABLE_1"
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bitfld.long 0xF4 8. "MCSPI1_SOMI_ INPUTENABLE,Input enable value for pad mcspi1_somi" "MCSPI1_SOMI_ INPUTENABLE_0,MCSPI1_SOMI_ INPUTENABLE_1"
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bitfld.long 0xF4 4. "MCSPI1_SOMI_ PULLTYPESELECT,pullup/down selection for pad mcspi1_somi" "MCSPI1_SOMI_ PULLTYPESELECT_0,MCSPI1_SOMI_ PULLTYPESELECT_1"
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bitfld.long 0xF4 3. "MCSPI1_SOMI_ PULLUDENABLE,pullup/down enable for pad mcspi1_somi" "MCSPI1_SOMI_ PULLUDENABLE_0,MCSPI1_SOMI_ PULLUDENABLE_1"
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bitfld.long 0xF4 0.--2. "MCSPI1_ SOMI_MUXMODE,Functional multiplexing selection for pad mcspi1_somi" "MCSPI1_ SOMI_MUXMODE_0,?,?,MCSPI1_ SOMI_MUXMODE_3,?,?,?,MCSPI1_ SOMI_MUXMODE_7"
line.long 0xF8 "CONTROL_CORE_PAD0_MCSPI1_CS0_PAD1_MCSPI1_CS1,Register control for Pads mcspi1_cs0 and mcspi1_cs1 Access conditions"
rbitfld.long 0xF8 31. "MCSPI1_CS1_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "MCSPI1_CS1_WAKEUPEVENT_0_r,MCSPI1_CS1_WAKEUPEVENT_1_r"
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bitfld.long 0xF8 30. "MCSPI1_CS1_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "MCSPI1_CS1_WAKEUPENABLE_0,MCSPI1_CS1_WAKEUPENABLE_1"
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bitfld.long 0xF8 29. "MCSPI1_CS1_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad mcspi1_cs1" "MCSPI1_CS1_OFFMODEPULLTYPESELECT_0,MCSPI1_CS1_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xF8 28. "MCSPI1_CS1_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad mcspi1_cs1" "MCSPI1_CS1_OFFMODEPULLUDENABLE_0,MCSPI1_CS1_OFFMODEPULLUDENABLE_1"
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bitfld.long 0xF8 27. "MCSPI1_CS1_OFFMODEOUTVALUE,OffMode mode output value for pad mcspi1_cs1" "MCSPI1_CS1_OFFMODEOUTVALUE_0,MCSPI1_CS1_OFFMODEOUTVALUE_1"
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bitfld.long 0xF8 26. "MCSPI1_CS1_OFFMODEOUTENABLE,OffMode mode output enable value for pad mcspi1_cs1" "MCSPI1_CS1_OFFMODEOUTENABLE_0,MCSPI1_CS1_OFFMODEOUTENABLE_1"
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bitfld.long 0xF8 25. "MCSPI1_CS1_OFFMODEENABLE,OffMode mode override control for pad mcspi1_cs1" "MCSPI1_CS1_OFFMODEENABLE_0,MCSPI1_CS1_OFFMODEENABLE_1"
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bitfld.long 0xF8 24. "MCSPI1_CS1_INPUTENABLE,Input enable value for pad mcspi1_cs1" "MCSPI1_CS1_INPUTENABLE_0,MCSPI1_CS1_INPUTENABLE_1"
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bitfld.long 0xF8 20. "MCSPI1_CS1_ PULLTYPESELECT,pullup/down selection for pad mcspi1_cs1" "MCSPI1_CS1_ PULLTYPESELECT_0,MCSPI1_CS1_ PULLTYPESELECT_1"
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bitfld.long 0xF8 19. "MCSPI1_CS1_ PULLUDENABLE,pullup/down enable for pad mcspi1_cs1" "MCSPI1_CS1_ PULLUDENABLE_0,MCSPI1_CS1_ PULLUDENABLE_1"
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bitfld.long 0xF8 16.--18. "MCSPI1_CS1_MUXMODE,Functional multiplexing selection for pad mcspi1_cs1" "MCSPI1_CS1_MUXMODE_0,MCSPI1_CS1_MUXMODE_1,?,MCSPI1_CS1_MUXMODE_3,?,?,?,MCSPI1_CS1_MUXMODE_7"
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rbitfld.long 0xF8 15. "MCSPI1_CS0_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "MCSPI1_CS0_WAKEUPEVENT_0_r,MCSPI1_CS0_WAKEUPEVENT_1_r"
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bitfld.long 0xF8 14. "MCSPI1_CS0_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "MCSPI1_CS0_WAKEUPENABLE_0,MCSPI1_CS0_WAKEUPENABLE_1"
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bitfld.long 0xF8 13. "MCSPI1_CS0_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad mcspi1_cs0" "MCSPI1_CS0_ OFFMODEPULLTYPESELECT_0,MCSPI1_CS0_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xF8 12. "MCSPI1_CS0_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad mcspi1_cs0" "MCSPI1_CS0_ OFFMODEPULLUDENABLE_0,MCSPI1_CS0_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0xF8 11. "MCSPI1_CS0_ OFFMODEOUTVALUE,OffMode mode output value for pad mcspi1_cs0" "MCSPI1_CS0_ OFFMODEOUTVALUE_0,MCSPI1_CS0_ OFFMODEOUTVALUE_1"
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bitfld.long 0xF8 10. "MCSPI1_CS0_ OFFMODEOUTENABLE,OffMode mode output enable value for pad mcspi1_cs0" "MCSPI1_CS0_ OFFMODEOUTENABLE_0,MCSPI1_CS0_ OFFMODEOUTENABLE_1"
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bitfld.long 0xF8 9. "MCSPI1_CS0_OFFMODEENABLE,OffMode mode override control for pad mcspi1_cs0" "MCSPI1_CS0_OFFMODEENABLE_0,MCSPI1_CS0_OFFMODEENABLE_1"
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bitfld.long 0xF8 8. "MCSPI1_CS0_INPUTENABLE,Input enable value for pad mcspi1_cs0" "MCSPI1_CS0_INPUTENABLE_0,MCSPI1_CS0_INPUTENABLE_1"
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bitfld.long 0xF8 4. "MCSPI1_CS0_ PULLTYPESELECT,pullup/down selection for pad mcspi1_cs0" "MCSPI1_CS0_ PULLTYPESELECT_0,MCSPI1_CS0_ PULLTYPESELECT_1"
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bitfld.long 0xF8 3. "MCSPI1_CS0_ PULLUDENABLE,pullup/down enable for pad mcspi1_cs0" "MCSPI1_CS0_ PULLUDENABLE_0,MCSPI1_CS0_ PULLUDENABLE_1"
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bitfld.long 0xF8 0.--2. "MCSPI1_CS0_MUXMODE,Functional multiplexing selection for pad mcspi1_cs0" "MCSPI1_CS0_MUXMODE_0,?,?,MCSPI1_CS0_MUXMODE_3,?,?,?,MCSPI1_CS0_MUXMODE_7"
line.long 0xFC "CONTROL_CORE_PAD0_MCSPI1_CS2_PAD1_MCSPI1_CS3,Register control for Pads mcspi1_cs2 and mcspi1_cs3 Access conditions"
rbitfld.long 0xFC 31. "MCSPI1_CS3_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "MCSPI1_CS3_WAKEUPEVENT_0_r,MCSPI1_CS3_WAKEUPEVENT_1_r"
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bitfld.long 0xFC 30. "MCSPI1_CS3_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "MCSPI1_CS3_WAKEUPENABLE_0,MCSPI1_CS3_WAKEUPENABLE_1"
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bitfld.long 0xFC 29. "MCSPI1_CS3_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad mcspi1_cs3" "MCSPI1_CS3_OFFMODEPULLTYPESELECT_0,MCSPI1_CS3_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xFC 28. "MCSPI1_CS3_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad mcspi1_cs3" "MCSPI1_CS3_OFFMODEPULLUDENABLE_0,MCSPI1_CS3_OFFMODEPULLUDENABLE_1"
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bitfld.long 0xFC 27. "MCSPI1_CS3_OFFMODEOUTVALUE,OffMode mode output value for pad mcspi1_cs3" "MCSPI1_CS3_OFFMODEOUTVALUE_0,MCSPI1_CS3_OFFMODEOUTVALUE_1"
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bitfld.long 0xFC 26. "MCSPI1_CS3_OFFMODEOUTENABLE,OffMode mode output enable value for pad mcspi1_cs3" "MCSPI1_CS3_OFFMODEOUTENABLE_0,MCSPI1_CS3_OFFMODEOUTENABLE_1"
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bitfld.long 0xFC 25. "MCSPI1_CS3_OFFMODEENABLE,OffMode mode override control for pad mcspi1_cs3" "MCSPI1_CS3_OFFMODEENABLE_0,MCSPI1_CS3_OFFMODEENABLE_1"
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bitfld.long 0xFC 24. "MCSPI1_CS3_INPUTENABLE,Input enable value for pad mcspi1_cs3" "MCSPI1_CS3_INPUTENABLE_0,MCSPI1_CS3_INPUTENABLE_1"
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bitfld.long 0xFC 20. "MCSPI1_ CS3_PULLTYPESELECT,pullup/down selection for pad mcspi1_cs3" "MCSPI1_ CS3_PULLTYPESELECT_0,MCSPI1_ CS3_PULLTYPESELECT_1"
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bitfld.long 0xFC 19. "MCSPI1_CS3_PULLUDENABLE,pullup/down enable for pad mcspi1_cs3" "MCSPI1_CS3_PULLUDENABLE_0,MCSPI1_CS3_PULLUDENABLE_1"
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bitfld.long 0xFC 16.--18. "MCSPI1_CS3_MUXMODE,Functional multiplexing selection for pad mcspi1_cs3" "MCSPI1_CS3_MUXMODE_0,MCSPI1_CS3_MUXMODE_1,MCSPI1_CS3_MUXMODE_2,MCSPI1_CS3_MUXMODE_3,?,?,?,MCSPI1_CS3_MUXMODE_7"
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rbitfld.long 0xFC 15. "MCSPI1_CS2_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "MCSPI1_CS2_WAKEUPEVENT_0_r,MCSPI1_CS2_WAKEUPEVENT_1_r"
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bitfld.long 0xFC 14. "MCSPI1_CS2_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "MCSPI1_CS2_WAKEUPENABLE_0,MCSPI1_CS2_WAKEUPENABLE_1"
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bitfld.long 0xFC 13. "MCSPI1_CS2_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad mcspi1_cs2" "MCSPI1_CS2_OFFMODEPULLTYPESELECT_0,MCSPI1_CS2_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0xFC 12. "MCSPI1_CS2_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad mcspi1_cs2" "MCSPI1_CS2_OFFMODEPULLUDENABLE_0,MCSPI1_CS2_OFFMODEPULLUDENABLE_1"
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bitfld.long 0xFC 11. "MCSPI1_CS2_OFFMODEOUTVALUE,OffMode mode output value for pad mcspi1_cs2" "MCSPI1_CS2_OFFMODEOUTVALUE_0,MCSPI1_CS2_OFFMODEOUTVALUE_1"
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bitfld.long 0xFC 10. "MCSPI1_CS2_OFFMODEOUTENABLE,OffMode mode output enable value for pad mcspi1_cs2" "MCSPI1_CS2_OFFMODEOUTENABLE_0,MCSPI1_CS2_OFFMODEOUTENABLE_1"
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bitfld.long 0xFC 9. "MCSPI1_CS2_OFFMODEENABLE,OffMode mode override control for pad mcspi1_cs2" "MCSPI1_CS2_OFFMODEENABLE_0,MCSPI1_CS2_OFFMODEENABLE_1"
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bitfld.long 0xFC 8. "MCSPI1_CS2_INPUTENABLE,Input enable value for pad mcspi1_cs2" "MCSPI1_CS2_INPUTENABLE_0,MCSPI1_CS2_INPUTENABLE_1"
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bitfld.long 0xFC 4. "MCSPI1_ CS2_PULLTYPESELECT,pullup/down selection for pad mcspi1_cs2" "MCSPI1_ CS2_PULLTYPESELECT_0,MCSPI1_ CS2_PULLTYPESELECT_1"
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bitfld.long 0xFC 3. "MCSPI1_CS2_PULLUDENABLE,pullup/down enable for pad mcspi1_cs2" "MCSPI1_CS2_PULLUDENABLE_0,MCSPI1_CS2_PULLUDENABLE_1"
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bitfld.long 0xFC 0.--2. "MCSPI1_CS2_MUXMODE,Functional multiplexing selection for pad mcspi1_cs2" "MCSPI1_CS2_MUXMODE_0,MCSPI1_CS2_MUXMODE_1,MCSPI1_CS2_MUXMODE_2,MCSPI1_CS2_MUXMODE_3,?,?,?,MCSPI1_CS2_MUXMODE_7"
line.long 0x100 "CONTROL_CORE_PAD0_UART3_CTS_RCTX_PAD1_UART3_RTS_SD,Register control for Pads uart3_cts_rctx and uart3_rts_sd Access conditions"
rbitfld.long 0x100 31. "UART3_RTS_SD_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "UART3_RTS_SD_WAKEUPEVENT_0_r,UART3_RTS_SD_WAKEUPEVENT_1_r"
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bitfld.long 0x100 30. "UART3_RTS_SD_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "UART3_RTS_SD_WAKEUPENABLE_0,UART3_RTS_SD_WAKEUPENABLE_1"
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bitfld.long 0x100 29. "UART3_RTS_ SD_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad uart3_rts_sd" "UART3_RTS_ SD_OFFMODEPULLTYPESELECT_0,UART3_RTS_ SD_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x100 28. "UART3_RTS_SD_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad uart3_rts_sd" "UART3_RTS_SD_ OFFMODEPULLUDENABLE_0,UART3_RTS_SD_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0x100 27. "UART3_RTS_SD_ OFFMODEOUTVALUE,OffMode mode output value for pad uart3_rts_sd" "UART3_RTS_SD_ OFFMODEOUTVALUE_0,UART3_RTS_SD_ OFFMODEOUTVALUE_1"
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bitfld.long 0x100 26. "UART3_RTS_SD_ OFFMODEOUTENABLE,OffMode mode output enable value for pad uart3_rts_sd" "UART3_RTS_SD_ OFFMODEOUTENABLE_0,UART3_RTS_SD_ OFFMODEOUTENABLE_1"
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bitfld.long 0x100 25. "UART3_RTS_SD_ OFFMODEENABLE,OffMode mode override control for pad uart3_rts_sd" "UART3_RTS_SD_ OFFMODEENABLE_0,UART3_RTS_SD_ OFFMODEENABLE_1"
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bitfld.long 0x100 24. "UART3_RTS_SD_INPUTENABLE,Input enable value for pad uart3_rts_sd" "UART3_RTS_SD_INPUTENABLE_0,UART3_RTS_SD_INPUTENABLE_1"
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bitfld.long 0x100 20. "UART3_RTS_SD_PULLTYPESELECT,pullup/down selection for pad uart3_rts_sd" "UART3_RTS_SD_PULLTYPESELECT_0,UART3_RTS_SD_PULLTYPESELECT_1"
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bitfld.long 0x100 19. "UART3_RTS_SD_PULLUDENABLE,pullup/down enable for pad uart3_rts_sd" "UART3_RTS_SD_PULLUDENABLE_0,UART3_RTS_SD_PULLUDENABLE_1"
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bitfld.long 0x100 16.--18. "UART3_RTS_SD_MUXMODE,Functional multiplexing selection for pad uart3_rts_sd" "UART3_RTS_SD_MUXMODE_0,?,UART3_RTS_SD_MUXMODE_2,UART3_RTS_SD_MUXMODE_3,?,?,?,UART3_RTS_SD_MUXMODE_7"
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rbitfld.long 0x100 15. "UART3_CTS_RCTX_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "UART3_CTS_RCTX_WAKEUPEVENT_0_r,UART3_CTS_RCTX_WAKEUPEVENT_1_r"
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bitfld.long 0x100 14. "UART3_CTS_ RCTX_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "UART3_CTS_ RCTX_WAKEUPENABLE_0,UART3_CTS_ RCTX_WAKEUPENABLE_1"
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bitfld.long 0x100 13. "UART3_CTS_RCTX_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad uart3_cts_rctx" "UART3_CTS_RCTX_ OFFMODEPULLTYPESELECT_0,UART3_CTS_RCTX_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x100 12. "UART3_CTS_RCTX_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad uart3_cts_rctx" "UART3_CTS_RCTX_ OFFMODEPULLUDENABLE_0,UART3_CTS_RCTX_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0x100 11. "UART3_CTS_RCTX_OFFMODEOUTVALUE,OffMode mode output value for pad uart3_cts_rctx" "UART3_CTS_RCTX_OFFMODEOUTVALUE_0,UART3_CTS_RCTX_OFFMODEOUTVALUE_1"
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bitfld.long 0x100 10. "UART3_CTS_RCTX_OFFMODEOUTENABLE,OffMode mode output enable value for pad uart3_cts_rctx" "UART3_CTS_RCTX_OFFMODEOUTENABLE_0,UART3_CTS_RCTX_OFFMODEOUTENABLE_1"
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bitfld.long 0x100 9. "UART3_CTS_RCTX_OFFMODEENABLE,OffMode mode override control for pad uart3_cts_rctx" "UART3_CTS_RCTX_OFFMODEENABLE_0,UART3_CTS_RCTX_OFFMODEENABLE_1"
newline
bitfld.long 0x100 8. "UART3_CTS_RCTX_INPUTENABLE,Input enable value for pad uart3_cts_rctx" "UART3_CTS_RCTX_INPUTENABLE_0,UART3_CTS_RCTX_INPUTENABLE_1"
newline
bitfld.long 0x100 4. "UART3_CTS_RCTX_PULLTYPESELECT,pullup/down selection for pad uart3_cts_rctx" "UART3_CTS_RCTX_PULLTYPESELECT_0,UART3_CTS_RCTX_PULLTYPESELECT_1"
newline
bitfld.long 0x100 3. "UART3_CTS_RCTX_PULLUDENABLE,pullup/down enable for pad uart3_cts_rctx" "UART3_CTS_RCTX_PULLUDENABLE_0,UART3_CTS_RCTX_PULLUDENABLE_1"
newline
bitfld.long 0x100 0.--2. "UART3_CTS_RCTX_MUXMODE,Functional multiplexing selection for pad uart3_cts_rctx" "UART3_CTS_RCTX_MUXMODE_0,UART3_CTS_RCTX_MUXMODE_1,?,UART3_CTS_RCTX_MUXMODE_3,?,?,?,UART3_CTS_RCTX_MUXMODE_7"
line.long 0x104 "CONTROL_CORE_PAD0_UART3_RX_IRRX_PAD1_UART3_TX_IRTX,Register control for Pads uart3_rx_irrx and uart3_tx_irtx Access conditions"
rbitfld.long 0x104 31. "UART3_TX_IRTX_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "UART3_TX_IRTX_WAKEUPEVENT_0_r,UART3_TX_IRTX_WAKEUPEVENT_1_r"
newline
bitfld.long 0x104 30. "UART3_TX_IRTX_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "UART3_TX_IRTX_WAKEUPENABLE_0,UART3_TX_IRTX_WAKEUPENABLE_1"
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bitfld.long 0x104 29. "UART3_TX_ IRTX_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad uart3_tx_irtx" "UART3_TX_ IRTX_OFFMODEPULLTYPESELECT_0,UART3_TX_ IRTX_OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x104 28. "UART3_TX_IRTX_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad uart3_tx_irtx" "UART3_TX_IRTX_OFFMODEPULLUDENABLE_0,UART3_TX_IRTX_OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x104 27. "UART3_TX_IRTX_OFFMODEOUTVALUE,OffMode mode output value for pad uart3_tx_irtx" "UART3_TX_IRTX_OFFMODEOUTVALUE_0,UART3_TX_IRTX_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x104 26. "UART3_TX_IRTX_OFFMODEOUTENABLE,OffMode mode output enable value for pad uart3_tx_irtx" "UART3_TX_IRTX_OFFMODEOUTENABLE_0,UART3_TX_IRTX_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x104 25. "UART3_TX_IRTX_OFFMODEENABLE,OffMode mode override control for pad uart3_tx_irtx" "UART3_TX_IRTX_OFFMODEENABLE_0,UART3_TX_IRTX_OFFMODEENABLE_1"
newline
bitfld.long 0x104 24. "UART3_TX_IRTX_INPUTENABLE,Input enable value for pad uart3_tx_irtx" "UART3_TX_IRTX_INPUTENABLE_0,UART3_TX_IRTX_INPUTENABLE_1"
newline
bitfld.long 0x104 20. "UART3_TX_IRTX_PULLTYPESELECT,pullup/down selection for pad uart3_tx_irtx" "UART3_TX_IRTX_PULLTYPESELECT_0,UART3_TX_IRTX_PULLTYPESELECT_1"
newline
bitfld.long 0x104 19. "UART3_TX_IRTX_PULLUDENABLE,pullup/down enable for pad uart3_tx_irtx" "UART3_TX_IRTX_PULLUDENABLE_0,UART3_TX_IRTX_PULLUDENABLE_1"
newline
bitfld.long 0x104 16.--18. "UART3_TX_IRTX_MUXMODE,Functional multiplexing selection for pad uart3_tx_irtx" "UART3_TX_IRTX_MUXMODE_0,UART3_TX_IRTX_MUXMODE_1,UART3_TX_IRTX_MUXMODE_2,UART3_TX_IRTX_MUXMODE_3,?,?,?,UART3_TX_IRTX_MUXMODE_7"
newline
rbitfld.long 0x104 15. "UART3_RX_ IRRX_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "UART3_RX_ IRRX_WAKEUPEVENT_0_r,UART3_RX_ IRRX_WAKEUPEVENT_1_r"
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bitfld.long 0x104 14. "UART3_RX_ IRRX_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "UART3_RX_ IRRX_WAKEUPENABLE_0,UART3_RX_ IRRX_WAKEUPENABLE_1"
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bitfld.long 0x104 13. "UART3_RX_ IRRX_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad uart3_rx_irrx" "UART3_RX_ IRRX_OFFMODEPULLTYPESELECT_0,UART3_RX_ IRRX_OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x104 12. "UART3_RX_ IRRX_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad uart3_rx_irrx" "UART3_RX_ IRRX_OFFMODEPULLUDENABLE_0,UART3_RX_ IRRX_OFFMODEPULLUDENABLE_1"
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bitfld.long 0x104 11. "UART3_RX_ IRRX_OFFMODEOUTVALUE,OffMode mode output value for pad uart3_rx_irrx" "UART3_RX_ IRRX_OFFMODEOUTVALUE_0,UART3_RX_ IRRX_OFFMODEOUTVALUE_1"
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bitfld.long 0x104 10. "UART3_RX_ IRRX_OFFMODEOUTENABLE,OffMode mode output enable value for pad uart3_rx_irrx" "UART3_RX_ IRRX_OFFMODEOUTENABLE_0,UART3_RX_ IRRX_OFFMODEOUTENABLE_1"
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bitfld.long 0x104 9. "UART3_RX_IRRX_OFFMODEENABLE,OffMode mode override control for pad uart3_rx_irrx" "UART3_RX_IRRX_OFFMODEENABLE_0,UART3_RX_IRRX_OFFMODEENABLE_1"
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bitfld.long 0x104 8. "UART3_RX_IRRX_INPUTENABLE,Input enable value for pad uart3_rx_irrx" "UART3_RX_IRRX_INPUTENABLE_0,UART3_RX_IRRX_INPUTENABLE_1"
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bitfld.long 0x104 4. "UART3_RX_IRRX_PULLTYPESELECT,pullup/down selection for pad uart3_rx_irrx" "UART3_RX_IRRX_PULLTYPESELECT_0,UART3_RX_IRRX_PULLTYPESELECT_1"
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bitfld.long 0x104 3. "UART3_RX_IRRX_PULLUDENABLE,pullup/down enable for pad uart3_rx_irrx" "UART3_RX_IRRX_PULLUDENABLE_0,UART3_RX_IRRX_PULLUDENABLE_1"
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bitfld.long 0x104 0.--2. "UART3_RX_IRRX_MUXMODE,Functional multiplexing selection for pad uart3_rx_irrx" "UART3_RX_IRRX_MUXMODE_0,UART3_RX_IRRX_MUXMODE_1,UART3_RX_IRRX_MUXMODE_2,UART3_RX_IRRX_MUXMODE_3,?,?,?,UART3_RX_IRRX_MUXMODE_7"
line.long 0x108 "CONTROL_CORE_PAD0_SDMMC5_CLK_PAD1_SDMMC5_CMD,Register control for Pads sdmmc5_clk and sdmmc5_cmd Access conditions"
rbitfld.long 0x108 31. "SDMMC5_CMD _WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "SDMMC5_CMD _WAKEUPEVENT_0_r,SDMMC5_CMD _WAKEUPEVENT_1_r"
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bitfld.long 0x108 30. "SDMMC5_CMD _WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "SDMMC5_CMD _WAKEUPENABLE_0,SDMMC5_CMD _WAKEUPENABLE_1"
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bitfld.long 0x108 29. "SDMMC5_CMD_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad sdmmc5_cmd" "SDMMC5_CMD_OFFMODEPULLTYPESELECT_0,SDMMC5_CMD_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x108 28. "SDMMC5_CMD_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad sdmmc5_cmd" "SDMMC5_CMD_OFFMODEPULLUDENABLE_0,SDMMC5_CMD_OFFMODEPULLUDENABLE_1"
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bitfld.long 0x108 27. "SDMMC5_CMD_OFFMODEOUTVALUE,OffMode mode output value for pad sdmmc5_cmd" "SDMMC5_CMD_OFFMODEOUTVALUE_0,SDMMC5_CMD_OFFMODEOUTVALUE_1"
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bitfld.long 0x108 26. "SDMMC5_CMD_OFFMODEOUTENABLE,OffMode mode output enable value for pad sdmmc5_cmd" "SDMMC5_CMD_OFFMODEOUTENABLE_0,SDMMC5_CMD_OFFMODEOUTENABLE_1"
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bitfld.long 0x108 25. "SDMMC5_CMD_OFFMODEENABLE,OffMode mode override control for pad sdmmc5_cmd" "SDMMC5_CMD_OFFMODEENABLE_0,SDMMC5_CMD_OFFMODEENABLE_1"
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bitfld.long 0x108 24. "SDMMC5_CMD_INPUTENABLE,Input enable value for pad sdmmc5_cmd" "SDMMC5_CMD_INPUTENABLE_0,SDMMC5_CMD_INPUTENABLE_1"
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bitfld.long 0x108 20. "SDMMC5_CMD _PULLTYPESELECT,pullup/down selection for pad sdmmc5_cmd" "SDMMC5_CMD _PULLTYPESELECT_0,SDMMC5_CMD _PULLTYPESELECT_1"
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bitfld.long 0x108 19. "SDMMC5_CMD _PULLUDENABLE,pullup/down enable for pad sdmmc5_cmd" "SDMMC5_CMD _PULLUDENABLE_0,SDMMC5_CMD _PULLUDENABLE_1"
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bitfld.long 0x108 16.--18. "SDMMC5_CMD_MUXMODE,Functional multiplexing selection for pad sdmmc5_cmd" "SDMMC5_CMD_MUXMODE_0,SDMMC5_CMD_MUXMODE_1,SDMMC5_CMD_MUXMODE_2,SDMMC5_CMD_MUXMODE_3,?,SDMMC5_CMD_MUXMODE_5,?,SDMMC5_CMD_MUXMODE_7"
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rbitfld.long 0x108 15. "SDMMC5_ CLK_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "SDMMC5_ CLK_WAKEUPEVENT_0_r,SDMMC5_ CLK_WAKEUPEVENT_1_r"
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bitfld.long 0x108 14. "SDMMC5_ CLK_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "SDMMC5_ CLK_WAKEUPENABLE_0,SDMMC5_ CLK_WAKEUPENABLE_1"
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bitfld.long 0x108 13. "SDMMC5_ CLK_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad sdmmc5_clk" "SDMMC5_ CLK_OFFMODEPULLTYPESELECT_0,SDMMC5_ CLK_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x108 12. "SDMMC5_ CLK_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad sdmmc5_clk" "SDMMC5_ CLK_OFFMODEPULLUDENABLE_0,SDMMC5_ CLK_OFFMODEPULLUDENABLE_1"
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bitfld.long 0x108 11. "SDMMC5_ CLK_OFFMODEOUTVALUE,OffMode mode output value for pad sdmmc5_clk" "SDMMC5_ CLK_OFFMODEOUTVALUE_0,SDMMC5_ CLK_OFFMODEOUTVALUE_1"
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bitfld.long 0x108 10. "SDMMC5_ CLK_OFFMODEOUTENABLE,OffMode mode output enable value for pad sdmmc5_clk" "SDMMC5_ CLK_OFFMODEOUTENABLE_0,SDMMC5_ CLK_OFFMODEOUTENABLE_1"
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bitfld.long 0x108 9. "SDMMC5_CLK_OFFMODEENABLE,OffMode mode override control for pad sdmmc5_clk" "SDMMC5_CLK_OFFMODEENABLE_0,SDMMC5_CLK_OFFMODEENABLE_1"
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bitfld.long 0x108 8. "SDMMC5_CLK_INPUTENABLE,Input enable value for pad sdmmc5_clk" "SDMMC5_CLK_INPUTENABLE_0,SDMMC5_CLK_INPUTENABLE_1"
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bitfld.long 0x108 4. "SDMMC5_ CLK_PULLTYPESELECT,pullup/down selection for pad sdmmc5_clk" "SDMMC5_ CLK_PULLTYPESELECT_0,SDMMC5_ CLK_PULLTYPESELECT_1"
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bitfld.long 0x108 3. "SDMMC5_ CLK_PULLUDENABLE,pullup/down enable for pad sdmmc5_clk" "SDMMC5_ CLK_PULLUDENABLE_0,SDMMC5_ CLK_PULLUDENABLE_1"
newline
bitfld.long 0x108 0.--2. "SDMMC5_CLK_MUXMODE,Functional multiplexing selection for pad sdmmc5_clk" "SDMMC5_CLK_MUXMODE_0,SDMMC5_CLK_MUXMODE_1,SDMMC5_CLK_MUXMODE_2,SDMMC5_CLK_MUXMODE_3,?,SDMMC5_CLK_MUXMODE_5,?,SDMMC5_CLK_MUXMODE_7"
line.long 0x10C "CONTROL_CORE_PAD0_SDMMC5_DAT0_PAD1_SDMMC5_DAT1,Register control for Pads sdmmc5_dat0 and sdmmc5_dat1 Access conditions"
rbitfld.long 0x10C 31. "SDMMC5_DAT1_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "SDMMC5_DAT1_WAKEUPEVENT_0_r,SDMMC5_DAT1_WAKEUPEVENT_1_r"
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bitfld.long 0x10C 30. "SDMMC5_DAT1_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "SDMMC5_DAT1_WAKEUPENABLE_0,SDMMC5_DAT1_WAKEUPENABLE_1"
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bitfld.long 0x10C 29. "SDMMC5_DAT1_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad sdmmc5_dat1" "SDMMC5_DAT1_ OFFMODEPULLTYPESELECT_0,SDMMC5_DAT1_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x10C 28. "SDMMC5_DAT1_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad sdmmc5_dat1" "SDMMC5_DAT1_ OFFMODEPULLUDENABLE_0,SDMMC5_DAT1_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0x10C 27. "SDMMC5_DAT1_ OFFMODEOUTVALUE,OffMode mode output value for pad sdmmc5_dat1" "SDMMC5_DAT1_ OFFMODEOUTVALUE_0,SDMMC5_DAT1_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x10C 26. "SDMMC5_DAT1_ OFFMODEOUTENABLE,OffMode mode output enable value for pad sdmmc5_dat1" "SDMMC5_DAT1_ OFFMODEOUTENABLE_0,SDMMC5_DAT1_ OFFMODEOUTENABLE_1"
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bitfld.long 0x10C 25. "SDMMC5_DAT1_ OFFMODEENABLE,OffMode mode override control for pad sdmmc5_dat1" "SDMMC5_DAT1_ OFFMODEENABLE_0,SDMMC5_DAT1_ OFFMODEENABLE_1"
newline
bitfld.long 0x10C 24. "SDMMC5_DAT1_ INPUTENABLE,Input enable value for pad sdmmc5_dat1" "SDMMC5_DAT1_ INPUTENABLE_0,SDMMC5_DAT1_ INPUTENABLE_1"
newline
bitfld.long 0x10C 20. "SDMMC5_DAT1_ PULLTYPESELECT,pullup/down selection for pad sdmmc5_dat1" "SDMMC5_DAT1_ PULLTYPESELECT_0,SDMMC5_DAT1_ PULLTYPESELECT_1"
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bitfld.long 0x10C 19. "SDMMC5_DAT1_ PULLUDENABLE,pullup/down enable for pad sdmmc5_dat1" "SDMMC5_DAT1_ PULLUDENABLE_0,SDMMC5_DAT1_ PULLUDENABLE_1"
newline
bitfld.long 0x10C 16.--18. "SDMMC5_DAT1_ MUXMODE,Functional multiplexing selection for pad sdmmc5_dat1" "SDMMC5_DAT1_ MUXMODE_0,?,SDMMC5_DAT1_ MUXMODE_2,SDMMC5_DAT1_ MUXMODE_3,?,SDMMC5_DAT1_ MUXMODE_5,?,SDMMC5_DAT1_ MUXMODE_7"
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rbitfld.long 0x10C 15. "SDMMC5_DAT0_ WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "SDMMC5_DAT0_ WAKEUPEVENT_0_r,SDMMC5_DAT0_ WAKEUPEVENT_1_r"
newline
bitfld.long 0x10C 14. "SDMMC5_DAT0_ WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "SDMMC5_DAT0_ WAKEUPENABLE_0,SDMMC5_DAT0_ WAKEUPENABLE_1"
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bitfld.long 0x10C 13. "SDMMC5_DAT0_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad sdmmc5_dat0" "SDMMC5_DAT0_ OFFMODEPULLTYPESELECT_0,SDMMC5_DAT0_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x10C 12. "SDMMC5_DAT0_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad sdmmc5_dat0" "SDMMC5_DAT0_ OFFMODEPULLUDENABLE_0,SDMMC5_DAT0_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x10C 11. "SDMMC5_DAT0_ OFFMODEOUTVALUE,OffMode mode output value for pad sdmmc5_dat0" "SDMMC5_DAT0_ OFFMODEOUTVALUE_0,SDMMC5_DAT0_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x10C 10. "SDMMC5_DAT0_ OFFMODEOUTENABLE,OffMode mode output enable value for pad sdmmc5_dat0" "SDMMC5_DAT0_ OFFMODEOUTENABLE_0,SDMMC5_DAT0_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x10C 9. "SDMMC5_DAT0_ OFFMODEENABLE,OffMode mode override control for pad sdmmc5_dat0" "SDMMC5_DAT0_ OFFMODEENABLE_0,SDMMC5_DAT0_ OFFMODEENABLE_1"
newline
bitfld.long 0x10C 8. "SDMMC5_DAT0_ INPUTENABLE,Input enable value for pad sdmmc5_dat0" "SDMMC5_DAT0_ INPUTENABLE_0,SDMMC5_DAT0_ INPUTENABLE_1"
newline
bitfld.long 0x10C 4. "SDMMC5_DAT0_ PULLTYPESELECT,pullup/down selection for pad sdmmc5_dat0" "SDMMC5_DAT0_ PULLTYPESELECT_0,SDMMC5_DAT0_ PULLTYPESELECT_1"
newline
bitfld.long 0x10C 3. "SDMMC5_DAT0_ PULLUDENABLE,pullup/down enable for pad sdmmc5_dat0" "SDMMC5_DAT0_ PULLUDENABLE_0,SDMMC5_DAT0_ PULLUDENABLE_1"
newline
bitfld.long 0x10C 0.--2. "SDMMC5_DAT0_ MUXMODE,Functional multiplexing selection for pad sdmmc5_dat0" "SDMMC5_DAT0_ MUXMODE_0,SDMMC5_DAT0_ MUXMODE_1,SDMMC5_DAT0_ MUXMODE_2,SDMMC5_DAT0_ MUXMODE_3,?,SDMMC5_DAT0_ MUXMODE_5,?,SDMMC5_DAT0_ MUXMODE_7"
line.long 0x110 "CONTROL_CORE_PAD0_SDMMC5_DAT2_PAD1_SDMMC5_DAT3,Register control for Pads sdmmc5_dat2 and sdmmc5_dat3 Access conditions"
rbitfld.long 0x110 31. "SDMMC5_DAT3_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "SDMMC5_DAT3_WAKEUPEVENT_0_r,SDMMC5_DAT3_WAKEUPEVENT_1_r"
newline
bitfld.long 0x110 30. "SDMMC5_DAT3_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "SDMMC5_DAT3_WAKEUPENABLE_0,SDMMC5_DAT3_WAKEUPENABLE_1"
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bitfld.long 0x110 29. "SDMMC5_DAT3_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad sdmmc5_dat3" "SDMMC5_DAT3_ OFFMODEPULLTYPESELECT_0,SDMMC5_DAT3_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x110 28. "SDMMC5_DAT3_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad sdmmc5_dat3" "SDMMC5_DAT3_ OFFMODEPULLUDENABLE_0,SDMMC5_DAT3_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0x110 27. "SDMMC5_DAT3_ OFFMODEOUTVALUE,OffMode mode output value for pad sdmmc5_dat3" "SDMMC5_DAT3_ OFFMODEOUTVALUE_0,SDMMC5_DAT3_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x110 26. "SDMMC5_DAT3_ OFFMODEOUTENABLE,OffMode mode output enable value for pad sdmmc5_dat3" "SDMMC5_DAT3_ OFFMODEOUTENABLE_0,SDMMC5_DAT3_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x110 25. "SDMMC5_DAT3_ OFFMODEENABLE,OffMode mode override control for pad sdmmc5_dat3" "SDMMC5_DAT3_ OFFMODEENABLE_0,SDMMC5_DAT3_ OFFMODEENABLE_1"
newline
bitfld.long 0x110 24. "SDMMC5_DAT3_ INPUTENABLE,Input enable value for pad sdmmc5_dat3" "SDMMC5_DAT3_ INPUTENABLE_0,SDMMC5_DAT3_ INPUTENABLE_1"
newline
bitfld.long 0x110 20. "SDMMC5_DAT3_ PULLTYPESELECT,pullup/down selection for pad sdmmc5_dat3" "SDMMC5_DAT3_ PULLTYPESELECT_0,SDMMC5_DAT3_ PULLTYPESELECT_1"
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bitfld.long 0x110 19. "SDMMC5_DAT3_ PULLUDENABLE,pullup/down enable for pad sdmmc5_dat3" "SDMMC5_DAT3_ PULLUDENABLE_0,SDMMC5_DAT3_ PULLUDENABLE_1"
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bitfld.long 0x110 16.--18. "SDMMC5_DAT3_ MUXMODE,Functional multiplexing selection for pad sdmmc5_dat3" "SDMMC5_DAT3_ MUXMODE_0,SDMMC5_DAT3_ MUXMODE_1,?,SDMMC5_DAT3_ MUXMODE_3,?,SDMMC5_DAT3_ MUXMODE_5,?,SDMMC5_DAT3_ MUXMODE_7"
newline
rbitfld.long 0x110 15. "SDMMC5_DAT2_ WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "SDMMC5_DAT2_ WAKEUPEVENT_0_r,SDMMC5_DAT2_ WAKEUPEVENT_1_r"
newline
bitfld.long 0x110 14. "SDMMC5_DAT2_ WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "SDMMC5_DAT2_ WAKEUPENABLE_0,SDMMC5_DAT2_ WAKEUPENABLE_1"
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bitfld.long 0x110 13. "SDMMC5_DAT2_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad sdmmc5_dat2" "SDMMC5_DAT2_ OFFMODEPULLTYPESELECT_0,SDMMC5_DAT2_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x110 12. "SDMMC5_DAT2_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad sdmmc5_dat2" "SDMMC5_DAT2_ OFFMODEPULLUDENABLE_0,SDMMC5_DAT2_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0x110 11. "SDMMC5_DAT2_ OFFMODEOUTVALUE,OffMode mode output value for pad sdmmc5_dat2" "SDMMC5_DAT2_ OFFMODEOUTVALUE_0,SDMMC5_DAT2_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x110 10. "SDMMC5_DAT2_ OFFMODEOUTENABLE,OffMode mode output enable value for pad sdmmc5_dat2" "SDMMC5_DAT2_ OFFMODEOUTENABLE_0,SDMMC5_DAT2_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x110 9. "SDMMC5_DAT2_ OFFMODEENABLE,OffMode mode override control for pad sdmmc5_dat2" "SDMMC5_DAT2_ OFFMODEENABLE_0,SDMMC5_DAT2_ OFFMODEENABLE_1"
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bitfld.long 0x110 8. "SDMMC5_DAT2_ INPUTENABLE,Input enable value for pad sdmmc5_dat2" "SDMMC5_DAT2_ INPUTENABLE_0,SDMMC5_DAT2_ INPUTENABLE_1"
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bitfld.long 0x110 4. "SDMMC5_DAT2_ PULLTYPESELECT,pullup/down selection for pad sdmmc5_dat2" "SDMMC5_DAT2_ PULLTYPESELECT_0,SDMMC5_DAT2_ PULLTYPESELECT_1"
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bitfld.long 0x110 3. "SDMMC5_DAT2_ PULLUDENABLE,pullup/down enable for pad sdmmc5_dat2" "SDMMC5_DAT2_ PULLUDENABLE_0,SDMMC5_DAT2_ PULLUDENABLE_1"
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bitfld.long 0x110 0.--2. "SDMMC5_DAT2_ MUXMODE,Functional multiplexing selection for pad sdmmc5_dat2" "SDMMC5_DAT2_ MUXMODE_0,SDMMC5_DAT2_ MUXMODE_1,?,SDMMC5_DAT2_ MUXMODE_3,?,SDMMC5_DAT2_ MUXMODE_5,?,SDMMC5_DAT2_ MUXMODE_7"
line.long 0x114 "CONTROL_CORE_PAD0_MCSPI4_CLK_PAD1_MCSPI4_SIMO,Register control for Pads mcspi4_clk and mcspi4_simo Access conditions"
rbitfld.long 0x114 31. "MCSPI4_SIMO_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "MCSPI4_SIMO_WAKEUPEVENT_0_r,MCSPI4_SIMO_WAKEUPEVENT_1_r"
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bitfld.long 0x114 30. "MCSPI4_SIMO_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "MCSPI4_SIMO_WAKEUPENABLE_0,MCSPI4_SIMO_WAKEUPENABLE_1"
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bitfld.long 0x114 29. "MCSPI4_SIMO_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad mcspi4_simo" "MCSPI4_SIMO_ OFFMODEPULLTYPESELECT_0,MCSPI4_SIMO_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x114 28. "MCSPI4_SIMO_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad mcspi4_simo" "MCSPI4_SIMO_ OFFMODEPULLUDENABLE_0,MCSPI4_SIMO_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0x114 27. "MCSPI4_SIMO_ OFFMODEOUTVALUE,OffMode mode output value for pad mcspi4_simo" "MCSPI4_SIMO_ OFFMODEOUTVALUE_0,MCSPI4_SIMO_ OFFMODEOUTVALUE_1"
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bitfld.long 0x114 26. "MCSPI4_SIMO_ OFFMODEOUTENABLE,OffMode mode output enable value for pad mcspi4_simo" "MCSPI4_SIMO_ OFFMODEOUTENABLE_0,MCSPI4_SIMO_ OFFMODEOUTENABLE_1"
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bitfld.long 0x114 25. "MCSPI4_SIMO_ OFFMODEENABLE,OffMode mode override control for pad mcspi4_simo" "MCSPI4_SIMO_ OFFMODEENABLE_0,MCSPI4_SIMO_ OFFMODEENABLE_1"
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bitfld.long 0x114 24. "MCSPI4_SIMO_ INPUTENABLE,Input enable value for pad mcspi4_simo" "MCSPI4_SIMO_ INPUTENABLE_0,MCSPI4_SIMO_ INPUTENABLE_1"
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bitfld.long 0x114 20. "MCSPI4_SIMO_ PULLTYPESELECT,pullup/down selection for pad mcspi4_simo" "MCSPI4_SIMO_ PULLTYPESELECT_0,MCSPI4_SIMO_ PULLTYPESELECT_1"
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bitfld.long 0x114 19. "MCSPI4_SIMO_ PULLUDENABLE,pullup/down enable for pad mcspi4_simo" "MCSPI4_SIMO_ PULLUDENABLE_0,MCSPI4_SIMO_ PULLUDENABLE_1"
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bitfld.long 0x114 16.--18. "MCSPI4_SIMO_ MUXMODE,Functional multiplexing selection for pad mcspi4_simo" "MCSPI4_SIMO_ MUXMODE_0,MCSPI4_SIMO_ MUXMODE_1,MCSPI4_SIMO_ MUXMODE_2,MCSPI4_SIMO_ MUXMODE_3,?,?,?,MCSPI4_SIMO_ MUXMODE_7"
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rbitfld.long 0x114 15. "MCSPI4_CLK_ WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "MCSPI4_CLK_ WAKEUPEVENT_0_r,MCSPI4_CLK_ WAKEUPEVENT_1_r"
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bitfld.long 0x114 14. "MCSPI4_CLK_ WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "MCSPI4_CLK_ WAKEUPENABLE_0,MCSPI4_CLK_ WAKEUPENABLE_1"
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bitfld.long 0x114 13. "MCSPI4_CLK_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad mcspi4_clk" "MCSPI4_CLK_ OFFMODEPULLTYPESELECT_0,MCSPI4_CLK_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x114 12. "MCSPI4_CLK_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad mcspi4_clk" "MCSPI4_CLK_ OFFMODEPULLUDENABLE_0,MCSPI4_CLK_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0x114 11. "MCSPI4_CLK_ OFFMODEOUTVALUE,OffMode mode output value for pad mcspi4_clk" "MCSPI4_CLK_ OFFMODEOUTVALUE_0,MCSPI4_CLK_ OFFMODEOUTVALUE_1"
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bitfld.long 0x114 10. "MCSPI4_CLK_ OFFMODEOUTENABLE,OffMode mode output enable value for pad mcspi4_clk" "MCSPI4_CLK_ OFFMODEOUTENABLE_0,MCSPI4_CLK_ OFFMODEOUTENABLE_1"
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bitfld.long 0x114 9. "MCSPI4_CLK_ OFFMODEENABLE,OffMode mode override control for pad mcspi4_clk" "MCSPI4_CLK_ OFFMODEENABLE_0,MCSPI4_CLK_ OFFMODEENABLE_1"
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bitfld.long 0x114 8. "MCSPI4_CLK_ INPUTENABLE,Input enable value for pad mcspi4_clk" "MCSPI4_CLK_ INPUTENABLE_0,MCSPI4_CLK_ INPUTENABLE_1"
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bitfld.long 0x114 4. "MCSPI4_CLK_ PULLTYPESELECT,pullup/down selection for pad mcspi4_clk" "MCSPI4_CLK_ PULLTYPESELECT_0,MCSPI4_CLK_ PULLTYPESELECT_1"
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bitfld.long 0x114 3. "MCSPI4_CLK_ PULLUDENABLE,pullup/down enable for pad mcspi4_clk" "MCSPI4_CLK_ PULLUDENABLE_0,MCSPI4_CLK_ PULLUDENABLE_1"
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bitfld.long 0x114 0.--2. "MCSPI4_CLK_ MUXMODE,Functional multiplexing selection for pad mcspi4_clk" "MCSPI4_CLK_ MUXMODE_0,MCSPI4_CLK_ MUXMODE_1,MCSPI4_CLK_ MUXMODE_2,MCSPI4_CLK_ MUXMODE_3,?,?,?,MCSPI4_CLK_ MUXMODE_7"
line.long 0x118 "CONTROL_CORE_PAD0_MCSPI4_SOMI_PAD1_MCSPI4_CS0,Register control for Pads mcspi4_somi and mcspi4_cs0 Access conditions"
rbitfld.long 0x118 31. "MCSPI4_CS0_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "MCSPI4_CS0_WAKEUPEVENT_0_r,MCSPI4_CS0_WAKEUPEVENT_1_r"
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bitfld.long 0x118 30. "MCSPI4_CS0_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "MCSPI4_CS0_WAKEUPENABLE_0,MCSPI4_CS0_WAKEUPENABLE_1"
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bitfld.long 0x118 29. "MCSPI4_CS0_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad mcspi4_cs0" "MCSPI4_CS0_OFFMODEPULLTYPESELECT_0,MCSPI4_CS0_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x118 28. "MCSPI4_CS0_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad mcspi4_cs0" "MCSPI4_CS0_OFFMODEPULLUDENABLE_0,MCSPI4_CS0_OFFMODEPULLUDENABLE_1"
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bitfld.long 0x118 27. "MCSPI4_CS0_OFFMODEOUTVALUE,OffMode mode output value for pad mcspi4_cs0" "MCSPI4_CS0_OFFMODEOUTVALUE_0,MCSPI4_CS0_OFFMODEOUTVALUE_1"
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bitfld.long 0x118 26. "MCSPI4_CS0_OFFMODEOUTENABLE,OffMode mode output enable value for pad mcspi4_cs0" "MCSPI4_CS0_OFFMODEOUTENABLE_0,MCSPI4_CS0_OFFMODEOUTENABLE_1"
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bitfld.long 0x118 25. "MCSPI4_CS0_OFFMODEENABLE,OffMode mode override control for pad mcspi4_cs0" "MCSPI4_CS0_OFFMODEENABLE_0,MCSPI4_CS0_OFFMODEENABLE_1"
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bitfld.long 0x118 24. "MCSPI4_CS0_INPUTENABLE,Input enable value for pad mcspi4_cs0" "MCSPI4_CS0_INPUTENABLE_0,MCSPI4_CS0_INPUTENABLE_1"
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bitfld.long 0x118 20. "MCSPI4_ CS0_PULLTYPESELECT,pullup/down selection for pad mcspi4_cs0" "MCSPI4_ CS0_PULLTYPESELECT_0,MCSPI4_ CS0_PULLTYPESELECT_1"
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bitfld.long 0x118 19. "MCSPI4_ CS0_PULLUDENABLE,pullup/down enable for pad mcspi4_cs0" "MCSPI4_ CS0_PULLUDENABLE_0,MCSPI4_ CS0_PULLUDENABLE_1"
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bitfld.long 0x118 16.--18. "MCSPI4_ CS0_MUXMODE,Functional multiplexing selection for pad mcspi4_cs0" "MCSPI4_ CS0_MUXMODE_0,MCSPI4_ CS0_MUXMODE_1,MCSPI4_ CS0_MUXMODE_2,MCSPI4_ CS0_MUXMODE_3,?,?,?,MCSPI4_ CS0_MUXMODE_7"
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rbitfld.long 0x118 15. "MCSPI4_ SOMI_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "MCSPI4_ SOMI_WAKEUPEVENT_0_r,MCSPI4_ SOMI_WAKEUPEVENT_1_r"
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bitfld.long 0x118 14. "MCSPI4_ SOMI_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "MCSPI4_ SOMI_WAKEUPENABLE_0,MCSPI4_ SOMI_WAKEUPENABLE_1"
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bitfld.long 0x118 13. "MCSPI4_SOMI_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad mcspi4_somi" "MCSPI4_SOMI_ OFFMODEPULLTYPESELECT_0,MCSPI4_SOMI_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x118 12. "MCSPI4_SOMI_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad mcspi4_somi" "MCSPI4_SOMI_ OFFMODEPULLUDENABLE_0,MCSPI4_SOMI_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0x118 11. "MCSPI4_SOMI_ OFFMODEOUTVALUE,OffMode mode output value for pad mcspi4_somi" "MCSPI4_SOMI_ OFFMODEOUTVALUE_0,MCSPI4_SOMI_ OFFMODEOUTVALUE_1"
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bitfld.long 0x118 10. "MCSPI4_SOMI_ OFFMODEOUTENABLE,OffMode mode output enable value for pad mcspi4_somi" "MCSPI4_SOMI_ OFFMODEOUTENABLE_0,MCSPI4_SOMI_ OFFMODEOUTENABLE_1"
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bitfld.long 0x118 9. "MCSPI4_SOMI_ OFFMODEENABLE,OffMode mode override control for pad mcspi4_somi" "MCSPI4_SOMI_ OFFMODEENABLE_0,MCSPI4_SOMI_ OFFMODEENABLE_1"
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bitfld.long 0x118 8. "MCSPI4_SOMI_ INPUTENABLE,Input enable value for pad mcspi4_somi" "MCSPI4_SOMI_ INPUTENABLE_0,MCSPI4_SOMI_ INPUTENABLE_1"
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bitfld.long 0x118 4. "MCSPI4_SOMI_ PULLTYPESELECT,pullup/down selection for pad mcspi4_somi" "MCSPI4_SOMI_ PULLTYPESELECT_0,MCSPI4_SOMI_ PULLTYPESELECT_1"
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bitfld.long 0x118 3. "MCSPI4_SOMI_ PULLUDENABLE,pullup/down enable for pad mcspi4_somi" "MCSPI4_SOMI_ PULLUDENABLE_0,MCSPI4_SOMI_ PULLUDENABLE_1"
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bitfld.long 0x118 0.--2. "MCSPI4_SOMI_ MUXMODE,Functional multiplexing selection for pad mcspi4_somi" "MCSPI4_SOMI_ MUXMODE_0,MCSPI4_SOMI_ MUXMODE_1,MCSPI4_SOMI_ MUXMODE_2,MCSPI4_SOMI_ MUXMODE_3,?,?,?,MCSPI4_SOMI_ MUXMODE_7"
line.long 0x11C "CONTROL_CORE_PAD0_UART4_RX_PAD1_UART4_TX,Register control for Pads uart4_rx and uart4_tx Access conditions"
rbitfld.long 0x11C 31. "UART4_TX_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "UART4_TX_WAKEUPEVENT_0_r,UART4_TX_WAKEUPEVENT_1_r"
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bitfld.long 0x11C 30. "UART4_TX_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "UART4_TX_WAKEUPENABLE_0,UART4_TX_WAKEUPENABLE_1"
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bitfld.long 0x11C 29. "UART4_TX_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad uart4_tx" "UART4_TX_ OFFMODEPULLTYPESELECT_0,UART4_TX_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x11C 28. "UART4_TX_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad uart4_tx" "UART4_TX_ OFFMODEPULLUDENABLE_0,UART4_TX_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0x11C 27. "UART4_TX_ OFFMODEOUTVALUE,OffMode mode output value for pad uart4_tx" "UART4_TX_ OFFMODEOUTVALUE_0,UART4_TX_ OFFMODEOUTVALUE_1"
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bitfld.long 0x11C 26. "UART4_TX_ OFFMODEOUTENABLE,OffMode mode output enable value for pad uart4_tx" "UART4_TX_ OFFMODEOUTENABLE_0,UART4_TX_ OFFMODEOUTENABLE_1"
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bitfld.long 0x11C 25. "UART4_TX_ OFFMODEENABLE,OffMode mode override control for pad uart4_tx" "UART4_TX_ OFFMODEENABLE_0,UART4_TX_ OFFMODEENABLE_1"
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bitfld.long 0x11C 24. "UART4_TX_ INPUTENABLE,Input enable value for pad uart4_tx" "UART4_TX_ INPUTENABLE_0,UART4_TX_ INPUTENABLE_1"
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bitfld.long 0x11C 20. "UART4_TX_ PULLTYPESELECT,pullup/down selection for pad uart4_tx" "UART4_TX_ PULLTYPESELECT_0,UART4_TX_ PULLTYPESELECT_1"
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bitfld.long 0x11C 19. "UART4_TX_ PULLUDENABLE,pullup/down enable for pad uart4_tx" "UART4_TX_ PULLUDENABLE_0,UART4_TX_ PULLUDENABLE_1"
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bitfld.long 0x11C 16.--18. "UART4_TX_ MUXMODE,Functional multiplexing selection for pad uart4_tx" "UART4_TX_ MUXMODE_0,UART4_TX_ MUXMODE_1,UART4_TX_ MUXMODE_2,UART4_TX_ MUXMODE_3,?,?,?,UART4_TX_ MUXMODE_7"
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rbitfld.long 0x11C 15. "UART4_RX_ WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "UART4_RX_ WAKEUPEVENT_0_r,UART4_RX_ WAKEUPEVENT_1_r"
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bitfld.long 0x11C 14. "UART4_RX_ WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "UART4_RX_ WAKEUPENABLE_0,UART4_RX_ WAKEUPENABLE_1"
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bitfld.long 0x11C 13. "UART4_RX_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad uart4_rx" "UART4_RX_ OFFMODEPULLTYPESELECT_0,UART4_RX_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x11C 12. "UART4_RX_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad uart4_rx" "UART4_RX_ OFFMODEPULLUDENABLE_0,UART4_RX_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0x11C 11. "UART4_RX_ OFFMODEOUTVALUE,OffMode mode output value for pad uart4_rx" "UART4_RX_ OFFMODEOUTVALUE_0,UART4_RX_ OFFMODEOUTVALUE_1"
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bitfld.long 0x11C 10. "UART4_RX_ OFFMODEOUTENABLE,OffMode mode output enable value for pad uart4_rx" "UART4_RX_ OFFMODEOUTENABLE_0,UART4_RX_ OFFMODEOUTENABLE_1"
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bitfld.long 0x11C 9. "UART4_RX_ OFFMODEENABLE,OffMode mode override control for pad uart4_rx" "UART4_RX_ OFFMODEENABLE_0,UART4_RX_ OFFMODEENABLE_1"
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bitfld.long 0x11C 8. "UART4_RX_INPUTENABLE,Input enable value for pad uart4_rx" "UART4_RX_INPUTENABLE_0,UART4_RX_INPUTENABLE_1"
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bitfld.long 0x11C 4. "UART4_RX_ PULLTYPESELECT,pullup/down selection for pad uart4_rx" "UART4_RX_ PULLTYPESELECT_0,UART4_RX_ PULLTYPESELECT_1"
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bitfld.long 0x11C 3. "UART4_RX_ PULLUDENABLE,pullup/down enable for pad uart4_rx" "UART4_RX_ PULLUDENABLE_0,UART4_RX_ PULLUDENABLE_1"
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bitfld.long 0x11C 0.--2. "UART4_RX_ MUXMODE,Functional multiplexing selection for pad uart4_rx" "UART4_RX_ MUXMODE_0,UART4_RX_ MUXMODE_1,UART4_RX_ MUXMODE_2,UART4_RX_ MUXMODE_3,?,?,?,UART4_RX_ MUXMODE_7"
line.long 0x120 "CONTROL_CORE_PAD0_USBB2_ULPITLL_CLK_PAD1_USBB2_ULPITLL_STP,Register control for Pads usbb2_ulpitll_clk and usbb2_ulpitll_stp Access conditions"
rbitfld.long 0x120 31. "USBB2_ULPITLL_STP_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "USBB2_ULPITLL_STP_WAKEUPEVENT_0_r,USBB2_ULPITLL_STP_WAKEUPEVENT_1_r"
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bitfld.long 0x120 30. "USBB2_ULPITLL_STP_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "USBB2_ULPITLL_STP_WAKEUPENABLE_0,USBB2_ULPITLL_STP_WAKEUPENABLE_1"
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bitfld.long 0x120 29. "USBB2_ULPITLL_ STP_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad usbb2_ulpitll_stp" "USBB2_ULPITLL_ STP_OFFMODEPULLTYPESELECT_0,USBB2_ULPITLL_ STP_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x120 28. "USBB2_ULPITLL_ STP_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad usbb2_ulpitll_stp" "USBB2_ULPITLL_ STP_OFFMODEPULLUDENABLE_0,USBB2_ULPITLL_ STP_OFFMODEPULLUDENABLE_1"
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bitfld.long 0x120 27. "USBB2_ULPITLL_ STP_OFFMODEOUTVALUE,OffMode mode output value for pad usbb2_ulpitll_stp" "USBB2_ULPITLL_ STP_OFFMODEOUTVALUE_0,USBB2_ULPITLL_ STP_OFFMODEOUTVALUE_1"
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bitfld.long 0x120 26. "USBB2_ULPITLL_ STP_OFFMODEOUTENABLE,OffMode mode output enable value for pad usbb2_ulpitll_stp" "USBB2_ULPITLL_ STP_OFFMODEOUTENABLE_0,USBB2_ULPITLL_ STP_OFFMODEOUTENABLE_1"
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bitfld.long 0x120 25. "USBB2_ULPITLL_ STP_OFFMODEENABLE,OffMode mode override control for pad usbb2_ulpitll_stp" "USBB2_ULPITLL_ STP_OFFMODEENABLE_0,USBB2_ULPITLL_ STP_OFFMODEENABLE_1"
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bitfld.long 0x120 24. "USBB2_ULPITLL_ STP_INPUTENABLE,Input enable value for pad usbb2_ulpitll_stp" "USBB2_ULPITLL_ STP_INPUTENABLE_0,USBB2_ULPITLL_ STP_INPUTENABLE_1"
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bitfld.long 0x120 20. "USBB2_ULPITLL_ STP_PULLTYPESELECT,pullup/down selection for pad usbb2_ulpitll_stp" "USBB2_ULPITLL_ STP_PULLTYPESELECT_0,USBB2_ULPITLL_ STP_PULLTYPESELECT_1"
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bitfld.long 0x120 19. "USBB2_ULPITLL_ STP_PULLUDENABLE,pullup/down enable for pad usbb2_ulpitll_stp" "USBB2_ULPITLL_ STP_PULLUDENABLE_0,USBB2_ULPITLL_ STP_PULLUDENABLE_1"
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bitfld.long 0x120 16.--18. "USBB2_ULPITLL_ STP_MUXMODE,Functional multiplexing selection for pad usbb2_ulpitll_stp" "USBB2_ULPITLL_ STP_MUXMODE_0,USBB2_ULPITLL_ STP_MUXMODE_1,USBB2_ULPITLL_ STP_MUXMODE_2,USBB2_ULPITLL_ STP_MUXMODE_3,USBB2_ULPITLL_ STP_MUXMODE_4,USBB2_ULPITLL_ STP_MUXMODE_5,?,USBB2_ULPITLL_ STP_MUXMODE_7"
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rbitfld.long 0x120 15. "USBB2_ULPITLL_ CLK_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "USBB2_ULPITLL_ CLK_WAKEUPEVENT_0_r,USBB2_ULPITLL_ CLK_WAKEUPEVENT_1_r"
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bitfld.long 0x120 14. "USBB2_ULPITLL_ CLK_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "USBB2_ULPITLL_ CLK_WAKEUPENABLE_0,USBB2_ULPITLL_ CLK_WAKEUPENABLE_1"
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bitfld.long 0x120 13. "USBB2_ULPITLL_ CLK_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad usbb2_ulpitll_clk" "USBB2_ULPITLL_ CLK_OFFMODEPULLTYPESELECT_0,USBB2_ULPITLL_ CLK_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x120 12. "USBB2_ULPITLL_ CLK_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad usbb2_ulpitll_clk" "USBB2_ULPITLL_ CLK_OFFMODEPULLUDENABLE_0,USBB2_ULPITLL_ CLK_OFFMODEPULLUDENABLE_1"
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bitfld.long 0x120 11. "USBB2_ULPITLL_ CLK_OFFMODEOUTVALUE,OffMode mode output value for pad usbb2_ulpitll_clk" "USBB2_ULPITLL_ CLK_OFFMODEOUTVALUE_0,USBB2_ULPITLL_ CLK_OFFMODEOUTVALUE_1"
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bitfld.long 0x120 10. "USBB2_ULPITLL_ CLK_OFFMODEOUTENABLE,OffMode mode output enable value for pad usbb2_ulpitll_clk" "USBB2_ULPITLL_ CLK_OFFMODEOUTENABLE_0,USBB2_ULPITLL_ CLK_OFFMODEOUTENABLE_1"
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bitfld.long 0x120 9. "USBB2_ULPITLL_ CLK_OFFMODEENABLE,OffMode mode override control for pad usbb2_ulpitll_clk" "USBB2_ULPITLL_ CLK_OFFMODEENABLE_0,USBB2_ULPITLL_ CLK_OFFMODEENABLE_1"
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bitfld.long 0x120 8. "USBB2_ULPITLL_ CLK_INPUTENABLE,Input enable value for pad usbb2_ulpitll_clk" "USBB2_ULPITLL_ CLK_INPUTENABLE_0,USBB2_ULPITLL_ CLK_INPUTENABLE_1"
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bitfld.long 0x120 4. "USBB2_ULPITLL_ CLK_PULLTYPESELECT,pullup/down selection for pad usbb2_ulpitll_clk" "USBB2_ULPITLL_ CLK_PULLTYPESELECT_0,USBB2_ULPITLL_ CLK_PULLTYPESELECT_1"
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bitfld.long 0x120 3. "USBB2_ULPITLL_ CLK_PULLUDENABLE,pullup/down enable for pad usbb2_ulpitll_clk" "USBB2_ULPITLL_ CLK_PULLUDENABLE_0,USBB2_ULPITLL_ CLK_PULLUDENABLE_1"
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bitfld.long 0x120 0.--2. "USBB2_ULPITLL_ CLK_MUXMODE,Functional multiplexing selection for pad usbb2_ulpitll_clk" "USBB2_ULPITLL_ CLK_MUXMODE_0,USBB2_ULPITLL_ CLK_MUXMODE_1,USBB2_ULPITLL_ CLK_MUXMODE_2,USBB2_ULPITLL_ CLK_MUXMODE_3,USBB2_ULPITLL_ CLK_MUXMODE_4,?,?,USBB2_ULPITLL_ CLK_MUXMODE_7"
line.long 0x124 "CONTROL_CORE_PAD0_USBB2_ULPITLL_DIR_PAD1_USBB2_ULPITLL_NXT,Register control for Pads usbb2_ulpitll_dir and usbb2_ulpitll_nxt Access conditions"
rbitfld.long 0x124 31. "USBB2_ULPITLL_NXT_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "USBB2_ULPITLL_NXT_WAKEUPEVENT_0_r,USBB2_ULPITLL_NXT_WAKEUPEVENT_1_r"
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bitfld.long 0x124 30. "USBB2_ULPITLL_NXT_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "USBB2_ULPITLL_NXT_WAKEUPENABLE_0,USBB2_ULPITLL_NXT_WAKEUPENABLE_1"
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bitfld.long 0x124 29. "USBB2_ULPITLL_ NXT_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad usbb2_ulpitll_nxt" "USBB2_ULPITLL_ NXT_OFFMODEPULLTYPESELECT_0,USBB2_ULPITLL_ NXT_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x124 28. "USBB2_ULPITLL_ NXT_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad usbb2_ulpitll_nxt" "USBB2_ULPITLL_ NXT_OFFMODEPULLUDENABLE_0,USBB2_ULPITLL_ NXT_OFFMODEPULLUDENABLE_1"
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bitfld.long 0x124 27. "USBB2_ULPITLL_ NXT_OFFMODEOUTVALUE,OffMode mode output value for pad usbb2_ulpitll_nxt" "USBB2_ULPITLL_ NXT_OFFMODEOUTVALUE_0,USBB2_ULPITLL_ NXT_OFFMODEOUTVALUE_1"
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bitfld.long 0x124 26. "USBB2_ULPITLL_ NXT_OFFMODEOUTENABLE,OffMode mode output enable value for pad usbb2_ulpitll_nxt" "USBB2_ULPITLL_ NXT_OFFMODEOUTENABLE_0,USBB2_ULPITLL_ NXT_OFFMODEOUTENABLE_1"
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bitfld.long 0x124 25. "USBB2_ULPITLL_ NXT_OFFMODEENABLE,OffMode mode override control for pad usbb2_ulpitll_nxt" "USBB2_ULPITLL_ NXT_OFFMODEENABLE_0,USBB2_ULPITLL_ NXT_OFFMODEENABLE_1"
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bitfld.long 0x124 24. "USBB2_ULPITLL_ NXT_INPUTENABLE,Input enable value for pad usbb2_ulpitll_nxt" "USBB2_ULPITLL_ NXT_INPUTENABLE_0,USBB2_ULPITLL_ NXT_INPUTENABLE_1"
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bitfld.long 0x124 20. "USBB2_ULPITLL_ NXT_PULLTYPESELECT,pullup/down selection for pad usbb2_ulpitll_nxt" "USBB2_ULPITLL_ NXT_PULLTYPESELECT_0,USBB2_ULPITLL_ NXT_PULLTYPESELECT_1"
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bitfld.long 0x124 19. "USBB2_ULPITLL_ NXT_PULLUDENABLE,pullup/down enable for pad usbb2_ulpitll_nxt" "USBB2_ULPITLL_ NXT_PULLUDENABLE_0,USBB2_ULPITLL_ NXT_PULLUDENABLE_1"
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bitfld.long 0x124 16.--18. "USBB2_ULPITLL_ NXT_MUXMODE,Functional multiplexing selection for pad usbb2_ulpitll_nxt" "USBB2_ULPITLL_ NXT_MUXMODE_0,USBB2_ULPITLL_ NXT_MUXMODE_1,USBB2_ULPITLL_ NXT_MUXMODE_2,USBB2_ULPITLL_ NXT_MUXMODE_3,USBB2_ULPITLL_ NXT_MUXMODE_4,USBB2_ULPITLL_ NXT_MUXMODE_5,?,USBB2_ULPITLL_ NXT_MUXMODE_7"
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rbitfld.long 0x124 15. "USBB2_ULPITLL_ DIR_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "USBB2_ULPITLL_ DIR_WAKEUPEVENT_0_r,USBB2_ULPITLL_ DIR_WAKEUPEVENT_1_r"
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bitfld.long 0x124 14. "USBB2_ULPITLL_ DIR_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "USBB2_ULPITLL_ DIR_WAKEUPENABLE_0,USBB2_ULPITLL_ DIR_WAKEUPENABLE_1"
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bitfld.long 0x124 13. "USBB2_ULPITLL_ DIR_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad usbb2_ulpitll_dir" "USBB2_ULPITLL_ DIR_OFFMODEPULLTYPESELECT_0,USBB2_ULPITLL_ DIR_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x124 12. "USBB2_ULPITLL_ DIR_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad usbb2_ulpitll_dir" "USBB2_ULPITLL_ DIR_OFFMODEPULLUDENABLE_0,USBB2_ULPITLL_ DIR_OFFMODEPULLUDENABLE_1"
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bitfld.long 0x124 11. "USBB2_ULPITLL_ DIR_OFFMODEOUTVALUE,OffMode mode output value for pad usbb2_ulpitll_dir" "USBB2_ULPITLL_ DIR_OFFMODEOUTVALUE_0,USBB2_ULPITLL_ DIR_OFFMODEOUTVALUE_1"
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bitfld.long 0x124 10. "USBB2_ULPITLL_ DIR_OFFMODEOUTENABLE,OffMode mode output enable value for pad usbb2_ulpitll_dir" "USBB2_ULPITLL_ DIR_OFFMODEOUTENABLE_0,USBB2_ULPITLL_ DIR_OFFMODEOUTENABLE_1"
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bitfld.long 0x124 9. "USBB2_ULPITLL_ DIR_OFFMODEENABLE,OffMode mode override control for pad usbb2_ulpitll_dir" "USBB2_ULPITLL_ DIR_OFFMODEENABLE_0,USBB2_ULPITLL_ DIR_OFFMODEENABLE_1"
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bitfld.long 0x124 8. "USBB2_ULPITLL_ DIR_INPUTENABLE,Input enable value for pad usbb2_ulpitll_dir" "USBB2_ULPITLL_ DIR_INPUTENABLE_0,USBB2_ULPITLL_ DIR_INPUTENABLE_1"
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bitfld.long 0x124 4. "USBB2_ULPITLL_ DIR_PULLTYPESELECT,pullup/down selection for pad usbb2_ulpitll_dir" "USBB2_ULPITLL_ DIR_PULLTYPESELECT_0,USBB2_ULPITLL_ DIR_PULLTYPESELECT_1"
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bitfld.long 0x124 3. "USBB2_ULPITLL_ DIR_PULLUDENABLE,pullup/down enable for pad usbb2_ulpitll_dir" "USBB2_ULPITLL_ DIR_PULLUDENABLE_0,USBB2_ULPITLL_ DIR_PULLUDENABLE_1"
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bitfld.long 0x124 0.--2. "USBB2_ULPITLL_ DIR_MUXMODE,Functional multiplexing selection for pad usbb2_ulpitll_dir" "USBB2_ULPITLL_ DIR_MUXMODE_0,USBB2_ULPITLL_ DIR_MUXMODE_1,USBB2_ULPITLL_ DIR_MUXMODE_2,USBB2_ULPITLL_ DIR_MUXMODE_3,USBB2_ULPITLL_ DIR_MUXMODE_4,USBB2_ULPITLL_ DIR_MUXMODE_5,?,USBB2_ULPITLL_ DIR_MUXMODE_7"
line.long 0x128 "CONTROL_CORE_PAD0_USBB2_ULPITLL_DAT0_PAD1_USBB2_ULPITLL_DAT1,Register control for Pads usbb2_ulpitll_dat0 and usbb2_ulpitll_dat1 Access conditions"
rbitfld.long 0x128 31. "USBB2_ULPITLL_ DAT1_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "USBB2_ULPITLL_ DAT1_WAKEUPEVENT_0_r,USBB2_ULPITLL_ DAT1_WAKEUPEVENT_1_r"
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bitfld.long 0x128 30. "USBB2_ULPITLL_ DAT1_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "USBB2_ULPITLL_ DAT1_WAKEUPENABLE_0,USBB2_ULPITLL_ DAT1_WAKEUPENABLE_1"
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bitfld.long 0x128 29. "USBB2_ULPITLL_DAT1_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad usbb2_ulpitll_dat1" "USBB2_ULPITLL_DAT1_OFFMODEPULLTYPESELECT_0,USBB2_ULPITLL_DAT1_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x128 28. "USBB2_ULPITLL_DAT1_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad usbb2_ulpitll_dat1" "USBB2_ULPITLL_DAT1_OFFMODEPULLUDENABLE_0,USBB2_ULPITLL_DAT1_OFFMODEPULLUDENABLE_1"
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bitfld.long 0x128 27. "USBB2_ULPITLL_DAT1_OFFMODEOUTVALUE,OffMode mode output value for pad usbb2_ulpitll_dat1" "USBB2_ULPITLL_DAT1_OFFMODEOUTVALUE_0,USBB2_ULPITLL_DAT1_OFFMODEOUTVALUE_1"
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bitfld.long 0x128 26. "USBB2_ULPITLL_DAT1_OFFMODEOUTENABLE,OffMode mode output enable value for pad usbb2_ulpitll_dat1" "USBB2_ULPITLL_DAT1_OFFMODEOUTENABLE_0,USBB2_ULPITLL_DAT1_OFFMODEOUTENABLE_1"
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bitfld.long 0x128 25. "USBB2_ULPITLL_DAT1_OFFMODEENABLE,OffMode mode override control for pad usbb2_ulpitll_dat1" "USBB2_ULPITLL_DAT1_OFFMODEENABLE_0,USBB2_ULPITLL_DAT1_OFFMODEENABLE_1"
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bitfld.long 0x128 24. "USBB2_ULPITLL_ DAT1_INPUTENABLE,Input enable value for pad usbb2_ulpitll_dat1" "USBB2_ULPITLL_ DAT1_INPUTENABLE_0,USBB2_ULPITLL_ DAT1_INPUTENABLE_1"
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bitfld.long 0x128 20. "USBB2_ULPITLL_ DAT1_PULLTYPESELECT,pullup/down selection for pad usbb2_ulpitll_dat1" "USBB2_ULPITLL_ DAT1_PULLTYPESELECT_0,USBB2_ULPITLL_ DAT1_PULLTYPESELECT_1"
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bitfld.long 0x128 19. "USBB2_ULPITLL_ DAT1_PULLUDENABLE,pullup/down enable for pad usbb2_ulpitll_dat1" "USBB2_ULPITLL_ DAT1_PULLUDENABLE_0,USBB2_ULPITLL_ DAT1_PULLUDENABLE_1"
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bitfld.long 0x128 16.--18. "USBB2_ULPITLL_ DAT1_MUXMODE,Functional multiplexing selection for pad usbb2_ulpitll_dat1" "USBB2_ULPITLL_ DAT1_MUXMODE_0,USBB2_ULPITLL_ DAT1_MUXMODE_1,USBB2_ULPITLL_ DAT1_MUXMODE_2,USBB2_ULPITLL_ DAT1_MUXMODE_3,USBB2_ULPITLL_ DAT1_MUXMODE_4,USBB2_ULPITLL_ DAT1_MUXMODE_5,USBB2_ULPITLL_ DAT1_MUXMODE_6,USBB2_ULPITLL_ DAT1_MUXMODE_7"
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rbitfld.long 0x128 15. "USBB2_ULPITLL_ DAT0_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "USBB2_ULPITLL_ DAT0_WAKEUPEVENT_0_r,USBB2_ULPITLL_ DAT0_WAKEUPEVENT_1_r"
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bitfld.long 0x128 14. "USBB2_ULPITLL_ DAT0_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "USBB2_ULPITLL_ DAT0_WAKEUPENABLE_0,USBB2_ULPITLL_ DAT0_WAKEUPENABLE_1"
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bitfld.long 0x128 13. "USBB2_ULPITLL_ DAT0_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad usbb2_ulpitll_dat0" "USBB2_ULPITLL_ DAT0_OFFMODEPULLTYPESELECT_0,USBB2_ULPITLL_ DAT0_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x128 12. "USBB2_ULPITLL_ DAT0_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad usbb2_ulpitll_dat0" "USBB2_ULPITLL_ DAT0_OFFMODEPULLUDENABLE_0,USBB2_ULPITLL_ DAT0_OFFMODEPULLUDENABLE_1"
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bitfld.long 0x128 11. "USBB2_ULPITLL_ DAT0_OFFMODEOUTVALUE,OffMode mode output value for pad usbb2_ulpitll_dat0" "USBB2_ULPITLL_ DAT0_OFFMODEOUTVALUE_0,USBB2_ULPITLL_ DAT0_OFFMODEOUTVALUE_1"
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bitfld.long 0x128 10. "USBB2_ULPITLL_ DAT0_OFFMODEOUTENABLE,OffMode mode output enable value for pad usbb2_ulpitll_dat0" "USBB2_ULPITLL_ DAT0_OFFMODEOUTENABLE_0,USBB2_ULPITLL_ DAT0_OFFMODEOUTENABLE_1"
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bitfld.long 0x128 9. "USBB2_ULPITLL_ DAT0_OFFMODEENABLE,OffMode mode override control for pad usbb2_ulpitll_dat0" "USBB2_ULPITLL_ DAT0_OFFMODEENABLE_0,USBB2_ULPITLL_ DAT0_OFFMODEENABLE_1"
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bitfld.long 0x128 8. "USBB2_ULPITLL_ DAT0_INPUTENABLE,Input enable value for pad usbb2_ulpitll_dat0" "USBB2_ULPITLL_ DAT0_INPUTENABLE_0,USBB2_ULPITLL_ DAT0_INPUTENABLE_1"
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bitfld.long 0x128 4. "USBB2_ULPITLL_ DAT0_PULLTYPESELECT,pullup/down selection for pad usbb2_ulpitll_dat0" "USBB2_ULPITLL_ DAT0_PULLTYPESELECT_0,USBB2_ULPITLL_ DAT0_PULLTYPESELECT_1"
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bitfld.long 0x128 3. "USBB2_ULPITLL_ DAT0_PULLUDENABLE,pullup/down enable for pad usbb2_ulpitll_dat0" "USBB2_ULPITLL_ DAT0_PULLUDENABLE_0,USBB2_ULPITLL_ DAT0_PULLUDENABLE_1"
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bitfld.long 0x128 0.--2. "USBB2_ULPITLL_ DAT0_MUXMODE,Functional multiplexing selection for pad usbb2_ulpitll_dat0" "USBB2_ULPITLL_ DAT0_MUXMODE_0,USBB2_ULPITLL_ DAT0_MUXMODE_1,USBB2_ULPITLL_ DAT0_MUXMODE_2,USBB2_ULPITLL_ DAT0_MUXMODE_3,USBB2_ULPITLL_ DAT0_MUXMODE_4,USBB2_ULPITLL_ DAT0_MUXMODE_5,USBB2_ULPITLL_ DAT0_MUXMODE_6,USBB2_ULPITLL_ DAT0_MUXMODE_7"
line.long 0x12C "CONTROL_CORE_PAD0_USBB2_ULPITLL_DAT2_PAD1_USBB2_ULPITLL_DAT3,Register control for Pads usbb2_ulpitll_dat2 and usbb2_ulpitll_dat3 Access conditions"
rbitfld.long 0x12C 31. "USBB2_ULPITLL_ DAT3_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "USBB2_ULPITLL_ DAT3_WAKEUPEVENT_0_r,USBB2_ULPITLL_ DAT3_WAKEUPEVENT_1_r"
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bitfld.long 0x12C 30. "USBB2_ULPITLL_ DAT3_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "USBB2_ULPITLL_ DAT3_WAKEUPENABLE_0,USBB2_ULPITLL_ DAT3_WAKEUPENABLE_1"
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bitfld.long 0x12C 29. "USBB2_ULPITLL_DAT3_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad usbb2_ulpitll_dat3" "USBB2_ULPITLL_DAT3_OFFMODEPULLTYPESELECT_0,USBB2_ULPITLL_DAT3_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x12C 28. "USBB2_ULPITLL_DAT3_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad usbb2_ulpitll_dat3" "USBB2_ULPITLL_DAT3_OFFMODEPULLUDENABLE_0,USBB2_ULPITLL_DAT3_OFFMODEPULLUDENABLE_1"
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bitfld.long 0x12C 27. "USBB2_ULPITLL_DAT3_OFFMODEOUTVALUE,OffMode mode output value for pad usbb2_ulpitll_dat3" "USBB2_ULPITLL_DAT3_OFFMODEOUTVALUE_0,USBB2_ULPITLL_DAT3_OFFMODEOUTVALUE_1"
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bitfld.long 0x12C 26. "USBB2_ULPITLL_DAT3_OFFMODEOUTENABLE,OffMode mode output enable value for pad usbb2_ulpitll_dat3" "USBB2_ULPITLL_DAT3_OFFMODEOUTENABLE_0,USBB2_ULPITLL_DAT3_OFFMODEOUTENABLE_1"
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bitfld.long 0x12C 25. "USBB2_ULPITLL_DAT3_OFFMODEENABLE,OffMode mode override control for pad usbb2_ulpitll_dat3" "USBB2_ULPITLL_DAT3_OFFMODEENABLE_0,USBB2_ULPITLL_DAT3_OFFMODEENABLE_1"
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bitfld.long 0x12C 24. "USBB2_ULPITLL_ DAT3_INPUTENABLE,Input enable value for pad usbb2_ulpitll_dat3" "USBB2_ULPITLL_ DAT3_INPUTENABLE_0,USBB2_ULPITLL_ DAT3_INPUTENABLE_1"
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bitfld.long 0x12C 20. "USBB2_ULPITLL_ DAT3_PULLTYPESELECT,pullup/down selection for pad usbb2_ulpitll_dat3" "USBB2_ULPITLL_ DAT3_PULLTYPESELECT_0,USBB2_ULPITLL_ DAT3_PULLTYPESELECT_1"
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bitfld.long 0x12C 19. "USBB2_ULPITLL_ DAT3_PULLUDENABLE,pullup/down enable for pad usbb2_ulpitll_dat3" "USBB2_ULPITLL_ DAT3_PULLUDENABLE_0,USBB2_ULPITLL_ DAT3_PULLUDENABLE_1"
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bitfld.long 0x12C 16.--18. "USBB2_ULPITLL_ DAT3_MUXMODE,Functional multiplexing selection for pad usbb2_ulpitll_dat3" "USBB2_ULPITLL_ DAT3_MUXMODE_0,USBB2_ULPITLL_ DAT3_MUXMODE_1,USBB2_ULPITLL_ DAT3_MUXMODE_2,USBB2_ULPITLL_ DAT3_MUXMODE_3,USBB2_ULPITLL_ DAT3_MUXMODE_4,USBB2_ULPITLL_ DAT3_MUXMODE_5,USBB2_ULPITLL_ DAT3_MUXMODE_6,USBB2_ULPITLL_ DAT3_MUXMODE_7"
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rbitfld.long 0x12C 15. "USBB2_ULPITLL_ DAT2_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "USBB2_ULPITLL_ DAT2_WAKEUPEVENT_0_r,USBB2_ULPITLL_ DAT2_WAKEUPEVENT_1_r"
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bitfld.long 0x12C 14. "USBB2_ULPITLL_ DAT2_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "USBB2_ULPITLL_ DAT2_WAKEUPENABLE_0,USBB2_ULPITLL_ DAT2_WAKEUPENABLE_1"
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bitfld.long 0x12C 13. "USBB2_ULPITLL_ DAT2_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad usbb2_ulpitll_dat2" "USBB2_ULPITLL_ DAT2_OFFMODEPULLTYPESELECT_0,USBB2_ULPITLL_ DAT2_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x12C 12. "USBB2_ULPITLL_ DAT2_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad usbb2_ulpitll_dat2" "USBB2_ULPITLL_ DAT2_OFFMODEPULLUDENABLE_0,USBB2_ULPITLL_ DAT2_OFFMODEPULLUDENABLE_1"
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bitfld.long 0x12C 11. "USBB2_ULPITLL_ DAT2_OFFMODEOUTVALUE,OffMode mode output value for pad usbb2_ulpitll_dat2" "USBB2_ULPITLL_ DAT2_OFFMODEOUTVALUE_0,USBB2_ULPITLL_ DAT2_OFFMODEOUTVALUE_1"
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bitfld.long 0x12C 10. "USBB2_ULPITLL_ DAT2_OFFMODEOUTENABLE,OffMode mode output enable value for pad usbb2_ulpitll_dat2" "USBB2_ULPITLL_ DAT2_OFFMODEOUTENABLE_0,USBB2_ULPITLL_ DAT2_OFFMODEOUTENABLE_1"
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bitfld.long 0x12C 9. "USBB2_ULPITLL_ DAT2_OFFMODEENABLE,OffMode mode override control for pad usbb2_ulpitll_dat2" "USBB2_ULPITLL_ DAT2_OFFMODEENABLE_0,USBB2_ULPITLL_ DAT2_OFFMODEENABLE_1"
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bitfld.long 0x12C 8. "USBB2_ULPITLL_ DAT2_INPUTENABLE,Input enable value for pad usbb2_ulpitll_dat2" "USBB2_ULPITLL_ DAT2_INPUTENABLE_0,USBB2_ULPITLL_ DAT2_INPUTENABLE_1"
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bitfld.long 0x12C 4. "USBB2_ULPITLL_ DAT2_PULLTYPESELECT,pullup/down selection for pad usbb2_ulpitll_dat2" "USBB2_ULPITLL_ DAT2_PULLTYPESELECT_0,USBB2_ULPITLL_ DAT2_PULLTYPESELECT_1"
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bitfld.long 0x12C 3. "USBB2_ULPITLL_ DAT2_PULLUDENABLE,pullup/down enable for pad usbb2_ulpitll_dat2" "USBB2_ULPITLL_ DAT2_PULLUDENABLE_0,USBB2_ULPITLL_ DAT2_PULLUDENABLE_1"
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bitfld.long 0x12C 0.--2. "USBB2_ULPITLL_ DAT2_MUXMODE,Functional multiplexing selection for pad usbb2_ulpitll_dat2" "USBB2_ULPITLL_ DAT2_MUXMODE_0,USBB2_ULPITLL_ DAT2_MUXMODE_1,USBB2_ULPITLL_ DAT2_MUXMODE_2,USBB2_ULPITLL_ DAT2_MUXMODE_3,USBB2_ULPITLL_ DAT2_MUXMODE_4,USBB2_ULPITLL_ DAT2_MUXMODE_5,USBB2_ULPITLL_ DAT2_MUXMODE_6,USBB2_ULPITLL_ DAT2_MUXMODE_7"
line.long 0x130 "CONTROL_CORE_PAD0_USBB2_ULPITLL_DAT4_PAD1_USBB2_ULPITLL_DAT5,Register control for Pads usbb2_ulpitll_dat4 and usbb2_ulpitll_dat5 Access conditions"
rbitfld.long 0x130 31. "USBB2_ULPITLL_ DAT5_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "USBB2_ULPITLL_ DAT5_WAKEUPEVENT_0_r,USBB2_ULPITLL_ DAT5_WAKEUPEVENT_1_r"
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bitfld.long 0x130 30. "USBB2_ULPITLL_ DAT5_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "USBB2_ULPITLL_ DAT5_WAKEUPENABLE_0,USBB2_ULPITLL_ DAT5_WAKEUPENABLE_1"
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bitfld.long 0x130 29. "USBB2_ULPITLL_DAT5_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad usbb2_ulpitll_dat5" "USBB2_ULPITLL_DAT5_OFFMODEPULLTYPESELECT_0,USBB2_ULPITLL_DAT5_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x130 28. "USBB2_ULPITLL_DAT5_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad usbb2_ulpitll_dat5" "USBB2_ULPITLL_DAT5_OFFMODEPULLUDENABLE_0,USBB2_ULPITLL_DAT5_OFFMODEPULLUDENABLE_1"
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bitfld.long 0x130 27. "USBB2_ULPITLL_DAT5_OFFMODEOUTVALUE,OffMode mode output value for pad usbb2_ulpitll_dat5" "USBB2_ULPITLL_DAT5_OFFMODEOUTVALUE_0,USBB2_ULPITLL_DAT5_OFFMODEOUTVALUE_1"
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bitfld.long 0x130 26. "USBB2_ULPITLL_DAT5_OFFMODEOUTENABLE,OffMode mode output enable value for pad usbb2_ulpitll_dat5" "USBB2_ULPITLL_DAT5_OFFMODEOUTENABLE_0,USBB2_ULPITLL_DAT5_OFFMODEOUTENABLE_1"
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bitfld.long 0x130 25. "USBB2_ULPITLL_DAT5_OFFMODEENABLE,OffMode mode override control for pad usbb2_ulpitll_dat5" "USBB2_ULPITLL_DAT5_OFFMODEENABLE_0,USBB2_ULPITLL_DAT5_OFFMODEENABLE_1"
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bitfld.long 0x130 24. "USBB2_ULPITLL_ DAT5_INPUTENABLE,Input enable value for pad usbb2_ulpitll_dat5" "USBB2_ULPITLL_ DAT5_INPUTENABLE_0,USBB2_ULPITLL_ DAT5_INPUTENABLE_1"
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bitfld.long 0x130 20. "USBB2_ULPITLL_ DAT5_PULLTYPESELECT,pullup/down selection for pad usbb2_ulpitll_dat5" "USBB2_ULPITLL_ DAT5_PULLTYPESELECT_0,USBB2_ULPITLL_ DAT5_PULLTYPESELECT_1"
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bitfld.long 0x130 19. "USBB2_ULPITLL_ DAT5_PULLUDENABLE,pullup/down enable for pad usbb2_ulpitll_dat5" "USBB2_ULPITLL_ DAT5_PULLUDENABLE_0,USBB2_ULPITLL_ DAT5_PULLUDENABLE_1"
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bitfld.long 0x130 16.--18. "USBB2_ULPITLL_ DAT5_MUXMODE,Functional multiplexing selection for pad usbb2_ulpitll_dat5" "USBB2_ULPITLL_ DAT5_MUXMODE_0,USBB2_ULPITLL_ DAT5_MUXMODE_1,USBB2_ULPITLL_ DAT5_MUXMODE_2,USBB2_ULPITLL_ DAT5_MUXMODE_3,USBB2_ULPITLL_ DAT5_MUXMODE_4,USBB2_ULPITLL_ DAT5_MUXMODE_5,USBB2_ULPITLL_ DAT5_MUXMODE_6,USBB2_ULPITLL_ DAT5_MUXMODE_7"
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rbitfld.long 0x130 15. "USBB2_ULPITLL_ DAT4_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "USBB2_ULPITLL_ DAT4_WAKEUPEVENT_0_r,USBB2_ULPITLL_ DAT4_WAKEUPEVENT_1_r"
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bitfld.long 0x130 14. "USBB2_ULPITLL_ DAT4_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "USBB2_ULPITLL_ DAT4_WAKEUPENABLE_0,USBB2_ULPITLL_ DAT4_WAKEUPENABLE_1"
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bitfld.long 0x130 13. "USBB2_ULPITLL_ DAT4_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad usbb2_ulpitll_dat4" "USBB2_ULPITLL_ DAT4_OFFMODEPULLTYPESELECT_0,USBB2_ULPITLL_ DAT4_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x130 12. "USBB2_ULPITLL_ DAT4_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad usbb2_ulpitll_dat4" "USBB2_ULPITLL_ DAT4_OFFMODEPULLUDENABLE_0,USBB2_ULPITLL_ DAT4_OFFMODEPULLUDENABLE_1"
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bitfld.long 0x130 11. "USBB2_ULPITLL_ DAT4_OFFMODEOUTVALUE,OffMode mode output value for pad usbb2_ulpitll_dat4" "USBB2_ULPITLL_ DAT4_OFFMODEOUTVALUE_0,USBB2_ULPITLL_ DAT4_OFFMODEOUTVALUE_1"
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bitfld.long 0x130 10. "USBB2_ULPITLL_ DAT4_OFFMODEOUTENABLE,OffMode mode output enable value for pad usbb2_ulpitll_dat4" "USBB2_ULPITLL_ DAT4_OFFMODEOUTENABLE_0,USBB2_ULPITLL_ DAT4_OFFMODEOUTENABLE_1"
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bitfld.long 0x130 9. "USBB2_ULPITLL_ DAT4_OFFMODEENABLE,OffMode mode override control for pad usbb2_ulpitll_dat4" "USBB2_ULPITLL_ DAT4_OFFMODEENABLE_0,USBB2_ULPITLL_ DAT4_OFFMODEENABLE_1"
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bitfld.long 0x130 8. "USBB2_ULPITLL_ DAT4_INPUTENABLE,Input enable value for pad usbb2_ulpitll_dat4" "USBB2_ULPITLL_ DAT4_INPUTENABLE_0,USBB2_ULPITLL_ DAT4_INPUTENABLE_1"
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bitfld.long 0x130 4. "USBB2_ULPITLL_ DAT4_PULLTYPESELECT,pullup/down selection for pad usbb2_ulpitll_dat4" "USBB2_ULPITLL_ DAT4_PULLTYPESELECT_0,USBB2_ULPITLL_ DAT4_PULLTYPESELECT_1"
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bitfld.long 0x130 3. "USBB2_ULPITLL_ DAT4_PULLUDENABLE,pullup/down enable for pad usbb2_ulpitll_dat4" "USBB2_ULPITLL_ DAT4_PULLUDENABLE_0,USBB2_ULPITLL_ DAT4_PULLUDENABLE_1"
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bitfld.long 0x130 0.--2. "USBB2_ULPITLL_ DAT4_MUXMODE,Functional multiplexing selection for pad usbb2_ulpitll_dat4" "USBB2_ULPITLL_ DAT4_MUXMODE_0,USBB2_ULPITLL_ DAT4_MUXMODE_1,USBB2_ULPITLL_ DAT4_MUXMODE_2,USBB2_ULPITLL_ DAT4_MUXMODE_3,USBB2_ULPITLL_ DAT4_MUXMODE_4,USBB2_ULPITLL_ DAT4_MUXMODE_5,USBB2_ULPITLL_ DAT4_MUXMODE_6,USBB2_ULPITLL_ DAT4_MUXMODE_7"
line.long 0x134 "CONTROL_CORE_PAD0_USBB2_ULPITLL_DAT6_PAD1_USBB2_ULPITLL_DAT7,Register control for Pads usbb2_ulpitll_dat6 and usbb2_ulpitll_dat7 Access conditions"
rbitfld.long 0x134 31. "USBB2_ULPITLL_ DAT7_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "USBB2_ULPITLL_ DAT7_WAKEUPEVENT_0_r,USBB2_ULPITLL_ DAT7_WAKEUPEVENT_1_r"
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bitfld.long 0x134 30. "USBB2_ULPITLL_ DAT7_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "USBB2_ULPITLL_ DAT7_WAKEUPENABLE_0,USBB2_ULPITLL_ DAT7_WAKEUPENABLE_1"
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bitfld.long 0x134 29. "USBB2_ULPITLL_DAT7_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad usbb2_ulpitll_dat7" "USBB2_ULPITLL_DAT7_OFFMODEPULLTYPESELECT_0,USBB2_ULPITLL_DAT7_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x134 28. "USBB2_ULPITLL_DAT7_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad usbb2_ulpitll_dat7" "USBB2_ULPITLL_DAT7_OFFMODEPULLUDENABLE_0,USBB2_ULPITLL_DAT7_OFFMODEPULLUDENABLE_1"
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bitfld.long 0x134 27. "USBB2_ULPITLL_DAT7_OFFMODEOUTVALUE,OffMode mode output value for pad usbb2_ulpitll_dat7" "USBB2_ULPITLL_DAT7_OFFMODEOUTVALUE_0,USBB2_ULPITLL_DAT7_OFFMODEOUTVALUE_1"
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bitfld.long 0x134 26. "USBB2_ULPITLL_DAT7_OFFMODEOUTENABLE,OffMode mode output enable value for pad usbb2_ulpitll_dat7" "USBB2_ULPITLL_DAT7_OFFMODEOUTENABLE_0,USBB2_ULPITLL_DAT7_OFFMODEOUTENABLE_1"
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bitfld.long 0x134 25. "USBB2_ULPITLL_DAT7_OFFMODEENABLE,OffMode mode override control for pad usbb2_ulpitll_dat7" "USBB2_ULPITLL_DAT7_OFFMODEENABLE_0,USBB2_ULPITLL_DAT7_OFFMODEENABLE_1"
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bitfld.long 0x134 24. "USBB2_ULPITLL_ DAT7_INPUTENABLE,Input enable value for pad usbb2_ulpitll_dat7" "USBB2_ULPITLL_ DAT7_INPUTENABLE_0,USBB2_ULPITLL_ DAT7_INPUTENABLE_1"
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bitfld.long 0x134 20. "USBB2_ULPITLL_ DAT7_PULLTYPESELECT,pullup/down selection for pad usbb2_ulpitll_dat7" "USBB2_ULPITLL_ DAT7_PULLTYPESELECT_0,USBB2_ULPITLL_ DAT7_PULLTYPESELECT_1"
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bitfld.long 0x134 19. "USBB2_ULPITLL_ DAT7_PULLUDENABLE,pullup/down enable for pad usbb2_ulpitll_dat7" "USBB2_ULPITLL_ DAT7_PULLUDENABLE_0,USBB2_ULPITLL_ DAT7_PULLUDENABLE_1"
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bitfld.long 0x134 16.--18. "USBB2_ULPITLL_ DAT7_MUXMODE,Functional multiplexing selection for pad usbb2_ulpitll_dat7" "USBB2_ULPITLL_ DAT7_MUXMODE_0,USBB2_ULPITLL_ DAT7_MUXMODE_1,USBB2_ULPITLL_ DAT7_MUXMODE_2,USBB2_ULPITLL_ DAT7_MUXMODE_3,USBB2_ULPITLL_ DAT7_MUXMODE_4,USBB2_ULPITLL_ DAT7_MUXMODE_5,USBB2_ULPITLL_ DAT7_MUXMODE_6,USBB2_ULPITLL_ DAT7_MUXMODE_7"
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rbitfld.long 0x134 15. "USBB2_ULPITLL_ DAT6_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "USBB2_ULPITLL_ DAT6_WAKEUPEVENT_0_r,USBB2_ULPITLL_ DAT6_WAKEUPEVENT_1_r"
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bitfld.long 0x134 14. "USBB2_ULPITLL_ DAT6_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "USBB2_ULPITLL_ DAT6_WAKEUPENABLE_0,USBB2_ULPITLL_ DAT6_WAKEUPENABLE_1"
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bitfld.long 0x134 13. "USBB2_ULPITLL_ DAT6_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad usbb2_ulpitll_dat6" "USBB2_ULPITLL_ DAT6_OFFMODEPULLTYPESELECT_0,USBB2_ULPITLL_ DAT6_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x134 12. "USBB2_ULPITLL_ DAT6_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad usbb2_ulpitll_dat6" "USBB2_ULPITLL_ DAT6_OFFMODEPULLUDENABLE_0,USBB2_ULPITLL_ DAT6_OFFMODEPULLUDENABLE_1"
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bitfld.long 0x134 11. "USBB2_ULPITLL_ DAT6_OFFMODEOUTVALUE,OffMode mode output value for pad usbb2_ulpitll_dat6" "USBB2_ULPITLL_ DAT6_OFFMODEOUTVALUE_0,USBB2_ULPITLL_ DAT6_OFFMODEOUTVALUE_1"
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bitfld.long 0x134 10. "USBB2_ULPITLL_ DAT6_OFFMODEOUTENABLE,OffMode mode output enable value for pad usbb2_ulpitll_dat6" "USBB2_ULPITLL_ DAT6_OFFMODEOUTENABLE_0,USBB2_ULPITLL_ DAT6_OFFMODEOUTENABLE_1"
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bitfld.long 0x134 9. "USBB2_ULPITLL_ DAT6_OFFMODEENABLE,OffMode mode override control for pad usbb2_ulpitll_dat6" "USBB2_ULPITLL_ DAT6_OFFMODEENABLE_0,USBB2_ULPITLL_ DAT6_OFFMODEENABLE_1"
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bitfld.long 0x134 8. "USBB2_ULPITLL_ DAT6_INPUTENABLE,Input enable value for pad usbb2_ulpitll_dat6" "USBB2_ULPITLL_ DAT6_INPUTENABLE_0,USBB2_ULPITLL_ DAT6_INPUTENABLE_1"
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bitfld.long 0x134 4. "USBB2_ULPITLL_ DAT6_PULLTYPESELECT,pullup/down selection for pad usbb2_ulpitll_dat6" "USBB2_ULPITLL_ DAT6_PULLTYPESELECT_0,USBB2_ULPITLL_ DAT6_PULLTYPESELECT_1"
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bitfld.long 0x134 3. "USBB2_ULPITLL_ DAT6_PULLUDENABLE,pullup/down enable for pad usbb2_ulpitll_dat6" "USBB2_ULPITLL_ DAT6_PULLUDENABLE_0,USBB2_ULPITLL_ DAT6_PULLUDENABLE_1"
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bitfld.long 0x134 0.--2. "USBB2_ULPITLL_ DAT6_MUXMODE,Functional multiplexing selection for pad usbb2_ulpitll_dat6" "USBB2_ULPITLL_ DAT6_MUXMODE_0,USBB2_ULPITLL_ DAT6_MUXMODE_1,USBB2_ULPITLL_ DAT6_MUXMODE_2,USBB2_ULPITLL_ DAT6_MUXMODE_3,USBB2_ULPITLL_ DAT6_MUXMODE_4,USBB2_ULPITLL_ DAT6_MUXMODE_5,USBB2_ULPITLL_ DAT6_MUXMODE_6,USBB2_ULPITLL_ DAT6_MUXMODE_7"
line.long 0x138 "CONTROL_CORE_PAD0_USBB2_HSIC_DATA_PAD1_USBB2_HSIC_STROBE,Register control for Pads usbb2_hsic_data and usbb2_hsic_strobe Access conditions"
rbitfld.long 0x138 31. "USBB2_HSIC_STROBE_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "USBB2_HSIC_STROBE_WAKEUPEVENT_0_r,USBB2_HSIC_STROBE_WAKEUPEVENT_1_r"
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bitfld.long 0x138 30. "USBB2_HSIC_STROBE_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "USBB2_HSIC_STROBE_WAKEUPENABLE_0,USBB2_HSIC_STROBE_WAKEUPENABLE_1"
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bitfld.long 0x138 27. "USBB2_HSIC_ STROBE_OFFMODEOUTVALUE,OffMode mode output value for pad usbb2_hsic_strobe" "USBB2_HSIC_ STROBE_OFFMODEOUTVALUE_0,USBB2_HSIC_ STROBE_OFFMODEOUTVALUE_1"
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bitfld.long 0x138 26. "USBB2_HSIC_ STROBE_OFFMODEOUTENABLE,OffMode mode output enable value for pad usbb2_hsic_strobe" "USBB2_HSIC_ STROBE_OFFMODEOUTENABLE_0,USBB2_HSIC_ STROBE_OFFMODEOUTENABLE_1"
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bitfld.long 0x138 25. "USBB2_HSIC_ STROBE_OFFMODEENABLE,OffMode mode override control for pad usbb2_hsic_strobe" "USBB2_HSIC_ STROBE_OFFMODEENABLE_0,USBB2_HSIC_ STROBE_OFFMODEENABLE_1"
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bitfld.long 0x138 16.--18. "USBB2_HSIC_ STROBE_MUXMODE,Functional multiplexing selection for pad usbb2_hsic_strobe" "USBB2_HSIC_ STROBE_MUXMODE_0,?,?,USBB2_HSIC_ STROBE_MUXMODE_3,?,?,?,USBB2_HSIC_ STROBE_MUXMODE_7"
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rbitfld.long 0x138 15. "USBB2_HSIC_ DATA_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "USBB2_HSIC_ DATA_WAKEUPEVENT_0_r,USBB2_HSIC_ DATA_WAKEUPEVENT_1_r"
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bitfld.long 0x138 14. "USBB2_HSIC_ DATA_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "USBB2_HSIC_ DATA_WAKEUPENABLE_0,USBB2_HSIC_ DATA_WAKEUPENABLE_1"
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bitfld.long 0x138 11. "USBB2_HSIC_ DATA_OFFMODEOUTVALUE,OffMode mode output value for pad usbb2_hsic_data" "USBB2_HSIC_ DATA_OFFMODEOUTVALUE_0,USBB2_HSIC_ DATA_OFFMODEOUTVALUE_1"
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bitfld.long 0x138 10. "USBB2_HSIC_ DATA_OFFMODEOUTENABLE,OffMode mode output enable value for pad usbb2_hsic_data" "USBB2_HSIC_ DATA_OFFMODEOUTENABLE_0,USBB2_HSIC_ DATA_OFFMODEOUTENABLE_1"
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bitfld.long 0x138 9. "USBB2_HSIC_ DATA_OFFMODEENABLE,OffMode mode override control for pad usbb2_hsic_data" "USBB2_HSIC_ DATA_OFFMODEENABLE_0,USBB2_HSIC_ DATA_OFFMODEENABLE_1"
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bitfld.long 0x138 0.--2. "USBB2_HSIC_ DATA_MUXMODE,Functional multiplexing selection for pad usbb2_hsic_data" "USBB2_HSIC_ DATA_MUXMODE_0,?,?,USBB2_HSIC_ DATA_MUXMODE_3,?,?,?,USBB2_HSIC_ DATA_MUXMODE_7"
line.long 0x13C "CONTROL_CORE_PAD0_KPD_COL3_PAD1_KPD_COL4,Register control for Pads kpd_col3 and kpd_col4 Access conditions"
rbitfld.long 0x13C 31. "KPD_COL4_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "KPD_COL4_WAKEUPEVENT_0_r,KPD_COL4_WAKEUPEVENT_1_r"
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bitfld.long 0x13C 30. "KPD_COL4_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "KPD_COL4_WAKEUPENABLE_0,KPD_COL4_WAKEUPENABLE_1"
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bitfld.long 0x13C 29. "KPD_COL4_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad kpd_col4" "KPD_COL4_ OFFMODEPULLTYPESELECT_0,KPD_COL4_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x13C 28. "KPD_COL4_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad kpd_col4" "KPD_COL4_ OFFMODEPULLUDENABLE_0,KPD_COL4_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x13C 27. "KPD_COL4_OFFMODEOUTVALUE,OffMode mode output value for pad kpd_col4" "KPD_COL4_OFFMODEOUTVALUE_0,KPD_COL4_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x13C 26. "KPD_COL4_OFFMODEOUTENABLE,OffMode mode output enable value for pad kpd_col4" "KPD_COL4_OFFMODEOUTENABLE_0,KPD_COL4_OFFMODEOUTENABLE_1"
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bitfld.long 0x13C 25. "KPD_COL4_OFFMODEENABLE,OffMode mode override control for pad kpd_col4" "KPD_COL4_OFFMODEENABLE_0,KPD_COL4_OFFMODEENABLE_1"
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bitfld.long 0x13C 24. "KPD_COL4_INPUTENABLE,Input enable value for pad kpd_col4" "KPD_COL4_INPUTENABLE_0,KPD_COL4_INPUTENABLE_1"
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bitfld.long 0x13C 20. "KPD_COL4_PULLTYPESELECT,pullup/down selection for pad kpd_col4" "KPD_COL4_PULLTYPESELECT_0,KPD_COL4_PULLTYPESELECT_1"
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bitfld.long 0x13C 19. "KPD_COL4_PULLUDENABLE,pullup/down enable for pad kpd_col4" "KPD_COL4_PULLUDENABLE_0,KPD_COL4_PULLUDENABLE_1"
newline
bitfld.long 0x13C 16.--18. "KPD_COL4_MUXMODE,Functional multiplexing selection for pad kpd_col4" "KPD_COL4_MUXMODE_0,KPD_COL4_MUXMODE_1,KPD_COL4_MUXMODE_2,KPD_COL4_MUXMODE_3,?,?,?,KPD_COL4_MUXMODE_7"
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rbitfld.long 0x13C 15. "KPD_COL3_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "KPD_COL3_WAKEUPEVENT_0_r,KPD_COL3_WAKEUPEVENT_1_r"
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bitfld.long 0x13C 14. "KPD_COL3_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "KPD_COL3_WAKEUPENABLE_0,KPD_COL3_WAKEUPENABLE_1"
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bitfld.long 0x13C 13. "KPD_COL3_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad kpd_col3" "KPD_COL3_ OFFMODEPULLTYPESELECT_0,KPD_COL3_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x13C 12. "KPD_COL3_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad kpd_col3" "KPD_COL3_ OFFMODEPULLUDENABLE_0,KPD_COL3_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x13C 11. "KPD_COL3_ OFFMODEOUTVALUE,OffMode mode output value for pad kpd_col3" "KPD_COL3_ OFFMODEOUTVALUE_0,KPD_COL3_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x13C 10. "KPD_COL3_ OFFMODEOUTENABLE,OffMode mode output enable value for pad kpd_col3" "KPD_COL3_ OFFMODEOUTENABLE_0,KPD_COL3_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x13C 9. "KPD_COL3_ OFFMODEENABLE,OffMode mode override control for pad kpd_col3" "KPD_COL3_ OFFMODEENABLE_0,KPD_COL3_ OFFMODEENABLE_1"
newline
bitfld.long 0x13C 8. "KPD_COL3_ INPUTENABLE,Input enable value for pad kpd_col3" "KPD_COL3_ INPUTENABLE_0,KPD_COL3_ INPUTENABLE_1"
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bitfld.long 0x13C 4. "KPD_COL3_ PULLTYPESELECT,pullup/down selection for pad kpd_col3" "KPD_COL3_ PULLTYPESELECT_0,KPD_COL3_ PULLTYPESELECT_1"
newline
bitfld.long 0x13C 3. "KPD_COL3_ PULLUDENABLE,pullup/down enable for pad kpd_col3" "KPD_COL3_ PULLUDENABLE_0,KPD_COL3_ PULLUDENABLE_1"
newline
bitfld.long 0x13C 0.--2. "KPD_COL3_ MUXMODE,Functional multiplexing selection for pad kpd_col3" "KPD_COL3_ MUXMODE_0,KPD_COL3_ MUXMODE_1,KPD_COL3_ MUXMODE_2,KPD_COL3_ MUXMODE_3,?,?,?,KPD_COL3_ MUXMODE_7"
line.long 0x140 "CONTROL_CORE_PAD0_KPD_COL5_PAD1_KPD_COL0,Register control for Pads kpd_col5 and kpd_col0 Access conditions"
rbitfld.long 0x140 31. "KPD_COL0_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "KPD_COL0_WAKEUPEVENT_0_r,KPD_COL0_WAKEUPEVENT_1_r"
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bitfld.long 0x140 30. "KPD_COL0_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "KPD_COL0_WAKEUPENABLE_0,KPD_COL0_WAKEUPENABLE_1"
newline
bitfld.long 0x140 29. "KPD_COL0_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad kpd_col0" "KPD_COL0_ OFFMODEPULLTYPESELECT_0,KPD_COL0_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x140 28. "KPD_COL0_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad kpd_col0" "KPD_COL0_ OFFMODEPULLUDENABLE_0,KPD_COL0_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x140 27. "KPD_COL0_ OFFMODEOUTVALUE,OffMode mode output value for pad kpd_col0" "KPD_COL0_ OFFMODEOUTVALUE_0,KPD_COL0_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x140 26. "KPD_COL0_ OFFMODEOUTENABLE,OffMode mode output enable value for pad kpd_col0" "KPD_COL0_ OFFMODEOUTENABLE_0,KPD_COL0_ OFFMODEOUTENABLE_1"
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bitfld.long 0x140 25. "KPD_COL0_ OFFMODEENABLE,OffMode mode override control for pad kpd_col0" "KPD_COL0_ OFFMODEENABLE_0,KPD_COL0_ OFFMODEENABLE_1"
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bitfld.long 0x140 24. "KPD_COL0_INPUTENABLE,Input enable value for pad kpd_col0" "KPD_COL0_INPUTENABLE_0,KPD_COL0_INPUTENABLE_1"
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bitfld.long 0x140 20. "KPD_COL0_PULLTYPESELECT,pullup/down selection for pad kpd_col0" "KPD_COL0_PULLTYPESELECT_0,KPD_COL0_PULLTYPESELECT_1"
newline
bitfld.long 0x140 19. "KPD_COL0_PULLUDENABLE,pullup/down enable for pad kpd_col0" "KPD_COL0_PULLUDENABLE_0,KPD_COL0_PULLUDENABLE_1"
newline
bitfld.long 0x140 16.--18. "KPD_COL0_MUXMODE,Functional multiplexing selection for pad kpd_col0" "KPD_COL0_MUXMODE_0,KPD_COL0_MUXMODE_1,KPD_COL0_MUXMODE_2,KPD_COL0_MUXMODE_3,?,?,?,KPD_COL0_MUXMODE_7"
newline
rbitfld.long 0x140 15. "KPD_COL5_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "KPD_COL5_WAKEUPEVENT_0_r,KPD_COL5_WAKEUPEVENT_1_r"
newline
bitfld.long 0x140 14. "KPD_COL5_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "KPD_COL5_WAKEUPENABLE_0,KPD_COL5_WAKEUPENABLE_1"
newline
bitfld.long 0x140 13. "KPD_COL5_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad kpd_col5" "KPD_COL5_ OFFMODEPULLTYPESELECT_0,KPD_COL5_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x140 12. "KPD_COL5_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad kpd_col5" "KPD_COL5_ OFFMODEPULLUDENABLE_0,KPD_COL5_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x140 11. "KPD_COL5_ OFFMODEOUTVALUE,OffMode mode output value for pad kpd_col5" "KPD_COL5_ OFFMODEOUTVALUE_0,KPD_COL5_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x140 10. "KPD_COL5_ OFFMODEOUTENABLE,OffMode mode output enable value for pad kpd_col5" "KPD_COL5_ OFFMODEOUTENABLE_0,KPD_COL5_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x140 9. "KPD_COL5_ OFFMODEENABLE,OffMode mode override control for pad kpd_col5" "KPD_COL5_ OFFMODEENABLE_0,KPD_COL5_ OFFMODEENABLE_1"
newline
bitfld.long 0x140 8. "KPD_COL5_ INPUTENABLE,Input enable value for pad kpd_col5" "KPD_COL5_ INPUTENABLE_0,KPD_COL5_ INPUTENABLE_1"
newline
bitfld.long 0x140 4. "KPD_COL5_ PULLTYPESELECT,pullup/down selection for pad kpd_col5" "KPD_COL5_ PULLTYPESELECT_0,KPD_COL5_ PULLTYPESELECT_1"
newline
bitfld.long 0x140 3. "KPD_COL5_ PULLUDENABLE,pullup/down enable for pad kpd_col5" "KPD_COL5_ PULLUDENABLE_0,KPD_COL5_ PULLUDENABLE_1"
newline
bitfld.long 0x140 0.--2. "KPD_COL5_ MUXMODE,Functional multiplexing selection for pad kpd_col5" "KPD_COL5_ MUXMODE_0,KPD_COL5_ MUXMODE_1,KPD_COL5_ MUXMODE_2,KPD_COL5_ MUXMODE_3,?,?,?,KPD_COL5_ MUXMODE_7"
line.long 0x144 "CONTROL_CORE_PAD0_KPD_COL1_PAD1_KPD_COL2,Register control for Pads kpd_col1 and kpd_col2 Access conditions"
rbitfld.long 0x144 31. "KPD_COL2_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "KPD_COL2_WAKEUPEVENT_0_r,KPD_COL2_WAKEUPEVENT_1_r"
newline
bitfld.long 0x144 30. "KPD_COL2_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "KPD_COL2_WAKEUPENABLE_0,KPD_COL2_WAKEUPENABLE_1"
newline
bitfld.long 0x144 29. "KPD_COL2_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad kpd_col2" "KPD_COL2_ OFFMODEPULLTYPESELECT_0,KPD_COL2_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x144 28. "KPD_COL2_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad kpd_col2" "KPD_COL2_ OFFMODEPULLUDENABLE_0,KPD_COL2_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x144 27. "KPD_COL2_ OFFMODEOUTVALUE,OffMode mode output value for pad kpd_col2" "KPD_COL2_ OFFMODEOUTVALUE_0,KPD_COL2_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x144 26. "KPD_COL2_ OFFMODEOUTENABLE,OffMode mode output enable value for pad kpd_col2" "KPD_COL2_ OFFMODEOUTENABLE_0,KPD_COL2_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x144 25. "KPD_COL2_ OFFMODEENABLE,OffMode mode override control for pad kpd_col2" "KPD_COL2_ OFFMODEENABLE_0,KPD_COL2_ OFFMODEENABLE_1"
newline
bitfld.long 0x144 24. "KPD_COL2_ INPUTENABLE,Input enable value for pad kpd_col2" "KPD_COL2_ INPUTENABLE_0,KPD_COL2_ INPUTENABLE_1"
newline
bitfld.long 0x144 20. "KPD_COL2_ PULLTYPESELECT,pullup/down selection for pad kpd_col2" "KPD_COL2_ PULLTYPESELECT_0,KPD_COL2_ PULLTYPESELECT_1"
newline
bitfld.long 0x144 19. "KPD_COL2_ PULLUDENABLE,pullup/down enable for pad kpd_col2" "KPD_COL2_ PULLUDENABLE_0,KPD_COL2_ PULLUDENABLE_1"
newline
bitfld.long 0x144 16.--18. "KPD_COL2_ MUXMODE,Functional multiplexing selection for pad kpd_col2" "KPD_COL2_ MUXMODE_0,KPD_COL2_ MUXMODE_1,KPD_COL2_ MUXMODE_2,KPD_COL2_ MUXMODE_3,?,?,?,KPD_COL2_ MUXMODE_7"
newline
rbitfld.long 0x144 15. "KPD_COL1_ WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "KPD_COL1_ WAKEUPEVENT_0_r,KPD_COL1_ WAKEUPEVENT_1_r"
newline
bitfld.long 0x144 14. "KPD_COL1_ WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "KPD_COL1_ WAKEUPENABLE_0,KPD_COL1_ WAKEUPENABLE_1"
newline
bitfld.long 0x144 13. "KPD_COL1_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad kpd_col1" "KPD_COL1_ OFFMODEPULLTYPESELECT_0,KPD_COL1_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x144 12. "KPD_COL1_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad kpd_col1" "KPD_COL1_ OFFMODEPULLUDENABLE_0,KPD_COL1_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x144 11. "KPD_COL1_ OFFMODEOUTVALUE,OffMode mode output value for pad kpd_col1" "KPD_COL1_ OFFMODEOUTVALUE_0,KPD_COL1_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x144 10. "KPD_COL1_ OFFMODEOUTENABLE,OffMode mode output enable value for pad kpd_col1" "KPD_COL1_ OFFMODEOUTENABLE_0,KPD_COL1_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x144 9. "KPD_COL1_ OFFMODEENABLE,OffMode mode override control for pad kpd_col1" "KPD_COL1_ OFFMODEENABLE_0,KPD_COL1_ OFFMODEENABLE_1"
newline
bitfld.long 0x144 8. "KPD_COL1_ INPUTENABLE,Input enable value for pad kpd_col1" "KPD_COL1_ INPUTENABLE_0,KPD_COL1_ INPUTENABLE_1"
newline
bitfld.long 0x144 4. "KPD_COL1_ PULLTYPESELECT,pullup/down selection for pad kpd_col1" "KPD_COL1_ PULLTYPESELECT_0,KPD_COL1_ PULLTYPESELECT_1"
newline
bitfld.long 0x144 3. "KPD_COL1_ PULLUDENABLE,pullup/down enable for pad kpd_col1" "KPD_COL1_ PULLUDENABLE_0,KPD_COL1_ PULLUDENABLE_1"
newline
bitfld.long 0x144 0.--2. "KPD_COL1_ MUXMODE,Functional multiplexing selection for pad kpd_col1" "KPD_COL1_ MUXMODE_0,KPD_COL1_ MUXMODE_1,KPD_COL1_ MUXMODE_2,KPD_COL1_ MUXMODE_3,?,?,?,KPD_COL1_ MUXMODE_7"
line.long 0x148 "CONTROL_CORE_PAD0_KPD_ROW3_PAD1_KPD_ROW4,Register control for Pads kpd_row3 and kpd_row4 Access conditions"
rbitfld.long 0x148 31. "KPD_ROW4_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "KPD_ROW4_WAKEUPEVENT_0_r,KPD_ROW4_WAKEUPEVENT_1_r"
newline
bitfld.long 0x148 30. "KPD_ROW4_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "KPD_ROW4_WAKEUPENABLE_0,KPD_ROW4_WAKEUPENABLE_1"
newline
bitfld.long 0x148 29. "KPD_ROW4_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad kpd_row4" "KPD_ROW4_ OFFMODEPULLTYPESELECT_0,KPD_ROW4_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x148 28. "KPD_ROW4_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad kpd_row4" "KPD_ROW4_ OFFMODEPULLUDENABLE_0,KPD_ROW4_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x148 27. "KPD_ROW4_ OFFMODEOUTVALUE,OffMode mode output value for pad kpd_row4" "KPD_ROW4_ OFFMODEOUTVALUE_0,KPD_ROW4_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x148 26. "KPD_ROW4_ OFFMODEOUTENABLE,OffMode mode output enable value for pad kpd_row4" "KPD_ROW4_ OFFMODEOUTENABLE_0,KPD_ROW4_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x148 25. "KPD_ROW4_ OFFMODEENABLE,OffMode mode override control for pad kpd_row4" "KPD_ROW4_ OFFMODEENABLE_0,KPD_ROW4_ OFFMODEENABLE_1"
newline
bitfld.long 0x148 24. "KPD_ROW4_ INPUTENABLE,Input enable value for pad kpd_row4" "KPD_ROW4_ INPUTENABLE_0,KPD_ROW4_ INPUTENABLE_1"
newline
bitfld.long 0x148 20. "KPD_ROW4_PULLTYPESELECT,pullup/down selection for pad kpd_row4" "KPD_ROW4_PULLTYPESELECT_0,KPD_ROW4_PULLTYPESELECT_1"
newline
bitfld.long 0x148 19. "KPD_ROW4_PULLUDENABLE,pullup/down enable for pad kpd_row4" "KPD_ROW4_PULLUDENABLE_0,KPD_ROW4_PULLUDENABLE_1"
newline
bitfld.long 0x148 16.--18. "KPD_ROW4_MUXMODE,Functional multiplexing selection for pad kpd_row4" "KPD_ROW4_MUXMODE_0,KPD_ROW4_MUXMODE_1,KPD_ROW4_MUXMODE_2,KPD_ROW4_MUXMODE_3,?,?,?,KPD_ROW4_MUXMODE_7"
newline
rbitfld.long 0x148 15. "KPD_ROW3_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "KPD_ROW3_WAKEUPEVENT_0_r,KPD_ROW3_WAKEUPEVENT_1_r"
newline
bitfld.long 0x148 14. "KPD_ROW3_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "KPD_ROW3_WAKEUPENABLE_0,KPD_ROW3_WAKEUPENABLE_1"
newline
bitfld.long 0x148 13. "KPD_ROW3_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad kpd_row3" "KPD_ROW3_ OFFMODEPULLTYPESELECT_0,KPD_ROW3_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x148 12. "KPD_ROW3_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad kpd_row3" "KPD_ROW3_ OFFMODEPULLUDENABLE_0,KPD_ROW3_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x148 11. "KPD_ROW3_ OFFMODEOUTVALUE,OffMode mode output value for pad kpd_row3" "KPD_ROW3_ OFFMODEOUTVALUE_0,KPD_ROW3_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x148 10. "KPD_ROW3_ OFFMODEOUTENABLE,OffMode mode output enable value for pad kpd_row3" "KPD_ROW3_ OFFMODEOUTENABLE_0,KPD_ROW3_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x148 9. "KPD_ROW3_ OFFMODEENABLE,OffMode mode override control for pad kpd_row3" "KPD_ROW3_ OFFMODEENABLE_0,KPD_ROW3_ OFFMODEENABLE_1"
newline
bitfld.long 0x148 8. "KPD_ROW3_INPUTENABLE,Input enable value for pad kpd_row3" "KPD_ROW3_INPUTENABLE_0,KPD_ROW3_INPUTENABLE_1"
newline
bitfld.long 0x148 4. "KPD_ROW3_PULLTYPESELECT,pullup/down selection for pad kpd_row3" "KPD_ROW3_PULLTYPESELECT_0,KPD_ROW3_PULLTYPESELECT_1"
newline
bitfld.long 0x148 3. "KPD_ROW3_PULLUDENABLE,pullup/down enable for pad kpd_row3" "KPD_ROW3_PULLUDENABLE_0,KPD_ROW3_PULLUDENABLE_1"
newline
bitfld.long 0x148 0.--2. "KPD_ROW3_MUXMODE,Functional multiplexing selection for pad kpd_row3" "KPD_ROW3_MUXMODE_0,KPD_ROW3_MUXMODE_1,KPD_ROW3_MUXMODE_2,KPD_ROW3_MUXMODE_3,?,?,?,KPD_ROW3_MUXMODE_7"
line.long 0x14C "CONTROL_CORE_PAD0_KPD_ROW5_PAD1_KPD_ROW0,Register control for Pads kpd_row5 and kpd_row0 Access conditions"
rbitfld.long 0x14C 31. "KPD_ROW0_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "KPD_ROW0_WAKEUPEVENT_0_r,KPD_ROW0_WAKEUPEVENT_1_r"
newline
bitfld.long 0x14C 30. "KPD_ROW0_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "KPD_ROW0_WAKEUPENABLE_0,KPD_ROW0_WAKEUPENABLE_1"
newline
bitfld.long 0x14C 29. "KPD_ROW0_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad kpd_row0" "KPD_ROW0_ OFFMODEPULLTYPESELECT_0,KPD_ROW0_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x14C 28. "KPD_ROW0_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad kpd_row0" "KPD_ROW0_ OFFMODEPULLUDENABLE_0,KPD_ROW0_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x14C 27. "KPD_ROW0_ OFFMODEOUTVALUE,OffMode mode output value for pad kpd_row0" "KPD_ROW0_ OFFMODEOUTVALUE_0,KPD_ROW0_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x14C 26. "KPD_ROW0_ OFFMODEOUTENABLE,OffMode mode output enable value for pad kpd_row0" "KPD_ROW0_ OFFMODEOUTENABLE_0,KPD_ROW0_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x14C 25. "KPD_ROW0_ OFFMODEENABLE,OffMode mode override control for pad kpd_row0" "KPD_ROW0_ OFFMODEENABLE_0,KPD_ROW0_ OFFMODEENABLE_1"
newline
bitfld.long 0x14C 24. "KPD_ROW0_INPUTENABLE,Input enable value for pad kpd_row0" "KPD_ROW0_INPUTENABLE_0,KPD_ROW0_INPUTENABLE_1"
newline
bitfld.long 0x14C 20. "KPD_ROW0_PULLTYPESELECT,pullup/down selection for pad kpd_row0" "KPD_ROW0_PULLTYPESELECT_0,KPD_ROW0_PULLTYPESELECT_1"
newline
bitfld.long 0x14C 19. "KPD_ROW0_PULLUDENABLE,pullup/down enable for pad kpd_row0" "KPD_ROW0_PULLUDENABLE_0,KPD_ROW0_PULLUDENABLE_1"
newline
bitfld.long 0x14C 16.--18. "KPD_ROW0_MUXMODE,Functional multiplexing selection for pad kpd_row0" "KPD_ROW0_MUXMODE_0,KPD_ROW0_MUXMODE_1,KPD_ROW0_MUXMODE_2,KPD_ROW0_MUXMODE_3,?,?,?,KPD_ROW0_MUXMODE_7"
newline
rbitfld.long 0x14C 15. "KPD_ROW5_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "KPD_ROW5_WAKEUPEVENT_0_r,KPD_ROW5_WAKEUPEVENT_1_r"
newline
bitfld.long 0x14C 14. "KPD_ROW5_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "KPD_ROW5_WAKEUPENABLE_0,KPD_ROW5_WAKEUPENABLE_1"
newline
bitfld.long 0x14C 13. "KPD_ROW5_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad kpd_row5" "KPD_ROW5_ OFFMODEPULLTYPESELECT_0,KPD_ROW5_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x14C 12. "KPD_ROW5_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad kpd_row5" "KPD_ROW5_ OFFMODEPULLUDENABLE_0,KPD_ROW5_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x14C 11. "KPD_ROW5_ OFFMODEOUTVALUE,OffMode mode output value for pad kpd_row5" "KPD_ROW5_ OFFMODEOUTVALUE_0,KPD_ROW5_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x14C 10. "KPD_ROW5_ OFFMODEOUTENABLE,OffMode mode output enable value for pad kpd_row5" "KPD_ROW5_ OFFMODEOUTENABLE_0,KPD_ROW5_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x14C 9. "KPD_ROW5_ OFFMODEENABLE,OffMode mode override control for pad kpd_row5" "KPD_ROW5_ OFFMODEENABLE_0,KPD_ROW5_ OFFMODEENABLE_1"
newline
bitfld.long 0x14C 8. "KPD_ROW5_INPUTENABLE,Input enable value for pad kpd_row5" "KPD_ROW5_INPUTENABLE_0,KPD_ROW5_INPUTENABLE_1"
newline
bitfld.long 0x14C 4. "KPD_ROW5_PULLTYPESELECT,pullup/down selection for pad kpd_row5" "KPD_ROW5_PULLTYPESELECT_0,KPD_ROW5_PULLTYPESELECT_1"
newline
bitfld.long 0x14C 3. "KPD_ROW5_PULLUDENABLE,pullup/down enable for pad kpd_row5" "KPD_ROW5_PULLUDENABLE_0,KPD_ROW5_PULLUDENABLE_1"
newline
bitfld.long 0x14C 0.--2. "KPD_ROW5_MUXMODE,Functional multiplexing selection for pad kpd_row5" "KPD_ROW5_MUXMODE_0,KPD_ROW5_MUXMODE_1,KPD_ROW5_MUXMODE_2,KPD_ROW5_MUXMODE_3,?,?,?,KPD_ROW5_MUXMODE_7"
line.long 0x150 "CONTROL_CORE_PAD0_KPD_ROW1_PAD1_KPD_ROW2,Register control for Pads kpd_row1 and kpd_row2 Access conditions"
rbitfld.long 0x150 31. "KPD_ROW2_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "KPD_ROW2_WAKEUPEVENT_0_r,KPD_ROW2_WAKEUPEVENT_1_r"
newline
bitfld.long 0x150 30. "KPD_ROW2_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "KPD_ROW2_WAKEUPENABLE_0,KPD_ROW2_WAKEUPENABLE_1"
newline
bitfld.long 0x150 29. "KPD_ROW2_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad kpd_row2" "KPD_ROW2_ OFFMODEPULLTYPESELECT_0,KPD_ROW2_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x150 28. "KPD_ROW2_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad kpd_row2" "KPD_ROW2_ OFFMODEPULLUDENABLE_0,KPD_ROW2_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x150 27. "KPD_ROW2_ OFFMODEOUTVALUE,OffMode mode output value for pad kpd_row2" "KPD_ROW2_ OFFMODEOUTVALUE_0,KPD_ROW2_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x150 26. "KPD_ROW2_ OFFMODEOUTENABLE,OffMode mode output enable value for pad kpd_row2" "KPD_ROW2_ OFFMODEOUTENABLE_0,KPD_ROW2_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x150 25. "KPD_ROW2_ OFFMODEENABLE,OffMode mode override control for pad kpd_row2" "KPD_ROW2_ OFFMODEENABLE_0,KPD_ROW2_ OFFMODEENABLE_1"
newline
bitfld.long 0x150 24. "KPD_ROW2_INPUTENABLE,Input enable value for pad kpd_row2" "KPD_ROW2_INPUTENABLE_0,KPD_ROW2_INPUTENABLE_1"
newline
bitfld.long 0x150 20. "KPD_ROW2_PULLTYPESELECT,pullup/down selection for pad kpd_row2" "KPD_ROW2_PULLTYPESELECT_0,KPD_ROW2_PULLTYPESELECT_1"
newline
bitfld.long 0x150 19. "KPD_ROW2_PULLUDENABLE,pullup/down enable for pad kpd_row2" "KPD_ROW2_PULLUDENABLE_0,KPD_ROW2_PULLUDENABLE_1"
newline
bitfld.long 0x150 16.--18. "KPD_ROW2_MUXMODE,Functional multiplexing selection for pad kpd_row2" "KPD_ROW2_MUXMODE_0,KPD_ROW2_MUXMODE_1,KPD_ROW2_MUXMODE_2,KPD_ROW2_MUXMODE_3,?,?,?,KPD_ROW2_MUXMODE_7"
newline
rbitfld.long 0x150 15. "KPD_ROW1_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "KPD_ROW1_WAKEUPEVENT_0_r,KPD_ROW1_WAKEUPEVENT_1_r"
newline
bitfld.long 0x150 14. "KPD_ROW1_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "KPD_ROW1_WAKEUPENABLE_0,KPD_ROW1_WAKEUPENABLE_1"
newline
bitfld.long 0x150 13. "KPD_ROW1_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad kpd_row1" "KPD_ROW1_ OFFMODEPULLTYPESELECT_0,KPD_ROW1_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x150 12. "KPD_ROW1_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad kpd_row1" "KPD_ROW1_ OFFMODEPULLUDENABLE_0,KPD_ROW1_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x150 11. "KPD_ROW1_ OFFMODEOUTVALUE,OffMode mode output value for pad kpd_row1" "KPD_ROW1_ OFFMODEOUTVALUE_0,KPD_ROW1_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x150 10. "KPD_ROW1_ OFFMODEOUTENABLE,OffMode mode output enable value for pad kpd_row1" "KPD_ROW1_ OFFMODEOUTENABLE_0,KPD_ROW1_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x150 9. "KPD_ROW1_ OFFMODEENABLE,OffMode mode override control for pad kpd_row1" "KPD_ROW1_ OFFMODEENABLE_0,KPD_ROW1_ OFFMODEENABLE_1"
newline
bitfld.long 0x150 8. "KPD_ROW1_INPUTENABLE,Input enable value for pad kpd_row1" "KPD_ROW1_INPUTENABLE_0,KPD_ROW1_INPUTENABLE_1"
newline
bitfld.long 0x150 4. "KPD_ROW1_PULLTYPESELECT,pullup/down selection for pad kpd_row1" "KPD_ROW1_PULLTYPESELECT_0,KPD_ROW1_PULLTYPESELECT_1"
newline
bitfld.long 0x150 3. "KPD_ROW1_PULLUDENABLE,pullup/down enable for pad kpd_row1" "KPD_ROW1_PULLUDENABLE_0,KPD_ROW1_PULLUDENABLE_1"
newline
bitfld.long 0x150 0.--2. "KPD_ROW1_MUXMODE,Functional multiplexing selection for pad kpd_row1" "KPD_ROW1_MUXMODE_0,KPD_ROW1_MUXMODE_1,KPD_ROW1_MUXMODE_2,KPD_ROW1_MUXMODE_3,?,?,?,KPD_ROW1_MUXMODE_7"
line.long 0x154 "CONTROL_CORE_PAD0_USBA0_OTG_CE_PAD1_USBA0_OTG_DP,Register control for Pads usba0_otg_ce and usba0_otg_dp Access conditions"
rbitfld.long 0x154 31. "USBA0_OTG_,Pad_x wake-up event status latched in the IO" "USBA0_OTG__0_r,USBA0_OTG__1_r"
newline
bitfld.long 0x154 30. "USBA0_OTG_,Input pad wake-up enable (and OFF mode input enable value)" "USBA0_OTG__0,USBA0_OTG__1"
newline
bitfld.long 0x154 20. "USBA0_OTG_DP_ PULLTYPESELECT,Pullup/down selection for pad usba0_otg_dp" "USBA0_OTG_DP_ PULLTYPESELECT_0,USBA0_OTG_DP_ PULLTYPESELECT_1"
newline
bitfld.long 0x154 19. "USBA0_OTG_ DP_PULLUDENABLE,Pullup/down enable for pad usba0_otg_dp" "USBA0_OTG_ DP_PULLUDENABLE_0,USBA0_OTG_ DP_PULLUDENABLE_1"
newline
bitfld.long 0x154 16.--18. "USBA0_OTG_DP_MUXMODE,Functional multiplexing selection for pad usba0_otg_dp" "USBA0_OTG_DP_MUXMODE_0,USBA0_OTG_DP_MUXMODE_1,USBA0_OTG_DP_MUXMODE_2,?,?,?,?,USBA0_OTG_DP_MUXMODE_7"
newline
bitfld.long 0x154 4. "USBA0_OTG_ CE_PULLTYPESELECT,Pullup/down selection for pad usba0_otg_ce" "USBA0_OTG_ CE_PULLTYPESELECT_0,USBA0_OTG_ CE_PULLTYPESELECT_1"
newline
bitfld.long 0x154 3. "USBA0_OTG_ CE_PULLUDENABLE,Pullup/down enable for pad usba0_otg_ce" "USBA0_OTG_ CE_PULLUDENABLE_0,USBA0_OTG_ CE_PULLUDENABLE_1"
line.long 0x158 "CONTROL_CORE_PAD0_USBA0_OTG_DM_PAD1_FREF_CLK1_OUT,Register control for Pads usba0_otg_dm and fref_clk1_out Access conditions"
rbitfld.long 0x158 31. "FREF_CLK1_OUT_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "FREF_CLK1_OUT_WAKEUPEVENT_0_r,FREF_CLK1_OUT_WAKEUPEVENT_1_r"
newline
bitfld.long 0x158 30. "FREF_CLK1_OUT_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "FREF_CLK1_OUT_WAKEUPENABLE_0,FREF_CLK1_OUT_WAKEUPENABLE_1"
newline
bitfld.long 0x158 29. "FREF_CLK1_ OUT_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad fref_clk1_out" "FREF_CLK1_ OUT_OFFMODEPULLTYPESELECT_0,FREF_CLK1_ OUT_OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x158 28. "FREF_CLK1_ OUT_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad fref_clk1_out" "FREF_CLK1_ OUT_OFFMODEPULLUDENABLE_0,FREF_CLK1_ OUT_OFFMODEPULLUDENABLE_1"
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bitfld.long 0x158 27. "FREF_CLK1_ OUT_OFFMODEOUTVALUE,OffMode mode output value for pad fref_clk1_out" "FREF_CLK1_ OUT_OFFMODEOUTVALUE_0,FREF_CLK1_ OUT_OFFMODEOUTVALUE_1"
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bitfld.long 0x158 26. "FREF_CLK1_ OUT_OFFMODEOUTENABLE,OffMode mode output enable value for pad fref_clk1_out" "FREF_CLK1_ OUT_OFFMODEOUTENABLE_0,FREF_CLK1_ OUT_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x158 25. "FREF_CLK1_OUT_OFFMODEENABLE,OffMode mode override control for pad fref_clk1_out" "FREF_CLK1_OUT_OFFMODEENABLE_0,FREF_CLK1_OUT_OFFMODEENABLE_1"
newline
bitfld.long 0x158 24. "FREF_CLK1_OUT_INPUTENABLE,Input enable value for pad fref_clk1_out" "FREF_CLK1_OUT_INPUTENABLE_0,FREF_CLK1_OUT_INPUTENABLE_1"
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bitfld.long 0x158 20. "FREF_CLK1_OUT_PULLTYPESELECT,pullup/down selection for pad fref_clk1_out" "FREF_CLK1_OUT_PULLTYPESELECT_0,FREF_CLK1_OUT_PULLTYPESELECT_1"
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bitfld.long 0x158 19. "FREF_CLK1_OUT_PULLUDENABLE,pullup/down enable for pad fref_clk1_out" "FREF_CLK1_OUT_PULLUDENABLE_0,FREF_CLK1_OUT_PULLUDENABLE_1"
newline
bitfld.long 0x158 16.--18. "FREF_CLK1_OUT_MUXMODE,Functional multiplexing selection for pad fref_clk1_out" "FREF_CLK1_OUT_MUXMODE_0,?,?,FREF_CLK1_OUT_MUXMODE_3,?,?,?,FREF_CLK1_OUT_MUXMODE_7"
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bitfld.long 0x158 4. "USBA0_OTG_ DM_PULLTYPESELECT,pullup/down selection for pad usba0_otg_dm" "USBA0_OTG_ DM_PULLTYPESELECT_0,USBA0_OTG_ DM_PULLTYPESELECT_1"
newline
bitfld.long 0x158 3. "USBA0_OTG_ DM_PULLUDENABLE,pullup/down enable for pad usba0_otg_dm" "USBA0_OTG_ DM_PULLUDENABLE_0,USBA0_OTG_ DM_PULLUDENABLE_1"
newline
bitfld.long 0x158 0.--2. "USBA0_OTG_ DM_MUXMODE,Functional multiplexing selection for pad usba0_otg_dm" "USBA0_OTG_ DM_MUXMODE_0,USBA0_OTG_ DM_MUXMODE_1,USBA0_OTG_ DM_MUXMODE_2,?,?,?,?,USBA0_OTG_ DM_MUXMODE_7"
line.long 0x15C "CONTROL_CORE_PAD0_FREF_CLK2_OUT_PAD1_SYS_NIRQ1,Register control for Pads fref_clk2_out and sys_nirq1 Access conditions"
rbitfld.long 0x15C 31. "SYS_NIRQ1_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "SYS_NIRQ1_WAKEUPEVENT_0_r,SYS_NIRQ1_WAKEUPEVENT_1_r"
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bitfld.long 0x15C 30. "SYS_NIRQ1_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "SYS_NIRQ1_WAKEUPENABLE_0,SYS_NIRQ1_WAKEUPENABLE_1"
newline
bitfld.long 0x15C 24. "SYS_NIRQ1_INPUTENABLE,Input enable value for pad sys_nirq1" "SYS_NIRQ1_INPUTENABLE_0,SYS_NIRQ1_INPUTENABLE_1"
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bitfld.long 0x15C 20. "SYS_NIRQ1_PULLTYPESELECT,pullup/down selection for pad sys_nirq1" "SYS_NIRQ1_PULLTYPESELECT_0,SYS_NIRQ1_PULLTYPESELECT_1"
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bitfld.long 0x15C 19. "SYS_NIRQ1_PULLUDENABLE,pullup/down enable for pad sys_nirq1" "SYS_NIRQ1_PULLUDENABLE_0,SYS_NIRQ1_PULLUDENABLE_1"
newline
bitfld.long 0x15C 16.--18. "SYS_NIRQ1_MUXMODE,Functional multiplexing selection for pad sys_nirq1" "SYS_NIRQ1_MUXMODE_0,?,?,?,?,?,?,SYS_NIRQ1_MUXMODE_7"
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rbitfld.long 0x15C 15. "FREF_CLK2_OUT_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "FREF_CLK2_OUT_WAKEUPEVENT_0_r,FREF_CLK2_OUT_WAKEUPEVENT_1_r"
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bitfld.long 0x15C 14. "FREF_CLK2_OUT_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "FREF_CLK2_OUT_WAKEUPENABLE_0,FREF_CLK2_OUT_WAKEUPENABLE_1"
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bitfld.long 0x15C 13. "FREF_CLK2_ OUT_OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad fref_clk2_out" "FREF_CLK2_ OUT_OFFMODEPULLTYPESELECT_0,FREF_CLK2_ OUT_OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x15C 12. "FREF_CLK2_ OUT_OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad fref_clk2_out" "FREF_CLK2_ OUT_OFFMODEPULLUDENABLE_0,FREF_CLK2_ OUT_OFFMODEPULLUDENABLE_1"
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bitfld.long 0x15C 11. "FREF_CLK2_ OUT_OFFMODEOUTVALUE,OffMode mode output value for pad fref_clk2_out" "FREF_CLK2_ OUT_OFFMODEOUTVALUE_0,FREF_CLK2_ OUT_OFFMODEOUTVALUE_1"
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bitfld.long 0x15C 10. "FREF_CLK2_ OUT_OFFMODEOUTENABLE,OffMode mode output enable value for pad fref_clk2_out" "FREF_CLK2_ OUT_OFFMODEOUTENABLE_0,FREF_CLK2_ OUT_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x15C 9. "FREF_CLK2_ OUT_OFFMODEENABLE,OffMode mode override control for pad fref_clk2_out" "FREF_CLK2_ OUT_OFFMODEENABLE_0,FREF_CLK2_ OUT_OFFMODEENABLE_1"
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bitfld.long 0x15C 8. "FREF_CLK2_ OUT_INPUTENABLE,Input enable value for pad fref_clk2_out" "FREF_CLK2_ OUT_INPUTENABLE_0,FREF_CLK2_ OUT_INPUTENABLE_1"
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bitfld.long 0x15C 4. "FREF_CLK2_ OUT_PULLTYPESELECT,pullup/down selection for pad fref_clk2_out" "FREF_CLK2_ OUT_PULLTYPESELECT_0,FREF_CLK2_ OUT_PULLTYPESELECT_1"
newline
bitfld.long 0x15C 3. "FREF_CLK2_OUT_PULLUDENABLE,pullup/down enable for pad fref_clk2_out" "FREF_CLK2_OUT_PULLUDENABLE_0,FREF_CLK2_OUT_PULLUDENABLE_1"
newline
bitfld.long 0x15C 0.--2. "FREF_CLK2_OUT_MUXMODE,Functional multiplexing selection for pad fref_clk2_out" "FREF_CLK2_OUT_MUXMODE_0,?,?,FREF_CLK2_OUT_MUXMODE_3,?,?,?,FREF_CLK2_OUT_MUXMODE_7"
line.long 0x160 "CONTROL_CORE_PAD0_SYS_NIRQ2_PAD1_SYS_BOOT0,Register control for Pads sys_nirq2 and sys_boot0 Access conditions"
rbitfld.long 0x160 31. "SYS_BOOT0_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "SYS_BOOT0_WAKEUPEVENT_0_r,SYS_BOOT0_WAKEUPEVENT_1_r"
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bitfld.long 0x160 30. "SYS_BOOT0_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "SYS_BOOT0_WAKEUPENABLE_0,SYS_BOOT0_WAKEUPENABLE_1"
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bitfld.long 0x160 29. "SYS_BOOT0_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad sys_boot0" "SYS_BOOT0_ OFFMODEPULLTYPESELECT_0,SYS_BOOT0_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x160 28. "SYS_BOOT0_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad sys_boot0" "SYS_BOOT0_ OFFMODEPULLUDENABLE_0,SYS_BOOT0_ OFFMODEPULLUDENABLE_1"
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bitfld.long 0x160 27. "SYS_BOOT0_ OFFMODEOUTVALUE,OffMode mode output value for pad sys_boot0" "SYS_BOOT0_ OFFMODEOUTVALUE_0,SYS_BOOT0_ OFFMODEOUTVALUE_1"
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bitfld.long 0x160 26. "SYS_BOOT0_ OFFMODEOUTENABLE,OffMode mode output enable value for pad sys_boot0" "SYS_BOOT0_ OFFMODEOUTENABLE_0,SYS_BOOT0_ OFFMODEOUTENABLE_1"
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bitfld.long 0x160 25. "SYS_BOOT0_OFFMODEENABLE,OffMode mode override control for pad sys_boot0" "SYS_BOOT0_OFFMODEENABLE_0,SYS_BOOT0_OFFMODEENABLE_1"
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bitfld.long 0x160 24. "SYS_BOOT0_INPUTENABLE,Input enable value for pad sys_boot0" "SYS_BOOT0_INPUTENABLE_0,SYS_BOOT0_INPUTENABLE_1"
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bitfld.long 0x160 20. "SYS_BOOT0_PULLTYPESELECT,pullup/down selection for pad sys_boot0" "SYS_BOOT0_PULLTYPESELECT_0,SYS_BOOT0_PULLTYPESELECT_1"
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bitfld.long 0x160 19. "SYS_BOOT0_PULLUDENABLE,pullup/down enable for pad sys_boot0" "SYS_BOOT0_PULLUDENABLE_0,SYS_BOOT0_PULLUDENABLE_1"
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bitfld.long 0x160 16.--18. "SYS_BOOT0_MUXMODE,Functional multiplexing selection for pad sys_boot0" "SYS_BOOT0_MUXMODE_0,?,?,SYS_BOOT0_MUXMODE_3,?,?,?,SYS_BOOT0_MUXMODE_7"
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rbitfld.long 0x160 15. "SYS_NIRQ2_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "SYS_NIRQ2_WAKEUPEVENT_0_r,SYS_NIRQ2_WAKEUPEVENT_1_r"
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bitfld.long 0x160 14. "SYS_NIRQ2_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "SYS_NIRQ2_WAKEUPENABLE_0,SYS_NIRQ2_WAKEUPENABLE_1"
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bitfld.long 0x160 13. "SYS_NIRQ2_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad sys_nirq2" "SYS_NIRQ2_ OFFMODEPULLTYPESELECT_0,SYS_NIRQ2_ OFFMODEPULLTYPESELECT_1"
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bitfld.long 0x160 12. "SYS_NIRQ2_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad sys_nirq2" "SYS_NIRQ2_ OFFMODEPULLUDENABLE_0,SYS_NIRQ2_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x160 11. "SYS_NIRQ2_ OFFMODEOUTVALUE,OffMode mode output value for pad sys_nirq2" "SYS_NIRQ2_ OFFMODEOUTVALUE_0,SYS_NIRQ2_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x160 10. "SYS_NIRQ2_ OFFMODEOUTENABLE,OffMode mode output enable value for pad sys_nirq2" "SYS_NIRQ2_ OFFMODEOUTENABLE_0,SYS_NIRQ2_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x160 9. "SYS_NIRQ2_OFFMODEENABLE,OffMode mode override control for pad sys_nirq2" "SYS_NIRQ2_OFFMODEENABLE_0,SYS_NIRQ2_OFFMODEENABLE_1"
newline
bitfld.long 0x160 8. "SYS_NIRQ2_INPUTENABLE,Input enable value for pad sys_nirq2" "SYS_NIRQ2_INPUTENABLE_0,SYS_NIRQ2_INPUTENABLE_1"
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bitfld.long 0x160 4. "SYS_NIRQ2_PULLTYPESELECT,pullup/down selection for pad sys_nirq2" "SYS_NIRQ2_PULLTYPESELECT_0,SYS_NIRQ2_PULLTYPESELECT_1"
newline
bitfld.long 0x160 3. "SYS_NIRQ2_PULLUDENABLE,pullup/down enable for pad sys_nirq2" "SYS_NIRQ2_PULLUDENABLE_0,SYS_NIRQ2_PULLUDENABLE_1"
newline
bitfld.long 0x160 0.--2. "SYS_NIRQ2_MUXMODE,Functional multiplexing selection for pad sys_nirq2" "SYS_NIRQ2_MUXMODE_0,?,?,SYS_NIRQ2_MUXMODE_3,?,?,?,SYS_NIRQ2_MUXMODE_7"
line.long 0x164 "CONTROL_CORE_PAD0_SYS_BOOT1_PAD1_SYS_BOOT2,Register control for Pads sys_boot1 and sys_boot2 Access conditions"
rbitfld.long 0x164 31. "SYS_BOOT2_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "SYS_BOOT2_WAKEUPEVENT_0_r,SYS_BOOT2_WAKEUPEVENT_1_r"
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bitfld.long 0x164 30. "SYS_BOOT2_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "SYS_BOOT2_WAKEUPENABLE_0,SYS_BOOT2_WAKEUPENABLE_1"
newline
bitfld.long 0x164 29. "SYS_BOOT2_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad sys_boot2" "SYS_BOOT2_ OFFMODEPULLTYPESELECT_0,SYS_BOOT2_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x164 28. "SYS_BOOT2_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad sys_boot2" "SYS_BOOT2_ OFFMODEPULLUDENABLE_0,SYS_BOOT2_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x164 27. "SYS_BOOT2_ OFFMODEOUTVALUE,OffMode mode output value for pad sys_boot2" "SYS_BOOT2_ OFFMODEOUTVALUE_0,SYS_BOOT2_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x164 26. "SYS_BOOT2_ OFFMODEOUTENABLE,OffMode mode output enable value for pad sys_boot2" "SYS_BOOT2_ OFFMODEOUTENABLE_0,SYS_BOOT2_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x164 25. "SYS_BOOT2_OFFMODEENABLE,OffMode mode override control for pad sys_boot2" "SYS_BOOT2_OFFMODEENABLE_0,SYS_BOOT2_OFFMODEENABLE_1"
newline
bitfld.long 0x164 24. "SYS_BOOT2_INPUTENABLE,Input enable value for pad sys_boot2" "SYS_BOOT2_INPUTENABLE_0,SYS_BOOT2_INPUTENABLE_1"
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bitfld.long 0x164 20. "SYS_BOOT2_PULLTYPESELECT,pullup/down selection for pad sys_boot2" "SYS_BOOT2_PULLTYPESELECT_0,SYS_BOOT2_PULLTYPESELECT_1"
newline
bitfld.long 0x164 19. "SYS_BOOT2_PULLUDENABLE,pullup/down enable for pad sys_boot2" "SYS_BOOT2_PULLUDENABLE_0,SYS_BOOT2_PULLUDENABLE_1"
newline
bitfld.long 0x164 16.--18. "SYS_BOOT2_MUXMODE,Functional multiplexing selection for pad sys_boot2" "SYS_BOOT2_MUXMODE_0,?,?,SYS_BOOT2_MUXMODE_3,?,?,?,SYS_BOOT2_MUXMODE_7"
newline
rbitfld.long 0x164 15. "SYS_BOOT1_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "SYS_BOOT1_WAKEUPEVENT_0_r,SYS_BOOT1_WAKEUPEVENT_1_r"
newline
bitfld.long 0x164 14. "SYS_BOOT1_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "SYS_BOOT1_WAKEUPENABLE_0,SYS_BOOT1_WAKEUPENABLE_1"
newline
bitfld.long 0x164 13. "SYS_BOOT1_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad sys_boot1" "SYS_BOOT1_ OFFMODEPULLTYPESELECT_0,SYS_BOOT1_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x164 12. "SYS_BOOT1_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad sys_boot1" "SYS_BOOT1_ OFFMODEPULLUDENABLE_0,SYS_BOOT1_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x164 11. "SYS_BOOT1_ OFFMODEOUTVALUE,OffMode mode output value for pad sys_boot1" "SYS_BOOT1_ OFFMODEOUTVALUE_0,SYS_BOOT1_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x164 10. "SYS_BOOT1_ OFFMODEOUTENABLE,OffMode mode output enable value for pad sys_boot1" "SYS_BOOT1_ OFFMODEOUTENABLE_0,SYS_BOOT1_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x164 9. "SYS_BOOT1_OFFMODEENABLE,OffMode mode override control for pad sys_boot1" "SYS_BOOT1_OFFMODEENABLE_0,SYS_BOOT1_OFFMODEENABLE_1"
newline
bitfld.long 0x164 8. "SYS_BOOT1_INPUTENABLE,Input enable value for pad sys_boot1" "SYS_BOOT1_INPUTENABLE_0,SYS_BOOT1_INPUTENABLE_1"
newline
bitfld.long 0x164 4. "SYS_BOOT1_PULLTYPESELECT,pullup/down selection for pad sys_boot1" "SYS_BOOT1_PULLTYPESELECT_0,SYS_BOOT1_PULLTYPESELECT_1"
newline
bitfld.long 0x164 3. "SYS_BOOT1_PULLUDENABLE,pullup/down enable for pad sys_boot1" "SYS_BOOT1_PULLUDENABLE_0,SYS_BOOT1_PULLUDENABLE_1"
newline
bitfld.long 0x164 0.--2. "SYS_BOOT1_MUXMODE,Functional multiplexing selection for pad sys_boot1" "SYS_BOOT1_MUXMODE_0,?,?,SYS_BOOT1_MUXMODE_3,?,?,?,SYS_BOOT1_MUXMODE_7"
line.long 0x168 "CONTROL_CORE_PAD0_SYS_BOOT3_PAD1_SYS_BOOT4,Register control for Pads sys_boot3 and sys_boot4 Access conditions"
rbitfld.long 0x168 31. "SYS_BOOT4_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "SYS_BOOT4_WAKEUPEVENT_0_r,SYS_BOOT4_WAKEUPEVENT_1_r"
newline
bitfld.long 0x168 30. "SYS_BOOT4_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "SYS_BOOT4_WAKEUPENABLE_0,SYS_BOOT4_WAKEUPENABLE_1"
newline
bitfld.long 0x168 29. "SYS_BOOT4_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad sys_boot4" "SYS_BOOT4_ OFFMODEPULLTYPESELECT_0,SYS_BOOT4_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x168 28. "SYS_BOOT4_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad sys_boot4" "SYS_BOOT4_ OFFMODEPULLUDENABLE_0,SYS_BOOT4_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x168 27. "SYS_BOOT4_OFFMODEOUTVALUE,OffMode mode output value for pad sys_boot4" "SYS_BOOT4_OFFMODEOUTVALUE_0,SYS_BOOT4_OFFMODEOUTVALUE_1"
newline
bitfld.long 0x168 26. "SYS_BOOT4_OFFMODEOUTENABLE,OffMode mode output enable value for pad sys_boot4" "SYS_BOOT4_OFFMODEOUTENABLE_0,SYS_BOOT4_OFFMODEOUTENABLE_1"
newline
bitfld.long 0x168 25. "SYS_BOOT4_OFFMODEENABLE,OffMode mode override control for pad sys_boot4" "SYS_BOOT4_OFFMODEENABLE_0,SYS_BOOT4_OFFMODEENABLE_1"
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bitfld.long 0x168 24. "SYS_BOOT4_INPUTENABLE,Input enable value for pad sys_boot4" "SYS_BOOT4_INPUTENABLE_0,SYS_BOOT4_INPUTENABLE_1"
newline
bitfld.long 0x168 20. "SYS_BOOT4_PULLTYPESELECT,pullup/down selection for pad sys_boot4" "SYS_BOOT4_PULLTYPESELECT_0,SYS_BOOT4_PULLTYPESELECT_1"
newline
bitfld.long 0x168 19. "SYS_BOOT4_PULLUDENABLE,pullup/down enable for pad sys_boot4" "SYS_BOOT4_PULLUDENABLE_0,SYS_BOOT4_PULLUDENABLE_1"
newline
bitfld.long 0x168 16.--18. "SYS_BOOT4_MUXMODE,Functional multiplexing selection for pad sys_boot4" "SYS_BOOT4_MUXMODE_0,?,?,SYS_BOOT4_MUXMODE_3,?,?,?,SYS_BOOT4_MUXMODE_7"
newline
rbitfld.long 0x168 15. "SYS_BOOT3_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "SYS_BOOT3_WAKEUPEVENT_0_r,SYS_BOOT3_WAKEUPEVENT_1_r"
newline
bitfld.long 0x168 14. "SYS_BOOT3_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "SYS_BOOT3_WAKEUPENABLE_0,SYS_BOOT3_WAKEUPENABLE_1"
newline
bitfld.long 0x168 13. "SYS_BOOT3_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad sys_boot3" "SYS_BOOT3_ OFFMODEPULLTYPESELECT_0,SYS_BOOT3_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x168 12. "SYS_BOOT3_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad sys_boot3" "SYS_BOOT3_ OFFMODEPULLUDENABLE_0,SYS_BOOT3_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x168 11. "SYS_BOOT3_ OFFMODEOUTVALUE,OffMode mode output value for pad sys_boot3" "SYS_BOOT3_ OFFMODEOUTVALUE_0,SYS_BOOT3_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x168 10. "SYS_BOOT3_ OFFMODEOUTENABLE,OffMode mode output enable value for pad sys_boot3" "SYS_BOOT3_ OFFMODEOUTENABLE_0,SYS_BOOT3_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x168 9. "SYS_BOOT3_OFFMODEENABLE,OffMode mode override control for pad sys_boot3" "SYS_BOOT3_OFFMODEENABLE_0,SYS_BOOT3_OFFMODEENABLE_1"
newline
bitfld.long 0x168 8. "SYS_BOOT3_INPUTENABLE,Input enable value for pad sys_boot3" "SYS_BOOT3_INPUTENABLE_0,SYS_BOOT3_INPUTENABLE_1"
newline
bitfld.long 0x168 4. "SYS_BOOT3_PULLTYPESELECT,pullup/down selection for pad sys_boot3" "SYS_BOOT3_PULLTYPESELECT_0,SYS_BOOT3_PULLTYPESELECT_1"
newline
bitfld.long 0x168 3. "SYS_BOOT3_PULLUDENABLE,pullup/down enable for pad sys_boot3" "SYS_BOOT3_PULLUDENABLE_0,SYS_BOOT3_PULLUDENABLE_1"
newline
bitfld.long 0x168 0.--2. "SYS_BOOT3_MUXMODE,Functional multiplexing selection for pad sys_boot3" "SYS_BOOT3_MUXMODE_0,?,?,SYS_BOOT3_MUXMODE_3,?,?,?,SYS_BOOT3_MUXMODE_7"
line.long 0x16C "CONTROL_CORE_PAD0_SYS_BOOT5_PAD1_DPM_EMU0,Register control for Pads sys_boot5 and dpm_emu0 Access conditions"
rbitfld.long 0x16C 31. "DPM_EMU0_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "DPM_EMU0_WAKEUPEVENT_0_r,DPM_EMU0_WAKEUPEVENT_1_r"
newline
bitfld.long 0x16C 30. "DPM_EMU0_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "DPM_EMU0_WAKEUPENABLE_0,DPM_EMU0_WAKEUPENABLE_1"
newline
bitfld.long 0x16C 29. "DPM_EMU0_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad dpm_emu0" "DPM_EMU0_ OFFMODEPULLTYPESELECT_0,DPM_EMU0_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x16C 28. "DPM_EMU0_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad dpm_emu0" "DPM_EMU0_ OFFMODEPULLUDENABLE_0,DPM_EMU0_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x16C 27. "DPM_EMU0_ OFFMODEOUTVALUE,OffMode mode output value for pad dpm_emu0" "DPM_EMU0_ OFFMODEOUTVALUE_0,DPM_EMU0_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x16C 26. "DPM_EMU0_ OFFMODEOUTENABLE,OffMode mode output enable value for pad dpm_emu0" "DPM_EMU0_ OFFMODEOUTENABLE_0,DPM_EMU0_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x16C 25. "DPM_EMU0_ OFFMODEENABLE,OffMode mode override control for pad dpm_emu0" "DPM_EMU0_ OFFMODEENABLE_0,DPM_EMU0_ OFFMODEENABLE_1"
newline
bitfld.long 0x16C 24. "DPM_EMU0_INPUTENABLE,Input enable value for pad dpm_emu0" "DPM_EMU0_INPUTENABLE_0,DPM_EMU0_INPUTENABLE_1"
newline
bitfld.long 0x16C 20. "DPM_EMU0_PULLTYPESELECT,pullup/down selection for pad dpm_emu0" "DPM_EMU0_PULLTYPESELECT_0,DPM_EMU0_PULLTYPESELECT_1"
newline
bitfld.long 0x16C 19. "DPM_EMU0_PULLUDENABLE,pullup/down enable for pad dpm_emu0" "DPM_EMU0_PULLUDENABLE_0,DPM_EMU0_PULLUDENABLE_1"
newline
bitfld.long 0x16C 16.--18. "DPM_EMU0_MUXMODE,Functional multiplexing selection for pad dpm_emu0" "DPM_EMU0_MUXMODE_0,?,?,DPM_EMU0_MUXMODE_3,?,?,DPM_EMU0_MUXMODE_6,DPM_EMU0_MUXMODE_7"
newline
rbitfld.long 0x16C 15. "SYS_BOOT5_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "SYS_BOOT5_WAKEUPEVENT_0_r,SYS_BOOT5_WAKEUPEVENT_1_r"
newline
bitfld.long 0x16C 14. "SYS_BOOT5_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "SYS_BOOT5_WAKEUPENABLE_0,SYS_BOOT5_WAKEUPENABLE_1"
newline
bitfld.long 0x16C 13. "SYS_BOOT5_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad sys_boot5" "SYS_BOOT5_ OFFMODEPULLTYPESELECT_0,SYS_BOOT5_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x16C 12. "SYS_BOOT5_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad sys_boot5" "SYS_BOOT5_ OFFMODEPULLUDENABLE_0,SYS_BOOT5_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x16C 11. "SYS_BOOT5_ OFFMODEOUTVALUE,OffMode mode output value for pad sys_boot5" "SYS_BOOT5_ OFFMODEOUTVALUE_0,SYS_BOOT5_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x16C 10. "SYS_BOOT5_ OFFMODEOUTENABLE,OffMode mode output enable value for pad sys_boot5" "SYS_BOOT5_ OFFMODEOUTENABLE_0,SYS_BOOT5_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x16C 9. "SYS_BOOT5_OFFMODEENABLE,OffMode mode override control for pad sys_boot5" "SYS_BOOT5_OFFMODEENABLE_0,SYS_BOOT5_OFFMODEENABLE_1"
newline
bitfld.long 0x16C 8. "SYS_BOOT5_INPUTENABLE,Input enable value for pad sys_boot5" "SYS_BOOT5_INPUTENABLE_0,SYS_BOOT5_INPUTENABLE_1"
newline
bitfld.long 0x16C 4. "SYS_BOOT5_PULLTYPESELECT,pullup/down selection for pad sys_boot5" "SYS_BOOT5_PULLTYPESELECT_0,SYS_BOOT5_PULLTYPESELECT_1"
newline
bitfld.long 0x16C 3. "SYS_BOOT5_PULLUDENABLE,pullup/down enable for pad sys_boot5" "SYS_BOOT5_PULLUDENABLE_0,SYS_BOOT5_PULLUDENABLE_1"
newline
bitfld.long 0x16C 0.--2. "SYS_BOOT5_MUXMODE,Functional multiplexing selection for pad sys_boot5" "SYS_BOOT5_MUXMODE_0,?,?,SYS_BOOT5_MUXMODE_3,?,?,?,SYS_BOOT5_MUXMODE_7"
line.long 0x170 "CONTROL_CORE_PAD0_DPM_EMU1_PAD1_DPM_EMU2,Register control for Pads dpm_emu1 and dpm_emu2 Access conditions"
rbitfld.long 0x170 31. "DPM_EMU2_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "DPM_EMU2_WAKEUPEVENT_0_r,DPM_EMU2_WAKEUPEVENT_1_r"
newline
bitfld.long 0x170 30. "DPM_EMU2_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "DPM_EMU2_WAKEUPENABLE_0,DPM_EMU2_WAKEUPENABLE_1"
newline
bitfld.long 0x170 29. "DPM_EMU2_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad dpm_emu2" "DPM_EMU2_ OFFMODEPULLTYPESELECT_0,DPM_EMU2_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x170 28. "DPM_EMU2_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad dpm_emu2" "DPM_EMU2_ OFFMODEPULLUDENABLE_0,DPM_EMU2_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x170 27. "DPM_EMU2_ OFFMODEOUTVALUE,OffMode mode output value for pad dpm_emu2" "DPM_EMU2_ OFFMODEOUTVALUE_0,DPM_EMU2_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x170 26. "DPM_EMU2_ OFFMODEOUTENABLE,OffMode mode output enable value for pad dpm_emu2" "DPM_EMU2_ OFFMODEOUTENABLE_0,DPM_EMU2_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x170 25. "DPM_EMU2_ OFFMODEENABLE,OffMode mode override control for pad dpm_emu2" "DPM_EMU2_ OFFMODEENABLE_0,DPM_EMU2_ OFFMODEENABLE_1"
newline
bitfld.long 0x170 24. "DPM_EMU2_INPUTENABLE,Input enable value for pad dpm_emu2" "DPM_EMU2_INPUTENABLE_0,DPM_EMU2_INPUTENABLE_1"
newline
bitfld.long 0x170 20. "DPM_EMU2_PULLTYPESELECT,pullup/down selection for pad dpm_emu2" "DPM_EMU2_PULLTYPESELECT_0,DPM_EMU2_PULLTYPESELECT_1"
newline
bitfld.long 0x170 19. "DPM_EMU2_PULLUDENABLE,pullup/down enable for pad dpm_emu2" "DPM_EMU2_PULLUDENABLE_0,DPM_EMU2_PULLUDENABLE_1"
newline
bitfld.long 0x170 16.--18. "DPM_EMU2_MUXMODE,Functional multiplexing selection for pad dpm_emu2" "DPM_EMU2_MUXMODE_0,DPM_EMU2_MUXMODE_1,?,DPM_EMU2_MUXMODE_3,?,DPM_EMU2_MUXMODE_5,DPM_EMU2_MUXMODE_6,DPM_EMU2_MUXMODE_7"
newline
rbitfld.long 0x170 15. "DPM_EMU1_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "DPM_EMU1_WAKEUPEVENT_0_r,DPM_EMU1_WAKEUPEVENT_1_r"
newline
bitfld.long 0x170 14. "DPM_EMU1_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "DPM_EMU1_WAKEUPENABLE_0,DPM_EMU1_WAKEUPENABLE_1"
newline
bitfld.long 0x170 13. "DPM_EMU1_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad dpm_emu1" "DPM_EMU1_ OFFMODEPULLTYPESELECT_0,DPM_EMU1_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x170 12. "DPM_EMU1_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad dpm_emu1" "DPM_EMU1_ OFFMODEPULLUDENABLE_0,DPM_EMU1_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x170 11. "DPM_EMU1_ OFFMODEOUTVALUE,OffMode mode output value for pad dpm_emu1" "DPM_EMU1_ OFFMODEOUTVALUE_0,DPM_EMU1_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x170 10. "DPM_EMU1_ OFFMODEOUTENABLE,OffMode mode output enable value for pad dpm_emu1" "DPM_EMU1_ OFFMODEOUTENABLE_0,DPM_EMU1_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x170 9. "DPM_EMU1_ OFFMODEENABLE,OffMode mode override control for pad dpm_emu1" "DPM_EMU1_ OFFMODEENABLE_0,DPM_EMU1_ OFFMODEENABLE_1"
newline
bitfld.long 0x170 8. "DPM_EMU1_INPUTENABLE,Input enable value for pad dpm_emu1" "DPM_EMU1_INPUTENABLE_0,DPM_EMU1_INPUTENABLE_1"
newline
bitfld.long 0x170 4. "DPM_EMU1_ PULLTYPESELECT,pullup/down selection for pad dpm_emu1" "DPM_EMU1_ PULLTYPESELECT_0,DPM_EMU1_ PULLTYPESELECT_1"
newline
bitfld.long 0x170 3. "DPM_EMU1_PULLUDENABLE,pullup/down enable for pad dpm_emu1" "DPM_EMU1_PULLUDENABLE_0,DPM_EMU1_PULLUDENABLE_1"
newline
bitfld.long 0x170 0.--2. "DPM_EMU1_MUXMODE,Functional multiplexing selection for pad dpm_emu1" "DPM_EMU1_MUXMODE_0,?,?,DPM_EMU1_MUXMODE_3,?,?,DPM_EMU1_MUXMODE_6,DPM_EMU1_MUXMODE_7"
line.long 0x174 "CONTROL_CORE_PAD0_DPM_EMU3_PAD1_DPM_EMU4,Register control for Pads dpm_emu3 and dpm_emu4 Access conditions"
rbitfld.long 0x174 31. "DPM_EMU4_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "DPM_EMU4_WAKEUPEVENT_0_r,DPM_EMU4_WAKEUPEVENT_1_r"
newline
bitfld.long 0x174 30. "DPM_EMU4_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "DPM_EMU4_WAKEUPENABLE_0,DPM_EMU4_WAKEUPENABLE_1"
newline
bitfld.long 0x174 29. "DPM_EMU4_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad dpm_emu4" "DPM_EMU4_ OFFMODEPULLTYPESELECT_0,DPM_EMU4_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x174 28. "DPM_EMU4_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad dpm_emu4" "DPM_EMU4_ OFFMODEPULLUDENABLE_0,DPM_EMU4_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x174 27. "DPM_EMU4_ OFFMODEOUTVALUE,OffMode mode output value for pad dpm_emu4" "DPM_EMU4_ OFFMODEOUTVALUE_0,DPM_EMU4_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x174 26. "DPM_EMU4_ OFFMODEOUTENABLE,OffMode mode output enable value for pad dpm_emu4" "DPM_EMU4_ OFFMODEOUTENABLE_0,DPM_EMU4_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x174 25. "DPM_EMU4_OFFMODEENABLE,OffMode mode override control for pad dpm_emu4" "DPM_EMU4_OFFMODEENABLE_0,DPM_EMU4_OFFMODEENABLE_1"
newline
bitfld.long 0x174 24. "DPM_EMU4_INPUTENABLE,Input enable value for pad dpm_emu4" "DPM_EMU4_INPUTENABLE_0,DPM_EMU4_INPUTENABLE_1"
newline
bitfld.long 0x174 20. "DPM_EMU4_PULLTYPESELECT,pullup/down selection for pad dpm_emu4" "DPM_EMU4_PULLTYPESELECT_0,DPM_EMU4_PULLTYPESELECT_1"
newline
bitfld.long 0x174 19. "DPM_EMU4_PULLUDENABLE,pullup/down enable for pad dpm_emu4" "DPM_EMU4_PULLUDENABLE_0,DPM_EMU4_PULLUDENABLE_1"
newline
bitfld.long 0x174 16.--18. "DPM_EMU4_MUXMODE,Functional multiplexing selection for pad dpm_emu4" "DPM_EMU4_MUXMODE_0,DPM_EMU4_MUXMODE_1,?,DPM_EMU4_MUXMODE_3,DPM_EMU4_MUXMODE_4,DPM_EMU4_MUXMODE_5,DPM_EMU4_MUXMODE_6,DPM_EMU4_MUXMODE_7"
newline
rbitfld.long 0x174 15. "DPM_EMU3_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "DPM_EMU3_WAKEUPEVENT_0_r,DPM_EMU3_WAKEUPEVENT_1_r"
newline
bitfld.long 0x174 14. "DPM_EMU3_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "DPM_EMU3_WAKEUPENABLE_0,DPM_EMU3_WAKEUPENABLE_1"
newline
bitfld.long 0x174 13. "DPM_EMU3_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad dpm_emu3" "DPM_EMU3_ OFFMODEPULLTYPESELECT_0,DPM_EMU3_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x174 12. "DPM_EMU3_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad dpm_emu3" "DPM_EMU3_ OFFMODEPULLUDENABLE_0,DPM_EMU3_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x174 11. "DPM_EMU3_ OFFMODEOUTVALUE,OffMode mode output value for pad dpm_emu3" "DPM_EMU3_ OFFMODEOUTVALUE_0,DPM_EMU3_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x174 10. "DPM_EMU3_ OFFMODEOUTENABLE,OffMode mode output enable value for pad dpm_emu3" "DPM_EMU3_ OFFMODEOUTENABLE_0,DPM_EMU3_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x174 9. "DPM_EMU3_ OFFMODEENABLE,OffMode mode override control for pad dpm_emu3" "DPM_EMU3_ OFFMODEENABLE_0,DPM_EMU3_ OFFMODEENABLE_1"
newline
bitfld.long 0x174 8. "DPM_EMU3_INPUTENABLE,Input enable value for pad dpm_emu3" "DPM_EMU3_INPUTENABLE_0,DPM_EMU3_INPUTENABLE_1"
newline
bitfld.long 0x174 4. "DPM_EMU3_PULLTYPESELECT,pullup/down selection for pad dpm_emu3" "DPM_EMU3_PULLTYPESELECT_0,DPM_EMU3_PULLTYPESELECT_1"
newline
bitfld.long 0x174 3. "DPM_EMU3_PULLUDENABLE,pullup/down enable for pad dpm_emu3" "DPM_EMU3_PULLUDENABLE_0,DPM_EMU3_PULLUDENABLE_1"
newline
bitfld.long 0x174 0.--2. "DPM_EMU3_MUXMODE,Functional multiplexing selection for pad dpm_emu3" "DPM_EMU3_MUXMODE_0,DPM_EMU3_MUXMODE_1,?,DPM_EMU3_MUXMODE_3,DPM_EMU3_MUXMODE_4,DPM_EMU3_MUXMODE_5,DPM_EMU3_MUXMODE_6,DPM_EMU3_MUXMODE_7"
line.long 0x178 "CONTROL_CORE_PAD0_DPM_EMU5_PAD1_DPM_EMU6,Register control for Pads dpm_emu5 and dpm_emu6 Access conditions"
rbitfld.long 0x178 31. "DPM_EMU6_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "DPM_EMU6_WAKEUPEVENT_0_r,DPM_EMU6_WAKEUPEVENT_1_r"
newline
bitfld.long 0x178 30. "DPM_EMU6_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "DPM_EMU6_WAKEUPENABLE_0,DPM_EMU6_WAKEUPENABLE_1"
newline
bitfld.long 0x178 29. "DPM_EMU6_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad dpm_emu6" "DPM_EMU6_ OFFMODEPULLTYPESELECT_0,DPM_EMU6_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x178 28. "DPM_EMU6_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad dpm_emu6" "DPM_EMU6_ OFFMODEPULLUDENABLE_0,DPM_EMU6_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x178 27. "DPM_EMU6_ OFFMODEOUTVALUE,OffMode mode output value for pad dpm_emu6" "DPM_EMU6_ OFFMODEOUTVALUE_0,DPM_EMU6_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x178 26. "DPM_EMU6_ OFFMODEOUTENABLE,OffMode mode output enable value for pad dpm_emu6" "DPM_EMU6_ OFFMODEOUTENABLE_0,DPM_EMU6_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x178 25. "DPM_EMU6_ OFFMODEENABLE,OffMode mode override control for pad dpm_emu6" "DPM_EMU6_ OFFMODEENABLE_0,DPM_EMU6_ OFFMODEENABLE_1"
newline
bitfld.long 0x178 24. "DPM_EMU6_INPUTENABLE,Input enable value for pad dpm_emu6" "DPM_EMU6_INPUTENABLE_0,DPM_EMU6_INPUTENABLE_1"
newline
bitfld.long 0x178 20. "DPM_EMU6_PULLTYPESELECT,pullup/down selection for pad dpm_emu6" "DPM_EMU6_PULLTYPESELECT_0,DPM_EMU6_PULLTYPESELECT_1"
newline
bitfld.long 0x178 19. "DPM_EMU6_PULLUDENABLE,pullup/down enable for pad dpm_emu6" "DPM_EMU6_PULLUDENABLE_0,DPM_EMU6_PULLUDENABLE_1"
newline
bitfld.long 0x178 16.--18. "DPM_EMU6_MUXMODE,Functional multiplexing selection for pad dpm_emu6" "DPM_EMU6_MUXMODE_0,DPM_EMU6_MUXMODE_1,DPM_EMU6_MUXMODE_2,DPM_EMU6_MUXMODE_3,DPM_EMU6_MUXMODE_4,DPM_EMU6_MUXMODE_5,DPM_EMU6_MUXMODE_6,DPM_EMU6_MUXMODE_7"
newline
rbitfld.long 0x178 15. "DPM_EMU5_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "DPM_EMU5_WAKEUPEVENT_0_r,DPM_EMU5_WAKEUPEVENT_1_r"
newline
bitfld.long 0x178 14. "DPM_EMU5_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "DPM_EMU5_WAKEUPENABLE_0,DPM_EMU5_WAKEUPENABLE_1"
newline
bitfld.long 0x178 13. "DPM_EMU5_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad dpm_emu5" "DPM_EMU5_ OFFMODEPULLTYPESELECT_0,DPM_EMU5_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x178 12. "DPM_EMU5_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad dpm_emu5" "DPM_EMU5_ OFFMODEPULLUDENABLE_0,DPM_EMU5_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x178 11. "DPM_EMU5_ OFFMODEOUTVALUE,OffMode mode output value for pad dpm_emu5" "DPM_EMU5_ OFFMODEOUTVALUE_0,DPM_EMU5_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x178 10. "DPM_EMU5_ OFFMODEOUTENABLE,OffMode mode output enable value for pad dpm_emu5" "DPM_EMU5_ OFFMODEOUTENABLE_0,DPM_EMU5_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x178 9. "DPM_EMU5_ OFFMODEENABLE,OffMode mode override control for pad dpm_emu5" "DPM_EMU5_ OFFMODEENABLE_0,DPM_EMU5_ OFFMODEENABLE_1"
newline
bitfld.long 0x178 8. "DPM_EMU5_INPUTENABLE,Input enable value for pad dpm_emu5" "DPM_EMU5_INPUTENABLE_0,DPM_EMU5_INPUTENABLE_1"
newline
bitfld.long 0x178 4. "DPM_EMU5_PULLTYPESELECT,pullup/down selection for pad dpm_emu5" "DPM_EMU5_PULLTYPESELECT_0,DPM_EMU5_PULLTYPESELECT_1"
newline
bitfld.long 0x178 3. "DPM_EMU5_PULLUDENABLE,pullup/down enable for pad dpm_emu5" "DPM_EMU5_PULLUDENABLE_0,DPM_EMU5_PULLUDENABLE_1"
newline
bitfld.long 0x178 0.--2. "DPM_EMU5_MUXMODE,Functional multiplexing selection for pad dpm_emu5" "DPM_EMU5_MUXMODE_0,DPM_EMU5_MUXMODE_1,?,DPM_EMU5_MUXMODE_3,DPM_EMU5_MUXMODE_4,DPM_EMU5_MUXMODE_5,DPM_EMU5_MUXMODE_6,DPM_EMU5_MUXMODE_7"
line.long 0x17C "CONTROL_CORE_PAD0_DPM_EMU7_PAD1_DPM_EMU8,Register control for Pads dpm_emu7 and dpm_emu8 Access conditions"
rbitfld.long 0x17C 31. "DPM_EMU8_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "DPM_EMU8_WAKEUPEVENT_0_r,DPM_EMU8_WAKEUPEVENT_1_r"
newline
bitfld.long 0x17C 30. "DPM_EMU8_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "DPM_EMU8_WAKEUPENABLE_0,DPM_EMU8_WAKEUPENABLE_1"
newline
bitfld.long 0x17C 29. "DPM_EMU8_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad dpm_emu8" "DPM_EMU8_ OFFMODEPULLTYPESELECT_0,DPM_EMU8_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x17C 28. "DPM_EMU8_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad dpm_emu8" "DPM_EMU8_ OFFMODEPULLUDENABLE_0,DPM_EMU8_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x17C 27. "DPM_EMU8_ OFFMODEOUTVALUE,OffMode mode output value for pad dpm_emu8" "DPM_EMU8_ OFFMODEOUTVALUE_0,DPM_EMU8_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x17C 26. "DPM_EMU8_ OFFMODEOUTENABLE,OffMode mode output enable value for pad dpm_emu8" "DPM_EMU8_ OFFMODEOUTENABLE_0,DPM_EMU8_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x17C 25. "DPM_EMU8_OFFMODEENABLE,OffMode mode override control for pad dpm_emu8" "DPM_EMU8_OFFMODEENABLE_0,DPM_EMU8_OFFMODEENABLE_1"
newline
bitfld.long 0x17C 24. "DPM_EMU8_INPUTENABLE,Input enable value for pad dpm_emu8" "DPM_EMU8_INPUTENABLE_0,DPM_EMU8_INPUTENABLE_1"
newline
bitfld.long 0x17C 20. "DPM_EMU8_PULLTYPESELECT,pullup/down selection for pad dpm_emu8" "DPM_EMU8_PULLTYPESELECT_0,DPM_EMU8_PULLTYPESELECT_1"
newline
bitfld.long 0x17C 19. "DPM_EMU8_PULLUDENABLE,pullup/down enable for pad dpm_emu8" "DPM_EMU8_PULLUDENABLE_0,DPM_EMU8_PULLUDENABLE_1"
newline
bitfld.long 0x17C 16.--18. "DPM_EMU8_MUXMODE,Functional multiplexing selection for pad dpm_emu8" "DPM_EMU8_MUXMODE_0,DPM_EMU8_MUXMODE_1,DPM_EMU8_MUXMODE_2,DPM_EMU8_MUXMODE_3,DPM_EMU8_MUXMODE_4,DPM_EMU8_MUXMODE_5,DPM_EMU8_MUXMODE_6,DPM_EMU8_MUXMODE_7"
newline
rbitfld.long 0x17C 15. "DPM_EMU7_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "DPM_EMU7_WAKEUPEVENT_0_r,DPM_EMU7_WAKEUPEVENT_1_r"
newline
bitfld.long 0x17C 14. "DPM_EMU7_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "DPM_EMU7_WAKEUPENABLE_0,DPM_EMU7_WAKEUPENABLE_1"
newline
bitfld.long 0x17C 13. "DPM_EMU7_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad dpm_emu7" "DPM_EMU7_ OFFMODEPULLTYPESELECT_0,DPM_EMU7_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x17C 12. "DPM_EMU7_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad dpm_emu7" "DPM_EMU7_ OFFMODEPULLUDENABLE_0,DPM_EMU7_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x17C 11. "DPM_EMU7_ OFFMODEOUTVALUE,OffMode mode output value for pad dpm_emu7" "DPM_EMU7_ OFFMODEOUTVALUE_0,DPM_EMU7_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x17C 10. "DPM_EMU7_ OFFMODEOUTENABLE,OffMode mode output enable value for pad dpm_emu7" "DPM_EMU7_ OFFMODEOUTENABLE_0,DPM_EMU7_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x17C 9. "DPM_EMU7_OFFMODEENABLE,OffMode mode override control for pad dpm_emu7" "DPM_EMU7_OFFMODEENABLE_0,DPM_EMU7_OFFMODEENABLE_1"
newline
bitfld.long 0x17C 8. "DPM_EMU7_INPUTENABLE,Input enable value for pad dpm_emu7" "DPM_EMU7_INPUTENABLE_0,DPM_EMU7_INPUTENABLE_1"
newline
bitfld.long 0x17C 4. "DPM_EMU7_PULLTYPESELECT,pullup/down selection for pad dpm_emu7" "DPM_EMU7_PULLTYPESELECT_0,DPM_EMU7_PULLTYPESELECT_1"
newline
bitfld.long 0x17C 3. "DPM_EMU7_PULLUDENABLE,pullup/down enable for pad dpm_emu7" "DPM_EMU7_PULLUDENABLE_0,DPM_EMU7_PULLUDENABLE_1"
newline
bitfld.long 0x17C 0.--2. "DPM_EMU7_MUXMODE,Functional multiplexing selection for pad dpm_emu7" "DPM_EMU7_MUXMODE_0,DPM_EMU7_MUXMODE_1,DPM_EMU7_MUXMODE_2,DPM_EMU7_MUXMODE_3,DPM_EMU7_MUXMODE_4,DPM_EMU7_MUXMODE_5,DPM_EMU7_MUXMODE_6,DPM_EMU7_MUXMODE_7"
line.long 0x180 "CONTROL_CORE_PAD0_DPM_EMU9_PAD1_DPM_EMU10,Register control for Pads dpm_emu9 and dpm_emu10 Access conditions"
rbitfld.long 0x180 31. "DPM_EMU10_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "DPM_EMU10_WAKEUPEVENT_0_r,DPM_EMU10_WAKEUPEVENT_1_r"
newline
bitfld.long 0x180 30. "DPM_EMU10_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "DPM_EMU10_WAKEUPENABLE_0,DPM_EMU10_WAKEUPENABLE_1"
newline
bitfld.long 0x180 29. "DPM_EMU10_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad dpm_emu10" "DPM_EMU10_ OFFMODEPULLTYPESELECT_0,DPM_EMU10_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x180 28. "DPM_EMU10_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad dpm_emu10" "DPM_EMU10_ OFFMODEPULLUDENABLE_0,DPM_EMU10_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x180 27. "DPM_EMU10_ OFFMODEOUTVALUE,OffMode mode output value for pad dpm_emu10" "DPM_EMU10_ OFFMODEOUTVALUE_0,DPM_EMU10_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x180 26. "DPM_EMU10_ OFFMODEOUTENABLE,OffMode mode output enable value for pad dpm_emu10" "DPM_EMU10_ OFFMODEOUTENABLE_0,DPM_EMU10_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x180 25. "DPM_EMU10_ OFFMODEENABLE,OffMode mode override control for pad dpm_emu10" "DPM_EMU10_ OFFMODEENABLE_0,DPM_EMU10_ OFFMODEENABLE_1"
newline
bitfld.long 0x180 24. "DPM_EMU10_INPUTENABLE,Input enable value for pad dpm_emu10" "DPM_EMU10_INPUTENABLE_0,DPM_EMU10_INPUTENABLE_1"
newline
bitfld.long 0x180 20. "DPM_EMU10_PULLTYPESELECT,pullup/down selection for pad dpm_emu10" "DPM_EMU10_PULLTYPESELECT_0,DPM_EMU10_PULLTYPESELECT_1"
newline
bitfld.long 0x180 19. "DPM_EMU10_PULLUDENABLE,pullup/down enable for pad dpm_emu10" "DPM_EMU10_PULLUDENABLE_0,DPM_EMU10_PULLUDENABLE_1"
newline
bitfld.long 0x180 16.--18. "DPM_EMU10_MUXMODE,Functional multiplexing selection for pad dpm_emu10" "DPM_EMU10_MUXMODE_0,DPM_EMU10_MUXMODE_1,?,DPM_EMU10_MUXMODE_3,DPM_EMU10_MUXMODE_4,DPM_EMU10_MUXMODE_5,DPM_EMU10_MUXMODE_6,DPM_EMU10_MUXMODE_7"
newline
rbitfld.long 0x180 15. "DPM_EMU9_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "DPM_EMU9_WAKEUPEVENT_0_r,DPM_EMU9_WAKEUPEVENT_1_r"
newline
bitfld.long 0x180 14. "DPM_EMU9_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "DPM_EMU9_WAKEUPENABLE_0,DPM_EMU9_WAKEUPENABLE_1"
newline
bitfld.long 0x180 13. "DPM_EMU9_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad dpm_emu9" "DPM_EMU9_ OFFMODEPULLTYPESELECT_0,DPM_EMU9_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x180 12. "DPM_EMU9_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad dpm_emu9" "DPM_EMU9_ OFFMODEPULLUDENABLE_0,DPM_EMU9_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x180 11. "DPM_EMU9_ OFFMODEOUTVALUE,OffMode mode output value for pad dpm_emu9" "DPM_EMU9_ OFFMODEOUTVALUE_0,DPM_EMU9_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x180 10. "DPM_EMU9_ OFFMODEOUTENABLE,OffMode mode output enable value for pad dpm_emu9" "DPM_EMU9_ OFFMODEOUTENABLE_0,DPM_EMU9_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x180 9. "DPM_EMU9_ OFFMODEENABLE,OffMode mode override control for pad dpm_emu9" "DPM_EMU9_ OFFMODEENABLE_0,DPM_EMU9_ OFFMODEENABLE_1"
newline
bitfld.long 0x180 8. "DPM_EMU9_INPUTENABLE,Input enable value for pad dpm_emu9" "DPM_EMU9_INPUTENABLE_0,DPM_EMU9_INPUTENABLE_1"
newline
bitfld.long 0x180 4. "DPM_EMU9_PULLTYPESELECT,pullup/down selection for pad dpm_emu9" "DPM_EMU9_PULLTYPESELECT_0,DPM_EMU9_PULLTYPESELECT_1"
newline
bitfld.long 0x180 3. "DPM_EMU9_PULLUDENABLE,pullup/down enable for pad dpm_emu9" "DPM_EMU9_PULLUDENABLE_0,DPM_EMU9_PULLUDENABLE_1"
newline
bitfld.long 0x180 0.--2. "DPM_EMU9_MUXMODE,Functional multiplexing selection for pad dpm_emu9" "DPM_EMU9_MUXMODE_0,DPM_EMU9_MUXMODE_1,DPM_EMU9_MUXMODE_2,DPM_EMU9_MUXMODE_3,DPM_EMU9_MUXMODE_4,DPM_EMU9_MUXMODE_5,DPM_EMU9_MUXMODE_6,DPM_EMU9_MUXMODE_7"
line.long 0x184 "CONTROL_CORE_PAD0_DPM_EMU11_PAD1_DPM_EMU12,Register control for Pads dpm_emu11 and dpm_emu12 Access conditions"
rbitfld.long 0x184 31. "DPM_EMU12_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "DPM_EMU12_WAKEUPEVENT_0_r,DPM_EMU12_WAKEUPEVENT_1_r"
newline
bitfld.long 0x184 30. "DPM_EMU12_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "DPM_EMU12_WAKEUPENABLE_0,DPM_EMU12_WAKEUPENABLE_1"
newline
bitfld.long 0x184 29. "DPM_EMU12_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad dpm_emu12" "DPM_EMU12_ OFFMODEPULLTYPESELECT_0,DPM_EMU12_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x184 28. "DPM_EMU12_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad dpm_emu12" "DPM_EMU12_ OFFMODEPULLUDENABLE_0,DPM_EMU12_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x184 27. "DPM_EMU12_ OFFMODEOUTVALUE,OffMode mode output value for pad dpm_emu12" "DPM_EMU12_ OFFMODEOUTVALUE_0,DPM_EMU12_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x184 26. "DPM_EMU12_ OFFMODEOUTENABLE,OffMode mode output enable value for pad dpm_emu12" "DPM_EMU12_ OFFMODEOUTENABLE_0,DPM_EMU12_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x184 25. "DPM_EMU12_ OFFMODEENABLE,OffMode mode override control for pad dpm_emu12" "DPM_EMU12_ OFFMODEENABLE_0,DPM_EMU12_ OFFMODEENABLE_1"
newline
bitfld.long 0x184 24. "DPM_EMU12_INPUTENABLE,Input enable value for pad dpm_emu12" "DPM_EMU12_INPUTENABLE_0,DPM_EMU12_INPUTENABLE_1"
newline
bitfld.long 0x184 20. "DPM_EMU12_PULLTYPESELECT,pullup/down selection for pad dpm_emu12" "DPM_EMU12_PULLTYPESELECT_0,DPM_EMU12_PULLTYPESELECT_1"
newline
bitfld.long 0x184 19. "DPM_EMU12_PULLUDENABLE,pullup/down enable for pad dpm_emu12" "DPM_EMU12_PULLUDENABLE_0,DPM_EMU12_PULLUDENABLE_1"
newline
bitfld.long 0x184 16.--18. "DPM_EMU12_MUXMODE,Functional multiplexing selection for pad dpm_emu12" "DPM_EMU12_MUXMODE_0,DPM_EMU12_MUXMODE_1,?,DPM_EMU12_MUXMODE_3,DPM_EMU12_MUXMODE_4,DPM_EMU12_MUXMODE_5,DPM_EMU12_MUXMODE_6,DPM_EMU12_MUXMODE_7"
newline
rbitfld.long 0x184 15. "DPM_EMU11_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "DPM_EMU11_WAKEUPEVENT_0_r,DPM_EMU11_WAKEUPEVENT_1_r"
newline
bitfld.long 0x184 14. "DPM_EMU11_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "DPM_EMU11_WAKEUPENABLE_0,DPM_EMU11_WAKEUPENABLE_1"
newline
bitfld.long 0x184 13. "DPM_EMU11_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad dpm_emu11" "DPM_EMU11_ OFFMODEPULLTYPESELECT_0,DPM_EMU11_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x184 12. "DPM_EMU11_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad dpm_emu11" "DPM_EMU11_ OFFMODEPULLUDENABLE_0,DPM_EMU11_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x184 11. "DPM_EMU11_ OFFMODEOUTVALUE,OffMode mode output value for pad dpm_emu11" "DPM_EMU11_ OFFMODEOUTVALUE_0,DPM_EMU11_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x184 10. "DPM_EMU11_ OFFMODEOUTENABLE,OffMode mode output enable value for pad dpm_emu11" "DPM_EMU11_ OFFMODEOUTENABLE_0,DPM_EMU11_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x184 9. "DPM_EMU11_ OFFMODEENABLE,OffMode mode override control for pad dpm_emu11" "DPM_EMU11_ OFFMODEENABLE_0,DPM_EMU11_ OFFMODEENABLE_1"
newline
bitfld.long 0x184 8. "DPM_EMU11_INPUTENABLE,Input enable value for pad dpm_emu11" "DPM_EMU11_INPUTENABLE_0,DPM_EMU11_INPUTENABLE_1"
newline
bitfld.long 0x184 4. "DPM_EMU11_PULLTYPESELECT,pullup/down selection for pad dpm_emu11" "DPM_EMU11_PULLTYPESELECT_0,DPM_EMU11_PULLTYPESELECT_1"
newline
bitfld.long 0x184 3. "DPM_EMU11_PULLUDENABLE,pullup/down enable for pad dpm_emu11" "DPM_EMU11_PULLUDENABLE_0,DPM_EMU11_PULLUDENABLE_1"
newline
bitfld.long 0x184 0.--2. "DPM_EMU11_MUXMODE,Functional multiplexing selection for pad dpm_emu11" "DPM_EMU11_MUXMODE_0,DPM_EMU11_MUXMODE_1,?,DPM_EMU11_MUXMODE_3,DPM_EMU11_MUXMODE_4,DPM_EMU11_MUXMODE_5,DPM_EMU11_MUXMODE_6,DPM_EMU11_MUXMODE_7"
line.long 0x188 "CONTROL_CORE_PAD0_DPM_EMU13_PAD1_DPM_EMU14,Register control for Pads dpm_emu13 and dpm_emu14 Access conditions"
rbitfld.long 0x188 31. "DPM_EMU14_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "DPM_EMU14_WAKEUPEVENT_0_r,DPM_EMU14_WAKEUPEVENT_1_r"
newline
bitfld.long 0x188 30. "DPM_EMU14_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "DPM_EMU14_WAKEUPENABLE_0,DPM_EMU14_WAKEUPENABLE_1"
newline
bitfld.long 0x188 29. "DPM_EMU14_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad dpm_emu14" "DPM_EMU14_ OFFMODEPULLTYPESELECT_0,DPM_EMU14_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x188 28. "DPM_EMU14_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad dpm_emu14" "DPM_EMU14_ OFFMODEPULLUDENABLE_0,DPM_EMU14_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x188 27. "DPM_EMU14_ OFFMODEOUTVALUE,OffMode mode output value for pad dpm_emu14" "DPM_EMU14_ OFFMODEOUTVALUE_0,DPM_EMU14_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x188 26. "DPM_EMU14_ OFFMODEOUTENABLE,OffMode mode output enable value for pad dpm_emu14" "DPM_EMU14_ OFFMODEOUTENABLE_0,DPM_EMU14_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x188 25. "DPM_EMU14_ OFFMODEENABLE,OffMode mode override control for pad dpm_emu14" "DPM_EMU14_ OFFMODEENABLE_0,DPM_EMU14_ OFFMODEENABLE_1"
newline
bitfld.long 0x188 24. "DPM_EMU14_INPUTENABLE,Input enable value for pad dpm_emu14" "DPM_EMU14_INPUTENABLE_0,DPM_EMU14_INPUTENABLE_1"
newline
bitfld.long 0x188 20. "DPM_EMU14_PULLTYPESELECT,pullup/down selection for pad dpm_emu14" "DPM_EMU14_PULLTYPESELECT_0,DPM_EMU14_PULLTYPESELECT_1"
newline
bitfld.long 0x188 19. "DPM_EMU14_PULLUDENABLE,pullup/down enable for pad dpm_emu14" "DPM_EMU14_PULLUDENABLE_0,DPM_EMU14_PULLUDENABLE_1"
newline
bitfld.long 0x188 16.--18. "DPM_EMU14_MUXMODE,Functional multiplexing selection for pad dpm_emu14" "DPM_EMU14_MUXMODE_0,DPM_EMU14_MUXMODE_1,DPM_EMU14_MUXMODE_2,DPM_EMU14_MUXMODE_3,DPM_EMU14_MUXMODE_4,DPM_EMU14_MUXMODE_5,DPM_EMU14_MUXMODE_6,DPM_EMU14_MUXMODE_7"
newline
rbitfld.long 0x188 15. "DPM_EMU13_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "DPM_EMU13_WAKEUPEVENT_0_r,DPM_EMU13_WAKEUPEVENT_1_r"
newline
bitfld.long 0x188 14. "DPM_EMU13_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "DPM_EMU13_WAKEUPENABLE_0,DPM_EMU13_WAKEUPENABLE_1"
newline
bitfld.long 0x188 13. "DPM_EMU13_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad dpm_emu13" "DPM_EMU13_ OFFMODEPULLTYPESELECT_0,DPM_EMU13_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x188 12. "DPM_EMU13_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad dpm_emu13" "DPM_EMU13_ OFFMODEPULLUDENABLE_0,DPM_EMU13_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x188 11. "DPM_EMU13_ OFFMODEOUTVALUE,OffMode mode output value for pad dpm_emu13" "DPM_EMU13_ OFFMODEOUTVALUE_0,DPM_EMU13_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x188 10. "DPM_EMU13_ OFFMODEOUTENABLE,OffMode mode output enable value for pad dpm_emu13" "DPM_EMU13_ OFFMODEOUTENABLE_0,DPM_EMU13_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x188 9. "DPM_EMU13_ OFFMODEENABLE,OffMode mode override control for pad dpm_emu13" "DPM_EMU13_ OFFMODEENABLE_0,DPM_EMU13_ OFFMODEENABLE_1"
newline
bitfld.long 0x188 8. "DPM_EMU13_INPUTENABLE,Input enable value for pad dpm_emu13" "DPM_EMU13_INPUTENABLE_0,DPM_EMU13_INPUTENABLE_1"
newline
bitfld.long 0x188 4. "DPM_EMU13_PULLTYPESELECT,pullup/down selection for pad dpm_emu13" "DPM_EMU13_PULLTYPESELECT_0,DPM_EMU13_PULLTYPESELECT_1"
newline
bitfld.long 0x188 3. "DPM_EMU13_PULLUDENABLE,pullup/down enable for pad dpm_emu13" "DPM_EMU13_PULLUDENABLE_0,DPM_EMU13_PULLUDENABLE_1"
newline
bitfld.long 0x188 0.--2. "DPM_EMU13_MUXMODE,Functional multiplexing selection for pad dpm_emu13" "DPM_EMU13_MUXMODE_0,DPM_EMU13_MUXMODE_1,?,DPM_EMU13_MUXMODE_3,DPM_EMU13_MUXMODE_4,DPM_EMU13_MUXMODE_5,DPM_EMU13_MUXMODE_6,DPM_EMU13_MUXMODE_7"
line.long 0x18C "CONTROL_CORE_PAD0_DPM_EMU15_PAD1_DPM_EMU16,Register control for Pads dpm_emu15 and dpm_emu16 Access conditions"
rbitfld.long 0x18C 31. "DPM_EMU16_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "DPM_EMU16_WAKEUPEVENT_0_r,DPM_EMU16_WAKEUPEVENT_1_r"
newline
bitfld.long 0x18C 30. "DPM_EMU16_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "DPM_EMU16_WAKEUPENABLE_0,DPM_EMU16_WAKEUPENABLE_1"
newline
bitfld.long 0x18C 29. "DPM_EMU16_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad dpm_emu16" "DPM_EMU16_ OFFMODEPULLTYPESELECT_0,DPM_EMU16_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x18C 28. "DPM_EMU16_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad dpm_emu16" "DPM_EMU16_ OFFMODEPULLUDENABLE_0,DPM_EMU16_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x18C 27. "DPM_EMU16_ OFFMODEOUTVALUE,OffMode mode output value for pad dpm_emu16" "DPM_EMU16_ OFFMODEOUTVALUE_0,DPM_EMU16_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x18C 26. "DPM_EMU16_ OFFMODEOUTENABLE,OffMode mode output enable value for pad dpm_emu16" "DPM_EMU16_ OFFMODEOUTENABLE_0,DPM_EMU16_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x18C 25. "DPM_EMU16_ OFFMODEENABLE,OffMode mode override control for pad dpm_emu16" "DPM_EMU16_ OFFMODEENABLE_0,DPM_EMU16_ OFFMODEENABLE_1"
newline
bitfld.long 0x18C 24. "DPM_EMU16_INPUTENABLE,Input enable value for pad dpm_emu16" "DPM_EMU16_INPUTENABLE_0,DPM_EMU16_INPUTENABLE_1"
newline
bitfld.long 0x18C 20. "DPM_EMU16_PULLTYPESELECT,pullup/down selection for pad dpm_emu16" "DPM_EMU16_PULLTYPESELECT_0,DPM_EMU16_PULLTYPESELECT_1"
newline
bitfld.long 0x18C 19. "DPM_EMU16_PULLUDENABLE,pullup/down enable for pad dpm_emu16" "DPM_EMU16_PULLUDENABLE_0,DPM_EMU16_PULLUDENABLE_1"
newline
bitfld.long 0x18C 16.--18. "DPM_EMU16_MUXMODE,Functional multiplexing selection for pad dpm_emu16" "DPM_EMU16_MUXMODE_0,DPM_EMU16_MUXMODE_1,DPM_EMU16_MUXMODE_2,DPM_EMU16_MUXMODE_3,DPM_EMU16_MUXMODE_4,DPM_EMU16_MUXMODE_5,DPM_EMU16_MUXMODE_6,DPM_EMU16_MUXMODE_7"
newline
rbitfld.long 0x18C 15. "DPM_EMU15_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "DPM_EMU15_WAKEUPEVENT_0_r,DPM_EMU15_WAKEUPEVENT_1_r"
newline
bitfld.long 0x18C 14. "DPM_EMU15_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "DPM_EMU15_WAKEUPENABLE_0,DPM_EMU15_WAKEUPENABLE_1"
newline
bitfld.long 0x18C 13. "DPM_EMU15_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad dpm_emu15" "DPM_EMU15_ OFFMODEPULLTYPESELECT_0,DPM_EMU15_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x18C 12. "DPM_EMU15_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad dpm_emu15" "DPM_EMU15_ OFFMODEPULLUDENABLE_0,DPM_EMU15_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x18C 11. "DPM_EMU15_ OFFMODEOUTVALUE,OffMode mode output value for pad dpm_emu15" "DPM_EMU15_ OFFMODEOUTVALUE_0,DPM_EMU15_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x18C 10. "DPM_EMU15_ OFFMODEOUTENABLE,OffMode mode output enable value for pad dpm_emu15" "DPM_EMU15_ OFFMODEOUTENABLE_0,DPM_EMU15_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x18C 9. "DPM_EMU15_ OFFMODEENABLE,OffMode mode override control for pad dpm_emu15" "DPM_EMU15_ OFFMODEENABLE_0,DPM_EMU15_ OFFMODEENABLE_1"
newline
bitfld.long 0x18C 8. "DPM_EMU15_INPUTENABLE,Input enable value for pad dpm_emu15" "DPM_EMU15_INPUTENABLE_0,DPM_EMU15_INPUTENABLE_1"
newline
bitfld.long 0x18C 4. "DPM_EMU15_PULLTYPESELECT,pullup/down selection for pad dpm_emu15" "DPM_EMU15_PULLTYPESELECT_0,DPM_EMU15_PULLTYPESELECT_1"
newline
bitfld.long 0x18C 3. "DPM_EMU15_PULLUDENABLE,pullup/down enable for pad dpm_emu15" "DPM_EMU15_PULLUDENABLE_0,DPM_EMU15_PULLUDENABLE_1"
newline
bitfld.long 0x18C 0.--2. "DPM_EMU15_MUXMODE,Functional multiplexing selection for pad dpm_emu15" "DPM_EMU15_MUXMODE_0,DPM_EMU15_MUXMODE_1,?,DPM_EMU15_MUXMODE_3,DPM_EMU15_MUXMODE_4,DPM_EMU15_MUXMODE_5,DPM_EMU15_MUXMODE_6,DPM_EMU15_MUXMODE_7"
line.long 0x190 "CONTROL_CORE_PAD0_DPM_EMU17_PAD1_DPM_EMU18,Register control for Pads dpm_emu17 and dpm_emu18 Access conditions"
rbitfld.long 0x190 31. "DPM_EMU18_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "DPM_EMU18_WAKEUPEVENT_0_r,DPM_EMU18_WAKEUPEVENT_1_r"
newline
bitfld.long 0x190 30. "DPM_EMU18_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "DPM_EMU18_WAKEUPENABLE_0,DPM_EMU18_WAKEUPENABLE_1"
newline
bitfld.long 0x190 29. "DPM_EMU18_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad dpm_emu18" "DPM_EMU18_ OFFMODEPULLTYPESELECT_0,DPM_EMU18_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x190 28. "DPM_EMU18_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad dpm_emu18" "DPM_EMU18_ OFFMODEPULLUDENABLE_0,DPM_EMU18_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x190 27. "DPM_EMU18_ OFFMODEOUTVALUE,OffMode mode output value for pad dpm_emu18" "DPM_EMU18_ OFFMODEOUTVALUE_0,DPM_EMU18_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x190 26. "DPM_EMU18_ OFFMODEOUTENABLE,OffMode mode output enable value for pad dpm_emu18" "DPM_EMU18_ OFFMODEOUTENABLE_0,DPM_EMU18_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x190 25. "DPM_EMU18_ OFFMODEENABLE,OffMode mode override control for pad dpm_emu18" "DPM_EMU18_ OFFMODEENABLE_0,DPM_EMU18_ OFFMODEENABLE_1"
newline
bitfld.long 0x190 24. "DPM_EMU18_INPUTENABLE,Input enable value for pad dpm_emu18" "DPM_EMU18_INPUTENABLE_0,DPM_EMU18_INPUTENABLE_1"
newline
bitfld.long 0x190 20. "DPM_EMU18_PULLTYPESELECT,pullup/down selection for pad dpm_emu18" "DPM_EMU18_PULLTYPESELECT_0,DPM_EMU18_PULLTYPESELECT_1"
newline
bitfld.long 0x190 19. "DPM_EMU18_PULLUDENABLE,pullup/down enable for pad dpm_emu18" "DPM_EMU18_PULLUDENABLE_0,DPM_EMU18_PULLUDENABLE_1"
newline
bitfld.long 0x190 16.--18. "DPM_EMU18_MUXMODE,Functional multiplexing selection for pad dpm_emu18" "DPM_EMU18_MUXMODE_0,DPM_EMU18_MUXMODE_1,DPM_EMU18_MUXMODE_2,DPM_EMU18_MUXMODE_3,DPM_EMU18_MUXMODE_4,DPM_EMU18_MUXMODE_5,DPM_EMU18_MUXMODE_6,DPM_EMU18_MUXMODE_7"
newline
rbitfld.long 0x190 15. "DPM_EMU17_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "DPM_EMU17_WAKEUPEVENT_0_r,DPM_EMU17_WAKEUPEVENT_1_r"
newline
bitfld.long 0x190 14. "DPM_EMU17_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "DPM_EMU17_WAKEUPENABLE_0,DPM_EMU17_WAKEUPENABLE_1"
newline
bitfld.long 0x190 13. "DPM_EMU17_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad dpm_emu17" "DPM_EMU17_ OFFMODEPULLTYPESELECT_0,DPM_EMU17_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x190 12. "DPM_EMU17_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad dpm_emu17" "DPM_EMU17_ OFFMODEPULLUDENABLE_0,DPM_EMU17_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x190 11. "DPM_EMU17_ OFFMODEOUTVALUE,OffMode mode output value for pad dpm_emu17" "DPM_EMU17_ OFFMODEOUTVALUE_0,DPM_EMU17_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x190 10. "DPM_EMU17_ OFFMODEOUTENABLE,OffMode mode output enable value for pad dpm_emu17" "DPM_EMU17_ OFFMODEOUTENABLE_0,DPM_EMU17_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x190 9. "DPM_EMU17_ OFFMODEENABLE,OffMode mode override control for pad dpm_emu17" "DPM_EMU17_ OFFMODEENABLE_0,DPM_EMU17_ OFFMODEENABLE_1"
newline
bitfld.long 0x190 8. "DPM_EMU17_INPUTENABLE,Input enable value for pad dpm_emu17" "DPM_EMU17_INPUTENABLE_0,DPM_EMU17_INPUTENABLE_1"
newline
bitfld.long 0x190 4. "DPM_EMU17_PULLTYPESELECT,pullup/down selection for pad dpm_emu17" "DPM_EMU17_PULLTYPESELECT_0,DPM_EMU17_PULLTYPESELECT_1"
newline
bitfld.long 0x190 3. "DPM_EMU17_PULLUDENABLE,pullup/down enable for pad dpm_emu17" "DPM_EMU17_PULLUDENABLE_0,DPM_EMU17_PULLUDENABLE_1"
newline
bitfld.long 0x190 0.--2. "DPM_EMU17_MUXMODE,Functional multiplexing selection for pad dpm_emu17" "DPM_EMU17_MUXMODE_0,DPM_EMU17_MUXMODE_1,DPM_EMU17_MUXMODE_2,DPM_EMU17_MUXMODE_3,DPM_EMU17_MUXMODE_4,DPM_EMU17_MUXMODE_5,DPM_EMU17_MUXMODE_6,DPM_EMU17_MUXMODE_7"
line.long 0x194 "CONTROL_CORE_PAD0_DPM_EMU19_PAD1_CSI22_DX2,Register control for Pads dpm_emu19 and csi22_dx2 Access conditions"
rbitfld.long 0x194 31. "CSI22_DX2_WAKEUPEVENT,Pad_x wake-up event status latched in the I/O" "CSI22_DX2_WAKEUPEVENT_0_r,CSI22_DX2_WAKEUPEVENT_1_r"
newline
bitfld.long 0x194 30. "CSI22_DX2_WAKEUPENABLE,Input pad wake-up enable (and off mode input enable value)" "CSI22_DX2_WAKEUPENABLE_0,CSI22_DX2_WAKEUPENABLE_1"
newline
bitfld.long 0x194 24. "CSI22_DX2_INPUTENABLE,Input enable value for pad csi22_dx2" "CSI22_DX2_INPUTENABLE_0,CSI22_DX2_INPUTENABLE_1"
newline
bitfld.long 0x194 20. "CSI22_DX2_PULLTYPESELECT,Pullup/down selection for pad csi22_dx2" "CSI22_DX2_PULLTYPESELECT_0,CSI22_DX2_PULLTYPESELECT_1"
newline
bitfld.long 0x194 19. "CSI22_DX2_PULLUDENABLE,Pullup/down enable for pad csi22_dx2" "CSI22_DX2_PULLUDENABLE_0,CSI22_DX2_PULLUDENABLE_1"
newline
rbitfld.long 0x194 16.--18. "CSI22_DX2_MUXMODE,Functional multiplexing selection for pad csi22_dx2" "CSI22_DX2_MUXMODE_0,?,CSI22_DX2_MUXMODE_2,?,?,?,?,CSI22_DX2_MUXMODE_7"
newline
rbitfld.long 0x194 15. "DPM_EMU19_ WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "DPM_EMU19_ WAKEUPEVENT_0_r,DPM_EMU19_ WAKEUPEVENT_1_r"
newline
bitfld.long 0x194 14. "DPM_EMU19_ WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "DPM_EMU19_ WAKEUPENABLE_0,DPM_EMU19_ WAKEUPENABLE_1"
newline
bitfld.long 0x194 13. "DPM_EMU19_ OFFMODEPULLTYPESELECT,OffMode mode pullup/down selection for pad dpm_emu19" "DPM_EMU19_ OFFMODEPULLTYPESELECT_0,DPM_EMU19_ OFFMODEPULLTYPESELECT_1"
newline
bitfld.long 0x194 12. "DPM_EMU19_ OFFMODEPULLUDENABLE,OffMode mode pullup/down enable for pad dpm_emu19" "DPM_EMU19_ OFFMODEPULLUDENABLE_0,DPM_EMU19_ OFFMODEPULLUDENABLE_1"
newline
bitfld.long 0x194 11. "DPM_EMU19_ OFFMODEOUTVALUE,OffMode mode output value for pad dpm_emu19" "DPM_EMU19_ OFFMODEOUTVALUE_0,DPM_EMU19_ OFFMODEOUTVALUE_1"
newline
bitfld.long 0x194 10. "DPM_EMU19_ OFFMODEOUTENABLE,OffMode mode output enable value for pad dpm_emu19" "DPM_EMU19_ OFFMODEOUTENABLE_0,DPM_EMU19_ OFFMODEOUTENABLE_1"
newline
bitfld.long 0x194 9. "DPM_EMU19_OFFMODEENABLE,OffMode mode override control for pad dpm_emu19" "DPM_EMU19_OFFMODEENABLE_0,DPM_EMU19_OFFMODEENABLE_1"
newline
bitfld.long 0x194 8. "DPM_EMU19_INPUTENABLE,Input enable value for pad dpm_emu19" "DPM_EMU19_INPUTENABLE_0,DPM_EMU19_INPUTENABLE_1"
newline
bitfld.long 0x194 4. "DPM_EMU19_PULLTYPESELECT,Pullup/down selection for pad dpm_emu19" "DPM_EMU19_PULLTYPESELECT_0,DPM_EMU19_PULLTYPESELECT_1"
newline
bitfld.long 0x194 3. "DPM_EMU19_PULLUDENABLE,Pullup/down enable for pad dpm_emu19" "DPM_EMU19_PULLUDENABLE_0,DPM_EMU19_PULLUDENABLE_1"
newline
bitfld.long 0x194 0.--2. "DPM_EMU19_MUXMODE,Functional multiplexing selection for pad dpm_emu19" "DPM_EMU19_MUXMODE_0,DPM_EMU19_MUXMODE_1,DPM_EMU19_MUXMODE_2,DPM_EMU19_MUXMODE_3,DPM_EMU19_MUXMODE_4,DPM_EMU19_MUXMODE_5,DPM_EMU19_MUXMODE_6,DPM_EMU19_MUXMODE_7"
line.long 0x198 "CONTROL_PADCONF_WAKEUPEVENT_0,Access conditions"
bitfld.long 0x198 31. "GPMC_CLK_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_clk" "GPMC_CLK_DUPLICATEWAKEUPEVENT_0_r,GPMC_CLK_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x198 30. "GPMC_NWP_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_nwp" "GPMC_NWP_DUPLICATEWAKEUPEVENT_0_r,GPMC_NWP_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x198 29. "GPMC_NCS3_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_ncs3" "GPMC_NCS3_DUPLICATEWAKEUPEVENT_0_r,GPMC_NCS3_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x198 28. "GPMC_NCS2_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_ncs2" "GPMC_NCS2_DUPLICATEWAKEUPEVENT_0_r,GPMC_NCS2_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x198 27. "GPMC_NCS1_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_ncs1" "GPMC_NCS1_DUPLICATEWAKEUPEVENT_0_r,GPMC_NCS1_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x198 26. "GPMC_NCS0_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_ncs0" "GPMC_NCS0_DUPLICATEWAKEUPEVENT_0_r,GPMC_NCS0_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x198 25. "GPMC_A25_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_a25" "GPMC_A25_DUPLICATEWAKEUPEVENT_0_r,GPMC_A25_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x198 24. "GPMC_A24_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_a24" "GPMC_A24_DUPLICATEWAKEUPEVENT_0_r,GPMC_A24_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x198 23. "GPMC_A23_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_a23" "GPMC_A23_DUPLICATEWAKEUPEVENT_0_r,GPMC_A23_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x198 22. "GPMC_A22_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_a22" "GPMC_A22_DUPLICATEWAKEUPEVENT_0_r,GPMC_A22_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x198 21. "GPMC_A21_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_a21" "GPMC_A21_DUPLICATEWAKEUPEVENT_0_r,GPMC_A21_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x198 20. "GPMC_A20_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_a20" "GPMC_A20_DUPLICATEWAKEUPEVENT_0_r,GPMC_A20_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x198 19. "GPMC_A19_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_a19" "GPMC_A19_DUPLICATEWAKEUPEVENT_0_r,GPMC_A19_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x198 18. "GPMC_A18_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_a18" "GPMC_A18_DUPLICATEWAKEUPEVENT_0_r,GPMC_A18_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x198 17. "GPMC_A17_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_a17" "GPMC_A17_DUPLICATEWAKEUPEVENT_0_r,GPMC_A17_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x198 16. "GPMC_A16_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_a16" "GPMC_A16_DUPLICATEWAKEUPEVENT_0_r,GPMC_A16_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x198 15. "GPMC_AD15_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_ad15" "GPMC_AD15_DUPLICATEWAKEUPEVENT_0_r,GPMC_AD15_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x198 14. "GPMC_AD14_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_ad14" "GPMC_AD14_DUPLICATEWAKEUPEVENT_0_r,GPMC_AD14_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x198 13. "GPMC_AD13_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_ad13" "GPMC_AD13_DUPLICATEWAKEUPEVENT_0_r,GPMC_AD13_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x198 12. "GPMC_AD12_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_ad12" "GPMC_AD12_DUPLICATEWAKEUPEVENT_0_r,GPMC_AD12_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x198 11. "GPMC_AD11_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_ad11" "GPMC_AD11_DUPLICATEWAKEUPEVENT_0_r,GPMC_AD11_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x198 10. "GPMC_AD10_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_ad10" "GPMC_AD10_DUPLICATEWAKEUPEVENT_0_r,GPMC_AD10_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x198 9. "GPMC_AD9_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_ad9" "GPMC_AD9_DUPLICATEWAKEUPEVENT_0_r,GPMC_AD9_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x198 8. "GPMC_AD8_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_ad8" "GPMC_AD8_DUPLICATEWAKEUPEVENT_0_r,GPMC_AD8_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x198 7. "GPMC_AD7_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_ad7" "GPMC_AD7_DUPLICATEWAKEUPEVENT_0_r,GPMC_AD7_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x198 6. "GPMC_AD6_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_ad6" "GPMC_AD6_DUPLICATEWAKEUPEVENT_0_r,GPMC_AD6_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x198 5. "GPMC_AD5_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_ad5" "GPMC_AD5_DUPLICATEWAKEUPEVENT_0_r,GPMC_AD5_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x198 4. "GPMC_AD4_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_ad4" "GPMC_AD4_DUPLICATEWAKEUPEVENT_0_r,GPMC_AD4_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x198 3. "GPMC_AD3_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_ad3" "GPMC_AD3_DUPLICATEWAKEUPEVENT_0_r,GPMC_AD3_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x198 2. "GPMC_AD2_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_ad2" "GPMC_AD2_DUPLICATEWAKEUPEVENT_0_r,GPMC_AD2_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x198 1. "GPMC_AD1_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_ad1" "GPMC_AD1_DUPLICATEWAKEUPEVENT_0_r,GPMC_AD1_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x198 0. "GPMC_AD0_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_ad0" "GPMC_AD0_DUPLICATEWAKEUPEVENT_0_r,GPMC_AD0_DUPLICATEWAKEUPEVENT_1_r"
line.long 0x19C "CONTROL_PADCONF_WAKEUPEVENT_1,Access conditions"
bitfld.long 0x19C 31. "CAM_STROBE_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad cam_strobe" "CAM_STROBE_DUPLICATEWAKEUPEVENT_0_r,CAM_STROBE_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x19C 30. "CAM_SHUTTER_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad" "CAM_SHUTTER_DUPLICATEWAKEUPEVENT_0_r,CAM_SHUTTER_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x19C 29. "CSI22_DY1_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad csi22_dy1" "CSI22_DY1_DUPLICATEWAKEUPEVENT_0_r,CSI22_DY1_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x19C 28. "CSI22_DX1_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad csi22_dx1" "CSI22_DX1_DUPLICATEWAKEUPEVENT_0_r,CSI22_DX1_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x19C 27. "CSI22_DY0_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad csi22_dy0" "CSI22_DY0_DUPLICATEWAKEUPEVENT_0_r,CSI22_DY0_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x19C 26. "CSI22_DX0_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad csi22_dx0" "CSI22_DX0_DUPLICATEWAKEUPEVENT_0_r,CSI22_DX0_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x19C 25. "CSI21_DY4_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad csi21_dy4" "CSI21_DY4_DUPLICATEWAKEUPEVENT_0_r,CSI21_DY4_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x19C 24. "CSI21_DX4_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad csi21_dx4" "CSI21_DX4_DUPLICATEWAKEUPEVENT_0_r,CSI21_DX4_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x19C 23. "CSI21_DY3_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad csi21_dy3" "CSI21_DY3_DUPLICATEWAKEUPEVENT_0_r,CSI21_DY3_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x19C 22. "CSI21_DX3_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad csi21_dx3" "CSI21_DX3_DUPLICATEWAKEUPEVENT_0_r,CSI21_DX3_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x19C 21. "CSI21_DY2_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad csi21_dy2" "CSI21_DY2_DUPLICATEWAKEUPEVENT_0_r,CSI21_DY2_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x19C 20. "CSI21_DX2_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad csi21_dx2" "CSI21_DX2_DUPLICATEWAKEUPEVENT_0_r,CSI21_DX2_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x19C 19. "CSI21_DY1_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad csi21_dy1" "CSI21_DY1_DUPLICATEWAKEUPEVENT_0_r,CSI21_DY1_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x19C 18. "CSI21_DX1_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad csi21_dx1" "CSI21_DX1_DUPLICATEWAKEUPEVENT_0_r,CSI21_DX1_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x19C 17. "CSI21_DY0_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad csi21_dy0" "CSI21_DY0_DUPLICATEWAKEUPEVENT_0_r,CSI21_DY0_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x19C 16. "CSI21_DX0_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad csi21_dx0" "CSI21_DX0_DUPLICATEWAKEUPEVENT_0_r,CSI21_DX0_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x19C 15. "GPIO66_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpio66" "GPIO66_DUPLICATEWAKEUPEVENT_0_r,GPIO66_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x19C 14. "GPIO65_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpio65" "GPIO65_DUPLICATEWAKEUPEVENT_0_r,GPIO65_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x19C 13. "GPIO64_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpio64" "GPIO64_DUPLICATEWAKEUPEVENT_0_r,GPIO64_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x19C 12. "GPIO63_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpio63" "GPIO63_DUPLICATEWAKEUPEVENT_0_r,GPIO63_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x19C 11. "GPMC_NCS7_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_ncs7" "GPMC_NCS7_DUPLICATEWAKEUPEVENT_0_r,GPMC_NCS7_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x19C 10. "GPMC_NCS6_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_ncs6" "GPMC_NCS6_DUPLICATEWAKEUPEVENT_0_r,GPMC_NCS6_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x19C 9. "GPMC_NCS5_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_ncs5" "GPMC_NCS5_DUPLICATEWAKEUPEVENT_0_r,GPMC_NCS5_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x19C 8. "GPMC_NCS4_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_ncs4" "GPMC_NCS4_DUPLICATEWAKEUPEVENT_0_r,GPMC_NCS4_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x19C 7. "GPMC_WAIT2_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_wait2" "GPMC_WAIT2_DUPLICATEWAKEUPEVENT_0_r,GPMC_WAIT2_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x19C 6. "GPMC_WAIT1_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_wait1" "GPMC_WAIT1_DUPLICATEWAKEUPEVENT_0_r,GPMC_WAIT1_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x19C 5. "GPMC_WAIT0_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_wait0" "GPMC_WAIT0_DUPLICATEWAKEUPEVENT_0_r,GPMC_WAIT0_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x19C 4. "GPMC_NBE1_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_nbe1" "GPMC_NBE1_DUPLICATEWAKEUPEVENT_0_r,GPMC_NBE1_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x19C 3. "GPMC_NBE0_CLE_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_nbe0_cle" "GPMC_NBE0_CLE_DUPLICATEWAKEUPEVENT_0_r,GPMC_NBE0_CLE_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x19C 2. "GPMC_NWE_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_nwe" "GPMC_NWE_DUPLICATEWAKEUPEVENT_0_r,GPMC_NWE_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x19C 1. "GPMC_NOE_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_noe" "GPMC_NOE_DUPLICATEWAKEUPEVENT_0_r,GPMC_NOE_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x19C 0. "GPMC_NADV_ALE_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpmc_nadv_ale" "GPMC_NADV_ALE_DUPLICATEWAKEUPEVENT_0_r,GPMC_NADV_ALE_DUPLICATEWAKEUPEVENT_1_r"
line.long 0x1A0 "CONTROL_PADCONF_WAKEUPEVENT_2,Access conditions"
bitfld.long 0x1A0 31. "ABE_MCBSP1_CLKX_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad abe_mcbsp1_clkx" "ABE_MCBSP1_CLKX_DUPLICATEWAKEUPEVENT_0_r,ABE_MCBSP1_CLKX_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A0 30. "ABE_MCBSP2_FSX_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad abe_mcbsp2_fsx" "ABE_MCBSP2_FSX_DUPLICATEWAKEUPEVENT_0_r,ABE_MCBSP2_FSX_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A0 29. "ABE_MCBSP2_DX_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad abe_mcbsp2_dx" "ABE_MCBSP2_DX_DUPLICATEWAKEUPEVENT_0_r,ABE_MCBSP2_DX_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A0 28. "ABE_MCBSP2_DR_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad abe_mcbsp2_dr" "ABE_MCBSP2_DR_DUPLICATEWAKEUPEVENT_0_r,ABE_MCBSP2_DR_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A0 27. "ABE_MCBSP2_CLKX_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad abe_mcbsp2_clkx" "ABE_MCBSP2_CLKX_DUPLICATEWAKEUPEVENT_0_r,ABE_MCBSP2_CLKX_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A0 26. "SDMMC1_DAT7_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad sdmmc1_dat7" "SDMMC1_DAT7_DUPLICATEWAKEUPEVENT_0_r,SDMMC1_DAT7_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A0 25. "SDMMC1_DAT6_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad sdmmc1_dat6" "SDMMC1_DAT6_DUPLICATEWAKEUPEVENT_0_r,SDMMC1_DAT6_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A0 24. "SDMMC1_DAT5_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad sdmmc1_dat5" "SDMMC1_DAT5_DUPLICATEWAKEUPEVENT_0_r,SDMMC1_DAT5_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A0 23. "SDMMC1_DAT4_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad sdmmc1_dat4" "SDMMC1_DAT4_DUPLICATEWAKEUPEVENT_0_r,SDMMC1_DAT4_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A0 22. "SDMMC1_DAT3_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad sdmmc1_dat3" "SDMMC1_DAT3_DUPLICATEWAKEUPEVENT_0_r,SDMMC1_DAT3_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A0 21. "SDMMC1_DAT2_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad sdmmc1_dat2" "SDMMC1_DAT2_DUPLICATEWAKEUPEVENT_0_r,SDMMC1_DAT2_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A0 20. "SDMMC1_DAT1_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad sdmmc1_dat1" "SDMMC1_DAT1_DUPLICATEWAKEUPEVENT_0_r,SDMMC1_DAT1_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A0 19. "SDMMC1_DAT0_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad sdmmc1_dat0" "SDMMC1_DAT0_DUPLICATEWAKEUPEVENT_0_r,SDMMC1_DAT0_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A0 18. "SDMMC1_CMD_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad sdmmc1_cmd" "SDMMC1_CMD_DUPLICATEWAKEUPEVENT_0_r,SDMMC1_CMD_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A0 17. "SDMMC1_CLK_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad sdmmc1_clk" "SDMMC1_CLK_DUPLICATEWAKEUPEVENT_0_r,SDMMC1_CLK_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A0 16. "USBC1_ICUSB_DM_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad usbc1_icusb_dm" "USBC1_ICUSB_DM_DUPLICATEWAKEUPEVENT_0_r,USBC1_ICUSB_DM_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A0 15. "USBC1_ICUSB_DP_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad usbc1_icusb_dp" "USBC1_ICUSB_DP_DUPLICATEWAKEUPEVENT_0_r,USBC1_ICUSB_DP_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A0 14. "USBB1_HSIC_STROBE_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad usbb1_hsic_strobe" "USBB1_HSIC_STROBE_DUPLICATEWAKEUPEVENT_0_r,USBB1_HSIC_STROBE_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A0 13. "USBB1_HSIC_DATA_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad usbb1_hsic_data" "USBB1_HSIC_DATA_DUPLICATEWAKEUPEVENT_0_r,USBB1_HSIC_DATA_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A0 12. "USBB1_ULPITLL_DAT7_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad usbb1_ulpitll_dat7" "USBB1_ULPITLL_DAT7_DUPLICATEWAKEUPEVENT_0_r,USBB1_ULPITLL_DAT7_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A0 11. "USBB1_ULPITLL_DAT6_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad usbb1_ulpitll_dat6" "USBB1_ULPITLL_DAT6_DUPLICATEWAKEUPEVENT_0_r,USBB1_ULPITLL_DAT6_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A0 10. "USBB1_ULPITLL_DAT5_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad usbb1_ulpitll_dat5" "USBB1_ULPITLL_DAT5_DUPLICATEWAKEUPEVENT_0_r,USBB1_ULPITLL_DAT5_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A0 9. "USBB1_ULPITLL_DAT4_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad usbb1_ulpitll_dat4" "USBB1_ULPITLL_DAT4_DUPLICATEWAKEUPEVENT_0_r,USBB1_ULPITLL_DAT4_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A0 8. "USBB1_ULPITLL_DAT3_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad usbb1_ulpitll_dat3" "USBB1_ULPITLL_DAT3_DUPLICATEWAKEUPEVENT_0_r,USBB1_ULPITLL_DAT3_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A0 7. "USBB1_ULPITLL_DAT2_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad usbb1_ulpitll_dat2" "USBB1_ULPITLL_DAT2_DUPLICATEWAKEUPEVENT_0_r,USBB1_ULPITLL_DAT2_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A0 6. "USBB1_ULPITLL_DAT1_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad usbb1_ulpitll_dat1" "USBB1_ULPITLL_DAT1_DUPLICATEWAKEUPEVENT_0_r,USBB1_ULPITLL_DAT1_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A0 5. "USBB1_ULPITLL_DAT0_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad usbb1_ulpitll_dat0" "USBB1_ULPITLL_DAT0_DUPLICATEWAKEUPEVENT_0_r,USBB1_ULPITLL_DAT0_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A0 4. "USBB1_ULPITLL_NXT_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad usbb1_ulpitll_nxt" "USBB1_ULPITLL_NXT_DUPLICATEWAKEUPEVENT_0_r,USBB1_ULPITLL_NXT_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A0 3. "USBB1_ULPITLL_DIR_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad usbb1_ulpitll_dir" "USBB1_ULPITLL_DIR_DUPLICATEWAKEUPEVENT_0_r,USBB1_ULPITLL_DIR_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A0 2. "USBB1_ULPITLL_STP_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad usbb1_ulpitll_stp" "USBB1_ULPITLL_STP_DUPLICATEWAKEUPEVENT_0_r,USBB1_ULPITLL_STP_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A0 1. "USBB1_ULPITLL_CLK_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad usbb1_ulpitll_clk" "USBB1_ULPITLL_CLK_DUPLICATEWAKEUPEVENT_0_r,USBB1_ULPITLL_CLK_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A0 0. "CAM_GLOBALRESET_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad cam_globalreset" "CAM_GLOBALRESET_DUPLICATEWAKEUPEVENT_0_r,CAM_GLOBALRESET_DUPLICATEWAKEUPEVENT_1_r"
line.long 0x1A4 "CONTROL_PADCONF_WAKEUPEVENT_3,Access conditions"
bitfld.long 0x1A4 31. "MCSPI1_CS3_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad mcspi1_cs3" "MCSPI1_CS3_DUPLICATEWAKEUPEVENT_0_r,MCSPI1_CS3_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A4 30. "MCSPI1_CS2_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad mcspi1_cs2" "MCSPI1_CS2_DUPLICATEWAKEUPEVENT_0_r,MCSPI1_CS2_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A4 29. "MCSPI1_CS1_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad mcspi1_cs1" "MCSPI1_CS1_DUPLICATEWAKEUPEVENT_0_r,MCSPI1_CS1_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x1A4 28. "MCSPI1_CS0_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad mcspi1_cs0" "MCSPI1_CS0_DUPLICATEWAKEUPEVENT_0_r,MCSPI1_CS0_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x1A4 27. "MCSPI1_SIMO_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad mcspi1_simo" "MCSPI1_SIMO_DUPLICATEWAKEUPEVENT_0_r,MCSPI1_SIMO_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A4 26. "MCSPI1_SOMI_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad mcspi1_somi" "MCSPI1_SOMI_DUPLICATEWAKEUPEVENT_0_r,MCSPI1_SOMI_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A4 25. "MCSPI1_CLK_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad mcspi1_clk" "MCSPI1_CLK_DUPLICATEWAKEUPEVENT_0_r,MCSPI1_CLK_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x1A4 24. "I2C4_SDA_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad i2c4_sda" "I2C4_SDA_DUPLICATEWAKEUPEVENT_0_r,I2C4_SDA_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x1A4 23. "I2C4_SCL_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad i2c4_scl" "I2C4_SCL_DUPLICATEWAKEUPEVENT_0_r,I2C4_SCL_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x1A4 22. "I2C3_SDA_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad i2c3_sda" "I2C3_SDA_DUPLICATEWAKEUPEVENT_0_r,I2C3_SDA_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A4 21. "I2C3_SCL_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad i2c3_scl" "I2C3_SCL_DUPLICATEWAKEUPEVENT_0_r,I2C3_SCL_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x1A4 20. "I2C2_SDA_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad i2c2_sda" "I2C2_SDA_DUPLICATEWAKEUPEVENT_0_r,I2C2_SDA_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A4 19. "I2C2_SCL_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad i2c2_scl" "I2C2_SCL_DUPLICATEWAKEUPEVENT_0_r,I2C2_SCL_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A4 18. "I2C1_SDA_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad i2c1_sda" "I2C1_SDA_DUPLICATEWAKEUPEVENT_0_r,I2C1_SDA_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x1A4 17. "I2C1_SCL_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad i2c1_scl" "I2C1_SCL_DUPLICATEWAKEUPEVENT_0_r,I2C1_SCL_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x1A4 16. "HDQ_SIO_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad hdq_sio" "HDQ_SIO_DUPLICATEWAKEUPEVENT_0_r,HDQ_SIO_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A4 15. "UART2_TX_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad uart2_tx" "UART2_TX_DUPLICATEWAKEUPEVENT_0_r,UART2_TX_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A4 14. "UART2_RX_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad uart2_rx" "UART2_RX_DUPLICATEWAKEUPEVENT_0_r,UART2_RX_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A4 13. "UART2_RTS_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad uart2_rts" "UART2_RTS_DUPLICATEWAKEUPEVENT_0_r,UART2_RTS_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A4 12. "UART2_CTS_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad uart2_cts" "UART2_CTS_DUPLICATEWAKEUPEVENT_0_r,UART2_CTS_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A4 11. "ABE_DMIC_DIN3_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad abe_dmic_din3" "ABE_DMIC_DIN3_DUPLICATEWAKEUPEVENT_0_r,ABE_DMIC_DIN3_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A4 10. "ABE_DMIC_DIN2_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad abe_dmic_din2" "ABE_DMIC_DIN2_DUPLICATEWAKEUPEVENT_0_r,ABE_DMIC_DIN2_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A4 9. "ABE_DMIC_DIN1_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad abe_dmic_din1" "ABE_DMIC_DIN1_DUPLICATEWAKEUPEVENT_0_r,ABE_DMIC_DIN1_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x1A4 8. "ABE_DMIC_CLK1_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad abe_dmic_clk1" "ABE_DMIC_CLK1_DUPLICATEWAKEUPEVENT_0_r,ABE_DMIC_CLK1_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A4 7. "ABE_CLKS_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad abe_clks" "ABE_CLKS_DUPLICATEWAKEUPEVENT_0_r,ABE_CLKS_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A4 6. "ABE_PDM_LB_CLK_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad abe_pdm_lb_clk" "ABE_PDM_LB_CLK_DUPLICATEWAKEUPEVENT_0_r,ABE_PDM_LB_CLK_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A4 5. "ABE_PDM_FRAME_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad abe_pdm_frame" "ABE_PDM_FRAME_DUPLICATEWAKEUPEVENT_0_r,ABE_PDM_FRAME_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A4 4. "ABE_PDM_DL_DATA_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad abe_pdm_dl_data" "ABE_PDM_DL_DATA_DUPLICATEWAKEUPEVENT_0_r,ABE_PDM_DL_DATA_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A4 3. "ABE_PDM_UL_DATA_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad abe_pdm_ul_data" "ABE_PDM_UL_DATA_DUPLICATEWAKEUPEVENT_0_r,ABE_PDM_UL_DATA_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A4 2. "ABE_MCBSP1_FSX_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad abe_mcbsp1_fsx" "ABE_MCBSP1_FSX_DUPLICATEWAKEUPEVENT_0_r,ABE_MCBSP1_FSX_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A4 1. "ABE_MCBSP1_DX_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad abe_mcbsp1_dx" "ABE_MCBSP1_DX_DUPLICATEWAKEUPEVENT_0_r,ABE_MCBSP1_DX_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A4 0. "ABE_MCBSP1_DR_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad abe_mcbsp1_dr" "ABE_MCBSP1_DR_DUPLICATEWAKEUPEVENT_0_r,ABE_MCBSP1_DR_DUPLICATEWAKEUPEVENT_1_r"
line.long 0x1A8 "CONTROL_PADCONF_WAKEUPEVENT_4,Access conditions"
bitfld.long 0x1A8 31. "KPD_COL4_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad kpd_col4" "KPD_COL4_DUPLICATEWAKEUPEVENT_0_r,KPD_COL4_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A8 30. "KPD_COL3_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad kpd_col3" "KPD_COL3_DUPLICATEWAKEUPEVENT_0_r,KPD_COL3_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A8 29. "USBB2_HSIC_ STROBE_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad usbb2_hsic_strobe" "USBB2_HSIC_ STROBE_DUPLICATEWAKEUPEVENT_0_r,USBB2_HSIC_ STROBE_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A8 28. "USBB2_HSIC_ DATA_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad usbb2_hsic_data" "USBB2_HSIC_ DATA_DUPLICATEWAKEUPEVENT_0_r,USBB2_HSIC_ DATA_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A8 27. "USBB2_ULPITLL_ DAT7_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad usbb2_ulpitll_dat7" "USBB2_ULPITLL_ DAT7_DUPLICATEWAKEUPEVENT_0_r,USBB2_ULPITLL_ DAT7_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A8 26. "USBB2_ULPITLL_ DAT6_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad usbb2_ulpitll_dat6" "USBB2_ULPITLL_ DAT6_DUPLICATEWAKEUPEVENT_0_r,USBB2_ULPITLL_ DAT6_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A8 25. "USBB2_ULPITLL_ DAT5_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad usbb2_ulpitll_dat5" "USBB2_ULPITLL_ DAT5_DUPLICATEWAKEUPEVENT_0_r,USBB2_ULPITLL_ DAT5_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A8 24. "USBB2_ULPITLL_ DAT4_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad usbb2_ulpitll_dat4" "USBB2_ULPITLL_ DAT4_DUPLICATEWAKEUPEVENT_0_r,USBB2_ULPITLL_ DAT4_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A8 23. "USBB2_ULPITLL_ DAT3_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad usbb2_ulpitll_dat3" "USBB2_ULPITLL_ DAT3_DUPLICATEWAKEUPEVENT_0_r,USBB2_ULPITLL_ DAT3_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A8 22. "USBB2_ULPITLL_ DAT2_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad usbb2_ulpitll_dat2" "USBB2_ULPITLL_ DAT2_DUPLICATEWAKEUPEVENT_0_r,USBB2_ULPITLL_ DAT2_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A8 21. "USBB2_ULPITLL_ DAT1_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad usbb2_ulpitll_dat1" "USBB2_ULPITLL_ DAT1_DUPLICATEWAKEUPEVENT_0_r,USBB2_ULPITLL_ DAT1_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A8 20. "USBB2_ULPITLL_ DAT0_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad usbb2_ulpitll_dat0" "USBB2_ULPITLL_ DAT0_DUPLICATEWAKEUPEVENT_0_r,USBB2_ULPITLL_ DAT0_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A8 19. "USBB2_ULPITLL_ NXT_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad usbb2_ulpitll_nxt" "USBB2_ULPITLL_ NXT_DUPLICATEWAKEUPEVENT_0_r,USBB2_ULPITLL_ NXT_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A8 18. "USBB2_ULPITLL_ DIR_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad usbb2_ulpitll_dir" "USBB2_ULPITLL_ DIR_DUPLICATEWAKEUPEVENT_0_r,USBB2_ULPITLL_ DIR_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A8 17. "USBB2_ULPITLL_ STP_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad usbb2_ulpitll_stp" "USBB2_ULPITLL_ STP_DUPLICATEWAKEUPEVENT_0_r,USBB2_ULPITLL_ STP_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A8 16. "USBB2_ULPITLL_ CLK_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad usbb2_ulpitll_clk" "USBB2_ULPITLL_ CLK_DUPLICATEWAKEUPEVENT_0_r,USBB2_ULPITLL_ CLK_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A8 15. "UART4_TX_ DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad uart4_tx" "UART4_TX_ DUPLICATEWAKEUPEVENT_0_r,UART4_TX_ DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A8 14. "UART4_RX_ DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad uart4_rx" "UART4_RX_ DUPLICATEWAKEUPEVENT_0_r,UART4_RX_ DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A8 13. "MCSPI4_CS0_ DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad mcspi4_cs0" "MCSPI4_CS0_ DUPLICATEWAKEUPEVENT_0_r,MCSPI4_CS0_ DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A8 12. "MCSPI4_SOMI_ DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad mcspi4_somi" "MCSPI4_SOMI_ DUPLICATEWAKEUPEVENT_0_r,MCSPI4_SOMI_ DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A8 11. "MCSPI4_SIMO_ DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad mcspi4_simo" "MCSPI4_SIMO_ DUPLICATEWAKEUPEVENT_0_r,MCSPI4_SIMO_ DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A8 10. "MCSPI4_CLK_ DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad mcspi4_clk" "MCSPI4_CLK_ DUPLICATEWAKEUPEVENT_0_r,MCSPI4_CLK_ DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A8 9. "SDMMC5_DAT3_ DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad sdmmc5_dat3" "SDMMC5_DAT3_ DUPLICATEWAKEUPEVENT_0_r,SDMMC5_DAT3_ DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A8 8. "SDMMC5_DAT2_ DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad sdmmc5_dat2" "SDMMC5_DAT2_ DUPLICATEWAKEUPEVENT_0_r,SDMMC5_DAT2_ DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A8 7. "SDMMC5_DAT1_ DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad sdmmc5_dat1" "SDMMC5_DAT1_ DUPLICATEWAKEUPEVENT_0_r,SDMMC5_DAT1_ DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A8 6. "SDMMC5_DAT0_ DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad sdmmc5_dat0" "SDMMC5_DAT0_ DUPLICATEWAKEUPEVENT_0_r,SDMMC5_DAT0_ DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A8 5. "SDMMC5_CMD_ DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad sdmmc5_cmd" "SDMMC5_CMD_ DUPLICATEWAKEUPEVENT_0_r,SDMMC5_CMD_ DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A8 4. "SDMMC5_CLK_ DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad sdmmc5_clk" "SDMMC5_CLK_ DUPLICATEWAKEUPEVENT_0_r,SDMMC5_CLK_ DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A8 3. "UART3_TX_IRTX_ DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad uart3_tx_irtx" "UART3_TX_IRTX_ DUPLICATEWAKEUPEVENT_0_r,UART3_TX_IRTX_ DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A8 2. "UART3_RX_IRRX_ DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad uart3_rx_irrx" "UART3_RX_IRRX_ DUPLICATEWAKEUPEVENT_0_r,UART3_RX_IRRX_ DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A8 1. "UART3_RTS_SD_ DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad uart3_rts_sd" "UART3_RTS_SD_ DUPLICATEWAKEUPEVENT_0_r,UART3_RTS_SD_ DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1A8 0. "UART3_CTS_RCTX_ DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad uart3_cts_rctx" "UART3_CTS_RCTX_ DUPLICATEWAKEUPEVENT_0_r,UART3_CTS_RCTX_ DUPLICATEWAKEUPEVENT_1_r"
line.long 0x1AC "CONTROL_PADCONF_WAKEUPEVENT_5,Access conditions"
bitfld.long 0x1AC 31. "DPM_EMU10_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad dpm_emu10" "DPM_EMU10_DUPLICATEWAKEUPEVENT_0_r,DPM_EMU10_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1AC 30. "DPM_EMU9_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad dpm_emu9" "DPM_EMU9_DUPLICATEWAKEUPEVENT_0_r,DPM_EMU9_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1AC 29. "DPM_EMU8_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad dpm_emu8" "DPM_EMU8_DUPLICATEWAKEUPEVENT_0_r,DPM_EMU8_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1AC 28. "DPM_EMU7_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad dpm_emu7" "DPM_EMU7_DUPLICATEWAKEUPEVENT_0_r,DPM_EMU7_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1AC 27. "DPM_EMU6_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad dpm_emu6" "DPM_EMU6_DUPLICATEWAKEUPEVENT_0_r,DPM_EMU6_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1AC 26. "DPM_EMU5_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad dpm_emu5" "DPM_EMU5_DUPLICATEWAKEUPEVENT_0_r,DPM_EMU5_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1AC 25. "DPM_EMU4_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad dpm_emu4" "DPM_EMU4_DUPLICATEWAKEUPEVENT_0_r,DPM_EMU4_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1AC 24. "DPM_EMU3_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad dpm_emu3" "DPM_EMU3_DUPLICATEWAKEUPEVENT_0_r,DPM_EMU3_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1AC 23. "DPM_EMU2_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad dpm_emu2" "DPM_EMU2_DUPLICATEWAKEUPEVENT_0_r,DPM_EMU2_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1AC 22. "DPM_EMU1_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad dpm_emu1" "DPM_EMU1_DUPLICATEWAKEUPEVENT_0_r,DPM_EMU1_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1AC 21. "DPM_EMU0_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad dpm_emu0" "DPM_EMU0_DUPLICATEWAKEUPEVENT_0_r,DPM_EMU0_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1AC 20. "SYS_BOOT5_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad sys_boot5" "SYS_BOOT5_DUPLICATEWAKEUPEVENT_0_r,SYS_BOOT5_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1AC 19. "SYS_BOOT4_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad sys_boot4" "SYS_BOOT4_DUPLICATEWAKEUPEVENT_0_r,SYS_BOOT4_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1AC 18. "SYS_BOOT3_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad sys_boot3" "SYS_BOOT3_DUPLICATEWAKEUPEVENT_0_r,SYS_BOOT3_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1AC 17. "SYS_BOOT2_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad sys_boot2" "SYS_BOOT2_DUPLICATEWAKEUPEVENT_0_r,SYS_BOOT2_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1AC 16. "SYS_BOOT1_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad sys_boot1" "SYS_BOOT1_DUPLICATEWAKEUPEVENT_0_r,SYS_BOOT1_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1AC 15. "SYS_BOOT0_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad sys_boot0" "SYS_BOOT0_DUPLICATEWAKEUPEVENT_0_r,SYS_BOOT0_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1AC 14. "SYS_NIRQ2_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad sys_nirq2" "SYS_NIRQ2_DUPLICATEWAKEUPEVENT_0_r,SYS_NIRQ2_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1AC 13. "SYS_NIRQ1_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad sys_nirq1" "SYS_NIRQ1_DUPLICATEWAKEUPEVENT_0_r,SYS_NIRQ1_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1AC 12. "FREF_CLK2_OUT_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad fref_clk2_out" "FREF_CLK2_OUT_DUPLICATEWAKEUPEVENT_0_r,FREF_CLK2_OUT_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1AC 11. "FREF_CLK1_OUT_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad fref_clk1_out" "FREF_CLK1_OUT_DUPLICATEWAKEUPEVENT_0_r,FREF_CLK1_OUT_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1AC 10. "USBA0_OTG_DP_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad usba0_otg_dp" "USBA0_OTG_DP_DUPLICATEWAKEUPEVENT_0_r,USBA0_OTG_DP_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1AC 9. "KPD_ROW2_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad kpd_row2" "KPD_ROW2_DUPLICATEWAKEUPEVENT_0_r,KPD_ROW2_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1AC 8. "KPD_ROW1_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad kpd_row1" "KPD_ROW1_DUPLICATEWAKEUPEVENT_0_r,KPD_ROW1_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1AC 7. "KPD_ROW0_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad kpd_row0" "KPD_ROW0_DUPLICATEWAKEUPEVENT_0_r,KPD_ROW0_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1AC 6. "KPD_ROW5_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad kpd_row5" "KPD_ROW5_DUPLICATEWAKEUPEVENT_0_r,KPD_ROW5_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1AC 5. "KPD_ROW4_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad kpd_row4" "KPD_ROW4_DUPLICATEWAKEUPEVENT_0_r,KPD_ROW4_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1AC 4. "KPD_ROW3_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad kpd_row3" "KPD_ROW3_DUPLICATEWAKEUPEVENT_0_r,KPD_ROW3_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1AC 3. "KPD_COL2_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad kpd_col2" "KPD_COL2_DUPLICATEWAKEUPEVENT_0_r,KPD_COL2_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1AC 2. "KPD_COL1_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad kpd_col1" "KPD_COL1_DUPLICATEWAKEUPEVENT_0_r,KPD_COL1_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1AC 1. "KPD_COL0_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad kpd_col0" "KPD_COL0_DUPLICATEWAKEUPEVENT_0_r,KPD_COL0_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1AC 0. "KPD_COL5_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad kpd_col5" "KPD_COL5_DUPLICATEWAKEUPEVENT_0_r,KPD_COL5_DUPLICATEWAKEUPEVENT_1_r"
line.long 0x1B0 "CONTROL_PADCONF_WAKEUPEVENT_6,Access conditions"
bitfld.long 0x1B0 10. "CSI22_DY2_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the IO for pad csi22_dy2" "CSI22_DY2_DUPLICATEWAKEUPEVENT_0_r,CSI22_DY2_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1B0 9. "CSI22_DX2_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the IO for pad csi22_dx2" "CSI22_DX2_DUPLICATEWAKEUPEVENT_0_r,CSI22_DX2_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1B0 8. "DPM_EMU19_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the IO for pad dpm_emu19" "DPM_EMU19_DUPLICATEWAKEUPEVENT_0_r,DPM_EMU19_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1B0 7. "DPM_EMU18_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad dpm_emu18" "DPM_EMU18_DUPLICATEWAKEUPEVENT_0_r,DPM_EMU18_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1B0 6. "DPM_EMU17_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad dpm_emu17" "DPM_EMU17_DUPLICATEWAKEUPEVENT_0_r,DPM_EMU17_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1B0 5. "DPM_EMU16_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad dpm_emu16" "DPM_EMU16_DUPLICATEWAKEUPEVENT_0_r,DPM_EMU16_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1B0 4. "DPM_EMU15_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad dpm_emu15" "DPM_EMU15_DUPLICATEWAKEUPEVENT_0_r,DPM_EMU15_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1B0 3. "DPM_EMU14_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad dpm_emu14" "DPM_EMU14_DUPLICATEWAKEUPEVENT_0_r,DPM_EMU14_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1B0 2. "DPM_EMU13_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad dpm_emu13" "DPM_EMU13_DUPLICATEWAKEUPEVENT_0_r,DPM_EMU13_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1B0 1. "DPM_EMU12_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad dpm_emu12" "DPM_EMU12_DUPLICATEWAKEUPEVENT_0_r,DPM_EMU12_DUPLICATEWAKEUPEVENT_1_r"
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bitfld.long 0x1B0 0. "DPM_EMU11_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad dpm_emu11" "DPM_EMU11_DUPLICATEWAKEUPEVENT_0_r,DPM_EMU11_DUPLICATEWAKEUPEVENT_1_r"
line.long 0x1B4 "CONTROL_CORE_PAD0_CSI22_DY2,Register control for Pad csi22_dy2 Access conditions"
rbitfld.long 0x1B4 15. "CSI22_DY2_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "CSI22_DY2_WAKEUPEVENT_0_r,CSI22_DY2_WAKEUPEVENT_1_r"
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bitfld.long 0x1B4 14. "CSI22_DY2_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "CSI22_DY2_WAKEUPENABLE_0,CSI22_DY2_WAKEUPENABLE_1"
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bitfld.long 0x1B4 8. "CSI22_DY2_INPUTENABLE,Input enable value for pad csi22_dy2" "CSI22_DY2_INPUTENABLE_0,CSI22_DY2_INPUTENABLE_1"
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bitfld.long 0x1B4 4. "CSI22_DY2_PULLTYPESELECT,Pull-Up/Down selection for pad csi22_dy2" "CSI22_DY2_PULLTYPESELECT_0,CSI22_DY2_PULLTYPESELECT_1"
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bitfld.long 0x1B4 3. "CSI22_DY2_PULLUDENABLE,Pull-Up/Down enable for pad csi22_dy2" "CSI22_DY2_PULLUDENABLE_0,CSI22_DY2_PULLUDENABLE_1"
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bitfld.long 0x1B4 0.--2. "CSI22_DY2_MUXMODE,Functional multiplexing selection for pad csi22_dy2" "CSI22_DY2_MUXMODE_0,?,CSI22_DY2_MUXMODE_2,?,?,?,?,CSI22_DY2_MUXMODE_7"
group.long 0x5A0++0x0F
line.long 0x00 "CONTROL_PADCONF_GLOBAL,Global PAD control Access conditions"
bitfld.long 0x00 31. "FORCE_OFFMODE_EN,Force offmode enable for PADs" "FORCE_OFFMODE_EN_0,FORCE_OFFMODE_EN_1"
line.long 0x04 "CONTROL_CORE_PADCONF_MODE,PAD Voltage Mode control Access conditions"
bitfld.long 0x04 31. "VDDS_DV_BANK0,PAD Voltage level control for vdds_dv_bank0" "VDDS_DV_BANK0_0,VDDS_DV_BANK0_1"
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bitfld.long 0x04 30. "VDDS_DV_BANK1,PAD Voltage level control for vdds_dv_bank1" "VDDS_DV_BANK1_0,VDDS_DV_BANK1_1"
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bitfld.long 0x04 29. "VDDS_DV_BANK3,PAD Voltage level control for vdds_dv_bank3" "VDDS_DV_BANK3_0,VDDS_DV_BANK3_1"
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bitfld.long 0x04 28. "VDDS_DV_BANK4,PAD Voltage level control for vdds_dv_bank4" "VDDS_DV_BANK4_0,VDDS_DV_BANK4_1"
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bitfld.long 0x04 27. "VDDS_DV_BANK5,PAD Voltage level control for vdds_dv_bank5" "VDDS_DV_BANK5_0,VDDS_DV_BANK5_1"
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bitfld.long 0x04 26. "VDDS_DV_BANK6,PAD Voltage level control for vdds_dv_bank6" "VDDS_DV_BANK6_0,VDDS_DV_BANK6_1"
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bitfld.long 0x04 25. "VDDS_DV_C2C,PAD Voltage level control for vdds_dv_c2c" "VDDS_DV_C2C_0,VDDS_DV_C2C_1"
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bitfld.long 0x04 24. "VDDS_DV_CAM,PAD Voltage level control for vdds_dv_cam" "VDDS_DV_CAM_0,VDDS_DV_CAM_1"
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bitfld.long 0x04 23. "VDDS_DV_GPMC0,PAD Voltage level control for vdds_dv_gpmc0" "VDDS_DV_GPMC0_0,VDDS_DV_GPMC0_1"
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bitfld.long 0x04 22. "VDDS_DV_SDMMC2,PAD Voltage level control for vdds_dv_sdmmc2" "VDDS_DV_SDMMC2_0,VDDS_DV_SDMMC2_1"
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bitfld.long 0x04 21. "VDDS_DV_BANK7,PAD Voltage level control for vdds_dv_bank7" "VDDS_DV_BANK7_0,VDDS_DV_BANK7_1"
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bitfld.long 0x04 20. "VDDS_DV_GPMC1,PAD Voltage level control for vdds_dv_gpmc1" "VDDS_DV_GPMC1_0,VDDS_DV_GPMC1_1"
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bitfld.long 0x04 19. "VDDS_DV_BANK2_SHARED0,PAD Voltage level control for vdds_dv_bank2_shared0" "VDDS_DV_BANK2_SHARED0_0,VDDS_DV_BANK2_SHARED0_1"
line.long 0x08 "CONTROL_SMART1IO_PADCONF_0,SMART1 I/O control 0 Access conditions"
bitfld.long 0x08 30.--31. "ABE_DR0_SC,Slew rate control for group abe_dr0" "ABE_DR0_SC_0,ABE_DR0_SC_1,ABE_DR0_SC_2,ABE_DR0_SC_3"
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bitfld.long 0x08 28.--29. "CAM_DR0_SC,Slew rate control for group cam_dr0" "CAM_DR0_SC_0,CAM_DR0_SC_1,CAM_DR0_SC_2,CAM_DR0_SC_3"
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bitfld.long 0x08 22.--23. "GPIO_DR8_SC,Slew rate control for group gpio_dr8" "GPIO_DR8_SC_0,GPIO_DR8_SC_1,GPIO_DR8_SC_2,GPIO_DR8_SC_3"
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bitfld.long 0x08 20.--21. "GPIO_DR9_SC,Slew rate control for group gpio_dr9" "GPIO_DR9_SC_0,GPIO_DR9_SC_1,GPIO_DR9_SC_2,GPIO_DR9_SC_3"
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bitfld.long 0x08 16.--17. "GPMC_DR3_SC,Slew rate control for group gpmc_dr3" "GPMC_DR3_SC_0,GPMC_DR3_SC_1,GPMC_DR3_SC_2,GPMC_DR3_SC_3"
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bitfld.long 0x08 12.--13. "GPIO_63_64_DR0_SC,Slew rate control for group gpio_63_64_dr0" "0,1,2,3"
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bitfld.long 0x08 10.--11. "MCSPI1_DR0_SC,Slew rate control for group mcspi1_dr0 Refer to section Low Speed I/Os Combined Slew Rate vs TL Length and Load Settings for more details on SR settings" "MCSPI1_DR0_SC_0,MCSPI1_DR0_SC_1,MCSPI1_DR0_SC_2,MCSPI1_DR0_SC_3"
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bitfld.long 0x08 8.--9. "UART1_DR0_SC,Slew rate control for group uart1_dr0 Refer to section Low Speed I/Os Combined Slew Rate vs TL Length and Load Settings for more details on SR settings" "UART1_DR0_SC_0,UART1_DR0_SC_1,UART1_DR0_SC_2,UART1_DR0_SC_3"
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bitfld.long 0x08 6.--7. "UART3_DR0_SC,Slew rate control for group uart3_dr0 Refer to section Low Speed I/Os Combined Slew Rate vs TL Length and Load Settings for more details on SR settings" "UART3_DR0_SC_0,UART3_DR0_SC_1,UART3_DR0_SC_2,UART3_DR0_SC_3"
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bitfld.long 0x08 4.--5. "UART3_DR1_SC,Slew rate control for group uart3_dr1 Refer to section Low Speed I/Os Combined Slew Rate vs TL Length and Load Settings for more details on SR settings" "UART3_DR1_SC_0,UART3_DR1_SC_1,UART3_DR1_SC_2,UART3_DR1_SC_3"
line.long 0x0C "CONTROL_SMART1IO_PADCONF_1,SMART1 I/O control 1 Access conditions"
bitfld.long 0x0C 30.--31. "ABE_DR0_LB,Load control for group abe_dr0" "ABE_DR0_LB_0,ABE_DR0_LB_1,ABE_DR0_LB_2,ABE_DR0_LB_3"
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bitfld.long 0x0C 28.--29. "CAM_DR0_LB,Load control for group cam_dr0" "CAM_DR0_LB_0,CAM_DR0_LB_1,CAM_DR0_LB_2,CAM_DR0_LB_3"
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bitfld.long 0x0C 22.--23. "GPIO_DR8_LB,Load control for group gpio_dr8" "GPIO_DR8_LB_0,GPIO_DR8_LB_1,GPIO_DR8_LB_2,GPIO_DR8_LB_3"
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bitfld.long 0x0C 20.--21. "GPIO_DR9_LB,Load control for group gpio_dr9" "GPIO_DR9_LB_0,GPIO_DR9_LB_1,GPIO_DR9_LB_2,GPIO_DR9_LB_3"
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bitfld.long 0x0C 16.--17. "GPMC_DR3_LB,Load control for group gpmc_dr3" "GPMC_DR3_LB_0,GPMC_DR3_LB_1,GPMC_DR3_LB_2,GPMC_DR3_LB_3"
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bitfld.long 0x0C 12.--13. "GPIO_63_64_DR0_LB,Load control for group gpio_63_64_dr0" "GPIO_63_64_DR0_LB_0,GPIO_63_64_DR0_LB_1,GPIO_63_64_DR0_LB_2,GPIO_63_64_DR0_LB_3"
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bitfld.long 0x0C 10.--11. "MCSPI1_DR0_LB,Load control for group mcspi1_dr0" "MCSPI1_DR0_LB_0,MCSPI1_DR0_LB_1,MCSPI1_DR0_LB_2,MCSPI1_DR0_LB_3"
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bitfld.long 0x0C 8.--9. "UART1_DR0_LB,Load control for group uart1_dr0" "UART1_DR0_LB_0,UART1_DR0_LB_1,UART1_DR0_LB_2,UART1_DR0_LB_3"
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bitfld.long 0x0C 6.--7. "UART3_DR0_LB,Load control for group uart3_dr0" "UART3_DR0_LB_0,UART3_DR0_LB_1,UART3_DR0_LB_2,UART3_DR0_LB_3"
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bitfld.long 0x0C 4.--5. "UART3_DR1_LB,Load control for group uart3_dr1" "UART3_DR1_LB_0,UART3_DR1_LB_1,UART3_DR1_LB_2,UART3_DR1_LB_3"
hgroup.long 0x5B0++0x07
hide.long 0x00 "CONTROL_SMART2IO_PADCONF_0,SMART2 I/O control 0 Access conditions"
hide.long 0x04 "CONTROL_SMART2IO_PADCONF_1,SMART2 I/O control 1 Access conditions"
group.long 0x5B8++0x23
line.long 0x00 "CONTROL_SMART3IO_PADCONF_0,SMART3 I/O control 0 Access conditions"
bitfld.long 0x00 30.--31. "DMIC_DR0_MB,50-Ohm output buffer mode control for group dmic_dr0" "DMIC_DR0_MB_0,DMIC_DR0_MB_1,DMIC_DR0_MB_2,DMIC_DR0_MB_3"
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bitfld.long 0x00 28.--29. "GPIO_DR3_MB,25-Ohm output buffer mode control for group gpio_dr3" "GPIO_DR3_MB_0,GPIO_DR3_MB_1,GPIO_DR3_MB_2,GPIO_DR3_MB_3"
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bitfld.long 0x00 26.--27. "GPIO_DR4_MB,25-Ohm output buffer mode control for group gpio_dr4" "GPIO_DR4_MB_0,GPIO_DR4_MB_1,GPIO_DR4_MB_2,GPIO_DR4_MB_3"
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bitfld.long 0x00 24.--25. "GPIO_DR5_MB,50-Ohm output buffer mode control for group gpio_dr5" "GPIO_DR5_MB_0,GPIO_DR5_MB_1,GPIO_DR5_MB_2,GPIO_DR5_MB_3"
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bitfld.long 0x00 22.--23. "GPIO_DR6_MB,50-Ohm output buffer mode control for group gpio_dr6" "GPIO_DR6_MB_0,GPIO_DR6_MB_1,GPIO_DR6_MB_2,GPIO_DR6_MB_3"
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bitfld.long 0x00 20.--21. "HSI_DR1_MB,25-Ohm output buffer mode control for group hsi_dr1" "HSI_DR1_MB_0,HSI_DR1_MB_1,HSI_DR1_MB_2,HSI_DR1_MB_3"
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bitfld.long 0x00 18.--19. "HSI_DR2_MB,25-Ohm output buffer mode control for group hsi_dr2" "HSI_DR2_MB_0,HSI_DR2_MB_1,HSI_DR2_MB_2,HSI_DR2_MB_3"
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bitfld.long 0x00 16.--17. "HSI_DR3_MB,25-Ohm output buffer mode control for group hsi_dr3" "HSI_DR3_MB_0,HSI_DR3_MB_1,HSI_DR3_MB_2,HSI_DR3_MB_3"
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bitfld.long 0x00 14.--15. "MCBSP2_DR0_MB,50-Ohm output buffer mode control for group mcbsp2_dr0" "MCBSP2_DR0_MB_0,MCBSP2_DR0_MB_1,MCBSP2_DR0_MB_2,MCBSP2_DR0_MB_3"
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bitfld.long 0x00 12.--13. "MCSPI4_DR0_MB,50-Ohm output buffer mode control for group mcspi4_dr0" "MCSPI4_DR0_MB_0,MCSPI4_DR0_MB_1,MCSPI4_DR0_MB_2,MCSPI4_DR0_MB_3"
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bitfld.long 0x00 10.--11. "MCSPI4_DR1_MB,50-Ohm output buffer mode control for group mcspi4_dr1" "MCSPI4_DR1_MB_0,MCSPI4_DR1_MB_1,MCSPI4_DR1_MB_2,MCSPI4_DR1_MB_3"
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bitfld.long 0x00 8.--9. "SDMMC3_DR0_MB,50-Ohm output buffer mode control for group sdmmc3_dr0" "SDMMC3_DR0_MB_0,SDMMC3_DR0_MB_1,SDMMC3_DR0_MB_2,SDMMC3_DR0_MB_3"
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bitfld.long 0x00 0.--1. "SPI2_DR0_MB,50-Ohm output buffer mode control for group spi2_dr0" "SPI2_DR0_MB_0,SPI2_DR0_MB_1,SPI2_DR0_MB_2,SPI2_DR0_MB_3"
line.long 0x04 "CONTROL_SMART3IO_PADCONF_1,SMART3 I/O control 1 Access conditions"
bitfld.long 0x04 30.--31. "SPI2_DR1_MB,50-Ohm output buffer mode control for group spi2_dr1" "SPI2_DR1_MB_0,SPI2_DR1_MB_1,SPI2_DR1_MB_2,SPI2_DR1_MB_3"
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bitfld.long 0x04 28.--29. "SPI2_DR2_MB,50-Ohm output buffer mode control for group spi2_dr1" "SPI2_DR2_MB_0,SPI2_DR2_MB_1,SPI2_DR2_MB_2,SPI2_DR2_MB_3"
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bitfld.long 0x04 26.--27. "UART2_DR0_MB,50-Ohm output buffer mode control for group spi2_dr1" "UART2_DR0_MB_0,UART2_DR0_MB_1,UART2_DR0_MB_2,UART2_DR0_MB_3"
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bitfld.long 0x04 24.--25. "UART2_DR1_MB,50-Ohm output buffer mode control for group spi2_dr1" "UART2_DR1_MB_0,UART2_DR1_MB_1,UART2_DR1_MB_2,UART2_DR1_MB_3"
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bitfld.long 0x04 22.--23. "UART4_DR0_MB,50-Ohm output buffer mode control for group spi2_dr1" "UART4_DR0_MB_0,UART4_DR0_MB_1,UART4_DR0_MB_2,UART4_DR0_MB_3"
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bitfld.long 0x04 20.--21. "HSI_DR0_MB,25-Ohm output buffer mode control for group hsi_dr0" "0,1,2,3"
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bitfld.long 0x04 12.--13. "GPMC_DR1_MB,50-Ohm output buffer mode control for group gpmc_dr1" "0,1,2,3"
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bitfld.long 0x04 6.--7. "PDM_DR0_MB,50-Ohm output buffer mode control for group pdm_dr0" "0,1,2,3"
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bitfld.long 0x04 4.--5. "FREF_DR2_MB,50-Ohm output buffer mode control for group fref_dr2" "0,1,2,3"
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bitfld.long 0x04 2.--3. "FREF_DR3_MB,50-Ohm output buffer mode control for group fref_dr3" "0,1,2,3"
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bitfld.long 0x04 0.--1. "USBB1_DR2_MB,25-Ohm output buffer mode control for group usbb1_dr2" "0,1,2,3"
line.long 0x08 "CONTROL_SMART3IO_PADCONF_2,SMART3 I/O control 2 Access conditions"
bitfld.long 0x08 31. "DMIC_DR0_LB,50-Ohm output buffer load control dmic_dr0_lb Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "DMIC_DR0_LB_0,DMIC_DR0_LB_1"
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bitfld.long 0x08 30. "GPIO_DR3_LB,25-Ohm output buffer load control gpio_dr3_lb Refer to I/Os with combined Mode and Load Settings for more details on mode settings" "GPIO_DR3_LB_0,GPIO_DR3_LB_1"
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bitfld.long 0x08 29. "GPIO_DR4_LB,25-Ohm output buffer load control gpio_dr4_lb Refer to I/Os with combined Mode and Load Settings for more details on mode settings" "GPIO_DR4_LB_0,GPIO_DR4_LB_1"
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bitfld.long 0x08 28. "GPIO_DR5_LB,50-Ohm output buffer load control gpio_dr5_lb Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "GPIO_DR5_LB_0,GPIO_DR5_LB_1"
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bitfld.long 0x08 27. "GPIO_DR6_LB,50-Ohm output buffer load control gpio_dr6_lb Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "GPIO_DR6_LB_0,GPIO_DR6_LB_1"
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bitfld.long 0x08 26. "HSI_DR1_LB,25-Ohm output buffer load control hsi_dr1_lb Refer to I/Os with combined Mode and Load Settings for more details on mode settings" "HSI_DR1_LB_0,HSI_DR1_LB_1"
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bitfld.long 0x08 25. "HSI_DR2_LB,25-Ohm output buffer load control hsi_dr2_lb Refer to I/Os with combined Mode and Load Settings for more details on mode settings" "HSI_DR2_LB_0,HSI_DR2_LB_1"
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bitfld.long 0x08 24. "HSI_DR3_LB,25-Ohm output buffer load control hsi_dr3_lb Refer to I/Os with combined Mode and Load Settings for more details on mode settings" "HSI_DR3_LB_0,HSI_DR3_LB_1"
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bitfld.long 0x08 23. "MCBSP2_DR0_LB,50-Ohm output buffer load control mcbsp2_dr0_lb Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "MCBSP2_DR0_LB_0,MCBSP2_DR0_LB_1"
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bitfld.long 0x08 22. "MCSPI4_DR0_LB,50-Ohm output buffer load control mcspi4_dr0_lb Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "MCSPI4_DR0_LB_0,MCSPI4_DR0_LB_1"
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bitfld.long 0x08 21. "MCSPI4_DR1_LB,50-Ohm output buffer load control mcspi4_dr1_lb Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "MCSPI4_DR1_LB_0,MCSPI4_DR1_LB_1"
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bitfld.long 0x08 16. "SPI2_DR0_LB,50-Ohm output buffer load control spi2_dr0_lb Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "SPI2_DR0_LB_0,SPI2_DR0_LB_1"
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bitfld.long 0x08 15. "SPI2_DR1_LB,50-Ohm output buffer load control spi2_dr1_lb Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "SPI2_DR1_LB_0,SPI2_DR1_LB_1"
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bitfld.long 0x08 14. "SPI2_DR2_LB,50-Ohm output buffer load control spi2_dr2_lb Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "SPI2_DR2_LB_0,SPI2_DR2_LB_1"
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bitfld.long 0x08 13. "UART2_DR0_LB,50-Ohm output buffer load control uart2_dr0_lb Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "UART2_DR0_LB_0,UART2_DR0_LB_1"
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bitfld.long 0x08 12. "UART2_DR1_LB,50-Ohm output buffer load control uart2_dr1_lb Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "UART2_DR1_LB_0,UART2_DR1_LB_1"
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bitfld.long 0x08 11. "UART4_DR0_LB,50-Ohm output buffer load control uart4_dr0_lb Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "UART4_DR0_LB_0,UART4_DR0_LB_1"
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bitfld.long 0x08 10. "HSI_DR0_LB,25-Ohm output buffer load control hsi_dr0 Refer to I/Os with combined Mode and Load Settings for more details on mode settings" "0,1"
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bitfld.long 0x08 9. "FREF_DR3_LB,50-Ohm output buffer load control fref_dr3 Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "0,1"
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bitfld.long 0x08 8. "GPMC_DR1_LB,50-Ohm output buffer load control gpmc_dr1 Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "0,1"
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bitfld.long 0x08 7. "PDM_DR0_LB,50-Ohm output buffer load control pdm_dr0 Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "0,1"
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bitfld.long 0x08 6. "FREF_DR2_LB,50-Ohm output buffer load control fref_dr2 Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "0,1"
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bitfld.long 0x08 5. "SDMMC3_DR0_LB,50-Ohm output buffer load control sdmmc3_dr0 Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "0,1"
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bitfld.long 0x08 4. "USBB1_DR2_LB,25-Ohm output buffer load control usbb1_dr2 Refer to I/Os with combined Mode and Load Settings for more details on mode settings" "0,1"
line.long 0x0C "CONTROL_USBB_HSIC,USBB HSIC control Access conditions"
bitfld.long 0x0C 30.--31. "USBB2_DR1_SR,usbb2 Slew Rate control sr1:sr0" "USBB2_DR1_SR_0,USBB2_DR1_SR_1,USBB2_DR1_SR_2,USBB2_DR1_SR_3"
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bitfld.long 0x0C 27.--29. "USBB2_DR1_I,usbb2 Impedence control i2:i0" "USBB2_DR1_I_0,USBB2_DR1_I_1,USBB2_DR1_I_2,USBB2_DR1_I_3,USBB2_DR1_I_4,USBB2_DR1_I_5,USBB2_DR1_I_6,USBB2_DR1_I_7"
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bitfld.long 0x0C 25.--26. "USBB1_DR1_SR,usbb1 Slew Rate control sr1:sr0" "USBB1_DR1_SR_0,USBB1_DR1_SR_1,USBB1_DR1_SR_2,USBB1_DR1_SR_3"
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bitfld.long 0x0C 22.--24. "USBB1_DR1_I,usbb1 Impedence control i2:i0" "USBB1_DR1_I_0,USBB1_DR1_I_1,USBB1_DR1_I_2,USBB1_DR1_I_3,USBB1_DR1_I_4,USBB1_DR1_I_5,USBB1_DR1_I_6,USBB1_DR1_I_7"
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bitfld.long 0x0C 20.--21. "USBB1_HSIC_DATA_WD,usbb1_hsic_data wd1:wd0" "USBB1_HSIC_DATA_WD_0,USBB1_HSIC_DATA_WD_1,USBB1_HSIC_DATA_WD_2,USBB1_HSIC_DATA_WD_3"
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bitfld.long 0x0C 18.--19. "USBB1_HSIC_STROBE_WD,usbb1_hsic_strobe wd1:wd0" "USBB1_HSIC_STROBE_WD_0,USBB1_HSIC_STROBE_WD_1,USBB1_HSIC_STROBE_WD_2,USBB1_HSIC_STROBE_WD_3"
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bitfld.long 0x0C 16.--17. "USBB2_HSIC_DATA_WD,usbb2_hsic_data wd1:wd0" "USBB2_HSIC_DATA_WD_0,USBB2_HSIC_DATA_WD_1,USBB2_HSIC_DATA_WD_2,USBB2_HSIC_DATA_WD_3"
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bitfld.long 0x0C 14.--15. "USBB2_HSIC_STROBE_WD,usbb2_hsic_strobe wd1:wd0" "USBB2_HSIC_STROBE_WD_0,USBB2_HSIC_STROBE_WD_1,USBB2_HSIC_STROBE_WD_2,USBB2_HSIC_STROBE_WD_3"
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bitfld.long 0x0C 13. "USBB1_HSIC_DATA_ OFFMODE_WD_ENABLE,usbb1_hsic_data_offmode_wd enable" "USBB1_HSIC_DATA_ OFFMODE_WD_ENABLE_0,USBB1_HSIC_DATA_ OFFMODE_WD_ENABLE_1"
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bitfld.long 0x0C 11.--12. "USBB1_HSIC_DATA_ OFFMODE_WD,usbb1_hsic_data_offmode_wd1:wd0" "USBB1_HSIC_DATA_ OFFMODE_WD_0,USBB1_HSIC_DATA_ OFFMODE_WD_1,USBB1_HSIC_DATA_ OFFMODE_WD_2,USBB1_HSIC_DATA_ OFFMODE_WD_3"
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bitfld.long 0x0C 10. "USBB1_HSIC_STROBE_ OFFMODE_WD_ENABLE,usbb1_hsic_strobe_offmode_wd enable" "USBB1_HSIC_STROBE_ OFFMODE_WD_ENABLE_0,USBB1_HSIC_STROBE_ OFFMODE_WD_ENABLE_1"
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bitfld.long 0x0C 8.--9. "USBB1_HSIC_STROBE_ OFFMODE_WD,usbb1_hsic_strobe_offmode_wd1:wd0" "USBB1_HSIC_STROBE_ OFFMODE_WD_0,USBB1_HSIC_STROBE_ OFFMODE_WD_1,USBB1_HSIC_STROBE_ OFFMODE_WD_2,USBB1_HSIC_STROBE_ OFFMODE_WD_3"
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bitfld.long 0x0C 7. "USBB2_HSIC_DATA_ OFFMODE_WD_ENABLE,usbb2_hsic_data_offmode_wd enable" "USBB2_HSIC_DATA_ OFFMODE_WD_ENABLE_0,USBB2_HSIC_DATA_ OFFMODE_WD_ENABLE_1"
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bitfld.long 0x0C 5.--6. "USBB2_HSIC_DATA_ OFFMODE_WD,usbb2_hsic_data_offmode_wd1:wd0" "USBB2_HSIC_DATA_ OFFMODE_WD_0,USBB2_HSIC_DATA_ OFFMODE_WD_1,USBB2_HSIC_DATA_ OFFMODE_WD_2,USBB2_HSIC_DATA_ OFFMODE_WD_3"
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bitfld.long 0x0C 4. "USBB2_HSIC_STROBE_ OFFMODE_WD_ENABLE,usbb2_hsic_strobe_offmode_wd enable" "USBB2_HSIC_STROBE_ OFFMODE_WD_ENABLE_0,USBB2_HSIC_STROBE_ OFFMODE_WD_ENABLE_1"
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bitfld.long 0x0C 2.--3. "USBB2_HSIC_STROBE_ OFFMODE_WD,usbb2_hsic_strobe_offmode_wd1:wd0" "USBB2_HSIC_STROBE_ OFFMODE_WD_0,USBB2_HSIC_STROBE_ OFFMODE_WD_1,USBB2_HSIC_STROBE_ OFFMODE_WD_2,USBB2_HSIC_STROBE_ OFFMODE_WD_3"
line.long 0x10 "CONTROL_SMART3IO_PADCONF_3,SMART3 IO control 3 Access conditions"
bitfld.long 0x10 30.--31. "SLIMBUS1_DR0_MB,50-Ohm output buffer mode control for group slimbus1_dr0 Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "0,1,2,3"
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bitfld.long 0x10 28.--29. "SLIMBUS1_DR1_MB,50-Ohm output buffer mode control for group slimbus1_dr1 Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "0,1,2,3"
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bitfld.long 0x10 26.--27. "SLIMBUS2_DR0_MB,50-Ohm output buffer mode control for group slimbus2_dr0 Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "0,1,2,3"
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bitfld.long 0x10 24.--25. "SLIMBUS2_DR1_MB,50-Ohm output buffer mode control for group slimbus2_dr1 Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "0,1,2,3"
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bitfld.long 0x10 22.--23. "SLIMBUS2_DR2_MB,50-Ohm output buffer mode control for group slimbus2_dr2 Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "0,1,2,3"
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bitfld.long 0x10 20.--21. "SLIMBUS2_DR3_MB,50-Ohm output buffer mode control for group slimbus2_dr3 Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "0,1,2,3"
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bitfld.long 0x10 19. "SLIMBUS1_DR0_LB,50-Ohm output buffer load control for group slimbus1_dr0 Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "0,1"
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bitfld.long 0x10 18. "SLIMBUS2_DR1_LB,50-Ohm output buffer load control for group slimbus2_dr1 Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "0,1"
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bitfld.long 0x10 17. "SLIMBUS2_DR2_LB,50-Ohm output buffer load control for group slimbus2_dr2 Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "0,1"
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bitfld.long 0x10 16. "SLIMBUS2_DR3_LB,50-Ohm output buffer load control for group slimbus2_dr3 Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "0,1"
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bitfld.long 0x10 15. "SLIMBUS1_DR1_LB,50-Ohm output buffer load control for group slimbus1_dr1 Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "0,1"
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bitfld.long 0x10 14. "SLIMBUS2_DR0_LB,50-Ohm output buffer load control for group slimbus2_dr0 Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "0,1"
line.long 0x14 "CONTROL_SMART2IO_PADCONF_2,SMART2 IO control 2 Access conditions"
bitfld.long 0x14 31. "DPM_DR1_DS,Drive strength control bit for group dpm_dr1" "DPM_DR1_DS_0,DPM_DR1_DS_1"
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bitfld.long 0x14 30. "DPM_DR2_DS,Drive strength control bit for group dpm_dr2" "DPM_DR2_DS_0,DPM_DR2_DS_1"
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bitfld.long 0x14 29. "DPM_DR3_DS,Drive strength control bit for group dpm_dr3" "DPM_DR3_DS_0,DPM_DR3_DS_1"
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bitfld.long 0x14 28. "GPIO_DR10_DS,Drive strength control bit for group gpio_dr10" "GPIO_DR10_DS_0,GPIO_DR10_DS_1"
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bitfld.long 0x14 27. "HSI2_DR0_DS,Drive strength control bit for group hsi2_dr0" "HSI2_DR0_DS_0,HSI2_DR0_DS_1"
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bitfld.long 0x14 26. "HSI2_DR1_DS,Drive strength control bit for group hsi2_dr1" "HSI2_DR1_DS_0,HSI2_DR1_DS_1"
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bitfld.long 0x14 25. "HSI2_DR2_DS,Drive strength control bit for group hsi2_dr2" "HSI2_DR2_DS_0,HSI2_DR2_DS_1"
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bitfld.long 0x14 24. "SDMMC3_DR0_DS,Drive strength control bit for group sdmmc3_dr0" "SDMMC3_DR0_DS_0,SDMMC3_DR0_DS_1"
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bitfld.long 0x14 23. "SDMMC4_DR0_DS,Drive strength control bit for group sdmmc4_dr0" "SDMMC4_DR0_DS_0,SDMMC4_DR0_DS_1"
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bitfld.long 0x14 22. "SDMMC4_DR1_DS,Drive strength control bit for group sdmmc4_dr1" "SDMMC4_DR1_DS_0,SDMMC4_DR1_DS_1"
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bitfld.long 0x14 21. "SPI3_DR0_DS,Drive strength control bit for group spi3_dr0" "SPI3_DR0_DS_0,SPI3_DR0_DS_1"
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bitfld.long 0x14 20. "SPI3_DR1_DS,Drive strength control bit for group spi3_dr1" "SPI3_DR1_DS_0,SPI3_DR1_DS_1"
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bitfld.long 0x14 19. "UART3_DR2_DS,Drive strength control bit for group uart3_dr2" "UART3_DR2_DS_0,UART3_DR2_DS_1"
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bitfld.long 0x14 18. "UART3_DR3_DS,Drive strength control bit for group uart3_dr3" "UART3_DR3_DS_0,UART3_DR3_DS_1"
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bitfld.long 0x14 17. "UART3_DR4_DS,Drive strength control bit for group uart3_dr4" "UART3_DR4_DS_0,UART3_DR4_DS_1"
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bitfld.long 0x14 16. "UART3_DR5_DS,Drive strength control bit for group uart3_dr5" "UART3_DR5_DS_0,UART3_DR5_DS_1"
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bitfld.long 0x14 15. "USBA0_DR0_DS,Drive strength control bit for group usba0_dr0" "USBA0_DR0_DS_0,USBA0_DR0_DS_1"
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bitfld.long 0x14 14. "USBA0_DR1_DS,Drive strength control bit for group usba0_dr1" "USBA0_DR1_DS_0,USBA0_DR1_DS_1"
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bitfld.long 0x14 13. "USBA_DR2_DS,Drive strength control bit for group usba_dr2" "USBA_DR2_DS_0,USBA_DR2_DS_1"
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bitfld.long 0x14 12. "USBB2_DR0_DS,Drive strength control bit for group usbb2_dr0" "USBB2_DR0_DS_0,USBB2_DR0_DS_1"
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bitfld.long 0x14 11. "USBB1_DR0_DS,Drive strength control bit for group usbb1_dr0" "USBB1_DR0_DS_0,USBB1_DR0_DS_1"
line.long 0x18 "CONTROL_SMART1IO_PADCONF_2,SMART1 IO control 2 Access conditions"
bitfld.long 0x18 30.--31. "KPD_DR0_SC,Slew rate control for group kpd_dr0 Refer to section Low Speed I/Os Combined Slew Rate vs TL Length and Load Settings for more details on SR settings" "0,1,2,3"
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bitfld.long 0x18 28.--29. "KPD_DR1_SC,Slew rate control for group kpd_dr1 Refer to section Low Speed I/Os Combined Slew Rate vs TL Length and Load Settings for more details on SR settings" "0,1,2,3"
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bitfld.long 0x18 26.--27. "KPD_DR2_SC,Slew rate control for group kpd_dr2 Refer to section Low Speed I/Os Combined Slew Rate vs TL Length and Load Settings for more details on SR settings" "0,1,2,3"
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bitfld.long 0x18 24.--25. "KPD_DR3_SC,Slew rate control for group kpd_dr3 Refer to section Low Speed I/Os Combined Slew Rate vs TL Length and Load Settings for more details on SR settings" "0,1,2,3"
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bitfld.long 0x18 22.--23. "HDQ_DR0_SC,Slew rate control for group hdq_dr0 Refer to section Low Speed I/Os Combined Slew Rate vs TL Length and Load Settings for more details on SR settings" "0,1,2,3"
line.long 0x1C "CONTROL_SMART1IO_PADCONF_3,SMART1 IO control 3 Access conditions"
bitfld.long 0x1C 30.--31. "KPD_DR0_LB,Load control for group kpd_dr0" "KPD_DR0_LB_0,KPD_DR0_LB_1,KPD_DR0_LB_2,KPD_DR0_LB_3"
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bitfld.long 0x1C 28.--29. "KPD_DR1_LB,Load control for group kpd_dr1" "KPD_DR1_LB_0,KPD_DR1_LB_1,KPD_DR1_LB_2,KPD_DR1_LB_3"
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bitfld.long 0x1C 26.--27. "KPD_DR2_LB,Load control for group kpd_dr2" "KPD_DR2_LB_0,KPD_DR2_LB_1,KPD_DR2_LB_2,KPD_DR2_LB_3"
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bitfld.long 0x1C 24.--25. "KPD_DR3_LB,Load control for group kpd_dr3" "KPD_DR3_LB_0,KPD_DR3_LB_1,KPD_DR3_LB_2,KPD_DR3_LB_3"
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bitfld.long 0x1C 22.--23. "HDQ_DR0_LB,Load control for group hdq_dr0" "HDQ_DR0_LB_0,HDQ_DR0_LB_1,HDQ_DR0_LB_2,HDQ_DR0_LB_3"
line.long 0x20 "CONTROL_C2CIO_PADCONF_0,C2C IO control 0 Access conditions"
bitfld.long 0x20 31. "C2C_DR0_LB0,Mode selection bit for group c2c_dr0_LB0" "C2C_DR0_LB0_0,C2C_DR0_LB0_1"
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bitfld.long 0x20 30. "C2C_DR1_LB0,Mode selection bit for group c2c_dr1_LB0" "C2C_DR1_LB0_0,C2C_DR1_LB0_1"
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bitfld.long 0x20 29. "C2C_DR2_LB0,Mode selection bit for group c2c_dr2_LB0" "C2C_DR2_LB0_0,C2C_DR2_LB0_1"
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bitfld.long 0x20 28. "GPIO_DR0_LB0,Mode selection bit for group gpio_dr0_LB0" "GPIO_DR0_LB0_0,GPIO_DR0_LB0_1"
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bitfld.long 0x20 27. "GPIO_DR1_LB0,Mode selection bit for group gpio_dr1_LB0" "GPIO_DR1_LB0_0,GPIO_DR1_LB0_1"
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bitfld.long 0x20 26. "GPIO_DR2_LB0,Mode selection bit for group gpio_dr2_LB0" "GPIO_DR2_LB0_0,GPIO_DR2_LB0_1"
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bitfld.long 0x20 25. "GPMC_DR0_LB0,Mode selection bit for group gpmc_dr0_LB0" "GPMC_DR0_LB0_0,GPMC_DR0_LB0_1"
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bitfld.long 0x20 24. "GPMC_DR11_LB0,Mode selection bit for group gpmc_dr11_LB0" "GPMC_DR11_LB0_0,GPMC_DR11_LB0_1"
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bitfld.long 0x20 23. "GPMC_DR10_LB0,Mode selection bit for group gpmc_dr10_LB0" "GPMC_DR10_LB0_0,GPMC_DR10_LB0_1"
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bitfld.long 0x20 22. "GPMC_DR2_LB0,Mode selection bit for group gpmc_dr2_LB0" "GPMC_DR2_LB0_0,GPMC_DR2_LB0_1"
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bitfld.long 0x20 21. "GPMC_DR4_LB0,Mode selection bit for group gpmc_dr4_LB0" "GPMC_DR4_LB0_0,GPMC_DR4_LB0_1"
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bitfld.long 0x20 20. "GPMC_DR5_LB0,Mode selection bit for group gpmc_dr5_LB0" "GPMC_DR5_LB0_0,GPMC_DR5_LB0_1"
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bitfld.long 0x20 19. "GPMC_DR6_LB0,Mode selection bit for group gpmc_dr6_LB0" "GPMC_DR6_LB0_0,GPMC_DR6_LB0_1"
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bitfld.long 0x20 18. "GPMC_DR7_LB0,Mode selection bit for group gpmc_dr7_LB0" "GPMC_DR7_LB0_0,GPMC_DR7_LB0_1"
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bitfld.long 0x20 17. "GPMC_DR8_LB0,Mode selection bit for group gpmc_dr8_LB0" "GPMC_DR8_LB0_0,GPMC_DR8_LB0_1"
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bitfld.long 0x20 16. "GPMC_DR9_LB0,Mode selection bit for group gpmc_dr9_LB0" "GPMC_DR9_LB0_0,GPMC_DR9_LB0_1"
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bitfld.long 0x20 15. "KPD_DR4_LB0,Mode selection bit for group kpd_dr4_LB0" "KPD_DR4_LB0_0,KPD_DR4_LB0_1"
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bitfld.long 0x20 14. "KPD_DR5_LB0,Mode selection bit for group kpd_dr5_LB0" "KPD_DR5_LB0_0,KPD_DR5_LB0_1"
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bitfld.long 0x20 13. "SDMMC2_DR0_LB0,Mode selection bit for group sdmmc2_dr0_LB0" "SDMMC2_DR0_LB0_0,SDMMC2_DR0_LB0_1"
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bitfld.long 0x20 12. "CMOSEN_C2C_0_FRM_CTRL,lvcmos receiver enable in 1.2V mode for group c2c_0" "CMOSEN_C2C_0_FRM_CTRL_0,CMOSEN_C2C_0_FRM_CTRL_1"
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bitfld.long 0x20 11. "CMOSEN_C2C_1_FRM_CTRL,lvcmos receiver enable in 1.2V mode for group c2c_1" "CMOSEN_C2C_1_FRM_CTRL_0,CMOSEN_C2C_1_FRM_CTRL_1"
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bitfld.long 0x20 9.--10. "C2C_VREF_CCAP,Selection for coupling cap connection on ivref pad" "C2C_VREF_CCAP_0,C2C_VREF_CCAP_1,C2C_VREF_CCAP_2,C2C_VREF_CCAP_3"
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bitfld.long 0x20 8. "C2C_INT_VREF_EN,Internal VREF enable for C2C pads in manual mode (if both manual and auto mode is enabled then manual mode takes the priority)" "C2C_INT_VREF_EN_0,C2C_INT_VREF_EN_1"
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bitfld.long 0x20 7. "C2C_INT_VREF_AUTO_EN,Internal VREF enable for C2C pads in auto mode (if both manual and auto mode is enabled then manual mode takes the priority)" "C2C_INT_VREF_AUTO_EN_0,C2C_INT_VREF_AUTO_EN_1"
group.long 0x600++0x0F
line.long 0x00 "CONTROL_PBIASLITE,PBIASLITE control Access conditions"
bitfld.long 0x00 31. "PBIASLITE1_HIZ_MODE,HIZ MODE of the PBIASLITE1" "PBIASLITE1_HIZ_MODE_0,PBIASLITE1_HIZ_MODE_1"
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rbitfld.long 0x00 30. "PBIASLITE1_SUPPLY_HI_OUT,SUPPLY_HI_OUT from PBIASLITE1" "PBIASLITE1_SUPPLY_HI_OUT_0_r,PBIASLITE1_SUPPLY_HI_OUT_1_r"
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rbitfld.long 0x00 29. "PBIASLITE1_VMODE_ERROR,VMODE ERROR from PBIASLITE1" "PBIASLITE1_VMODE_ERROR_0_r,PBIASLITE1_VMODE_ERROR_1_r"
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bitfld.long 0x00 28. "PBIASLITE1_PWRDNZ,PWRDNZ control to PBIASLITE1 - This bit is used to protect the PBIAS1 cell (associated with the gpio_wk0-gpio_wk2 pads I/O cell) when SIM_VDDS is not stable" "PBIASLITE1_PWRDNZ_0,PBIASLITE1_PWRDNZ_1"
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bitfld.long 0x00 27. "PBIASLITE1_VMODE,VMODE control to PBIASLITE1" "PBIASLITE1_VMODE_0,PBIASLITE1_VMODE_1"
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bitfld.long 0x00 26. "MMC1_PWRDNZ,PWRDNZ control to MMC1 IO - This bit is used to protect the MMC1 I/O cell when SDMMC1_VDDS is not stable" "MMC1_PWRDNZ_0,MMC1_PWRDNZ_1"
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bitfld.long 0x00 25. "MMC1_PBIASLITE_HIZ_MODE,HIZ_MODE from MMC1 PBIASLITE" "MMC1_PBIASLITE_HIZ_MODE_0,MMC1_PBIASLITE_HIZ_MODE_1"
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rbitfld.long 0x00 24. "MMC1_PBIASLITE_SUPPLY_HI_OUT,SUPPLY_HI_OUT from MMC1 PBIASLITE" "MMC1_PBIASLITE_SUPPLY_HI_OUT_0_r,MMC1_PBIASLITE_SUPPLY_HI_OUT_1_r"
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rbitfld.long 0x00 23. "MMC1_PBIASLITE_VMODE_ERROR,VMODE ERROR from MMC1 PBIASLITE" "MMC1_PBIASLITE_VMODE_ERROR_0_r,MMC1_PBIASLITE_VMODE_ERROR_1_r"
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bitfld.long 0x00 22. "MMC1_PBIASLITE_PWRDNZ,PWRDNZ control to MMC1 PBIASLITE - This bit is used to protect the MMC1_PBIAS cell (MMC1 I/O cell associated) when SDMMC1_VDDS is not stable" "MMC1_PBIASLITE_PWRDNZ_0,MMC1_PBIASLITE_PWRDNZ_1"
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bitfld.long 0x00 21. "MMC1_PBIASLITE_VMODE,VMODE control to MMC1 PBIASLITE" "MMC1_PBIASLITE_VMODE_0,MMC1_PBIASLITE_VMODE_1"
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bitfld.long 0x00 20. "USBC1_ICUSB_PWRDNZ,PWRDNZ control to USBC1 IO - This bit is used to protect the USBC1_ICUSB I/O cell when SIM_VDDS is not stable" "USBC1_ICUSB_PWRDNZ_0,USBC1_ICUSB_PWRDNZ_1"
line.long 0x04 "CONTROL_I2C_0,I2C pads control 0 Access conditions"
bitfld.long 0x04 31. "I2C4_SDA_GLFENB,Active_high glitch free operation enable pin for i2c4 receiver" "I2C4_SDA_GLFENB_0,I2C4_SDA_GLFENB_1"
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bitfld.long 0x04 29.--30. "I2C4_SDA_LOAD_BITS,Internal Pull up resistor in Fast or Standard mode / High_speed mode for i2c4" "I2C4_SDA_LOAD_BITS_0,I2C4_SDA_LOAD_BITS_1,I2C4_SDA_LOAD_BITS_2,I2C4_SDA_LOAD_BITS_3"
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bitfld.long 0x04 28. "I2C4_SDA_PULLUPRESX,Active_low internal pull_up resistor enabled for i2c4" "I2C4_SDA_PULLUPRESX_0,I2C4_SDA_PULLUPRESX_1"
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bitfld.long 0x04 27. "I2C3_SDA_GLFENB,Active_high glitch free operation enable pin for i2c3 receiver" "I2C3_SDA_GLFENB_0,I2C3_SDA_GLFENB_1"
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bitfld.long 0x04 25.--26. "I2C3_SDA_LOAD_BITS,Internal Pull up resistor in Fast or Standard mode / High_speed mode for i2c3" "I2C3_SDA_LOAD_BITS_0,I2C3_SDA_LOAD_BITS_1,I2C3_SDA_LOAD_BITS_2,I2C3_SDA_LOAD_BITS_3"
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bitfld.long 0x04 24. "I2C3_SDA_PULLUPRESX,Active_low internal pull_up resistor enabled for i2c3" "I2C3_SDA_PULLUPRESX_0,I2C3_SDA_PULLUPRESX_1"
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bitfld.long 0x04 23. "I2C2_SDA_GLFENB,Active_high glitch free operation enable pin for i2c2 receiver" "I2C2_SDA_GLFENB_0,I2C2_SDA_GLFENB_1"
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bitfld.long 0x04 21.--22. "I2C2_SDA_LOAD_BITS,Internal Pull up resistor in Fast or Standard mode / High_speed mode for i2c2" "I2C2_SDA_LOAD_BITS_0,I2C2_SDA_LOAD_BITS_1,I2C2_SDA_LOAD_BITS_2,I2C2_SDA_LOAD_BITS_3"
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bitfld.long 0x04 20. "I2C2_SDA_PULLUPRESX,Active_low internal pull_up resistor enabled for i2c2" "I2C2_SDA_PULLUPRESX_0,I2C2_SDA_PULLUPRESX_1"
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bitfld.long 0x04 19. "I2C1_SDA_GLFENB,Active_high glitch free operation enable pin for i2c1 receiver" "I2C1_SDA_GLFENB_0,I2C1_SDA_GLFENB_1"
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bitfld.long 0x04 17.--18. "I2C1_SDA_LOAD_BITS,Internal Pull up resistor in Fast or Standard mode / High_speed mode for i2c1" "I2C1_SDA_LOAD_BITS_0,I2C1_SDA_LOAD_BITS_1,I2C1_SDA_LOAD_BITS_2,I2C1_SDA_LOAD_BITS_3"
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bitfld.long 0x04 16. "I2C1_SDA_PULLUPRESX,Active_low internal pull_up resistor enabled for i2c1" "I2C1_SDA_PULLUPRESX_0,I2C1_SDA_PULLUPRESX_1"
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bitfld.long 0x04 15. "I2C4_SCL_GLFENB,Active_high glitch free operation enable pin for i2c4 receiver" "I2C4_SCL_GLFENB_0,I2C4_SCL_GLFENB_1"
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bitfld.long 0x04 13.--14. "I2C4_SCL_LOAD_BITS,Internal Pull up resistor in Fast or Standard mode / High_speed mode for i2c4" "I2C4_SCL_LOAD_BITS_0,I2C4_SCL_LOAD_BITS_1,I2C4_SCL_LOAD_BITS_2,I2C4_SCL_LOAD_BITS_3"
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bitfld.long 0x04 12. "I2C4_SCL_PULLUPRESX,Active_low internal pull_up resistor enabled for i2c4" "I2C4_SCL_PULLUPRESX_0,I2C4_SCL_PULLUPRESX_1"
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bitfld.long 0x04 11. "I2C3_SCL_GLFENB,Active_high glitch free operation enable pin for i2c3 receiver" "I2C3_SCL_GLFENB_0,I2C3_SCL_GLFENB_1"
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bitfld.long 0x04 9.--10. "I2C3_SCL_LOAD_BITS,Internal Pull up resistor in Fast or Standard mode / High_speed mode for i2c3" "I2C3_SCL_LOAD_BITS_0,I2C3_SCL_LOAD_BITS_1,I2C3_SCL_LOAD_BITS_2,I2C3_SCL_LOAD_BITS_3"
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bitfld.long 0x04 8. "I2C3_SCL_PULLUPRESX,Active_low internal pull_up resistor enabled for i2c3" "I2C3_SCL_PULLUPRESX_0,I2C3_SCL_PULLUPRESX_1"
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bitfld.long 0x04 7. "I2C2_SCL_GLFENB,Active_high glitch free operation enable pin for i2c2 receiver" "I2C2_SCL_GLFENB_0,I2C2_SCL_GLFENB_1"
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bitfld.long 0x04 5.--6. "I2C2_SCL_LOAD_BITS,Internal Pull up resistor in Fast or Standard mode / High_speed mode for i2c2" "I2C2_SCL_LOAD_BITS_0,I2C2_SCL_LOAD_BITS_1,I2C2_SCL_LOAD_BITS_2,I2C2_SCL_LOAD_BITS_3"
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bitfld.long 0x04 4. "I2C2_SCL_PULLUPRESX,Active_low internal pull_up resistor enabled for i2c2" "I2C2_SCL_PULLUPRESX_0,I2C2_SCL_PULLUPRESX_1"
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bitfld.long 0x04 3. "I2C1_SCL_GLFENB,Active_high glitch free operation enable pin for i2c1 receiver" "I2C1_SCL_GLFENB_0,I2C1_SCL_GLFENB_1"
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bitfld.long 0x04 1.--2. "I2C1_SCL_LOAD_BITS,Internal Pull up resistor in Fast or Standard mode / High_speed mode for i2c1" "I2C1_SCL_LOAD_BITS_0,I2C1_SCL_LOAD_BITS_1,I2C1_SCL_LOAD_BITS_2,I2C1_SCL_LOAD_BITS_3"
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bitfld.long 0x04 0. "I2C1_SCL_PULLUPRESX,Active_low internal pull_up resistor enabled for i2c1" "I2C1_SCL_PULLUPRESX_0,I2C1_SCL_PULLUPRESX_1"
line.long 0x08 "CONTROL_CAMERA_RX,CAMERA RX control Access conditions"
bitfld.long 0x08 31. "CAMERARX_CSI22_LANEENABLE2,CSI22 CAMERARX lane 2 enable (CSI22_DX2 CSI22_DY2)" "CAMERARX_CSI22_LANEENABLE2_0,CAMERARX_CSI22_LANEENABLE2_1"
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bitfld.long 0x08 30. "CAMERARX_CSI22_LANEENABLE1,CSI22 CAMERARX lane 1 enable (CSI22_DX1 CSI22_DY1)" "CAMERARX_CSI22_LANEENABLE1_0,CAMERARX_CSI22_LANEENABLE1_1"
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bitfld.long 0x08 29. "CAMERARX_CSI22_LANEENABLE0,CSI22 CAMERARX lane 0 enable (CSI22_DX0 CSI22_DY0)" "CAMERARX_CSI22_LANEENABLE0_0,CAMERARX_CSI22_LANEENABLE0_1"
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bitfld.long 0x08 28. "CAMERARX_CSI21_LANEENABLE4,CSI21 CAMERARX lane 4 enable (CSI21_DX4 CSI21_DY4)" "CAMERARX_CSI21_LANEENABLE4_0,CAMERARX_CSI21_LANEENABLE4_1"
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bitfld.long 0x08 27. "CAMERARX_CSI21_LANEENABLE3,CSI21 CAMERARX lane 3 enable (CSI21_DX3 CSI21_DY3)" "CAMERARX_CSI21_LANEENABLE3_0,CAMERARX_CSI21_LANEENABLE3_1"
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bitfld.long 0x08 26. "CAMERARX_CSI21_LANEENABLE2,CSI21 CAMERARX lane 2 enable (CSI21_DX2 CSI21_DY2)" "CAMERARX_CSI21_LANEENABLE2_0,CAMERARX_CSI21_LANEENABLE2_1"
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bitfld.long 0x08 25. "CAMERARX_CSI21_LANEENABLE1,CSI21 CAMERARX lane 1 enable (CSI21_DX1 CSI21_DY1)" "CAMERARX_CSI21_LANEENABLE1_0,CAMERARX_CSI21_LANEENABLE1_1"
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bitfld.long 0x08 24. "CAMERARX_CSI21_LANEENABLE0,CSI21 CAMERARX lane 0 enable (CSI21_DX0 CSI21_DY0)" "CAMERARX_CSI21_LANEENABLE0_0,CAMERARX_CSI21_LANEENABLE0_1"
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bitfld.long 0x08 21. "CAMERARX_CSI22_CTRLCLKEN,CSI22 CAMERARX clock enable control" "CAMERARX_CSI22_CTRLCLKEN_0,CAMERARX_CSI22_CTRLCLKEN_1"
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bitfld.long 0x08 19.--20. "CAMERARX_CSI22_CAMMODE,CSI22 CAMERARX CAMMODE control" "CAMERARX_CSI22_CAMMODE_0,CAMERARX_CSI22_CAMMODE_1,CAMERARX_CSI22_CAMMODE_2,CAMERARX_CSI22_CAMMODE_3"
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bitfld.long 0x08 18. "CAMERARX_CSI21_CTRLCLKEN,CSI21 CAMERARX clock enable control" "CAMERARX_CSI21_CTRLCLKEN_0,CAMERARX_CSI21_CTRLCLKEN_1"
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bitfld.long 0x08 16.--17. "CAMERARX_CSI21_CAMMODE,CSI21 CAMERARX CAMMODE control" "CAMERARX_CSI21_CAMMODE_0,CAMERARX_CSI21_CAMMODE_1,CAMERARX_CSI21_CAMMODE_2,CAMERARX_CSI21_CAMMODE_3"
line.long 0x0C "CONTROL_AVDAC,AVDAC control Access conditions"
bitfld.long 0x0C 31. "AVDAC_ACEN,AC coupling enable" "AVDAC_ACEN_0,AVDAC_ACEN_1"
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bitfld.long 0x0C 30. "AVDAC_TVOUTBYPASS,TV OUT bypass signal" "AVDAC_TVOUTBYPASS_0,AVDAC_TVOUTBYPASS_1"
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bitfld.long 0x0C 29. "AVDAC_INPUTINV,Inversion control for DAC input data - din[9:0]" "AVDAC_INPUTINV_0,AVDAC_INPUTINV_1"
group.long 0x614++0x1F
line.long 0x00 "CONTROL_MMC2,MMC2 control Access conditions"
bitfld.long 0x00 31. "MMC2_FEEDBACK_CLK_SEL,Feed_back clock select" "MMC2_FEEDBACK_CLK_SEL_0,MMC2_FEEDBACK_CLK_SEL_1"
line.long 0x04 "CONTROL_DSIPHY,DSIPHY control Access conditions"
bitfld.long 0x04 29.--31. "DSI2_LANEENABLE,DSI2 Lane Enable For each bit the following settings are valid" "DSI2_LANEENABLE_0,DSI2_LANEENABLE_1,?,?,?,?,?,?"
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bitfld.long 0x04 24.--28. "DSI1_LANEENABLE,DSI1 Lane Enable For each bit the following settings are valid" "DSI1_LANEENABLE_0,DSI1_LANEENABLE_1,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
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bitfld.long 0x04 19.--23. "DSI1_PIPD,DSI1 PD Enable For each bit the following settings are valid" "DSI1_PIPD_0,DSI1_PIPD_1,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
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bitfld.long 0x04 14.--18. "DSI2_PIPD,DSI2 PD Enable For each bit the following settings are valid" "DSI2_PIPD_0,DSI2_PIPD_1,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
line.long 0x08 "CONTROL_MCBSPLP,McBSPLP control Access conditions"
bitfld.long 0x08 31. "ALBCTRLRX_FSX,Analog loop_back control for FSX" "ALBCTRLRX_FSX_0,ALBCTRLRX_FSX_1"
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bitfld.long 0x08 30. "ALBCTRLRX_CLKX,Analog loop_back control for CLKX" "ALBCTRLRX_CLKX_0,ALBCTRLRX_CLKX_1"
line.long 0x0C "CONTROL_USB2PHYCORE,USB2PHYCORE control Access conditions"
bitfld.long 0x0C 31. "USB2PHY_AUTORESUME_EN,Auto resume enable" "USB2PHY_AUTORESUME_EN_0,USB2PHY_AUTORESUME_EN_1"
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bitfld.long 0x0C 30. "USB2PHY_DISCHGDET,Disable charger detect" "USB2PHY_DISCHGDET_0,USB2PHY_DISCHGDET_1"
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bitfld.long 0x0C 29. "USB2PHY_GPIOMODE,GPIO mode" "USB2PHY_GPIOMODE_0,USB2PHY_GPIOMODE_1"
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bitfld.long 0x0C 28. "USB2PHY_CHG_DET_EXT_CTL,Charge detect external control" "USB2PHY_CHG_DET_EXT_CTL_0,USB2PHY_CHG_DET_EXT_CTL_1"
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bitfld.long 0x0C 27. "USB2PHY_RDM_PD_CHGDET_EN,DM Pull down control" "USB2PHY_RDM_PD_CHGDET_EN_0,USB2PHY_RDM_PD_CHGDET_EN_1"
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bitfld.long 0x0C 26. "USB2PHY_RDP_PU_CHGDET_EN,DP Pull up control" "USB2PHY_RDP_PU_CHGDET_EN_0,USB2PHY_RDP_PU_CHGDET_EN_1"
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bitfld.long 0x0C 25. "USB2PHY_CHG_VSRC_EN,VSRC enable on DP line-Host charger case" "USB2PHY_CHG_VSRC_EN_0,USB2PHY_CHG_VSRC_EN_1"
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bitfld.long 0x0C 24. "USB2PHY_CHG_ISINK_EN,ISINK enable on DM line-Host charger case" "USB2PHY_CHG_ISINK_EN_0,USB2PHY_CHG_ISINK_EN_1"
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rbitfld.long 0x0C 21.--23. "USB2PHY_CHG_DET_STATUS,Status of charger detection" "USB2PHY_CHG_DET_STATUS_0_r,USB2PHY_CHG_DET_STATUS_1_r,USB2PHY_CHG_DET_STATUS_2_r,USB2PHY_CHG_DET_STATUS_3_r,USB2PHY_CHG_DET_STATUS_4_r,USB2PHY_CHG_DET_STATUS_5_r,USB2PHY_CHG_DET_STATUS_6_r,USB2PHY_CHG_DET_STATUS_7_r"
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rbitfld.long 0x0C 20. "USB2PHY_CHG_DET_DM_COMP,Output of the comparator on DM during the resistor host detect protocol" "USB2PHY_CHG_DET_DM_COMP_0_r,USB2PHY_CHG_DET_DM_COMP_1_r"
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rbitfld.long 0x0C 19. "USB2PHY_CHG_DET_DP_COMP,Output of the comparator on DP during the resistor host detect protocol" "USB2PHY_CHG_DET_DP_COMP_0_r,USB2PHY_CHG_DET_DP_COMP_1_r"
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rbitfld.long 0x0C 18. "USB2PHY_DATADET,Output of the charger detect comparator" "USB2PHY_DATADET_0_r,USB2PHY_DATADET_1_r"
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bitfld.long 0x0C 17. "USB2PHY_SINKONDP,When 1 current sink is connected to DP instead of DM" "USB2PHY_SINKONDP_0,USB2PHY_SINKONDP_1"
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bitfld.long 0x0C 16. "USB2PHY_SRCONDM,When 1 voltage source is connected to DP instead of DM" "USB2PHY_SRCONDM_0,USB2PHY_SRCONDM_1"
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bitfld.long 0x0C 15. "USB2PHY_RESTARTCHGDET,restartchgdet = 1 for 1 msec cause the CD_START to reset" "USB2PHY_RESTARTCHGDET_0,USB2PHY_RESTARTCHGDET_1"
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rbitfld.long 0x0C 14. "USB2PHY_CHGDETDONE,Status indicates that charger detection protocol is over" "USB2PHY_CHGDETDONE_0_r,USB2PHY_CHGDETDONE_1_r"
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rbitfld.long 0x0C 13. "USB2PHY_CHGDETECTED,Output of the charger detection protocol" "USB2PHY_CHGDETECTED_0_r,USB2PHY_CHGDETECTED_1_r"
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bitfld.long 0x0C 12. "USB2PHY_MCPCPUEN,MCPC Pull up enable" "USB2PHY_MCPCPUEN_0,USB2PHY_MCPCPUEN_1"
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bitfld.long 0x0C 11. "USB2PHY_MCPCMODEEN,MCPC Mode enable" "USB2PHY_MCPCMODEEN_0,USB2PHY_MCPCMODEEN_1"
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rbitfld.long 0x0C 9. "USB2PHY_UTMIRESETDONE,UTMI FSM reset status" "USB2PHY_UTMIRESETDONE_0_r,USB2PHY_UTMIRESETDONE_1_r"
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bitfld.long 0x0C 8. "USB2PHY_TXBITSTUFFENABLE,TX data bit stuff enable" "USB2PHY_TXBITSTUFFENABLE_0,USB2PHY_TXBITSTUFFENABLE_1"
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bitfld.long 0x0C 7. "USB2PHY_DATAPOLARITYN,Data polarity" "USB2PHY_DATAPOLARITYN_0,USB2PHY_DATAPOLARITYN_1"
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rbitfld.long 0x0C 6. "USBDPLL_FREQLOCK,Status from USB DPLL" "0,1"
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rbitfld.long 0x0C 5. "USB2PHY_RESETDONETCLK,resetdonetclk status from USB2PHY" "0,1"
line.long 0x10 "CONTROL_I2C_1,I2C pads control 1 Access conditions"
bitfld.long 0x10 22. "GPIO66_NMODE,Active-high selection for GPIO mode" "GPIO66_NMODE_0,GPIO66_NMODE_1"
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bitfld.long 0x10 20. "GPIO65_NMODE,Active-high selection for GPIO mode" "GPIO65_NMODE_0,GPIO65_NMODE_1"
line.long 0x14 "CONTROL_MMC1,MMC1 control Access conditions"
bitfld.long 0x14 31. "SDMMC1_PUSTRENGTH_GRP0,Pullstrengh control for sdmmc1_pustrength_grp0" "SDMMC1_PUSTRENGTH_GRP0_0,SDMMC1_PUSTRENGTH_GRP0_1"
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bitfld.long 0x14 30. "SDMMC1_PUSTRENGTH_GRP1,Pullstrengh control for sdmmc1_pustrength_grp1" "SDMMC1_PUSTRENGTH_GRP1_0,SDMMC1_PUSTRENGTH_GRP1_1"
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bitfld.long 0x14 29. "SDMMC1_PUSTRENGTH_GRP2,Pullstrengh control for sdmmc1_pustrength_grp2" "SDMMC1_PUSTRENGTH_GRP2_0,SDMMC1_PUSTRENGTH_GRP2_1"
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bitfld.long 0x14 28. "SDMMC1_PUSTRENGTH_GRP3,Pullstrengh control for sdmmc1_pustrength_grp3" "SDMMC1_PUSTRENGTH_GRP3_0,SDMMC1_PUSTRENGTH_GRP3_1"
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bitfld.long 0x14 27. "SDMMC1_DR0_SPEEDCTRL,Speed control for group sdmmc1_dr0" "SDMMC1_DR0_SPEEDCTRL_0,SDMMC1_DR0_SPEEDCTRL_1"
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bitfld.long 0x14 26. "SDMMC1_DR1_SPEEDCTRL,Speed control for group sdmmc1_dr1" "SDMMC1_DR1_SPEEDCTRL_0,SDMMC1_DR1_SPEEDCTRL_1"
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bitfld.long 0x14 25. "SDMMC1_DR2_SPEEDCTRL,Speed control for group sdmmc1_dr2" "SDMMC1_DR2_SPEEDCTRL_0,SDMMC1_DR2_SPEEDCTRL_1"
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bitfld.long 0x14 24. "USBC1_DR0_SPEEDCTRL,Speed control for group usbc1_dr0" "USBC1_DR0_SPEEDCTRL_0,USBC1_DR0_SPEEDCTRL_1"
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bitfld.long 0x14 23. "USB_FD_CDEN,USB FD pull down select" "USB_FD_CDEN_0,USB_FD_CDEN_1"
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bitfld.long 0x14 22. "USBC1_ICUSB_DP_PDDIS,usbc1_icusb_dp pull down disable" "USBC1_ICUSB_DP_PDDIS_0,USBC1_ICUSB_DP_PDDIS_1"
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bitfld.long 0x14 21. "USBC1_ICUSB_DM_PDDIS,usbc1_icusb_dm pull dowm disable" "USBC1_ICUSB_DM_PDDIS_0,USBC1_ICUSB_DM_PDDIS_1"
line.long 0x18 "CONTROL_HSI,HSI control Access conditions"
bitfld.long 0x18 31. "HSI1_CALLOOP_SEL,hsi1 calibration loop select" "HSI1_CALLOOP_SEL_0,HSI1_CALLOOP_SEL_1"
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bitfld.long 0x18 30. "HSI1_CALMUX_SEL,hsi1 calibration mux select" "HSI1_CALMUX_SEL_0,HSI1_CALMUX_SEL_1"
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bitfld.long 0x18 29. "HSI2_CALLOOP_SEL,hsi2 calibration loop select" "HSI2_CALLOOP_SEL_0,HSI2_CALLOOP_SEL_1"
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bitfld.long 0x18 28. "HSI2_CALMUX_SEL,hsi2 calibration mux select" "HSI2_CALMUX_SEL_0,HSI2_CALMUX_SEL_1"
line.long 0x1C "CONTROL_USB,USB control Access conditions"
bitfld.long 0x1C 31. "CARKIT_USBA0_ULPIPHY_DAT0_AUTO_EN,carkit usba0 ulpiphy dat0 auto enable" "CARKIT_USBA0_ULPIPHY_DAT0_AUTO_EN_0,CARKIT_USBA0_ULPIPHY_DAT0_AUTO_EN_1"
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bitfld.long 0x1C 30. "CARKIT_USBA0_ULPIPHY_DAT1_AUTO_EN,carkit usba0 ulpiphy dat1 auto enable" "CARKIT_USBA0_ULPIPHY_DAT1_AUTO_EN_0,CARKIT_USBA0_ULPIPHY_DAT1_AUTO_EN_1"
hgroup.long 0x634++0x03
hide.long 0x00 "CONTROL_HDQ,HDQ control Access conditions"
group.long 0x638++0x1F
line.long 0x00 "CONTROL_LPDDR2IO1_0,LPDDR2 1 I/O control 0 Access conditions"
bitfld.long 0x00 30.--31. "LPDDR2IO1_GR4_SR,Group 4 Slew Rate control sr1:sr0" "0,1,2,3"
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bitfld.long 0x00 27.--29. "LPDDR2IO1_GR4_I,Group 4 Impedence control i2:i0" "LPDDR2IO1_GR4_I_0,LPDDR2IO1_GR4_I_1,LPDDR2IO1_GR4_I_2,LPDDR2IO1_GR4_I_3,LPDDR2IO1_GR4_I_4,LPDDR2IO1_GR4_I_5,LPDDR2IO1_GR4_I_6,LPDDR2IO1_GR4_I_7"
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bitfld.long 0x00 25.--26. "LPDDR2IO1_GR4_WD,Group 4 Weak driver control wd1:wd0" "LPDDR2IO1_GR4_WD_0,LPDDR2IO1_GR4_WD_1,LPDDR2IO1_GR4_WD_2,LPDDR2IO1_GR4_WD_3"
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bitfld.long 0x00 22.--23. "LPDDR2IO1_GR3_SR,Group 3 Slew Rate control sr1:sr0" "LPDDR2IO1_GR3_SR_0,LPDDR2IO1_GR3_SR_1,LPDDR2IO1_GR3_SR_2,LPDDR2IO1_GR3_SR_3"
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bitfld.long 0x00 19.--21. "LPDDR2IO1_GR3_I,Group 3 Impedence control i2:i0" "LPDDR2IO1_GR3_I_0,LPDDR2IO1_GR3_I_1,LPDDR2IO1_GR3_I_2,LPDDR2IO1_GR3_I_3,LPDDR2IO1_GR3_I_4,LPDDR2IO1_GR3_I_5,LPDDR2IO1_GR3_I_6,LPDDR2IO1_GR3_I_7"
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bitfld.long 0x00 17.--18. "LPDDR2IO1_GR3_WD,Group 3 Weak driver control wd1:wd0" "LPDDR2IO1_GR3_WD_0,LPDDR2IO1_GR3_WD_1,LPDDR2IO1_GR3_WD_2,LPDDR2IO1_GR3_WD_3"
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bitfld.long 0x00 14.--15. "LPDDR2IO1_GR2_SR,Group 2 Slew Rate control sr1:sr0" "LPDDR2IO1_GR2_SR_0,LPDDR2IO1_GR2_SR_1,LPDDR2IO1_GR2_SR_2,LPDDR2IO1_GR2_SR_3"
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bitfld.long 0x00 11.--13. "LPDDR2IO1_GR2_I,Group 2 Impedence control i2:i0" "LPDDR2IO1_GR2_I_0,LPDDR2IO1_GR2_I_1,LPDDR2IO1_GR2_I_2,LPDDR2IO1_GR2_I_3,LPDDR2IO1_GR2_I_4,LPDDR2IO1_GR2_I_5,LPDDR2IO1_GR2_I_6,LPDDR2IO1_GR2_I_7"
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bitfld.long 0x00 9.--10. "LPDDR2IO1_GR2_WD,Group 2 Weak driver control wd1:wd0" "LPDDR2IO1_GR2_WD_0,LPDDR2IO1_GR2_WD_1,LPDDR2IO1_GR2_WD_2,LPDDR2IO1_GR2_WD_3"
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bitfld.long 0x00 6.--7. "LPDDR2IO1_GR1_SR,Group 1 Slew Rate control sr1:sr0" "LPDDR2IO1_GR1_SR_0,LPDDR2IO1_GR1_SR_1,LPDDR2IO1_GR1_SR_2,LPDDR2IO1_GR1_SR_3"
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bitfld.long 0x00 3.--5. "LPDDR2IO1_GR1_I,Group 1 Impedence control i2:i0" "LPDDR2IO1_GR1_I_0,LPDDR2IO1_GR1_I_1,LPDDR2IO1_GR1_I_2,LPDDR2IO1_GR1_I_3,LPDDR2IO1_GR1_I_4,LPDDR2IO1_GR1_I_5,LPDDR2IO1_GR1_I_6,LPDDR2IO1_GR1_I_7"
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bitfld.long 0x00 1.--2. "LPDDR2IO1_GR1_WD,Group 1 Weak driver control wd1:wd0" "LPDDR2IO1_GR1_WD_0,LPDDR2IO1_GR1_WD_1,LPDDR2IO1_GR1_WD_2,LPDDR2IO1_GR1_WD_3"
line.long 0x04 "CONTROL_LPDDR2IO1_1,LPDDR2 1 I/O control 1 Access conditions"
bitfld.long 0x04 30.--31. "LPDDR2IO1_GR8_SR,Group 8 Slew Rate control sr1:sr0" "0,1,2,3"
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bitfld.long 0x04 27.--29. "LPDDR2IO1_GR8_I,Group 8 Impedence control i2:i0" "LPDDR2IO1_GR8_I_0,LPDDR2IO1_GR8_I_1,LPDDR2IO1_GR8_I_2,LPDDR2IO1_GR8_I_3,LPDDR2IO1_GR8_I_4,LPDDR2IO1_GR8_I_5,LPDDR2IO1_GR8_I_6,LPDDR2IO1_GR8_I_7"
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bitfld.long 0x04 25.--26. "LPDDR2IO1_GR8_WD,Group 8 Weak driver control wd1:wd0" "LPDDR2IO1_GR8_WD_0,LPDDR2IO1_GR8_WD_1,LPDDR2IO1_GR8_WD_2,LPDDR2IO1_GR8_WD_3"
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bitfld.long 0x04 22.--23. "LPDDR2IO1_GR7_SR,Group 7 Slew Rate control sr1:sr0" "0,1,2,3"
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bitfld.long 0x04 19.--21. "LPDDR2IO1_GR7_I,Group 7 Impedence control i2:i0" "LPDDR2IO1_GR7_I_0,LPDDR2IO1_GR7_I_1,LPDDR2IO1_GR7_I_2,LPDDR2IO1_GR7_I_3,LPDDR2IO1_GR7_I_4,LPDDR2IO1_GR7_I_5,LPDDR2IO1_GR7_I_6,LPDDR2IO1_GR7_I_7"
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bitfld.long 0x04 17.--18. "LPDDR2IO1_GR7_WD,Group 7 Weak driver control wd1:wd0" "LPDDR2IO1_GR7_WD_0,LPDDR2IO1_GR7_WD_1,LPDDR2IO1_GR7_WD_2,LPDDR2IO1_GR7_WD_3"
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bitfld.long 0x04 14.--15. "LPDDR2IO1_GR6_SR,Group 6 Slew Rate control sr1:sr0" "LPDDR2IO1_GR6_SR_0,LPDDR2IO1_GR6_SR_1,LPDDR2IO1_GR6_SR_2,LPDDR2IO1_GR6_SR_3"
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bitfld.long 0x04 11.--13. "LPDDR2IO1_GR6_I,Group 6 Impedence control i2:i0" "LPDDR2IO1_GR6_I_0,LPDDR2IO1_GR6_I_1,LPDDR2IO1_GR6_I_2,LPDDR2IO1_GR6_I_3,LPDDR2IO1_GR6_I_4,LPDDR2IO1_GR6_I_5,LPDDR2IO1_GR6_I_6,LPDDR2IO1_GR6_I_7"
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bitfld.long 0x04 9.--10. "LPDDR2IO1_GR6_WD,Group 6 Weak driver control wd1:wd0" "LPDDR2IO1_GR6_WD_0,LPDDR2IO1_GR6_WD_1,LPDDR2IO1_GR6_WD_2,LPDDR2IO1_GR6_WD_3"
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bitfld.long 0x04 6.--7. "LPDDR2IO1_GR5_SR,Group 5 Slew Rate control sr1:sr0" "LPDDR2IO1_GR5_SR_0,LPDDR2IO1_GR5_SR_1,LPDDR2IO1_GR5_SR_2,LPDDR2IO1_GR5_SR_3"
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bitfld.long 0x04 3.--5. "LPDDR2IO1_GR5_I,Group 5 Impedence control i2:i0" "LPDDR2IO1_GR5_I_0,LPDDR2IO1_GR5_I_1,LPDDR2IO1_GR5_I_2,LPDDR2IO1_GR5_I_3,LPDDR2IO1_GR5_I_4,LPDDR2IO1_GR5_I_5,LPDDR2IO1_GR5_I_6,LPDDR2IO1_GR5_I_7"
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bitfld.long 0x04 1.--2. "LPDDR2IO1_GR5_WD,Group 5 Weak driver control wd1:wd0" "LPDDR2IO1_GR5_WD_0,LPDDR2IO1_GR5_WD_1,LPDDR2IO1_GR5_WD_2,LPDDR2IO1_GR5_WD_3"
line.long 0x08 "CONTROL_LPDDR2IO1_2,LPDDR2 1 I/O control 2 Access conditions"
bitfld.long 0x08 30.--31. "LPDDR2IO1_GR11_SR,Group 11 Slew Rate control sr1:sr0" "0,1,2,3"
newline
bitfld.long 0x08 27.--29. "LPDDR2IO1_GR11_I,Group 11 Impedence control i2:i0" "LPDDR2IO1_GR11_I_0,LPDDR2IO1_GR11_I_1,LPDDR2IO1_GR11_I_2,LPDDR2IO1_GR11_I_3,LPDDR2IO1_GR11_I_4,LPDDR2IO1_GR11_I_5,LPDDR2IO1_GR11_I_6,LPDDR2IO1_GR11_I_7"
newline
bitfld.long 0x08 25.--26. "LPDDR2IO1_GR11_WD,Group 11 Weak driver control wd1:wd0" "LPDDR2IO1_GR11_WD_0,LPDDR2IO1_GR11_WD_1,LPDDR2IO1_GR11_WD_2,LPDDR2IO1_GR11_WD_3"
newline
bitfld.long 0x08 22.--23. "LPDDR2IO1_GR10_SR,Group 10 Slew Rate control sr1:sr0" "0,1,2,3"
newline
bitfld.long 0x08 19.--21. "LPDDR2IO1_GR10_I,Group 10 Impedence control i2:i0" "LPDDR2IO1_GR10_I_0,LPDDR2IO1_GR10_I_1,LPDDR2IO1_GR10_I_2,LPDDR2IO1_GR10_I_3,LPDDR2IO1_GR10_I_4,LPDDR2IO1_GR10_I_5,LPDDR2IO1_GR10_I_6,LPDDR2IO1_GR10_I_7"
newline
bitfld.long 0x08 17.--18. "LPDDR2IO1_GR10_WD,Group 10 Weak driver control wd1:wd0" "LPDDR2IO1_GR10_WD_0,LPDDR2IO1_GR10_WD_1,LPDDR2IO1_GR10_WD_2,LPDDR2IO1_GR10_WD_3"
newline
bitfld.long 0x08 14.--15. "LPDDR2IO1_GR9_SR,Group 9 Slew Rate control sr1:sr0" "0,1,2,3"
newline
bitfld.long 0x08 11.--13. "LPDDR2IO1_GR9_I,Group 9 Impedence control i2:i0" "LPDDR2IO1_GR9_I_0,LPDDR2IO1_GR9_I_1,LPDDR2IO1_GR9_I_2,LPDDR2IO1_GR9_I_3,LPDDR2IO1_GR9_I_4,LPDDR2IO1_GR9_I_5,LPDDR2IO1_GR9_I_6,LPDDR2IO1_GR9_I_7"
newline
bitfld.long 0x08 9.--10. "LPDDR2IO1_GR9_WD,Group 9 Weak driver control wd1:wd0" "LPDDR2IO1_GR9_WD_0,LPDDR2IO1_GR9_WD_1,LPDDR2IO1_GR9_WD_2,LPDDR2IO1_GR9_WD_3"
line.long 0x0C "CONTROL_LPDDR2IO1_3,LPDDR2 1 I/O control 3 Access conditions"
bitfld.long 0x0C 31. "LPDDR21_VREF_CA_CCAP0,Selection for coupling cap connection" "LPDDR21_VREF_CA_CCAP0_0,LPDDR21_VREF_CA_CCAP0_1"
newline
bitfld.long 0x0C 30. "LPDDR21_VREF_CA_CCAP1,Selection for coupling cap connection" "LPDDR21_VREF_CA_CCAP1_0,LPDDR21_VREF_CA_CCAP1_1"
newline
bitfld.long 0x0C 29. "LPDDR21_VREF_CA_INT_CCAP0,Selection for coupling cap connection" "LPDDR21_VREF_CA_INT_CCAP0_0,LPDDR21_VREF_CA_INT_CCAP0_1"
newline
bitfld.long 0x0C 28. "LPDDR21_VREF_CA_INT_CCAP1,Selection for coupling cap connection" "LPDDR21_VREF_CA_INT_CCAP1_0,LPDDR21_VREF_CA_INT_CCAP1_1"
newline
bitfld.long 0x0C 27. "LPDDR21_VREF_CA_INT_TAP0,Selection for internal reference voltage drive" "LPDDR21_VREF_CA_INT_TAP0_0,LPDDR21_VREF_CA_INT_TAP0_1"
newline
bitfld.long 0x0C 26. "LPDDR21_VREF_CA_INT_TAP1,Selection for internal reference voltage drive" "LPDDR21_VREF_CA_INT_TAP1_0,LPDDR21_VREF_CA_INT_TAP1_1"
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bitfld.long 0x0C 25. "LPDDR21_VREF_CA_TAP0,Selection for internal reference voltage drive" "LPDDR21_VREF_CA_TAP0_0,LPDDR21_VREF_CA_TAP0_1"
newline
bitfld.long 0x0C 24. "LPDDR21_VREF_CA_TAP1,Selection for internal reference voltage drive" "LPDDR21_VREF_CA_TAP1_0,LPDDR21_VREF_CA_TAP1_1"
newline
bitfld.long 0x0C 23. "LPDDR21_VREF_DQ_INT0_CCAP0,Selection for coupling cap connection" "LPDDR21_VREF_DQ_INT0_CCAP0_0,LPDDR21_VREF_DQ_INT0_CCAP0_1"
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bitfld.long 0x0C 22. "LPDDR21_VREF_DQ_INT0_CCAP1,Selection for coupling cap connection" "LPDDR21_VREF_DQ_INT0_CCAP1_0,LPDDR21_VREF_DQ_INT0_CCAP1_1"
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bitfld.long 0x0C 21. "LPDDR21_VREF_DQ_INT0_TAP0,Selection for internal reference voltage drive" "LPDDR21_VREF_DQ_INT0_TAP0_0,LPDDR21_VREF_DQ_INT0_TAP0_1"
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bitfld.long 0x0C 20. "LPDDR21_VREF_DQ_INT0_TAP1,Selection for internal reference voltage drive" "LPDDR21_VREF_DQ_INT0_TAP1_0,LPDDR21_VREF_DQ_INT0_TAP1_1"
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bitfld.long 0x0C 19. "LPDDR21_VREF_DQ_INT1_CCAP0,Selection for coupling cap connection" "LPDDR21_VREF_DQ_INT1_CCAP0_0,LPDDR21_VREF_DQ_INT1_CCAP0_1"
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bitfld.long 0x0C 18. "LPDDR21_VREF_DQ_INT1_CCAP1,Selection for coupling cap connection" "LPDDR21_VREF_DQ_INT1_CCAP1_0,LPDDR21_VREF_DQ_INT1_CCAP1_1"
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bitfld.long 0x0C 17. "LPDDR21_VREF_DQ_INT1_TAP0,Selection for internal reference voltage drive" "LPDDR21_VREF_DQ_INT1_TAP0_0,LPDDR21_VREF_DQ_INT1_TAP0_1"
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bitfld.long 0x0C 16. "LPDDR21_VREF_DQ_INT1_TAP1,Selection for internal reference voltage drive" "LPDDR21_VREF_DQ_INT1_TAP1_0,LPDDR21_VREF_DQ_INT1_TAP1_1"
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bitfld.long 0x0C 15. "LPDDR21_VREF_DQ_CCAP0,Selection for coupling cap connection" "LPDDR21_VREF_DQ_CCAP0_0,LPDDR21_VREF_DQ_CCAP0_1"
newline
bitfld.long 0x0C 14. "LPDDR21_VREF_DQ_CCAP1,Selection for coupling cap connection" "LPDDR21_VREF_DQ_CCAP1_0,LPDDR21_VREF_DQ_CCAP1_1"
newline
bitfld.long 0x0C 13. "LPDDR21_VREF_DQ_TAP0,Selection for internal reference voltage drive" "LPDDR21_VREF_DQ_TAP0_0,LPDDR21_VREF_DQ_TAP0_1"
newline
bitfld.long 0x0C 12. "LPDDR21_VREF_DQ_TAP1,Selection for internal reference voltage drive" "LPDDR21_VREF_DQ_TAP1_0,LPDDR21_VREF_DQ_TAP1_1"
newline
bitfld.long 0x0C 11. "LPDDR21_VREF_DQ_INT2_CCAP0,Selection for coupling cap connection" "LPDDR21_VREF_DQ_INT2_CCAP0_0,LPDDR21_VREF_DQ_INT2_CCAP0_1"
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bitfld.long 0x0C 10. "LPDDR21_VREF_DQ_INT3_CCAP0,Selection for coupling cap connection" "LPDDR21_VREF_DQ_INT3_CCAP0_0,LPDDR21_VREF_DQ_INT3_CCAP0_1"
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bitfld.long 0x0C 9. "LPDDR21_VREF_DQ_INT2_CCAP1,Selection for coupling cap connection" "LPDDR21_VREF_DQ_INT2_CCAP1_0,LPDDR21_VREF_DQ_INT2_CCAP1_1"
newline
bitfld.long 0x0C 8. "LPDDR21_VREF_DQ_INT3_CCAP1,Selection for coupling cap connection" "LPDDR21_VREF_DQ_INT3_CCAP1_0,LPDDR21_VREF_DQ_INT3_CCAP1_1"
newline
bitfld.long 0x0C 7. "LPDDR21_VREF_DQ_INT2_TAP0,Selection for internal reference voltage drive" "LPDDR21_VREF_DQ_INT2_TAP0_0,LPDDR21_VREF_DQ_INT2_TAP0_1"
newline
bitfld.long 0x0C 6. "LPDDR21_VREF_DQ_INT3_TAP0,Selection for internal reference voltage drive" "LPDDR21_VREF_DQ_INT3_TAP0_0,LPDDR21_VREF_DQ_INT3_TAP0_1"
newline
bitfld.long 0x0C 5. "LPDDR21_VREF_DQ_INT2_TAP1,Selection for internal reference voltage drive" "LPDDR21_VREF_DQ_INT2_TAP1_0,LPDDR21_VREF_DQ_INT2_TAP1_1"
newline
bitfld.long 0x0C 4. "LPDDR21_VREF_DQ_INT3_TAP1,Selection for internal reference voltage drive" "LPDDR21_VREF_DQ_INT3_TAP1_0,LPDDR21_VREF_DQ_INT3_TAP1_1"
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bitfld.long 0x0C 3. "LPDDR21_INT_VREF_EN_CA,Internal vref enable for CA in manual mode (if both manual and auto mode is enabled then manual mode takes the priority)" "LPDDR21_INT_VREF_EN_CA_0,LPDDR21_INT_VREF_EN_CA_1"
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bitfld.long 0x0C 2. "LPDDR21_INT_VREF_EN_DQ,Internal vref enable for DQ in manual mode (if both manual and auto mode is enabled then manual mode takes the priority)" "LPDDR21_INT_VREF_EN_DQ_0,LPDDR21_INT_VREF_EN_DQ_1"
newline
bitfld.long 0x0C 1. "LPDDR21_INT_VREF_AUTO_EN_CA,Internal vref enable for CA in auto mode (if both manual and auto mode is enabled then manual mode takes the priority)" "LPDDR21_INT_VREF_AUTO_EN_CA_0,LPDDR21_INT_VREF_AUTO_EN_CA_1"
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bitfld.long 0x0C 0. "LPDDR21_INT_VREF_AUTO_EN_DQ,Internal vref enable for DQ in auto mode (if both manual and auto mode is enabled then manual mode takes the priority)" "LPDDR21_INT_VREF_AUTO_EN_DQ_0,LPDDR21_INT_VREF_AUTO_EN_DQ_1"
line.long 0x10 "CONTROL_LPDDR2IO2_0,LPDDR2 2 I/O control 0 Access conditions"
bitfld.long 0x10 30.--31. "LPDDR2IO2_GR4_SR,Group 4 Slew Rate control sr1:sr0" "0,1,2,3"
newline
bitfld.long 0x10 27.--29. "LPDDR2IO2_GR4_I,Group 4 Impedence control i2:i0" "LPDDR2IO2_GR4_I_0,LPDDR2IO2_GR4_I_1,LPDDR2IO2_GR4_I_2,LPDDR2IO2_GR4_I_3,LPDDR2IO2_GR4_I_4,LPDDR2IO2_GR4_I_5,LPDDR2IO2_GR4_I_6,LPDDR2IO2_GR4_I_7"
newline
bitfld.long 0x10 25.--26. "LPDDR2IO2_GR4_WD,Group 4 Weak driver control wd1:wd0" "LPDDR2IO2_GR4_WD_0,LPDDR2IO2_GR4_WD_1,LPDDR2IO2_GR4_WD_2,LPDDR2IO2_GR4_WD_3"
newline
bitfld.long 0x10 22.--23. "LPDDR2IO2_GR3_SR,Group 3 Slew Rate control sr1:sr0" "LPDDR2IO2_GR3_SR_0,LPDDR2IO2_GR3_SR_1,LPDDR2IO2_GR3_SR_2,LPDDR2IO2_GR3_SR_3"
newline
bitfld.long 0x10 19.--21. "LPDDR2IO2_GR3_I,Group 3 Impedence control i2:i0" "LPDDR2IO2_GR3_I_0,LPDDR2IO2_GR3_I_1,LPDDR2IO2_GR3_I_2,LPDDR2IO2_GR3_I_3,LPDDR2IO2_GR3_I_4,LPDDR2IO2_GR3_I_5,LPDDR2IO2_GR3_I_6,LPDDR2IO2_GR3_I_7"
newline
bitfld.long 0x10 17.--18. "LPDDR2IO2_GR3_WD,Group 3 Weak driver control wd1:wd0" "LPDDR2IO2_GR3_WD_0,LPDDR2IO2_GR3_WD_1,LPDDR2IO2_GR3_WD_2,LPDDR2IO2_GR3_WD_3"
newline
bitfld.long 0x10 14.--15. "LPDDR2IO2_GR2_SR,Group 2 Slew Rate control sr1:sr0" "LPDDR2IO2_GR2_SR_0,LPDDR2IO2_GR2_SR_1,LPDDR2IO2_GR2_SR_2,LPDDR2IO2_GR2_SR_3"
newline
bitfld.long 0x10 11.--13. "LPDDR2IO2_GR2_I,Group 2 Impedence control i2:i0" "LPDDR2IO2_GR2_I_0,LPDDR2IO2_GR2_I_1,LPDDR2IO2_GR2_I_2,LPDDR2IO2_GR2_I_3,LPDDR2IO2_GR2_I_4,LPDDR2IO2_GR2_I_5,LPDDR2IO2_GR2_I_6,LPDDR2IO2_GR2_I_7"
newline
bitfld.long 0x10 9.--10. "LPDDR2IO2_GR2_WD,Group 2 Weak driver control wd1:wd0" "LPDDR2IO2_GR2_WD_0,LPDDR2IO2_GR2_WD_1,LPDDR2IO2_GR2_WD_2,LPDDR2IO2_GR2_WD_3"
newline
bitfld.long 0x10 6.--7. "LPDDR2IO2_GR1_SR,Group 1 Slew Rate control sr1:sr0" "LPDDR2IO2_GR1_SR_0,LPDDR2IO2_GR1_SR_1,LPDDR2IO2_GR1_SR_2,LPDDR2IO2_GR1_SR_3"
newline
bitfld.long 0x10 3.--5. "LPDDR2IO2_GR1_I,Group 1 Impedence control i2:i0" "LPDDR2IO2_GR1_I_0,LPDDR2IO2_GR1_I_1,LPDDR2IO2_GR1_I_2,LPDDR2IO2_GR1_I_3,LPDDR2IO2_GR1_I_4,LPDDR2IO2_GR1_I_5,LPDDR2IO2_GR1_I_6,LPDDR2IO2_GR1_I_7"
newline
bitfld.long 0x10 1.--2. "LPDDR2IO2_GR1_WD,Group 1 Weak driver control wd1:wd0" "LPDDR2IO2_GR1_WD_0,LPDDR2IO2_GR1_WD_1,LPDDR2IO2_GR1_WD_2,LPDDR2IO2_GR1_WD_3"
line.long 0x14 "CONTROL_LPDDR2IO2_1,LPDDR2 2 I/O control 1 Access conditions"
bitfld.long 0x14 30.--31. "LPDDR2IO2_GR8_SR,Group 8 Slew Rate control sr1:sr0" "0,1,2,3"
newline
bitfld.long 0x14 27.--29. "LPDDR2IO2_GR8_I,Group 8 Impedence control i2:i0" "LPDDR2IO2_GR8_I_0,LPDDR2IO2_GR8_I_1,LPDDR2IO2_GR8_I_2,LPDDR2IO2_GR8_I_3,LPDDR2IO2_GR8_I_4,LPDDR2IO2_GR8_I_5,LPDDR2IO2_GR8_I_6,LPDDR2IO2_GR8_I_7"
newline
bitfld.long 0x14 25.--26. "LPDDR2IO2_GR8_WD,Group 8 Weak driver control wd1:wd0" "LPDDR2IO2_GR8_WD_0,LPDDR2IO2_GR8_WD_1,LPDDR2IO2_GR8_WD_2,LPDDR2IO2_GR8_WD_3"
newline
bitfld.long 0x14 22.--23. "LPDDR2IO2_GR7_SR,Group 7 Slew Rate control sr1:sr0" "0,1,2,3"
newline
bitfld.long 0x14 19.--21. "LPDDR2IO2_GR7_I,Group 7 Impedence control i2:i0" "LPDDR2IO2_GR7_I_0,LPDDR2IO2_GR7_I_1,LPDDR2IO2_GR7_I_2,LPDDR2IO2_GR7_I_3,LPDDR2IO2_GR7_I_4,LPDDR2IO2_GR7_I_5,LPDDR2IO2_GR7_I_6,LPDDR2IO2_GR7_I_7"
newline
bitfld.long 0x14 17.--18. "LPDDR2IO2_GR7_WD,Group 7 Weak driver control wd1:wd0" "LPDDR2IO2_GR7_WD_0,LPDDR2IO2_GR7_WD_1,LPDDR2IO2_GR7_WD_2,LPDDR2IO2_GR7_WD_3"
newline
bitfld.long 0x14 14.--15. "LPDDR2IO2_GR6_SR,Group 6 Slew Rate control sr1:sr0" "LPDDR2IO2_GR6_SR_0,LPDDR2IO2_GR6_SR_1,LPDDR2IO2_GR6_SR_2,LPDDR2IO2_GR6_SR_3"
newline
bitfld.long 0x14 11.--13. "LPDDR2IO2_GR6_I,Group 6 Impedence control i2:i0" "LPDDR2IO2_GR6_I_0,LPDDR2IO2_GR6_I_1,LPDDR2IO2_GR6_I_2,LPDDR2IO2_GR6_I_3,LPDDR2IO2_GR6_I_4,LPDDR2IO2_GR6_I_5,LPDDR2IO2_GR6_I_6,LPDDR2IO2_GR6_I_7"
newline
bitfld.long 0x14 9.--10. "LPDDR2IO2_GR6_WD,Group 6 Weak driver control wd1:wd0" "LPDDR2IO2_GR6_WD_0,LPDDR2IO2_GR6_WD_1,LPDDR2IO2_GR6_WD_2,LPDDR2IO2_GR6_WD_3"
newline
bitfld.long 0x14 6.--7. "LPDDR2IO2_GR5_SR,Group 5 Slew Rate control sr1:sr0" "LPDDR2IO2_GR5_SR_0,LPDDR2IO2_GR5_SR_1,LPDDR2IO2_GR5_SR_2,LPDDR2IO2_GR5_SR_3"
newline
bitfld.long 0x14 3.--5. "LPDDR2IO2_GR5_I,Group 5 Impedence control i2:i0" "LPDDR2IO2_GR5_I_0,LPDDR2IO2_GR5_I_1,LPDDR2IO2_GR5_I_2,LPDDR2IO2_GR5_I_3,LPDDR2IO2_GR5_I_4,LPDDR2IO2_GR5_I_5,LPDDR2IO2_GR5_I_6,LPDDR2IO2_GR5_I_7"
newline
bitfld.long 0x14 1.--2. "LPDDR2IO2_GR5_WD,Group 5 Weak driver control wd1:wd0" "LPDDR2IO2_GR5_WD_0,LPDDR2IO2_GR5_WD_1,LPDDR2IO2_GR5_WD_2,LPDDR2IO2_GR5_WD_3"
line.long 0x18 "CONTROL_LPDDR2IO2_2,LPDDR2 2 I/O control 2 Access conditions"
bitfld.long 0x18 30.--31. "LPDDR2IO2_GR11_SR,Group 11 Slew Rate control sr1:sr0" "0,1,2,3"
newline
bitfld.long 0x18 27.--29. "LPDDR2IO2_GR11_I,Group 11 Impedence control i2:i0" "LPDDR2IO2_GR11_I_0,LPDDR2IO2_GR11_I_1,LPDDR2IO2_GR11_I_2,LPDDR2IO2_GR11_I_3,LPDDR2IO2_GR11_I_4,LPDDR2IO2_GR11_I_5,LPDDR2IO2_GR11_I_6,LPDDR2IO2_GR11_I_7"
newline
bitfld.long 0x18 25.--26. "LPDDR2IO2_GR11_WD,Group 11 Weak driver control wd1:wd0" "LPDDR2IO2_GR11_WD_0,LPDDR2IO2_GR11_WD_1,LPDDR2IO2_GR11_WD_2,LPDDR2IO2_GR11_WD_3"
newline
bitfld.long 0x18 22.--23. "LPDDR2IO2_GR10_SR,Group 10 Slew Rate control sr1:sr0" "0,1,2,3"
newline
bitfld.long 0x18 19.--21. "LPDDR2IO2_GR10_I,Group 10 Impedence control i2:i0" "LPDDR2IO2_GR10_I_0,LPDDR2IO2_GR10_I_1,LPDDR2IO2_GR10_I_2,LPDDR2IO2_GR10_I_3,LPDDR2IO2_GR10_I_4,LPDDR2IO2_GR10_I_5,LPDDR2IO2_GR10_I_6,LPDDR2IO2_GR10_I_7"
newline
bitfld.long 0x18 17.--18. "LPDDR2IO2_GR10_WD,Group 10 Weak driver control wd1:wd0" "LPDDR2IO2_GR10_WD_0,LPDDR2IO2_GR10_WD_1,LPDDR2IO2_GR10_WD_2,LPDDR2IO2_GR10_WD_3"
newline
bitfld.long 0x18 14.--15. "LPDDR2IO2_GR9_SR,Group 9 Slew Rate control sr1:sr0" "0,1,2,3"
newline
bitfld.long 0x18 11.--13. "LPDDR2IO2_GR9_I,Group 9 Impedence control i2:i0" "LPDDR2IO2_GR9_I_0,LPDDR2IO2_GR9_I_1,LPDDR2IO2_GR9_I_2,LPDDR2IO2_GR9_I_3,LPDDR2IO2_GR9_I_4,LPDDR2IO2_GR9_I_5,LPDDR2IO2_GR9_I_6,LPDDR2IO2_GR9_I_7"
newline
bitfld.long 0x18 9.--10. "LPDDR2IO2_GR9_WD,Group 9 Weak driver control wd1:wd0" "LPDDR2IO2_GR9_WD_0,LPDDR2IO2_GR9_WD_1,LPDDR2IO2_GR9_WD_2,LPDDR2IO2_GR9_WD_3"
line.long 0x1C "CONTROL_LPDDR2IO2_3,LPDDR2 2 I/O control 3 Access conditions"
bitfld.long 0x1C 31. "LPDDR22_VREF_CA_CCAP0,Selection for coupling cap connection" "LPDDR22_VREF_CA_CCAP0_0,LPDDR22_VREF_CA_CCAP0_1"
newline
bitfld.long 0x1C 30. "LPDDR22_VREF_CA_CCAP1,Selection for coupling cap connection" "LPDDR22_VREF_CA_CCAP1_0,LPDDR22_VREF_CA_CCAP1_1"
newline
bitfld.long 0x1C 29. "LPDDR22_VREF_CA_INT_CCAP0,Selection for coupling cap connection" "LPDDR22_VREF_CA_INT_CCAP0_0,LPDDR22_VREF_CA_INT_CCAP0_1"
newline
bitfld.long 0x1C 28. "LPDDR22_VREF_CA_INT_CCAP1,Selection for coupling cap connection" "LPDDR22_VREF_CA_INT_CCAP1_0,LPDDR22_VREF_CA_INT_CCAP1_1"
newline
bitfld.long 0x1C 27. "LPDDR22_VREF_CA_INT_TAP0,Selection for internal reference voltage drive" "LPDDR22_VREF_CA_INT_TAP0_0,LPDDR22_VREF_CA_INT_TAP0_1"
newline
bitfld.long 0x1C 26. "LPDDR22_VREF_CA_INT_TAP1,Selection for internal reference voltage drive" "LPDDR22_VREF_CA_INT_TAP1_0,LPDDR22_VREF_CA_INT_TAP1_1"
newline
bitfld.long 0x1C 25. "LPDDR22_VREF_CA_TAP0,Selection for internal reference voltage drive" "LPDDR22_VREF_CA_TAP0_0,LPDDR22_VREF_CA_TAP0_1"
newline
bitfld.long 0x1C 24. "LPDDR22_VREF_CA_TAP1,Selection for internal reference voltage drive" "LPDDR22_VREF_CA_TAP1_0,LPDDR22_VREF_CA_TAP1_1"
newline
bitfld.long 0x1C 23. "LPDDR22_VREF_DQ_INT0_CCAP0,Selection for coupling cap connection" "LPDDR22_VREF_DQ_INT0_CCAP0_0,LPDDR22_VREF_DQ_INT0_CCAP0_1"
newline
bitfld.long 0x1C 22. "LPDDR22_VREF_DQ_INT0_CCAP1,Selection for coupling cap connection" "LPDDR22_VREF_DQ_INT0_CCAP1_0,LPDDR22_VREF_DQ_INT0_CCAP1_1"
newline
bitfld.long 0x1C 21. "LPDDR22_VREF_DQ_INT0_TAP0,Selection for internal reference voltage drive" "LPDDR22_VREF_DQ_INT0_TAP0_0,LPDDR22_VREF_DQ_INT0_TAP0_1"
newline
bitfld.long 0x1C 20. "LPDDR22_VREF_DQ_INT0_TAP1,Selection for internal reference voltage drive" "LPDDR22_VREF_DQ_INT0_TAP1_0,LPDDR22_VREF_DQ_INT0_TAP1_1"
newline
bitfld.long 0x1C 19. "LPDDR22_VREF_DQ_INT1_CCAP0,Selection for coupling cap connection" "LPDDR22_VREF_DQ_INT1_CCAP0_0,LPDDR22_VREF_DQ_INT1_CCAP0_1"
newline
bitfld.long 0x1C 18. "LPDDR22_VREF_DQ_INT1_CCAP1,Selection for coupling cap connection" "LPDDR22_VREF_DQ_INT1_CCAP1_0,LPDDR22_VREF_DQ_INT1_CCAP1_1"
newline
bitfld.long 0x1C 17. "LPDDR22_VREF_DQ_INT1_TAP0,Selection for internal reference voltage drive" "LPDDR22_VREF_DQ_INT1_TAP0_0,LPDDR22_VREF_DQ_INT1_TAP0_1"
newline
bitfld.long 0x1C 16. "LPDDR22_VREF_DQ_INT1_TAP1,Selection for internal reference voltage drive" "LPDDR22_VREF_DQ_INT1_TAP1_0,LPDDR22_VREF_DQ_INT1_TAP1_1"
newline
bitfld.long 0x1C 15. "LPDDR22_VREF_DQ_CCAP0,Selection for coupling cap connection" "LPDDR22_VREF_DQ_CCAP0_0,LPDDR22_VREF_DQ_CCAP0_1"
newline
bitfld.long 0x1C 14. "LPDDR22_VREF_DQ_CCAP1,Selection for coupling cap connection" "LPDDR22_VREF_DQ_CCAP1_0,LPDDR22_VREF_DQ_CCAP1_1"
newline
bitfld.long 0x1C 13. "LPDDR22_VREF_DQ_TAP0,Selection for internal reference voltage drive" "LPDDR22_VREF_DQ_TAP0_0,LPDDR22_VREF_DQ_TAP0_1"
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bitfld.long 0x1C 12. "LPDDR22_VREF_DQ_TAP1,Selection for internal reference voltage drive" "LPDDR22_VREF_DQ_TAP1_0,LPDDR22_VREF_DQ_TAP1_1"
newline
bitfld.long 0x1C 11. "LPDDR22_VREF_DQ_INT2_CCAP0,Selection for coupling cap connection" "LPDDR22_VREF_DQ_INT2_CCAP0_0,LPDDR22_VREF_DQ_INT2_CCAP0_1"
newline
bitfld.long 0x1C 10. "LPDDR22_VREF_DQ_INT3_CCAP0,Selection for coupling cap connection" "LPDDR22_VREF_DQ_INT3_CCAP0_0,LPDDR22_VREF_DQ_INT3_CCAP0_1"
newline
bitfld.long 0x1C 9. "LPDDR22_VREF_DQ_INT2_CCAP1,Selection for coupling cap connection" "LPDDR22_VREF_DQ_INT2_CCAP1_0,LPDDR22_VREF_DQ_INT2_CCAP1_1"
newline
bitfld.long 0x1C 8. "LPDDR22_VREF_DQ_INT3_CCAP1,Selection for coupling cap connection" "LPDDR22_VREF_DQ_INT3_CCAP1_0,LPDDR22_VREF_DQ_INT3_CCAP1_1"
newline
bitfld.long 0x1C 7. "LPDDR22_VREF_DQ_INT2_TAP0,Selection for internal reference voltage drive" "LPDDR22_VREF_DQ_INT2_TAP0_0,LPDDR22_VREF_DQ_INT2_TAP0_1"
newline
bitfld.long 0x1C 6. "LPDDR22_VREF_DQ_INT3_TAP0,Selection for internal reference voltage drive" "LPDDR22_VREF_DQ_INT3_TAP0_0,LPDDR22_VREF_DQ_INT3_TAP0_1"
newline
bitfld.long 0x1C 5. "LPDDR22_VREF_DQ_INT2_TAP1,Selection for internal reference voltage drive" "LPDDR22_VREF_DQ_INT2_TAP1_0,LPDDR22_VREF_DQ_INT2_TAP1_1"
newline
bitfld.long 0x1C 4. "LPDDR22_VREF_DQ_INT3_TAP1,Selection for internal reference voltage drive" "LPDDR22_VREF_DQ_INT3_TAP1_0,LPDDR22_VREF_DQ_INT3_TAP1_1"
newline
bitfld.long 0x1C 3. "LPDDR22_INT_VREF_EN_CA,Internal vref enable for CA in manual mode (if both manual and auto mode is enabled then manual mode takes the priority)" "LPDDR22_INT_VREF_EN_CA_0,LPDDR22_INT_VREF_EN_CA_1"
newline
bitfld.long 0x1C 2. "LPDDR22_INT_VREF_EN_DQ,Internal vref enable for DQ in manual mode (if both manual and auto mode is enabled then manual mode takes the priority)" "LPDDR22_INT_VREF_EN_DQ_0,LPDDR22_INT_VREF_EN_DQ_1"
newline
bitfld.long 0x1C 1. "LPDDR22_INT_VREF_AUTO_EN_CA,Internal vref enable for CA in auto mode (if both manual and auto mode is enabled then manual mode takes the priority)" "LPDDR22_INT_VREF_AUTO_EN_CA_0,LPDDR22_INT_VREF_AUTO_EN_CA_1"
newline
bitfld.long 0x1C 0. "LPDDR22_INT_VREF_AUTO_EN_DQ,Internal vref enable for DQ in auto mode (if both manual and auto mode is enabled then manual mode takes the priority)" "LPDDR22_INT_VREF_AUTO_EN_DQ_0,LPDDR22_INT_VREF_AUTO_EN_DQ_1"
hgroup.long 0x658++0x03
hide.long 0x00 "CONTROL_BUS_HOLD,BUS HOLD I/O controls Access conditions"
group.long 0x65C++0x37
line.long 0x00 "CONTROL_C2C,C2C controls Access conditions"
line.long 0x04 "CONTROL_CORE_CONTROL_SPARE_RW,CORE control spare RW Access conditions"
line.long 0x08 "CONTROL_CORE_CONTROL_SPARE_R,CORE control spare R Access conditions"
line.long 0x0C "CONTROL_CORE_CONTROL_SPARE_R_C0,CORE control spare RC Access conditions"
bitfld.long 0x0C 31. "CORE_CONTROL_SPARE_R_C0,Core control spare register bits RC" "0,1"
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bitfld.long 0x0C 30. "CORE_CONTROL_SPARE_R_C1,Core control spare register bits RC" "0,1"
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bitfld.long 0x0C 29. "CORE_CONTROL_SPARE_R_C2,Core control spare register bits RC" "0,1"
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bitfld.long 0x0C 28. "CORE_CONTROL_SPARE_R_C3,Core control spare register bits RC" "0,1"
newline
bitfld.long 0x0C 27. "CORE_CONTROL_SPARE_R_C4,Core control spare register bits RC" "0,1"
newline
bitfld.long 0x0C 26. "CORE_CONTROL_SPARE_R_C5,Core control spare register bits RC" "0,1"
newline
bitfld.long 0x0C 25. "CORE_CONTROL_SPARE_R_C6,Core control spare register bits RC" "0,1"
newline
bitfld.long 0x0C 24. "CORE_CONTROL_SPARE_R_C7,Core control spare register bits RC" "0,1"
line.long 0x10 "CONTROL_CORE_CONTROL_SPARE_RW1,CORE control spare RW1 Access conditions"
line.long 0x14 "CONTROL_CORE_CONTROL_SPARE_RW2,CORE control spare RW2 Access conditions"
line.long 0x18 "CONTROL_CORE_CONTROL_SPARE_RW3,CORE control spare RW3 Access conditions"
line.long 0x1C "CONTROL_CORE_CONTROL_SPARE_RW4,CORE control spare RW4 Access conditions"
line.long 0x20 "CONTROL_CORE_CONTROL_SPARE_RW5,CORE control spare RW5 Access conditions"
line.long 0x24 "CONTROL_CORE_CONTROL_SPARE_RW6,CORE control spare RW6 Access conditions"
line.long 0x28 "CONTROL_CORE_CONTROL_SPARE_RW7,CORE control spare RW7 Access conditions"
line.long 0x2C "CONTROL_CORE_CONTROL_SPARE_RW8,CORE control spare RW8 Access conditions"
line.long 0x30 "CONTROL_CORE_CONTROL_SPARE_RW9,CORE control spare RW9 Access conditions"
line.long 0x34 "CONTROL_CORE_CONTROL_SPARE_R1,CORE control spare R1 Access conditions"
group.long 0x700++0x0F
line.long 0x00 "CONTROL_EFUSE_1,EFUSE control 1 Access conditions"
hexmask.long.byte 0x00 24.--30. 1. "AVDAC_TRIM_BYTE3,AVDAC trim byte3 (Reset value exported from efuse) Note that reset is exported"
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hexmask.long.byte 0x00 16.--23. 1. "AVDAC_TRIM_BYTE2,AVDAC trim byte2 (Reset value exported from efuse) Note that reset is exported"
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hexmask.long.byte 0x00 8.--15. 1. "AVDAC_TRIM_BYTE1,AVDAC trim byte1 (Reset value exported from efuse) Note that reset is exported"
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hexmask.long.byte 0x00 0.--7. 1. "AVDAC_TRIM_BYTE0,AVDAC trim byte0 (Reset value exported from efuse) Note that reset is exported"
line.long 0x04 "CONTROL_EFUSE_2,EFUSE control 2 Access conditions"
bitfld.long 0x04 31. "EFUSE_SMART2TEST_P0,Smart2/3/C2C I/O PMOS process compensation bit 0 (Reset value exported from efuse) Note that reset is exported" "EFUSE_SMART2TEST_P0_0,EFUSE_SMART2TEST_P0_1"
newline
bitfld.long 0x04 30. "EFUSE_SMART2TEST_P1,Smart2/3/C2C I/O PMOS process compensation bit 1 (Reset value exported from efuse) Note that reset is exported" "EFUSE_SMART2TEST_P1_0,EFUSE_SMART2TEST_P1_1"
newline
bitfld.long 0x04 29. "EFUSE_SMART2TEST_P2,Smart2/3/C2C I/O PMOS process compensation bit 2 (Reset value exported from efuse) Note that reset is exported" "EFUSE_SMART2TEST_P2_0,EFUSE_SMART2TEST_P2_1"
newline
bitfld.long 0x04 28. "EFUSE_SMART2TEST_P3,Smart2/3/C2C I/O PMOS process compensation bit 3 (Reset value exported from efuse) Note that reset is exported" "EFUSE_SMART2TEST_P3_0,EFUSE_SMART2TEST_P3_1"
newline
bitfld.long 0x04 27. "EFUSE_SMART2TEST_N0,Smart2/3/C2C I/O NMOS process compensation bit 0 (Reset value exported from efuse) Note that reset is exported" "EFUSE_SMART2TEST_N0_0,EFUSE_SMART2TEST_N0_1"
newline
bitfld.long 0x04 26. "EFUSE_SMART2TEST_N1,Smart2/3/C2C I/O NMOS process compensation bit 1(Reset value exported from efuse) Note that reset is exported" "EFUSE_SMART2TEST_N1_0,EFUSE_SMART2TEST_N1_1"
newline
bitfld.long 0x04 25. "EFUSE_SMART2TEST_N2,Smart2/3/C2C I/O NMOS process compensation bit 2 (Reset value exported from efuse) Note that reset is exported" "EFUSE_SMART2TEST_N2_0,EFUSE_SMART2TEST_N2_1"
newline
bitfld.long 0x04 24. "EFUSE_SMART2TEST_N3,Smart2/3/C2C I/O NMOS process compensation bit 3 (Reset value exported from efuse) Note that reset is exported" "EFUSE_SMART2TEST_N3_0,EFUSE_SMART2TEST_N3_1"
newline
bitfld.long 0x04 23. "LPDDR2_PTV_N1,LPDDR2IO NMOS PTV code bit 1 (Reset value exported from efuse) Note that reset is exported" "LPDDR2_PTV_N1_0,LPDDR2_PTV_N1_1"
newline
bitfld.long 0x04 22. "LPDDR2_PTV_N2,LPDDR2IO NMOS PTV code bit 2 (Reset value exported from efuse) Note that reset is exported" "LPDDR2_PTV_N2_0,LPDDR2_PTV_N2_1"
newline
bitfld.long 0x04 21. "LPDDR2_PTV_N3,LPDDR2IO NMOS PTV code bit 3 (Reset value exported from efuse) Note that reset is exported" "LPDDR2_PTV_N3_0,LPDDR2_PTV_N3_1"
newline
bitfld.long 0x04 20. "LPDDR2_PTV_N4,LPDDR2IO NMOS PTV code bit 4 (Reset value exported from efuse) Note that reset is exported" "LPDDR2_PTV_N4_0,LPDDR2_PTV_N4_1"
newline
bitfld.long 0x04 19. "LPDDR2_PTV_N5,LPDDR2IO NMOS PTV code bit 5 (Reset value exported from efuse) Note that reset is exported" "LPDDR2_PTV_N5_0,LPDDR2_PTV_N5_1"
newline
bitfld.long 0x04 18. "LPDDR2_PTV_P1,LPDDR2IO PMOS PTV code bit 1 (Reset value exported from efuse) Note that reset is exported" "LPDDR2_PTV_P1_0,LPDDR2_PTV_P1_1"
newline
bitfld.long 0x04 17. "LPDDR2_PTV_P2,LPDDR2IO PMOS PTV code bit 2 (Reset value exported from efuse) Note that reset is exported" "LPDDR2_PTV_P2_0,LPDDR2_PTV_P2_1"
newline
bitfld.long 0x04 16. "LPDDR2_PTV_P3,LPDDR2IO PMOS PTV code bit 3 (Reset value exported from efuse) Note that reset is exported" "LPDDR2_PTV_P3_0,LPDDR2_PTV_P3_1"
newline
bitfld.long 0x04 15. "LPDDR2_PTV_P4,LPDDR2IO PMOS PTV code bit 4 (Reset value exported from efuse) Note that reset is exported" "LPDDR2_PTV_P4_0,LPDDR2_PTV_P4_1"
newline
bitfld.long 0x04 14. "LPDDR2_PTV_P5,LPDDR2IO PMOS PTV code bit 5 (Reset value exported from efuse) Note that reset is exported" "LPDDR2_PTV_P5_0,LPDDR2_PTV_P5_1"
line.long 0x08 "CONTROL_EFUSE_3,EFUSE control 3 Access conditions"
hexmask.long.byte 0x08 24.--31. 1. "STD_FUSE_SPARE_1,std efuse spare bits (Read Only)"
newline
hexmask.long.byte 0x08 16.--23. 1. "STD_FUSE_SPARE_2,std efuse spare bits (Read Only)"
newline
hexmask.long.byte 0x08 8.--15. 1. "STD_FUSE_SPARE_3,std efuse spare bits (Read Only)"
newline
hexmask.long.byte 0x08 0.--7. 1. "STD_FUSE_SPARE_4,std efuse spare bits (Read Only)"
line.long 0x0C "CONTROL_EFUSE_4,EFUSE control 4 Access conditions"
hexmask.long.byte 0x0C 24.--31. 1. "STD_FUSE_SPARE_5,std efuse spare bits (RW) Note that reset is exported"
newline
hexmask.long.byte 0x0C 16.--23. 1. "STD_FUSE_SPARE_6,std efuse spare bits (RW) Note that reset is exported"
newline
hexmask.long.byte 0x0C 8.--15. 1. "STD_FUSE_SPARE_7,std efuse spare bits (RW) Note that reset is exported"
newline
hexmask.long.byte 0x0C 0.--7. 1. "STD_FUSE_SPARE_8,std efuse spare bits (RW) Note that reset is exported"
tree.end
tree "SYSCTRL_PADCONF_WKUP"
base ansd:0x4A31E000
rgroup.long 0x00++0x07
line.long 0x00 "CONTROL_PADCONF_WKUP_REVISION,Control module revision identifier Access conditions"
line.long 0x04 "CONTROL_PADCONF_WKUP_HWINFO,Information about the IP module hardware configuration that is. typically the module HDL generics (if any)"
group.long 0x10++0x03
line.long 0x00 "CONTROL_PADCONF_WKUP_SYSCONFIG,Access conditions"
bitfld.long 0x00 2.--3. "IP_SYSCONFIG_IDLEMODE,Select the local clock-gating strategy" "IP_SYSCONFIG_IDLEMODE_0,IP_SYSCONFIG_IDLEMODE_1,?,?"
group.long 0x40++0x37
line.long 0x00 "CONTROL_WKUP_PAD0_GPIO_WK0_PAD1_GPIO_WK1,Register control for Pads gpio_wk0 and gpio_wk1 Access conditions"
rbitfld.long 0x00 31. "GPIO_WK1_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPIO_WK1_WAKEUPEVENT_0_r,GPIO_WK1_WAKEUPEVENT_1_r"
newline
bitfld.long 0x00 30. "GPIO_WK1_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPIO_WK1_WAKEUPENABLE_0,GPIO_WK1_WAKEUPENABLE_1"
newline
bitfld.long 0x00 24. "GPIO_WK1_INPUTENABLE,Input enable value for pad gpio_wk1" "GPIO_WK1_INPUTENABLE_0,GPIO_WK1_INPUTENABLE_1"
newline
bitfld.long 0x00 20. "GPIO_WK1_PULLTYPESELECT,pullup/down selection for pad gpio_wk1" "GPIO_WK1_PULLTYPESELECT_0,GPIO_WK1_PULLTYPESELECT_1"
newline
bitfld.long 0x00 19. "GPIO_WK1_PULLUDENABLE,pullup/down enable for pad gpio_wk1" "GPIO_WK1_PULLUDENABLE_0,GPIO_WK1_PULLUDENABLE_1"
newline
bitfld.long 0x00 16.--18. "GPIO_WK1_MUXMODE,Functional multiplexing selection for pad gpio_wk1" "GPIO_WK1_MUXMODE_0,?,?,GPIO_WK1_MUXMODE_3,?,?,GPIO_WK1_MUXMODE_6,GPIO_WK1_MUXMODE_7"
newline
rbitfld.long 0x00 15. "GPIO_WK0_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPIO_WK0_WAKEUPEVENT_0_r,GPIO_WK0_WAKEUPEVENT_1_r"
newline
bitfld.long 0x00 14. "GPIO_WK0_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPIO_WK0_WAKEUPENABLE_0,GPIO_WK0_WAKEUPENABLE_1"
newline
bitfld.long 0x00 8. "GPIO_WK0_INPUTENABLE,Input enable value for pad gpio_wk0" "GPIO_WK0_INPUTENABLE_0,GPIO_WK0_INPUTENABLE_1"
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bitfld.long 0x00 4. "GPIO_WK0_PULLTYPESELECT,pullup/down selection for pad gpio_wk0" "GPIO_WK0_PULLTYPESELECT_0,GPIO_WK0_PULLTYPESELECT_1"
newline
bitfld.long 0x00 3. "GPIO_WK0_PULLUDENABLE,pullup/down enable for pad gpio_wk0" "GPIO_WK0_PULLUDENABLE_0,GPIO_WK0_PULLUDENABLE_1"
newline
bitfld.long 0x00 0.--2. "GPIO_WK0_MUXMODE,Functional multiplexing selection for pad gpio_wk0" "GPIO_WK0_MUXMODE_0,?,?,GPIO_WK0_MUXMODE_3,GPIO_WK0_MUXMODE_4,?,GPIO_WK0_MUXMODE_6,GPIO_WK0_MUXMODE_7"
line.long 0x04 "CONTROL_WKUP_PAD0_GPIO_WK2_PAD1_GPIO_WK3,Register control for Pads gpio_wk2 and gpio_wk3 Access conditions"
rbitfld.long 0x04 31. "GPIO_WK3_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPIO_WK3_WAKEUPEVENT_0_r,GPIO_WK3_WAKEUPEVENT_1_r"
newline
bitfld.long 0x04 30. "GPIO_WK3_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPIO_WK3_WAKEUPENABLE_0,GPIO_WK3_WAKEUPENABLE_1"
newline
bitfld.long 0x04 24. "GPIO_WK3_INPUTENABLE,Input enable value for pad gpio_wk3" "GPIO_WK3_INPUTENABLE_0,GPIO_WK3_INPUTENABLE_1"
newline
bitfld.long 0x04 20. "GPIO_WK3_PULLTYPESELECT,pullup/down selection for pad gpio_wk3" "GPIO_WK3_PULLTYPESELECT_0,GPIO_WK3_PULLTYPESELECT_1"
newline
bitfld.long 0x04 19. "GPIO_WK3_PULLUDENABLE,pullup/down enable for pad gpio_wk3" "GPIO_WK3_PULLUDENABLE_0,GPIO_WK3_PULLUDENABLE_1"
newline
bitfld.long 0x04 16.--18. "GPIO_WK3_MUXMODE,Functional multiplexing selection for pad gpio_wk3" "GPIO_WK3_MUXMODE_0,?,?,GPIO_WK3_MUXMODE_3,?,?,GPIO_WK3_MUXMODE_6,GPIO_WK3_MUXMODE_7"
newline
rbitfld.long 0x04 15. "GPIO_WK2_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPIO_WK2_WAKEUPEVENT_0_r,GPIO_WK2_WAKEUPEVENT_1_r"
newline
bitfld.long 0x04 14. "GPIO_WK2_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPIO_WK2_WAKEUPENABLE_0,GPIO_WK2_WAKEUPENABLE_1"
newline
bitfld.long 0x04 8. "GPIO_WK2_INPUTENABLE,Input enable value for pad gpio_wk2" "GPIO_WK2_INPUTENABLE_0,GPIO_WK2_INPUTENABLE_1"
newline
bitfld.long 0x04 4. "GPIO_WK2_PULLTYPESELECT,pullup/down selection for pad gpio_wk2" "GPIO_WK2_PULLTYPESELECT_0,GPIO_WK2_PULLTYPESELECT_1"
newline
bitfld.long 0x04 3. "GPIO_WK2_PULLUDENABLE,pullup/down enable for pad gpio_wk2" "GPIO_WK2_PULLUDENABLE_0,GPIO_WK2_PULLUDENABLE_1"
newline
bitfld.long 0x04 0.--2. "GPIO_WK2_MUXMODE,Functional multiplexing selection for pad gpio_wk2" "GPIO_WK2_MUXMODE_0,?,?,GPIO_WK2_MUXMODE_3,?,?,GPIO_WK2_MUXMODE_6,GPIO_WK2_MUXMODE_7"
line.long 0x08 "CONTROL_WKUP_PAD0_GPIO_WK4_PAD1_SR_SCL,Register control for Pads gpio_wk4 and sr_scl Access conditions"
rbitfld.long 0x08 31. "SR_SCL_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "SR_SCL_WAKEUPEVENT_0_r,SR_SCL_WAKEUPEVENT_1_r"
newline
bitfld.long 0x08 30. "SR_SCL_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "SR_SCL_WAKEUPENABLE_0,SR_SCL_WAKEUPENABLE_1"
newline
bitfld.long 0x08 24. "SR_SCL_INPUTENABLE,Input enable value for pad sr_scl" "SR_SCL_INPUTENABLE_0,SR_SCL_INPUTENABLE_1"
newline
bitfld.long 0x08 20. "SR_SCL_PULLTYPESELECT,pullup/down selection for pad sr_scl" "SR_SCL_PULLTYPESELECT_0,SR_SCL_PULLTYPESELECT_1"
newline
bitfld.long 0x08 19. "SR_SCL_PULLUDENABLE,pullup/down enable for pad sr_scl" "SR_SCL_PULLUDENABLE_0,SR_SCL_PULLUDENABLE_1"
newline
rbitfld.long 0x08 15. "GPIO_WK4_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "GPIO_WK4_WAKEUPEVENT_0_r,GPIO_WK4_WAKEUPEVENT_1_r"
newline
bitfld.long 0x08 14. "GPIO_WK4_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "GPIO_WK4_WAKEUPENABLE_0,GPIO_WK4_WAKEUPENABLE_1"
newline
bitfld.long 0x08 8. "GPIO_WK4_INPUTENABLE,Input enable value for pad gpio_wk4" "GPIO_WK4_INPUTENABLE_0,GPIO_WK4_INPUTENABLE_1"
newline
bitfld.long 0x08 4. "GPIO_WK4_PULLTYPESELECT,pullup/down selection for pad gpio_wk4" "GPIO_WK4_PULLTYPESELECT_0,GPIO_WK4_PULLTYPESELECT_1"
newline
bitfld.long 0x08 3. "GPIO_WK4_PULLUDENABLE,pullup/down enable for pad gpio_wk4" "GPIO_WK4_PULLUDENABLE_0,GPIO_WK4_PULLUDENABLE_1"
newline
bitfld.long 0x08 0.--2. "GPIO_WK4_MUXMODE,Functional multiplexing selection for pad gpio_wk4" "GPIO_WK4_MUXMODE_0,?,?,GPIO_WK4_MUXMODE_3,?,?,GPIO_WK4_MUXMODE_6,GPIO_WK4_MUXMODE_7"
line.long 0x0C "CONTROL_WKUP_PAD0_SR_SDA_PAD1_FREF_XTAL_IN,Register control for Pads sr_sda and fref_xtal_in Access conditions"
bitfld.long 0x0C 16.--18. "FREF_XTAL_IN_MUXMODE,Functional multiplexing selection for pad fref_xtal_in" "FREF_XTAL_IN_MUXMODE_0,?,?,?,FREF_XTAL_IN_MUXMODE_4,?,?,?"
newline
rbitfld.long 0x0C 15. "SR_SDA_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "SR_SDA_WAKEUPEVENT_0_r,SR_SDA_WAKEUPEVENT_1_r"
newline
bitfld.long 0x0C 14. "SR_SDA_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "SR_SDA_WAKEUPENABLE_0,SR_SDA_WAKEUPENABLE_1"
newline
bitfld.long 0x0C 8. "SR_SDA_INPUTENABLE,Input enable value for pad sr_sda" "SR_SDA_INPUTENABLE_0,SR_SDA_INPUTENABLE_1"
newline
bitfld.long 0x0C 4. "SR_SDA_PULLTYPESELECT,pullup/down selection for pad sr_sda" "SR_SDA_PULLTYPESELECT_0,SR_SDA_PULLTYPESELECT_1"
newline
bitfld.long 0x0C 3. "SR_SDA_PULLUDENABLE,pullup/down enable for pad sr_sda" "SR_SDA_PULLUDENABLE_0,SR_SDA_PULLUDENABLE_1"
line.long 0x10 "CONTROL_WKUP_PAD0_FREF_SLICER_IN_PAD1_FREF_CLK_IOREQ,Register control for Pads fref_slicer_in and fref_clk_ioreq Access conditions"
rbitfld.long 0x10 31. "FREF_CLK_IOREQ_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "FREF_CLK_IOREQ_WAKEUPEVENT_0_r,FREF_CLK_IOREQ_WAKEUPEVENT_1_r"
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bitfld.long 0x10 30. "FREF_CLK_IOREQ_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "FREF_CLK_IOREQ_WAKEUPENABLE_0,FREF_CLK_IOREQ_WAKEUPENABLE_1"
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bitfld.long 0x10 24. "FREF_CLK_IOREQ_INPUTENABLE,Input enable value for pad fref_clk_ioreq" "FREF_CLK_IOREQ_INPUTENABLE_0,FREF_CLK_IOREQ_INPUTENABLE_1"
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bitfld.long 0x10 20. "FREF_CLK_IOREQ_PULLTYPESELECT,pullup/down selection for pad fref_clk_ioreq" "FREF_CLK_IOREQ_PULLTYPESELECT_0,FREF_CLK_IOREQ_PULLTYPESELECT_1"
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bitfld.long 0x10 19. "FREF_CLK_IOREQ_PULLUDENABLE,pullup/down enable for pad fref_clk_ioreq" "FREF_CLK_IOREQ_PULLUDENABLE_0,FREF_CLK_IOREQ_PULLUDENABLE_1"
newline
bitfld.long 0x10 0.--2. "FREF_SLICER_IN_MUXMODE,Functional multiplexing selection for pad fref_slicer_in" "FREF_SLICER_IN_MUXMODE_0,?,?,FREF_SLICER_IN_MUXMODE_3,FREF_SLICER_IN_MUXMODE_4,?,?,FREF_SLICER_IN_MUXMODE_7"
line.long 0x14 "CONTROL_WKUP_PAD0_FREF_CLK0_OUT_PAD1_FREF_CLK3_REQ,Register control for Pads fref_clk0_out and fref_clk3_req Access conditions"
rbitfld.long 0x14 31. "FREF_CLK3_REQ_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "FREF_CLK3_REQ_WAKEUPEVENT_0_r,FREF_CLK3_REQ_WAKEUPEVENT_1_r"
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bitfld.long 0x14 30. "FREF_CLK3_REQ_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "FREF_CLK3_REQ_WAKEUPENABLE_0,FREF_CLK3_REQ_WAKEUPENABLE_1"
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bitfld.long 0x14 24. "FREF_CLK3_REQ_INPUTENABLE,Input enable value for pad fref_clk3_req" "FREF_CLK3_REQ_INPUTENABLE_0,FREF_CLK3_REQ_INPUTENABLE_1"
newline
bitfld.long 0x14 20. "FREF_CLK3_REQ_PULLTYPESELECT,pullup/down selection for pad fref_clk3_req" "FREF_CLK3_REQ_PULLTYPESELECT_0,FREF_CLK3_REQ_PULLTYPESELECT_1"
newline
bitfld.long 0x14 19. "FREF_CLK3_REQ_PULLUDENABLE,pullup/down enable for pad fref_clk3_req" "FREF_CLK3_REQ_PULLUDENABLE_0,FREF_CLK3_REQ_PULLUDENABLE_1"
newline
bitfld.long 0x14 16.--18. "FREF_CLK3_REQ_MUXMODE,Functional multiplexing selection for pad fref_clk3_req" "FREF_CLK3_REQ_MUXMODE_0,FREF_CLK3_REQ_MUXMODE_1,FREF_CLK3_REQ_MUXMODE_2,FREF_CLK3_REQ_MUXMODE_3,FREF_CLK3_REQ_MUXMODE_4,FREF_CLK3_REQ_MUXMODE_5,FREF_CLK3_REQ_MUXMODE_6,FREF_CLK3_REQ_MUXMODE_7"
newline
rbitfld.long 0x14 15. "FREF_CLK0_OUT_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "FREF_CLK0_OUT_WAKEUPEVENT_0_r,FREF_CLK0_OUT_WAKEUPEVENT_1_r"
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bitfld.long 0x14 14. "FREF_CLK0_OUT_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "FREF_CLK0_OUT_WAKEUPENABLE_0,FREF_CLK0_OUT_WAKEUPENABLE_1"
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bitfld.long 0x14 8. "FREF_CLK0_OUT_INPUTENABLE,Input enable value for pad fref_clk0_out" "FREF_CLK0_OUT_INPUTENABLE_0,FREF_CLK0_OUT_INPUTENABLE_1"
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bitfld.long 0x14 4. "FREF_CLK0_OUT_PULLTYPESELECT,pullup/down selection for pad fref_clk0_out" "FREF_CLK0_OUT_PULLTYPESELECT_0,FREF_CLK0_OUT_PULLTYPESELECT_1"
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bitfld.long 0x14 3. "FREF_CLK0_OUT_PULLUDENABLE,pullup/down enable for pad fref_clk0_out" "FREF_CLK0_OUT_PULLUDENABLE_0,FREF_CLK0_OUT_PULLUDENABLE_1"
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bitfld.long 0x14 0.--2. "FREF_CLK0_OUT_MUXMODE,Functional multiplexing selection for pad fref_clk0_out" "FREF_CLK0_OUT_MUXMODE_0,FREF_CLK0_OUT_MUXMODE_1,FREF_CLK0_OUT_MUXMODE_2,FREF_CLK0_OUT_MUXMODE_3,?,FREF_CLK0_OUT_MUXMODE_5,FREF_CLK0_OUT_MUXMODE_6,FREF_CLK0_OUT_MUXMODE_7"
line.long 0x18 "CONTROL_WKUP_PAD0_FREF_CLK3_OUT_PAD1_FREF_CLK4_REQ,Register control for Pads fref_clk3_out and fref_clk4_req Access conditions"
rbitfld.long 0x18 31. "FREF_CLK4_REQ_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "FREF_CLK4_REQ_WAKEUPEVENT_0_r,FREF_CLK4_REQ_WAKEUPEVENT_1_r"
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bitfld.long 0x18 30. "FREF_CLK4_REQ_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "FREF_CLK4_REQ_WAKEUPENABLE_0,FREF_CLK4_REQ_WAKEUPENABLE_1"
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bitfld.long 0x18 24. "FREF_CLK4_REQ_INPUTENABLE,Input enable value for pad fref_clk4_req" "FREF_CLK4_REQ_INPUTENABLE_0,FREF_CLK4_REQ_INPUTENABLE_1"
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bitfld.long 0x18 20. "FREF_CLK4_REQ_PULLTYPESELECT,pullup/down selection for pad fref_clk4_req" "FREF_CLK4_REQ_PULLTYPESELECT_0,FREF_CLK4_REQ_PULLTYPESELECT_1"
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bitfld.long 0x18 19. "FREF_CLK4_REQ_PULLUDENABLE,pullup/down enable for pad fref_clk4_req" "FREF_CLK4_REQ_PULLUDENABLE_0,FREF_CLK4_REQ_PULLUDENABLE_1"
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bitfld.long 0x18 16.--18. "FREF_CLK4_REQ_MUXMODE,Functional multiplexing selection for pad fref_clk4_req" "FREF_CLK4_REQ_MUXMODE_0,FREF_CLK4_REQ_MUXMODE_1,?,FREF_CLK4_REQ_MUXMODE_3,?,FREF_CLK4_REQ_MUXMODE_5,FREF_CLK4_REQ_MUXMODE_6,?"
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rbitfld.long 0x18 15. "FREF_CLK3_OUT_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "FREF_CLK3_OUT_WAKEUPEVENT_0_r,FREF_CLK3_OUT_WAKEUPEVENT_1_r"
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bitfld.long 0x18 14. "FREF_CLK3_OUT_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "FREF_CLK3_OUT_WAKEUPENABLE_0,FREF_CLK3_OUT_WAKEUPENABLE_1"
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bitfld.long 0x18 8. "FREF_CLK3_OUT_INPUTENABLE,Input enable value for pad fref_clk3_out" "FREF_CLK3_OUT_INPUTENABLE_0,FREF_CLK3_OUT_INPUTENABLE_1"
newline
bitfld.long 0x18 4. "FREF_CLK3_OUT_PULLTYPESELECT,pullup/down selection for pad fref_clk3_out" "FREF_CLK3_OUT_PULLTYPESELECT_0,FREF_CLK3_OUT_PULLTYPESELECT_1"
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bitfld.long 0x18 3. "FREF_CLK3_OUT_PULLUDENABLE,pullup/down enable for pad fref_clk3_out" "FREF_CLK3_OUT_PULLUDENABLE_0,FREF_CLK3_OUT_PULLUDENABLE_1"
newline
bitfld.long 0x18 0.--2. "FREF_CLK3_OUT_MUXMODE,Functional multiplexing selection for pad fref_clk3_out" "FREF_CLK3_OUT_MUXMODE_0,FREF_CLK3_OUT_MUXMODE_1,FREF_CLK3_OUT_MUXMODE_2,FREF_CLK3_OUT_MUXMODE_3,FREF_CLK3_OUT_MUXMODE_4,FREF_CLK3_OUT_MUXMODE_5,FREF_CLK3_OUT_MUXMODE_6,FREF_CLK3_OUT_MUXMODE_7"
line.long 0x1C "CONTROL_WKUP_PAD0_FREF_CLK4_OUT_PAD1_SYS_32K,Register control for Pads fref_clk4_out and sys_32k Access conditions"
rbitfld.long 0x1C 31. "SYS_32K_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "SYS_32K_WAKEUPEVENT_0_r,SYS_32K_WAKEUPEVENT_1_r"
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bitfld.long 0x1C 30. "SYS_32K_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "SYS_32K_WAKEUPENABLE_0,SYS_32K_WAKEUPENABLE_1"
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bitfld.long 0x1C 24. "SYS_32K_INPUTENABLE,Input enable value for pad sys_32k" "SYS_32K_INPUTENABLE_0,SYS_32K_INPUTENABLE_1"
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bitfld.long 0x1C 20. "SYS_32K_PULLTYPESELECT,pullup/down selection for pad sys_32k" "SYS_32K_PULLTYPESELECT_0,SYS_32K_PULLTYPESELECT_1"
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bitfld.long 0x1C 19. "SYS_32K_PULLUDENABLE,pullup/down enable for pad sys_32k" "SYS_32K_PULLUDENABLE_0,SYS_32K_PULLUDENABLE_1"
newline
rbitfld.long 0x1C 15. "FREF_CLK4_OUT_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "FREF_CLK4_OUT_WAKEUPEVENT_0_r,FREF_CLK4_OUT_WAKEUPEVENT_1_r"
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bitfld.long 0x1C 14. "FREF_CLK4_OUT_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "FREF_CLK4_OUT_WAKEUPENABLE_0,FREF_CLK4_OUT_WAKEUPENABLE_1"
newline
bitfld.long 0x1C 8. "FREF_CLK4_OUT_INPUTENABLE,Input enable value for pad fref_clk4_out" "FREF_CLK4_OUT_INPUTENABLE_0,FREF_CLK4_OUT_INPUTENABLE_1"
newline
bitfld.long 0x1C 4. "FREF_CLK4_OUT_PULLTYPESELECT,pullup/down selection for pad fref_clk4_out" "FREF_CLK4_OUT_PULLTYPESELECT_0,FREF_CLK4_OUT_PULLTYPESELECT_1"
newline
bitfld.long 0x1C 3. "FREF_CLK4_OUT_PULLUDENABLE,pullup/down enable for pad fref_clk4_out" "FREF_CLK4_OUT_PULLUDENABLE_0,FREF_CLK4_OUT_PULLUDENABLE_1"
newline
bitfld.long 0x1C 0.--2. "FREF_CLK4_OUT_MUXMODE,Functional multiplexing selection for pad fref_clk4_out" "FREF_CLK4_OUT_MUXMODE_0,?,?,FREF_CLK4_OUT_MUXMODE_3,?,?,FREF_CLK4_OUT_MUXMODE_6,?"
line.long 0x20 "CONTROL_WKUP_PAD0_SYS_NRESPWRON_PAD1_SYS_NRESWARM,Register control for Pads sys_nreswarm Access conditions"
rbitfld.long 0x20 31. "SYS_NRESWARM_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "SYS_NRESWARM_WAKEUPEVENT_0_r,SYS_NRESWARM_WAKEUPEVENT_1_r"
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bitfld.long 0x20 30. "SYS_NRESWARM_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "SYS_NRESWARM_WAKEUPENABLE_0,SYS_NRESWARM_WAKEUPENABLE_1"
line.long 0x24 "CONTROL_WKUP_PAD0_SYS_PWR_REQ_PAD1_SYS_PWRON_RESET_OUT,Register control for Pads sys_pwr_req and sys_pwron_reset_out Access conditions"
rbitfld.long 0x24 31. "SYS_PWRON_ RESET_OUT_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "SYS_PWRON_ RESET_OUT_WAKEUPEVENT_0_r,SYS_PWRON_ RESET_OUT_WAKEUPEVENT_1_r"
newline
bitfld.long 0x24 30. "SYS_PWRON_ RESET_OUT_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "SYS_PWRON_ RESET_OUT_WAKEUPENABLE_0,SYS_PWRON_ RESET_OUT_WAKEUPENABLE_1"
newline
bitfld.long 0x24 24. "SYS_PWRON_ RESET_OUT_INPUTENABLE,Input enable value for pad sys_pwron_reset_out" "SYS_PWRON_ RESET_OUT_INPUTENABLE_0,SYS_PWRON_ RESET_OUT_INPUTENABLE_1"
newline
bitfld.long 0x24 20. "SYS_PWRON_ RESET_OUT_PULLTYPESELECT,pullup/down selection for pad sys_pwron_reset_out" "SYS_PWRON_ RESET_OUT_PULLTYPESELECT_0,SYS_PWRON_ RESET_OUT_PULLTYPESELECT_1"
newline
bitfld.long 0x24 19. "SYS_PWRON_ RESET_OUT_PULLUDENABLE,pullup/down enable for pad sys_pwron_reset_out" "SYS_PWRON_ RESET_OUT_PULLUDENABLE_0,SYS_PWRON_ RESET_OUT_PULLUDENABLE_1"
newline
bitfld.long 0x24 16.--18. "SYS_PWRON_ RESET_OUT_MUXMODE,Functional multiplexing selection for pad sys_pwron_reset_out" "SYS_PWRON_ RESET_OUT_MUXMODE_0,?,?,SYS_PWRON_ RESET_OUT_MUXMODE_3,?,SYS_PWRON_ RESET_OUT_MUXMODE_5,SYS_PWRON_ RESET_OUT_MUXMODE_6,?"
newline
rbitfld.long 0x24 15. "SYS_PWR_ REQ_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "SYS_PWR_ REQ_WAKEUPEVENT_0_r,SYS_PWR_ REQ_WAKEUPEVENT_1_r"
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bitfld.long 0x24 14. "SYS_PWR_ REQ_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "SYS_PWR_ REQ_WAKEUPENABLE_0,SYS_PWR_ REQ_WAKEUPENABLE_1"
newline
bitfld.long 0x24 8. "SYS_PWR_ REQ_INPUTENABLE,Input enable value for pad sys_pwr_req" "SYS_PWR_ REQ_INPUTENABLE_0,SYS_PWR_ REQ_INPUTENABLE_1"
newline
bitfld.long 0x24 4. "SYS_PWR_ REQ_PULLTYPESELECT,pullup/down selection for pad sys_pwr_req" "SYS_PWR_ REQ_PULLTYPESELECT_0,SYS_PWR_ REQ_PULLTYPESELECT_1"
newline
bitfld.long 0x24 3. "SYS_PWR_ REQ_PULLUDENABLE,pullup/down enable for pad sys_pwr_req" "SYS_PWR_ REQ_PULLUDENABLE_0,SYS_PWR_ REQ_PULLUDENABLE_1"
line.long 0x28 "CONTROL_WKUP_PAD0_SYS_BOOT6_PAD1_SYS_BOOT7,Register control for Pads sys_boot6 and sys_boot7 Access conditions"
rbitfld.long 0x28 31. "SYS_BOOT7_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "SYS_BOOT7_WAKEUPEVENT_0_r,SYS_BOOT7_WAKEUPEVENT_1_r"
newline
bitfld.long 0x28 30. "SYS_BOOT7_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "SYS_BOOT7_WAKEUPENABLE_0,SYS_BOOT7_WAKEUPENABLE_1"
newline
bitfld.long 0x28 24. "SYS_BOOT7_INPUTENABLE,Input enable value for pad sys_boot7" "SYS_BOOT7_INPUTENABLE_0,SYS_BOOT7_INPUTENABLE_1"
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bitfld.long 0x28 20. "SYS_BOOT7_PULLTYPESELECT,pullup/down selection for pad sys_boot7" "SYS_BOOT7_PULLTYPESELECT_0,SYS_BOOT7_PULLTYPESELECT_1"
newline
bitfld.long 0x28 19. "SYS_BOOT7_PULLUDENABLE,pullup/down enable for pad sys_boot7" "SYS_BOOT7_PULLUDENABLE_0,SYS_BOOT7_PULLUDENABLE_1"
newline
bitfld.long 0x28 16.--18. "SYS_BOOT7_MUXMODE,Functional multiplexing selection for pad sys_boot7" "SYS_BOOT7_MUXMODE_0,SYS_BOOT7_MUXMODE_1,?,SYS_BOOT7_MUXMODE_3,?,?,SYS_BOOT7_MUXMODE_6,SYS_BOOT7_MUXMODE_7"
newline
rbitfld.long 0x28 15. "SYS_BOOT6_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "SYS_BOOT6_WAKEUPEVENT_0_r,SYS_BOOT6_WAKEUPEVENT_1_r"
newline
bitfld.long 0x28 14. "SYS_BOOT6_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "SYS_BOOT6_WAKEUPENABLE_0,SYS_BOOT6_WAKEUPENABLE_1"
newline
bitfld.long 0x28 8. "SYS_BOOT6_INPUTENABLE,Input enable value for pad sys_boot6" "SYS_BOOT6_INPUTENABLE_0,SYS_BOOT6_INPUTENABLE_1"
newline
bitfld.long 0x28 4. "SYS_BOOT6_PULLTYPESELECT,pullup/down selection for pad sys_boot6" "SYS_BOOT6_PULLTYPESELECT_0,SYS_BOOT6_PULLTYPESELECT_1"
newline
bitfld.long 0x28 3. "SYS_BOOT6_PULLUDENABLE,pullup/down enable for pad sys_boot6" "SYS_BOOT6_PULLUDENABLE_0,SYS_BOOT6_PULLUDENABLE_1"
newline
bitfld.long 0x28 0.--2. "SYS_BOOT6_MUXMODE,Functional multiplexing selection for pad sys_boot6" "SYS_BOOT6_MUXMODE_0,SYS_BOOT6_MUXMODE_1,?,SYS_BOOT6_MUXMODE_3,SYS_BOOT6_MUXMODE_4,?,SYS_BOOT6_MUXMODE_6,SYS_BOOT6_MUXMODE_7"
line.long 0x2C "CONTROL_WKUP_PAD0_JTAG_NTRST_PAD1_JTAG_TCK,Register control for Pads jtag_ntrst and jtag_tck Access conditions"
rbitfld.long 0x2C 31. "JTAG_TCK_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "JTAG_TCK_WAKEUPEVENT_0_r,JTAG_TCK_WAKEUPEVENT_1_r"
newline
bitfld.long 0x2C 30. "JTAG_TCK_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "JTAG_TCK_WAKEUPENABLE_0,JTAG_TCK_WAKEUPENABLE_1"
newline
bitfld.long 0x2C 24. "JTAG_TCK_INPUTENABLE,Input enable value for pad jtag_tck" "JTAG_TCK_INPUTENABLE_0,JTAG_TCK_INPUTENABLE_1"
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bitfld.long 0x2C 20. "JTAG_TCK_PULLTYPESELECT,pullup/down selection for pad jtag_tck" "JTAG_TCK_PULLTYPESELECT_0,JTAG_TCK_PULLTYPESELECT_1"
newline
bitfld.long 0x2C 19. "JTAG_TCK_PULLUDENABLE,pullup/down enable for pad jtag_tck" "JTAG_TCK_PULLUDENABLE_0,JTAG_TCK_PULLUDENABLE_1"
newline
bitfld.long 0x2C 16.--18. "JTAG_TCK_MUXMODE,Functional multiplexing selection for pad jtag_tck" "JTAG_TCK_MUXMODE_0,?,?,?,?,?,?,JTAG_TCK_MUXMODE_7"
newline
rbitfld.long 0x2C 15. "JTAG_NTRST_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "JTAG_NTRST_WAKEUPEVENT_0_r,JTAG_NTRST_WAKEUPEVENT_1_r"
newline
bitfld.long 0x2C 14. "JTAG_NTRST_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "JTAG_NTRST_WAKEUPENABLE_0,JTAG_NTRST_WAKEUPENABLE_1"
newline
bitfld.long 0x2C 8. "JTAG_NTRST_INPUTENABLE,Input enable value for pad jtag_ntrst" "JTAG_NTRST_INPUTENABLE_0,JTAG_NTRST_INPUTENABLE_1"
newline
bitfld.long 0x2C 4. "JTAG_NTRST_PULLTYPESELECT,pullup/down selection for pad jtag_ntrst" "JTAG_NTRST_PULLTYPESELECT_0,JTAG_NTRST_PULLTYPESELECT_1"
newline
bitfld.long 0x2C 3. "JTAG_NTRST_PULLUDENABLE,pullup/down enable for pad jtag_ntrst" "JTAG_NTRST_PULLUDENABLE_0,JTAG_NTRST_PULLUDENABLE_1"
line.long 0x30 "CONTROL_WKUP_PAD0_JTAG_RTCK_PAD1_JTAG_TMS_TMSC,Register control for Pads jtag_rtck and jtag_tms_tmsc Access conditions"
rbitfld.long 0x30 31. "JTAG_TMS_TMSC_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "JTAG_TMS_TMSC_WAKEUPEVENT_0_r,JTAG_TMS_TMSC_WAKEUPEVENT_1_r"
newline
bitfld.long 0x30 30. "JTAG_TMS_TMSC_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "JTAG_TMS_TMSC_WAKEUPENABLE_0,JTAG_TMS_TMSC_WAKEUPENABLE_1"
newline
bitfld.long 0x30 24. "JTAG_TMS_TMSC_INPUTENABLE,Input enable value for pad jtag_tms_tmsc" "JTAG_TMS_TMSC_INPUTENABLE_0,JTAG_TMS_TMSC_INPUTENABLE_1"
newline
bitfld.long 0x30 16.--18. "JTAG_TMS_TMSC_MUXMODE,Functional multiplexing selection for pad jtag_tms_tmsc" "JTAG_TMS_TMSC_MUXMODE_0,?,?,?,?,?,?,JTAG_TMS_TMSC_MUXMODE_7"
newline
rbitfld.long 0x30 15. "JTAG_RTCK_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "JTAG_RTCK_WAKEUPEVENT_0_r,JTAG_RTCK_WAKEUPEVENT_1_r"
newline
bitfld.long 0x30 14. "JTAG_RTCK_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "JTAG_RTCK_WAKEUPENABLE_0,JTAG_RTCK_WAKEUPENABLE_1"
newline
bitfld.long 0x30 4. "JTAG_RTCK_PULLTYPESELECT,pullup/down selection for pad jtag_rtck" "JTAG_RTCK_PULLTYPESELECT_0,JTAG_RTCK_PULLTYPESELECT_1"
newline
bitfld.long 0x30 3. "JTAG_RTCK_PULLUDENABLE,pullup/down enable for pad jtag_rtck" "JTAG_RTCK_PULLUDENABLE_0,JTAG_RTCK_PULLUDENABLE_1"
line.long 0x34 "CONTROL_WKUP_PAD0_JTAG_TDI_PAD1_JTAG_TDO,Register control for Pads jtag_tdi and jtag_tdo Access conditions"
rbitfld.long 0x34 31. "JTAG_TDO_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "JTAG_TDO_WAKEUPEVENT_0_r,JTAG_TDO_WAKEUPEVENT_1_r"
newline
bitfld.long 0x34 30. "JTAG_TDO_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "JTAG_TDO_WAKEUPENABLE_0,JTAG_TDO_WAKEUPENABLE_1"
newline
bitfld.long 0x34 24. "JTAG_TDO_INPUTENABLE,Input enable value for pad jtag_tdo" "JTAG_TDO_INPUTENABLE_0,JTAG_TDO_INPUTENABLE_1"
newline
bitfld.long 0x34 20. "JTAG_TDO_PULLTYPESELECT,pullup/down selection for pad jtag_tdo" "JTAG_TDO_PULLTYPESELECT_0,JTAG_TDO_PULLTYPESELECT_1"
newline
bitfld.long 0x34 19. "JTAG_TDO_PULLUDENABLE,pullup/down enable for pad jtag_tdo" "JTAG_TDO_PULLUDENABLE_0,JTAG_TDO_PULLUDENABLE_1"
newline
rbitfld.long 0x34 15. "JTAG_TDI_WAKEUPEVENT,Pad_x wake-up event status latched in the IO" "JTAG_TDI_WAKEUPEVENT_0_r,JTAG_TDI_WAKEUPEVENT_1_r"
newline
bitfld.long 0x34 14. "JTAG_TDI_WAKEUPENABLE,Input pad wake-up enable (and OFF mode input enable value)" "JTAG_TDI_WAKEUPENABLE_0,JTAG_TDI_WAKEUPENABLE_1"
newline
bitfld.long 0x34 8. "JTAG_TDI_INPUTENABLE,Input enable value for pad jtag_tdi" "JTAG_TDI_INPUTENABLE_0,JTAG_TDI_INPUTENABLE_1"
newline
bitfld.long 0x34 4. "JTAG_TDI_PULLTYPESELECT,pullup/down selection for pad jtag_tdi" "JTAG_TDI_PULLTYPESELECT_0,JTAG_TDI_PULLTYPESELECT_1"
newline
bitfld.long 0x34 3. "JTAG_TDI_PULLUDENABLE,pullup/down enable for pad jtag_tdi" "JTAG_TDI_PULLUDENABLE_0,JTAG_TDI_PULLUDENABLE_1"
rgroup.long 0x7C++0x03
line.long 0x00 "CONTROL_WKUP_PADCONF_WAKEUPEVENT_0,Access conditions"
bitfld.long 0x00 24. "JTAG_TDO_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad jtag_tdo" "JTAG_TDO_DUPLICATEWAKEUPEVENT_0_r,JTAG_TDO_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x00 23. "JTAG_TDI_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad jtag_tdi" "JTAG_TDI_DUPLICATEWAKEUPEVENT_0_r,JTAG_TDI_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x00 22. "JTAG_TMS_TMSC_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad jtag_tms_tmsc" "JTAG_TMS_TMSC_DUPLICATEWAKEUPEVENT_0_r,JTAG_TMS_TMSC_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x00 21. "JTAG_RTCK_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad jtag_rtck" "JTAG_RTCK_DUPLICATEWAKEUPEVENT_0_r,JTAG_RTCK_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x00 20. "JTAG_TCK_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad jtag_tck" "JTAG_TCK_DUPLICATEWAKEUPEVENT_0_r,JTAG_TCK_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x00 19. "JTAG_NTRST_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad jtag_ntrst" "JTAG_NTRST_DUPLICATEWAKEUPEVENT_0_r,JTAG_NTRST_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x00 18. "SYS_BOOT7_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad sys_boot7" "SYS_BOOT7_DUPLICATEWAKEUPEVENT_0_r,SYS_BOOT7_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x00 17. "SYS_BOOT6_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad sys_boot6" "SYS_BOOT6_DUPLICATEWAKEUPEVENT_0_r,SYS_BOOT6_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x00 16. "SYS_PWRON_RESET_OUT_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad sys_pwron_reset_out" "SYS_PWRON_RESET_OUT_DUPLICATEWAKEUPEVENT_0_r,SYS_PWRON_RESET_OUT_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x00 15. "SYS_PWR_REQ_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad sys_pwr_req" "SYS_PWR_REQ_DUPLICATEWAKEUPEVENT_0_r,SYS_PWR_REQ_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x00 14. "SYS_NRESWARM_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad sys_nreswarm" "SYS_NRESWARM_DUPLICATEWAKEUPEVENT_0_r,SYS_NRESWARM_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x00 13. "SYS_32K_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad sys_32k" "SYS_32K_DUPLICATEWAKEUPEVENT_0_r,SYS_32K_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x00 12. "FREF_CLK4_OUT_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad fref_clk4_out" "FREF_CLK4_OUT_DUPLICATEWAKEUPEVENT_0_r,FREF_CLK4_OUT_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x00 11. "FREF_CLK4_REQ_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad fref_clk4_req" "FREF_CLK4_REQ_DUPLICATEWAKEUPEVENT_0_r,FREF_CLK4_REQ_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x00 10. "FREF_CLK3_OUT_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad fref_clk3_out" "FREF_CLK3_OUT_DUPLICATEWAKEUPEVENT_0_r,FREF_CLK3_OUT_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x00 9. "FREF_CLK3_REQ_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad fref_clk3_req" "FREF_CLK3_REQ_DUPLICATEWAKEUPEVENT_0_r,FREF_CLK3_REQ_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x00 8. "FREF_CLK0_OUT_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad fref_clk0_out" "FREF_CLK0_OUT_DUPLICATEWAKEUPEVENT_0_r,FREF_CLK0_OUT_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x00 7. "FREF_CLK_IOREQ_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad fref_clk_ioreq" "FREF_CLK_IOREQ_DUPLICATEWAKEUPEVENT_0_r,FREF_CLK_IOREQ_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x00 6. "SR_SDA_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad sr_sda" "SR_SDA_DUPLICATEWAKEUPEVENT_0_r,SR_SDA_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x00 5. "SR_SCL_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad sr_scl" "SR_SCL_DUPLICATEWAKEUPEVENT_0_r,SR_SCL_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x00 4. "GPIO_WK4_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpio_wk4" "GPIO_WK4_DUPLICATEWAKEUPEVENT_0_r,GPIO_WK4_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x00 3. "GPIO_WK3_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpio_wk3" "GPIO_WK3_DUPLICATEWAKEUPEVENT_0_r,GPIO_WK3_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x00 2. "GPIO_WK2_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpio_wk2" "GPIO_WK2_DUPLICATEWAKEUPEVENT_0_r,GPIO_WK2_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x00 1. "GPIO_WK1_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpio_wk1" "GPIO_WK1_DUPLICATEWAKEUPEVENT_0_r,GPIO_WK1_DUPLICATEWAKEUPEVENT_1_r"
newline
bitfld.long 0x00 0. "GPIO_WK0_DUPLICATEWAKEUPEVENT,Wake-up event status latched in the I/O for pad gpio_wk0" "GPIO_WK0_DUPLICATEWAKEUPEVENT_0_r,GPIO_WK0_DUPLICATEWAKEUPEVENT_1_r"
group.long 0x5A0++0x17
line.long 0x00 "CONTROL_SMART1NOPMIO_PADCONF_0,SMART1 NOPM I/O control 0 Access conditions"
bitfld.long 0x00 30.--31. "FREF_DR0_SC,Slew rate control for group fref_dr0 Refer to section Low Speed I/Os Combined Slew Rate vs TL Length and Load Settings for more details on SR settings" "FREF_DR0_SC_0,FREF_DR0_SC_1,FREF_DR0_SC_2,FREF_DR0_SC_3"
newline
bitfld.long 0x00 18.--19. "GPIO_DR7_SC,Slew rate control for group gpio_dr7 Refer to section Low Speed I/Os Combined Slew Rate vs TL Length and Load Settings for more details on SR settings" "GPIO_DR7_SC_0,GPIO_DR7_SC_1,GPIO_DR7_SC_2,GPIO_DR7_SC_3"
newline
bitfld.long 0x00 14.--15. "DPM_DR0_SC,Slew rate control for group dpm_dr0 Refer to section Low Speed I/Os Combined Slew Rate vs TL Length and Load Settings for more details on SR settings" "DPM_DR0_SC_0,DPM_DR0_SC_1,DPM_DR0_SC_2,DPM_DR0_SC_3"
newline
bitfld.long 0x00 12.--13. "GPIOWK4_DR0_SC,Slew rate control for group gpiowk4_dr0 Refer to section Low Speed I/Os Combined Slew Rate vs TL Length and Load Settings for more details on SR settings" "0,1,2,3"
line.long 0x04 "CONTROL_SMART1NOPMIO_PADCONF_1,SMART1 NOPM I/O control 1 Access conditions"
bitfld.long 0x04 30.--31. "FREF_DR0_LB,Load control for group fref_dr0" "FREF_DR0_LB_0,FREF_DR0_LB_1,FREF_DR0_LB_2,FREF_DR0_LB_3"
newline
bitfld.long 0x04 18.--19. "GPIO_DR7_LB,Load control for group gpio_dr7" "GPIO_DR7_LB_0,GPIO_DR7_LB_1,GPIO_DR7_LB_2,GPIO_DR7_LB_3"
newline
bitfld.long 0x04 14.--15. "DPM_DR0_LB,Load control for group dpm_dr0" "DPM_DR0_LB_0,DPM_DR0_LB_1,DPM_DR0_LB_2,DPM_DR0_LB_3"
newline
bitfld.long 0x04 12.--13. "GPIOWK4_DR0_LB,Load control for group gpiowk4_dr0" "GPIOWK4_DR0_LB_0,GPIOWK4_DR0_LB_1,GPIOWK4_DR0_LB_2,GPIOWK4_DR0_LB_3"
line.long 0x08 "CONTROL_WKUP_PADCONF_MODE,PAD Voltage Mode control Access conditions"
bitfld.long 0x08 31. "VDDS_DV_FREF,PAD Voltage level control for vdds_dv_fref" "VDDS_DV_FREF_0,VDDS_DV_FREF_1"
newline
bitfld.long 0x08 30. "VDDS_DV_BANK2_SHARED1,PAD Voltage level control for vdds_dv_bank2_shared1" "VDDS_DV_BANK2_SHARED1_0,VDDS_DV_BANK2_SHARED1_1"
line.long 0x0C "CONTROL_XTAL_OSCILLATOR,XTAL OSCILLATOR control Access conditions"
bitfld.long 0x0C 31. "OSCILLATOR_BOOST,Fast startup control" "OSCILLATOR_BOOST_0,OSCILLATOR_BOOST_1"
newline
rbitfld.long 0x0C 30. "OSCILLATOR_OS_OUT,Oscillator output" "OSCILLATOR_OS_OUT_0_r,OSCILLATOR_OS_OUT_1_r"
line.long 0x10 "CONTROL_SMART3NOPMIO_PADCONF_0,SMART3 NOPM IO control 0 Access conditions"
bitfld.long 0x10 30.--31. "FREF_DR1_MB,50-Ohm output buffer mode control for group fref_dr1 Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "0,1,2,3"
newline
bitfld.long 0x10 28.--29. "FREF_DR5_MB,50-Ohm output buffer mode control for group fref_dr5 Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "0,1,2,3"
newline
bitfld.long 0x10 26.--27. "FREF_DR6_MB,50-Ohm output buffer mode control for group fref_dr6 Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "0,1,2,3"
newline
bitfld.long 0x10 24.--25. "FREF_DR7_MB,50-Ohm output buffer mode control for group Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "0,1,2,3"
newline
bitfld.long 0x10 22.--23. "FREF_DR4_MB,50-Ohm output buffer mode control for group fref_dr4 Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "0,1,2,3"
line.long 0x14 "CONTROL_SMART3NOPMIO_PADCONF_1,SMART3 NOPM IO control 1 Access conditions"
bitfld.long 0x14 31. "FREF_DR1_LB0,50-Ohm output buffer load control for group fref_dr1 Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "0,1"
newline
bitfld.long 0x14 30. "FREF_DR5_LB0,50-Ohm output buffer load control for group fref_dr5 Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "0,1"
newline
bitfld.long 0x14 29. "FREF_DR6_LB0,50-Ohm output buffer load control for group fref_dr6 Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "0,1"
newline
bitfld.long 0x14 28. "FREF_DR7_LB0,50-Ohm output buffer load control for group fref_dr7 Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "0,1"
newline
bitfld.long 0x14 27. "FREF_DR4_LB0,50-Ohm output buffer load control for group fref_dr4 Refer to 50-Ohm output buffer I/Os with combined Mode and Load Settings for more details on mode settings" "0,1"
group.long 0x600++0x0F
line.long 0x00 "CONTROL_GPIOWK,GPIOWK pads I/O control Access conditions"
bitfld.long 0x00 31. "PAD_GPIO_WK1_LOW,LOW enable for gpio_wk1 PAD" "0,1"
newline
bitfld.long 0x00 30. "Reserved," "0,1"
newline
bitfld.long 0x00 29. "PAD_GPIO_WK2_LOW,LOW enable for gpio_wk2 PAD" "0,1"
newline
bitfld.long 0x00 28. "GPIOWK_IO_PWRDNZ,PWRDNZ control to gpiowk0-gpiowk2 IOs - This bit is used to protect the gpio_wk0-gpio_wk2 pads associated I/O cell when SIM_VDDS is not stable" "0,1"
newline
hexmask.long 0x00 0.--27. 1. "Reserved,"
line.long 0x04 "CONTROL_I2C_2,I2C pads control 2 Access conditions"
bitfld.long 0x04 31. "SR_SDA_GLFENB,Active_high glitch free operation enable pin for sr i2c receiver" "SR_SDA_GLFENB_0,SR_SDA_GLFENB_1"
newline
bitfld.long 0x04 29.--30. "SR_SDA_LOAD_BITS,Internal Pull up resistor in Fast or Standard mode / High_speed mode for sr i2c" "SR_SDA_LOAD_BITS_0,SR_SDA_LOAD_BITS_1,SR_SDA_LOAD_BITS_2,SR_SDA_LOAD_BITS_3"
newline
bitfld.long 0x04 28. "SR_SDA_PULLUPRESX,Active_low internal pull_up resistor enabled for sr i2c" "SR_SDA_PULLUPRESX_0,SR_SDA_PULLUPRESX_1"
newline
bitfld.long 0x04 27. "SR_SCL_GLFENB,Active_high glitch free operation enable pin for sr i2c receiver" "SR_SCL_GLFENB_0,SR_SCL_GLFENB_1"
newline
bitfld.long 0x04 25.--26. "SR_SCL_LOAD_BITS,Internal Pull up resistor in Fast or Standard mode / High_speed mode for sr i2c" "SR_SCL_LOAD_BITS_0,SR_SCL_LOAD_BITS_1,SR_SCL_LOAD_BITS_2,SR_SCL_LOAD_BITS_3"
newline
bitfld.long 0x04 24. "SR_SCL_PULLUPRESX,Active_low internal pull_up resistor enabled for sr i2c" "SR_SCL_PULLUPRESX_0,SR_SCL_PULLUPRESX_1"
line.long 0x08 "CONTROL_JTAG,JTAG pads control Access conditions"
bitfld.long 0x08 31. "JTAG_NTRST_EN,bus holder enable for jtag_ntrst PAD" "JTAG_NTRST_EN_0,JTAG_NTRST_EN_1"
newline
bitfld.long 0x08 30. "JTAG_TCK_EN,bus holder enable for jtag_tck PAD" "JTAG_TCK_EN_0,JTAG_TCK_EN_1"
newline
bitfld.long 0x08 29. "JTAG_RTCK_EN,bus holder enable for jtag_rtck PAD" "JTAG_RTCK_EN_0,JTAG_RTCK_EN_1"
newline
bitfld.long 0x08 28. "JTAG_TDI_EN,bus holder enable for jtag_tdi PAD" "JTAG_TDI_EN_0,JTAG_TDI_EN_1"
newline
bitfld.long 0x08 27. "JTAG_TDO_EN,bus holder enable for jtag_tdo PAD" "JTAG_TDO_EN_0,JTAG_TDO_EN_1"
line.long 0x0C "CONTROL_SYS,SYS controls Access conditions"
bitfld.long 0x0C 31. "SYS_NRESWARM_PIPU,Pull up enable for sys_nreswarm PAD" "SYS_NRESWARM_PIPU_0,SYS_NRESWARM_PIPU_1"
group.long 0x614++0x2F
line.long 0x00 "CONTROL_WKUP_CONTROL_SPARE_RW,Wake-up control spare RW Access conditions"
line.long 0x04 "CONTROL_WKUP_CONTROL_SPARE_R,Wake-up control spare R Access conditions"
line.long 0x08 "CONTROL_WKUP_CONTROL_SPARE_R_C0,Wake-up control spare RC Access conditions"
bitfld.long 0x08 31. "WKUP_CONTROL_SPARE_R_C0,Wake-up control spare register bits RC" "0,1"
newline
bitfld.long 0x08 30. "WKUP_CONTROL_SPARE_R_C1,Wake-up control spare register bits RC" "0,1"
newline
bitfld.long 0x08 29. "WKUP_CONTROL_SPARE_R_C2,Wake-up control spare register bits RC" "0,1"
newline
bitfld.long 0x08 28. "WKUP_CONTROL_SPARE_R_C3,Wake-up control spare register bits RC" "0,1"
newline
bitfld.long 0x08 27. "WKUP_CONTROL_SPARE_R_C4,Wake-up control spare register bits RC" "0,1"
newline
bitfld.long 0x08 26. "WKUP_CONTROL_SPARE_R_C5,Wake-up control spare register bits RC" "0,1"
newline
bitfld.long 0x08 25. "WKUP_CONTROL_SPARE_R_C6,Wake-up control spare register bits RC" "0,1"
newline
bitfld.long 0x08 24. "WKUP_CONTROL_SPARE_R_C7,Wake-up control spare register bits RC" "0,1"
line.long 0x0C "CONTROL_WKUP_CONTROL_SPARE_RW1,WKUP control spare RW1 Access conditions"
line.long 0x10 "CONTROL_WKUP_CONTROL_SPARE_RW2,WKUP control spare RW2 Access conditions"
line.long 0x14 "CONTROL_WKUP_CONTROL_SPARE_RW3,WKUP control spare RW3 Access conditions"
line.long 0x18 "CONTROL_WKUP_CONTROL_SPARE_RW4,WKUP control spare RW4 Access conditions"
line.long 0x1C "CONTROL_WKUP_CONTROL_SPARE_RW5,WKUP control spare RW5 Access conditions"
line.long 0x20 "CONTROL_WKUP_CONTROL_SPARE_RW6,WKUP control spare RW6 Access conditions"
line.long 0x24 "CONTROL_WKUP_CONTROL_SPARE_RW7,WKUP control spare RW7 Access conditions"
line.long 0x28 "CONTROL_WKUP_CONTROL_SPARE_RW8,WKUP control spare RW8 Access conditions"
line.long 0x2C "CONTROL_WKUP_CONTROL_SPARE_RW9,WKUP control spare RW9 Access conditions"
rgroup.long 0x64C++0x03
line.long 0x00 "CONTROL_WKUP_CONTROL_SPARE_R1,WKUP control spare R1 Access conditions"
tree.end
tree.end
tree "Digital_Microphone_Module"
tree "DMIC_Cortex_A9"
base ansd:0x4012E000
rgroup.long 0x00++0x03
line.long 0x00 "DMIC_REVISION,IP Revision Identifier (X.Y.R) used by software to track features. bugs. and compatibility"
group.long 0x10++0x03
line.long 0x00 "DMIC_SYSCONFIG,This register allows controlling various parameters of the DMIC interface"
bitfld.long 0x00 2.--3. "SIDLEMODE,Configuration of the local target state management (idlereq/idleack control)" "SIDLEMODE_0,SIDLEMODE_1,SIDLEMODE_2,SIDLEMODE_3"
bitfld.long 0x00 1. "FREEMU,Sensitivity to emulation (debug) suspend input signal" "FREEMU_0,FREEMU_1"
newline
bitfld.long 0x00 0. "SOFTRESET,Module software reset" "SOFTRESET_0_r,SOFTRESET_1_w"
group.long 0x24++0x43
line.long 0x00 "DMIC_IRQSTATUS_RAW,Component (that is. main) interrupt request status"
bitfld.long 0x00 3. "DMIC_IRQ_EMPTY," "DMIC_IRQ_EMPTY_0_w,DMIC_IRQ_EMPTY_1_r"
bitfld.long 0x00 2. "DMIC_IRQ_ALST_FULL," "DMIC_IRQ_ALST_FULL_0_w,DMIC_IRQ_ALST_FULL_1_r"
newline
bitfld.long 0x00 1. "DMIC_IRQ_FULL," "DMIC_IRQ_FULL_0_w,DMIC_IRQ_FULL_1_r"
bitfld.long 0x00 0. "DMIC_IRQ," "DMIC_IRQ_0_w,DMIC_IRQ_1_r"
line.long 0x04 "DMIC_IRQSTATUS,Component (that is. main) interrupt request status"
bitfld.long 0x04 3. "DMIC_IRQ_EMPTY," "DMIC_IRQ_EMPTY_0_w,DMIC_IRQ_EMPTY_1_r"
bitfld.long 0x04 2. "DMIC_IRQ_ALST_FULL,This interrupt status is set when only one FIFO space is still available" "DMIC_IRQ_ALST_FULL_0_w,DMIC_IRQ_ALST_FULL_1_r"
newline
bitfld.long 0x04 1. "DMIC_IRQ_FULL,This interrupt status is set when FIFO is full and a new write access has been performed by filter" "DMIC_IRQ_FULL_0_w,DMIC_IRQ_FULL_1_r"
bitfld.long 0x04 0. "DMIC_IRQ,This interrupt status is set when FIFO threshold value defined inDMIC_FIFO_CTRL is reached" "DMIC_IRQ_0_w,DMIC_IRQ_1_r"
line.long 0x08 "DMIC_IRQENABLE_SET,Component (that is. main) interrupt request enable"
bitfld.long 0x08 3. "DMIC_IRQ_EMPTY_MASK," "DMIC_IRQ_EMPTY_MASK_0_w,DMIC_IRQ_EMPTY_MASK_1_r"
bitfld.long 0x08 2. "DMIC_IRQ_ALST_FULL_MASK," "DMIC_IRQ_ALST_FULL_MASK_0_w,DMIC_IRQ_ALST_FULL_MASK_1_r"
newline
bitfld.long 0x08 1. "DMIC_IRQ_FULL_MASK," "DMIC_IRQ_FULL_MASK_0_w,DMIC_IRQ_FULL_MASK_1_r"
bitfld.long 0x08 0. "DMIC_IRQ_MASK," "DMIC_IRQ_MASK_0_w,DMIC_IRQ_MASK_1_r"
line.long 0x0C "DMIC_IRQENABLE_CLR,Component (that is. main) interrupt request enable Write 1 to clear (disable interrupt)"
bitfld.long 0x0C 3. "DMIC_IRQ_EMPTY_MASK," "DMIC_IRQ_EMPTY_MASK_0_w,DMIC_IRQ_EMPTY_MASK_1_r"
bitfld.long 0x0C 2. "DMIC_IRQ_ALST_FULL_MASK," "DMIC_IRQ_ALST_FULL_MASK_0_w,DMIC_IRQ_ALST_FULL_MASK_1_r"
newline
bitfld.long 0x0C 1. "DMIC_IRQ_FULL_MASK," "DMIC_IRQ_FULL_MASK_0_w,DMIC_IRQ_FULL_MASK_1_r"
bitfld.long 0x0C 0. "DMIC_IRQ_MASK," "DMIC_IRQ_MASK_0_w,DMIC_IRQ_MASK_1_r"
line.long 0x10 "DMIC_IRQWAKEEN,This register allows to enable the wake-up capability on interrupt event"
bitfld.long 0x10 0. "IRQ_WAKEUP_EN,Write 1 to allow wake-up by IRQ source (register threshold value reached)" "IRQ_WAKEUP_EN_0,IRQ_WAKEUP_EN_1"
line.long 0x14 "DMIC_DMAENABLE_SET,Component DMA enable (1 bit per DMA-capable channel)/Write 1 to set (enable DMA)"
bitfld.long 0x14 0. "DMA_ENABLE,Write 1 to set (enable DMA request)" "DMA_ENABLE_0_w,DMA_ENABLE_1_r"
line.long 0x18 "DMIC_DMAENABLE_CLR,Component DMA enable (1 bit per DMA-capable channel)/Write 1 to clear (disable DMA)"
bitfld.long 0x18 0. "DMA_ENABLE,Write 1 to clear (disable DMA request)" "DMA_ENABLE_0_w,DMA_ENABLE_1_r"
line.long 0x1C "DMIC_DMAWAKEEN,This register allows to enable the wake-up capability on DMA request event"
bitfld.long 0x1C 0. "DMA_WAKEUP_EN,Write 1 to allow wakeup by DMA source (register threshold value reached)" "DMA_WAKEUP_EN_0,DMA_WAKEUP_EN_1"
line.long 0x20 "DMIC_CTRL,This register configures the various parameters of the DMIC module"
bitfld.long 0x20 10. "SW_DMIC_RST,Software reset of the DMIC path" "SW_DMIC_RST_0,SW_DMIC_RST_1"
bitfld.long 0x20 7.--9. "DMIC_CLK_DIV,Select the DMIC output clock frequency" "DMIC_CLK_DIV_0,DMIC_CLK_DIV_1,DMIC_CLK_DIV_2,DMIC_CLK_DIV_3,DMIC_CLK_DIV_4,DMIC_CLK_DIV_5,DMIC_CLK_DIV_6,DMIC_CLK_DIV_7"
newline
bitfld.long 0x20 6. "DMIC_POLAR3," "DMIC_POLAR3_0,DMIC_POLAR3_1"
bitfld.long 0x20 5. "DMIC_POLAR2," "DMIC_POLAR2_0,DMIC_POLAR2_1"
newline
bitfld.long 0x20 4. "DMIC_POLAR1," "DMIC_POLAR1_0,DMIC_POLAR1_1"
bitfld.long 0x20 3. "DMICOUTFORMAT,When 0 the data going out from the FIFO are left shifted from 8 bits" "DMICOUTFORMAT_0,DMICOUTFORMAT_1"
newline
bitfld.long 0x20 2. "DMIC_UP3_EN,When 1 uplink path 3 is powered up" "DMIC_UP3_EN_0,DMIC_UP3_EN_1"
bitfld.long 0x20 1. "DMIC_UP2_EN,When 1 uplink path 2 is powered up" "DMIC_UP2_EN_0,DMIC_UP2_EN_1"
newline
bitfld.long 0x20 0. "DMIC_UP1_EN,When 1 uplink path 1 is powered up" "DMIC_UP1_EN_0,DMIC_UP1_EN_1"
line.long 0x24 "DMIC_DATA_REG,DMIC FIFO data"
line.long 0x28 "DMIC_FIFO_CTRL,This register sets the FIFO threshold for the data-ready event"
bitfld.long 0x28 0.--3. "DMIC_TRESH,Uplink FIFO threshold" "DMIC_TRESH_0,DMIC_TRESH_1,DMIC_TRESH_2,DMIC_TRESH_3,DMIC_TRESH_4,DMIC_TRESH_5,DMIC_TRESH_6,DMIC_TRESH_7,DMIC_TRESH_8,DMIC_TRESH_9,DMIC_TRESH_10,DMIC_TRESH_11,DMIC_TRESH_12,DMIC_TRESH_13,DMIC_TRESH_14,DMIC_TRESH_15"
line.long 0x2C "DMIC_FIFO_DMIC1R_DATA,Data of the first FIFO DMIC right channel"
hexmask.long.tbyte 0x2C 0.--23. 1. "FIFO_DMIC1R_DAT,Data of the right FIFO DMIC path 1"
line.long 0x30 "DMIC_FIFO_DMIC1L_DATA,Data of the first FIFO DMIC left channel"
hexmask.long.tbyte 0x30 0.--23. 1. "FIFO_DMIC1R_DAT,Data of the left FIFO DMIC path 1"
line.long 0x34 "DMIC_FIFO_DMIC2R_DATA,Data of the second FIFO DMIC right channel"
hexmask.long.tbyte 0x34 0.--23. 1. "FIFO_DMIC2R_DAT,Data of the right FIFO DMIC path 2"
line.long 0x38 "DMIC_FIFO_DMIC2L_DATA,Data of the second FIFO DMIC left channel"
hexmask.long.tbyte 0x38 0.--23. 1. "FIFO_DMIC2L_DAT,Data of the left FIFO DMIC path 2"
line.long 0x3C "DMIC_FIFO_DMIC3R_DATA,Data of the third FIFO DMIC right channel"
hexmask.long.tbyte 0x3C 0.--23. 1. "FIFO_DMIC3R_DAT,Data of the right FIFO DMIC path 3"
line.long 0x40 "DMIC_FIFO_DMIC3L_DATA,Data of the third FIFO DMIC left channel"
hexmask.long.tbyte 0x40 0.--23. 1. "FIFO_DMIC3R_DAT,Data of the left FIFO DMIC path 3"
tree.end
tree "DMIC_L3Interconnect"
base ansd:0x4902E000
rgroup.long 0x00++0x03
line.long 0x00 "DMIC_REVISION,IP Revision Identifier (X.Y.R) used by software to track features. bugs. and compatibility"
group.long 0x10++0x03
line.long 0x00 "DMIC_SYSCONFIG,This register allows controlling various parameters of the DMIC interface"
bitfld.long 0x00 2.--3. "SIDLEMODE,Configuration of the local target state management (idlereq/idleack control)" "SIDLEMODE_0,SIDLEMODE_1,SIDLEMODE_2,SIDLEMODE_3"
bitfld.long 0x00 1. "FREEMU,Sensitivity to emulation (debug) suspend input signal" "FREEMU_0,FREEMU_1"
newline
bitfld.long 0x00 0. "SOFTRESET,Module software reset" "SOFTRESET_0_r,SOFTRESET_1_w"
group.long 0x24++0x43
line.long 0x00 "DMIC_IRQSTATUS_RAW,Component (that is. main) interrupt request status"
bitfld.long 0x00 3. "DMIC_IRQ_EMPTY," "DMIC_IRQ_EMPTY_0_w,DMIC_IRQ_EMPTY_1_r"
bitfld.long 0x00 2. "DMIC_IRQ_ALST_FULL," "DMIC_IRQ_ALST_FULL_0_w,DMIC_IRQ_ALST_FULL_1_r"
newline
bitfld.long 0x00 1. "DMIC_IRQ_FULL," "DMIC_IRQ_FULL_0_w,DMIC_IRQ_FULL_1_r"
bitfld.long 0x00 0. "DMIC_IRQ," "DMIC_IRQ_0_w,DMIC_IRQ_1_r"
line.long 0x04 "DMIC_IRQSTATUS,Component (that is. main) interrupt request status"
bitfld.long 0x04 3. "DMIC_IRQ_EMPTY," "DMIC_IRQ_EMPTY_0_w,DMIC_IRQ_EMPTY_1_r"
bitfld.long 0x04 2. "DMIC_IRQ_ALST_FULL,This interrupt status is set when only one FIFO space is still available" "DMIC_IRQ_ALST_FULL_0_w,DMIC_IRQ_ALST_FULL_1_r"
newline
bitfld.long 0x04 1. "DMIC_IRQ_FULL,This interrupt status is set when FIFO is full and a new write access has been performed by filter" "DMIC_IRQ_FULL_0_w,DMIC_IRQ_FULL_1_r"
bitfld.long 0x04 0. "DMIC_IRQ,This interrupt status is set when FIFO threshold value defined inDMIC_FIFO_CTRL is reached" "DMIC_IRQ_0_w,DMIC_IRQ_1_r"
line.long 0x08 "DMIC_IRQENABLE_SET,Component (that is. main) interrupt request enable"
bitfld.long 0x08 3. "DMIC_IRQ_EMPTY_MASK," "DMIC_IRQ_EMPTY_MASK_0_w,DMIC_IRQ_EMPTY_MASK_1_r"
bitfld.long 0x08 2. "DMIC_IRQ_ALST_FULL_MASK," "DMIC_IRQ_ALST_FULL_MASK_0_w,DMIC_IRQ_ALST_FULL_MASK_1_r"
newline
bitfld.long 0x08 1. "DMIC_IRQ_FULL_MASK," "DMIC_IRQ_FULL_MASK_0_w,DMIC_IRQ_FULL_MASK_1_r"
bitfld.long 0x08 0. "DMIC_IRQ_MASK," "DMIC_IRQ_MASK_0_w,DMIC_IRQ_MASK_1_r"
line.long 0x0C "DMIC_IRQENABLE_CLR,Component (that is. main) interrupt request enable Write 1 to clear (disable interrupt)"
bitfld.long 0x0C 3. "DMIC_IRQ_EMPTY_MASK," "DMIC_IRQ_EMPTY_MASK_0_w,DMIC_IRQ_EMPTY_MASK_1_r"
bitfld.long 0x0C 2. "DMIC_IRQ_ALST_FULL_MASK," "DMIC_IRQ_ALST_FULL_MASK_0_w,DMIC_IRQ_ALST_FULL_MASK_1_r"
newline
bitfld.long 0x0C 1. "DMIC_IRQ_FULL_MASK," "DMIC_IRQ_FULL_MASK_0_w,DMIC_IRQ_FULL_MASK_1_r"
bitfld.long 0x0C 0. "DMIC_IRQ_MASK," "DMIC_IRQ_MASK_0_w,DMIC_IRQ_MASK_1_r"
line.long 0x10 "DMIC_IRQWAKEEN,This register allows to enable the wake-up capability on interrupt event"
bitfld.long 0x10 0. "IRQ_WAKEUP_EN,Write 1 to allow wake-up by IRQ source (register threshold value reached)" "IRQ_WAKEUP_EN_0,IRQ_WAKEUP_EN_1"
line.long 0x14 "DMIC_DMAENABLE_SET,Component DMA enable (1 bit per DMA-capable channel)/Write 1 to set (enable DMA)"
bitfld.long 0x14 0. "DMA_ENABLE,Write 1 to set (enable DMA request)" "DMA_ENABLE_0_w,DMA_ENABLE_1_r"
line.long 0x18 "DMIC_DMAENABLE_CLR,Component DMA enable (1 bit per DMA-capable channel)/Write 1 to clear (disable DMA)"
bitfld.long 0x18 0. "DMA_ENABLE,Write 1 to clear (disable DMA request)" "DMA_ENABLE_0_w,DMA_ENABLE_1_r"
line.long 0x1C "DMIC_DMAWAKEEN,This register allows to enable the wake-up capability on DMA request event"
bitfld.long 0x1C 0. "DMA_WAKEUP_EN,Write 1 to allow wakeup by DMA source (register threshold value reached)" "DMA_WAKEUP_EN_0,DMA_WAKEUP_EN_1"
line.long 0x20 "DMIC_CTRL,This register configures the various parameters of the DMIC module"
bitfld.long 0x20 10. "SW_DMIC_RST,Software reset of the DMIC path" "SW_DMIC_RST_0,SW_DMIC_RST_1"
bitfld.long 0x20 7.--9. "DMIC_CLK_DIV,Select the DMIC output clock frequency" "DMIC_CLK_DIV_0,DMIC_CLK_DIV_1,DMIC_CLK_DIV_2,DMIC_CLK_DIV_3,DMIC_CLK_DIV_4,DMIC_CLK_DIV_5,DMIC_CLK_DIV_6,DMIC_CLK_DIV_7"
newline
bitfld.long 0x20 6. "DMIC_POLAR3," "DMIC_POLAR3_0,DMIC_POLAR3_1"
bitfld.long 0x20 5. "DMIC_POLAR2," "DMIC_POLAR2_0,DMIC_POLAR2_1"
newline
bitfld.long 0x20 4. "DMIC_POLAR1," "DMIC_POLAR1_0,DMIC_POLAR1_1"
bitfld.long 0x20 3. "DMICOUTFORMAT,When 0 the data going out from the FIFO are left shifted from 8 bits" "DMICOUTFORMAT_0,DMICOUTFORMAT_1"
newline
bitfld.long 0x20 2. "DMIC_UP3_EN,When 1 uplink path 3 is powered up" "DMIC_UP3_EN_0,DMIC_UP3_EN_1"
bitfld.long 0x20 1. "DMIC_UP2_EN,When 1 uplink path 2 is powered up" "DMIC_UP2_EN_0,DMIC_UP2_EN_1"
newline
bitfld.long 0x20 0. "DMIC_UP1_EN,When 1 uplink path 1 is powered up" "DMIC_UP1_EN_0,DMIC_UP1_EN_1"
line.long 0x24 "DMIC_DATA_REG,DMIC FIFO data"
line.long 0x28 "DMIC_FIFO_CTRL,This register sets the FIFO threshold for the data-ready event"
bitfld.long 0x28 0.--3. "DMIC_TRESH,Uplink FIFO threshold" "DMIC_TRESH_0,DMIC_TRESH_1,DMIC_TRESH_2,DMIC_TRESH_3,DMIC_TRESH_4,DMIC_TRESH_5,DMIC_TRESH_6,DMIC_TRESH_7,DMIC_TRESH_8,DMIC_TRESH_9,DMIC_TRESH_10,DMIC_TRESH_11,DMIC_TRESH_12,DMIC_TRESH_13,DMIC_TRESH_14,DMIC_TRESH_15"
line.long 0x2C "DMIC_FIFO_DMIC1R_DATA,Data of the first FIFO DMIC right channel"
hexmask.long.tbyte 0x2C 0.--23. 1. "FIFO_DMIC1R_DAT,Data of the right FIFO DMIC path 1"
line.long 0x30 "DMIC_FIFO_DMIC1L_DATA,Data of the first FIFO DMIC left channel"
hexmask.long.tbyte 0x30 0.--23. 1. "FIFO_DMIC1R_DAT,Data of the left FIFO DMIC path 1"
line.long 0x34 "DMIC_FIFO_DMIC2R_DATA,Data of the second FIFO DMIC right channel"
hexmask.long.tbyte 0x34 0.--23. 1. "FIFO_DMIC2R_DAT,Data of the right FIFO DMIC path 2"
line.long 0x38 "DMIC_FIFO_DMIC2L_DATA,Data of the second FIFO DMIC left channel"
hexmask.long.tbyte 0x38 0.--23. 1. "FIFO_DMIC2L_DAT,Data of the left FIFO DMIC path 2"
line.long 0x3C "DMIC_FIFO_DMIC3R_DATA,Data of the third FIFO DMIC right channel"
hexmask.long.tbyte 0x3C 0.--23. 1. "FIFO_DMIC3R_DAT,Data of the right FIFO DMIC path 3"
line.long 0x40 "DMIC_FIFO_DMIC3L_DATA,Data of the third FIFO DMIC left channel"
hexmask.long.tbyte 0x40 0.--23. 1. "FIFO_DMIC3R_DAT,Data of the left FIFO DMIC path 3"
tree.end
tree.end
tree "Display_Controller"
tree "DISPC_L3"
base ansd:0x58001000
tree "Channel_0"
group.long 0x80++0x03
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.."
group.long 0x640++0x03
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.."
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++0x03
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 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 0x600++0x03
line.long 0x00 "DISPC_VID1_BA_UV_j_0,The register configures the base address of the UV buffer for the video window 1"
group.long 0xBC++0x03
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)"
group.long 0x648++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0xF4++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0xF0++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x688++0x03
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"
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++0x03
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"
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++0x03
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.."
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++0x03
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 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 0x608++0x03
line.long 0x00 "DISPC_VID2_BA_UV_j_0,The register configures the base address of the UV buffer for the video window 2"
group.long 0x14C++0x03
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.."
group.long 0x6B4++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x184++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x180++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x6F4++0x03
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"
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++0x03
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"
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++0x03
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.."
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++0x03
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++0x03
line.long 0x00 "DISPC_VID3_BA_UV_j_0,The register configures the base address of the UV buffer for the video window 3"
group.long 0x308++0x03
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.."
group.long 0x730++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x314++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x310++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x770++0x03
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"
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++0x03
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"
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++0x03
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 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 0x500++0x03
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.."
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 0x618++0x03
line.long 0x00 "DISPC_WB_BA_UV_j_0,The register configures the base address of the UV buffer for the write-back pipeline"
group.long 0x508++0x03
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)"
group.long 0x7A0++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x514++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x510++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x7E0++0x03
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"
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++0x03
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"
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"
group.long 0x84++0x03
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.."
group.long 0x644++0x03
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.."
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++0x03
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 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 0x604++0x03
line.long 0x00 "DISPC_VID1_BA_UV_j_1,The register configures the base address of the UV buffer for the video window 1"
group.long 0xC0++0x03
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)"
group.long 0x650++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0xFC++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0xF8++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x68C++0x03
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"
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++0x03
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"
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++0x03
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.."
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++0x03
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 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 0x60C++0x03
line.long 0x00 "DISPC_VID2_BA_UV_j_1,The register configures the base address of the UV buffer for the video window 2"
group.long 0x150++0x03
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.."
group.long 0x6BC++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x18C++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x188++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x6F8++0x03
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"
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++0x03
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"
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++0x03
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.."
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++0x03
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++0x03
line.long 0x00 "DISPC_VID3_BA_UV_j_1,The register configures the base address of the UV buffer for the video window 3"
group.long 0x30C++0x03
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.."
group.long 0x738++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x31C++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x318++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x774++0x03
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"
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++0x03
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"
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++0x03
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 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 0x504++0x03
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.."
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 0x61C++0x03
line.long 0x00 "DISPC_WB_BA_UV_j_1,The register configures the base address of the UV buffer for the write-back pipeline"
group.long 0x50C++0x03
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)"
group.long 0x7A8++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x51C++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x518++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x7E4++0x03
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"
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++0x03
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"
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"
group.long 0x658++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x104++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x100++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x690++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x194++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x190++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x6FC++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x324++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x320++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x778++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x524++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x520++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x7E8++0x03
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"
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++0x03
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"
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"
group.long 0x660++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x10C++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x108++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x694++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x19C++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x198++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x700++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x32C++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x328++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x77C++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x52C++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x528++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x7EC++0x03
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"
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++0x03
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"
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"
group.long 0x668++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x114++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x110++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x698++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x1A4++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x1A0++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x704++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x334++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x330++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x780++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x534++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x530++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x7F0++0x03
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"
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++0x03
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"
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"
group.long 0x670++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x11C++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x118++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x69C++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x1AC++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x1A8++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x708++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x33C++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x338++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x784++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x53C++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x538++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x7F4++0x03
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"
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++0x03
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"
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"
group.long 0x678++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x124++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x120++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x6A0++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x1B4++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x1B0++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x70C++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x344++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x340++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x788++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x544++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x540++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x7F8++0x03
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"
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++0x03
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"
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"
group.long 0x680++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x12C++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x128++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x6A4++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x1BC++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x1B8++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x710++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x34C++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x348++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x78C++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x54C++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x548++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x7FC++0x03
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"
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++0x03
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"
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
group.long 0x44++0x03
line.long 0x00 "DISPC_CONFIG1,The control register configures the Display Controller module for the primary LCD output and TV output"
bitfld.long 0x00 25. "FULLRANGE,Color Space Conversion full range setting" "FULLRANGE_0,FULLRANGE_1"
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bitfld.long 0x00 24. "COLORCONV ENABLE,Enable the color space conversion" "COLORCONV ENABLE_0,COLORCONV ENABLE_1"
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bitfld.long 0x00 23. "FIDFIRST,Selects the first field to output in case of interlace mode" "FIDFIRST_0,FIDFIRST_1"
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bitfld.long 0x00 22. "OUTPUTMODE ENABLE,Selects between progressive and interlace mode for the primary LCD output" "OUTPUTMODE ENABLE_0,OUTPUTMODE ENABLE_1"
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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)" "TVALPHABLENDER ENABLE_0,TVALPHABLENDER ENABLE_1"
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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)" "LCDALPHABLENDER ENABLE_0,LCDALPHABLENDER ENABLE_1"
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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" "BUFFERFILLING_0,BUFFERFILLING_1"
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bitfld.long 0x00 16. "BUFFERHAND CHECK,Controls the handcheck between DMA buffer and STALL signal in order to prevent from underflow" "BUFFERHAND CHECK_0,BUFFERHAND CHECK_1"
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bitfld.long 0x00 15. "CPR,Color Phase Rotation Control (primary LCD output)" "CPR_0,CPR_1"
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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)" "BUFFERMERGE_0,BUFFERMERGE_1"
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bitfld.long 0x00 13. "TCKTV SELECTION,Transparency Color Key Selection (TV output) wr: EVSYNC" "TCKTV SELECTION_0,TCKTV SELECTION_1"
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bitfld.long 0x00 12. "TCKTVENABLE,Transparency Color Key Enabled (TV output) wr: EVSYNC" "TCKTVENABLE_0,TCKTVENABLE_1"
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bitfld.long 0x00 11. "TCKLCD SELECTION,Transparency Color Key Selection (primary LCD output) wr: VFP start period of primary LCD output" "TCKLCD SELECTION_0,TCKLCD SELECTION_1"
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bitfld.long 0x00 10. "TCKLCDENABLE,Transparency Color Key Enabled (primary LCD output) wr: VFP start period of primary LCD output" "TCKLCDENABLE_0,TCKLCDENABLE_1"
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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)" "GAMATABLE ENABLE_0,GAMATABLE ENABLE_1"
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bitfld.long 0x00 8. "ACBIASGATED,ACBias Gated Enabled (primary LCD output) wr: VFP start period of primary LCD output" "ACBIASGATED_0,ACBIASGATED_1"
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bitfld.long 0x00 7. "VSYNCGATED,VSYNC Gated Enabled (primary LCD output) wr: VFP start period of primary LCD output" "VSYNCGATED_0,VSYNCGATED_1"
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bitfld.long 0x00 6. "HSYNCGATED,HSYNC Gated Enabled (primary LCD output) wr: VFP start period of primary LCD output" "HSYNCGATED_0,HSYNCGATED_1"
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bitfld.long 0x00 5. "PIXELCLOCK GATED,Pixel Clock Gated Enabled (primary LCD output) wr: VFP start period of primary LCD output" "PIXELCLOCK GATED_0,PIXELCLOCK GATED_1"
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bitfld.long 0x00 4. "PIXELDATAGATED,Pixel Data Gated Enabled (primary LCD output) wr: VFP start period of primary LCD output" "PIXELDATAGATED_0,PIXELDATAGATED_1"
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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 (no more data in the.." "PALETTEGAMMA TABLE_0,PALETTEGAMMA TABLE_1"
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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 finished (no more data in the.." "LOADMODE_0,LOADMODE_1,LOADMODE_2,LOADMODE_3"
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bitfld.long 0x00 0. "PIXELGATED,Pixel Gated Enable (only for TFT) (primary LCD output) wr: VFP start period of primary LCD output" "PIXELGATED_0,PIXELGATED_1"
group.long 0x620++0x03
line.long 0x00 "DISPC_CONFIG2,The control register configures the Display Controller module for the secondary LCD output"
bitfld.long 0x00 25. "FULLRANGE,Color Space Conversion full range setting" "FULLRANGE_0,FULLRANGE_1"
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bitfld.long 0x00 24. "COLORCONV ENABLE,Enable the color space conversion" "COLORCONV ENABLE_0,COLORCONV ENABLE_1"
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bitfld.long 0x00 23. "FIDFIRST,Selects the first field to output in case of interlace mode" "FIDFIRST_0,FIDFIRST_1"
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bitfld.long 0x00 22. "OUTPUTMODE ENABLE,Selects between progressive and interlace mode for the secondary LCD output" "OUTPUTMODE ENABLE_0,OUTPUTMODE ENABLE_1"
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bitfld.long 0x00 16. "BUFFERHAND CHECK,Controls the handcheck between DMA buffer and STALL signal in order to prevent from underflow" "BUFFERHAND CHECK_0,BUFFERHAND CHECK_1"
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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" "CPR_0,CPR_1"
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bitfld.long 0x00 11. "TCKLCD SELECTION,Transparency Color Key Selection (secondary LCD output) wr: VFP start period of secondary LCD output" "TCKLCD SELECTION_0,TCKLCD SELECTION_1"
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bitfld.long 0x00 10. "TCKLCDENABLE,Transparency Color Key Enabled (secondary LCD output) wr: VFP start period of secondary LCD output" "TCKLCDENABLE_0,TCKLCDENABLE_1"
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bitfld.long 0x00 8. "ACBIASGATED,ACBias Gated Enabled (secondary LCD output) wr: VFP start period of secondary LCD output" "ACBIASGATED_0,ACBIASGATED_1"
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bitfld.long 0x00 7. "VSYNCGATED,VSYNC Gated Enabled (secondary LCD output) wr: VFP start period of secondary LCD output" "VSYNCGATED_0,VSYNCGATED_1"
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bitfld.long 0x00 6. "HSYNCGATED,HSYNC Gated Enabled (secondary LCD output) wr: VFP start period of secondary LCD output" "HSYNCGATED_0,HSYNCGATED_1"
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bitfld.long 0x00 5. "PIXELCLOCK GATED,Pixel Clock Gated Enabled (secondary LCD output) wr: VFP start period of secondary LCD output" "PIXELCLOCK GATED_0,PIXELCLOCK GATED_1"
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bitfld.long 0x00 4. "PIXELDATA GATED,Pixel Data Gated Enabled (secondary LCD output) wr: VFP start period of secondary LCD output" "PIXELDATA GATED_0,PIXELDATA GATED_1"
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bitfld.long 0x00 0. "PIXELGATED,Pixel Gated Enable (only for Active Matrix) (secondary LCD output) wr: VFP start period of secondary LCD output" "PIXELGATED_0,PIXELGATED_1"
group.long 0x40++0x03
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" "SPATIALTEMPORAL DITHERINGFRAMES_0,SPATIALTEMPORAL DITHERINGFRAMES_1,SPATIALTEMPORAL DITHERINGFRAMES_2,SPATIALTEMPORAL DITHERINGFRAMES_3"
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rbitfld.long 0x00 29. "LCDENABLEPOL,Write 0s for future compatibility" "LCDENABLEPOL_0,LCDENABLEPOL_1"
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rbitfld.long 0x00 28. "LCDENABLESIGNAL,Write 0s for future compatibility" "LCDENABLESIGNAL_0,LCDENABLESIGNAL_1"
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rbitfld.long 0x00 27. "PCKFREEENABLE,Write 0s for future compatibility" "PCKFREEENABLE_0,PCKFREEENABLE_1"
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bitfld.long 0x00 25.--26. "TDMUNUSEDBITS,State of unused bits (TDM mode only) for the primary LCD output" "TDMUNUSEDBITS_0,TDMUNUSEDBITS_1,TDMUNUSEDBITS_2,TDMUNUSEDBITS_3"
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bitfld.long 0x00 23.--24. "TDMCYCLEFORMAT,Cycle format (TDM mode only) for the primary LCD output wr: VFP start period of primary LCD" "TDMCYCLEFORMAT_0,TDMCYCLEFORMAT_1,TDMCYCLEFORMAT_2,TDMCYCLEFORMAT_3"
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bitfld.long 0x00 21.--22. "TDMPARALLELMODE,Output Interface width (TDM mode only) for the primary LCD output wr: VFP start period of primary LCD" "TDMPARALLELMODE_0,TDMPARALLELMODE_1,TDMPARALLELMODE_2,TDMPARALLELMODE_3"
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bitfld.long 0x00 20. "TDMENABLE,Enable the multiple cycle format (TDM mode only used for TFT mode with the RFBI enable bit off) for the primary LCD output" "TDMENABLE_0,TDMENABLE_1"
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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)" "HT_0,HT_1,HT_2,HT_3,HT_4,HT_5,HT_6,HT_7"
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bitfld.long 0x00 16. "GPOUT1,General Purpose Output Signal wr:immediate" "GPOUT1_0,GPOUT1_1"
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bitfld.long 0x00 15. "GPOUT0,General Purpose Output Signal wr:immediate" "GPOUT0_0,GPOUT0_1"
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rbitfld.long 0x00 14. "GPIN1,General Purpose Input Signal wr: immediately" "GPIN1_0_r,GPIN1_1_r"
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rbitfld.long 0x00 13. "GPIN0,General Purpose Input Signal wr: immediately" "GPIN0_0_r,GPIN0_1_r"
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bitfld.long 0x00 12. "OVERLAYOPTI MIZATION,Overlay Optimization for the primary LCD output wr: VFP start period of the primary LCD" "OVERLAYOPTI MIZATION_0,OVERLAYOPTI MIZATION_1"
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bitfld.long 0x00 11. "STALLMODE,STALL Mode for the primary LCD output wr: VFP start period of primary LCD" "STALLMODE_0,STALLMODE_1"
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bitfld.long 0x00 8.--9. "TFTDATALINES,Number of lines of the primary LCD interface wr: VFP start period of primary LCD" "TFTDATALINES_0,TFTDATALINES_1,TFTDATALINES_2,TFTDATALINES_3"
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bitfld.long 0x00 7. "STDITHERENABLE,Spatial Temporal dithering enable for the primary LCD output wr: VFP start period of primary LCD" "STDITHERENABLE_0,STDITHERENABLE_1"
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bitfld.long 0x00 6. "GOTV,GO Command for the TV output" "GOTV_0,GOTV_1"
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bitfld.long 0x00 5. "GOLCD,GO Command for the primary LCD output" "GOLCD_0,GOLCD_1"
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bitfld.long 0x00 4. "M8B,Mono 8-bit mode of the primary LCD wr: VFP start period of primary LCD output" "M8B_0,M8B_1"
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bitfld.long 0x00 3. "STNTFT,LCD Display type of the primary LCD wr: VFP start period of primary LCD output" "STNTFT_0,STNTFT_1"
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bitfld.long 0x00 2. "MONOCOLOR,Monochrome/Color selection for the primary LCD wr: VFP start period of primary LCD output" "MONOCOLOR_0,MONOCOLOR_1"
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bitfld.long 0x00 1. "TVENABLE,Enable the TV output wr: immediate effect only occurs at the end of the current frame" "TVENABLE_0,TVENABLE_1"
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bitfld.long 0x00 0. "LCDENABLE,Enable the primary LCD outputs wr: immediate Effect only occurs at the end of the current frame" "LCDENABLE_0,LCDENABLE_1"
group.long 0x238++0x03
line.long 0x00 "DISPC_CONTROL2,The control register configures the Display Controller module for the secondary LCD output"
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" "SPATIALTEMPORAL DITHERINGFRAMES_0,SPATIALTEMPORAL DITHERINGFRAMES_1,SPATIALTEMPORAL DITHERINGFRAMES_2,SPATIALTEMPORAL DITHERINGFRAMES_3"
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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" "TDMUNUSED BITS_0,TDMUNUSED BITS_1,TDMUNUSED BITS_2,TDMUNUSED BITS_3"
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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" "TDMCYCLE FORMAT_0,TDMCYCLE FORMAT_1,TDMCYCLE FORMAT_2,TDMCYCLE FORMAT_3"
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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" "TDMPARALLEL MODE_0,TDMPARALLEL MODE_1,TDMPARALLEL MODE_2,TDMPARALLEL MODE_3"
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bitfld.long 0x00 20. "TDMENABLE,Enable the multiple cycle format (TDM mode only used for Active Matrix mode with the RFBI enable bit off) for the secondary LCD output wr: VFP start period of secondary LCD output" "TDMENABLE_0,TDMENABLE_1"
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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)" "TVOVERLAY OPTIMIZATION_0,TVOVERLAY OPTIMIZATION_1"
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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)" "OVERLAY OPTIMIZATION_0,OVERLAY OPTIMIZATION_1"
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bitfld.long 0x00 11. "STALLMODE,STALL Mode for the secondary LCD output wr: VFP start period of secondary LCD output" "STALLMODE_0,STALLMODE_1"
newline
bitfld.long 0x00 8.--9. "TFTDATALINES,Number of lines of the secondary LCD interface wr: VFP start period of secondary LCD output" "TFTDATALINES_0,TFTDATALINES_1,TFTDATALINES_2,TFTDATALINES_3"
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bitfld.long 0x00 7. "STDITHER ENABLE,Spatial Temporal dithering enable for the secondary LCD output wr: VFP start period of secondary LCD output" "STDITHER ENABLE_0,STDITHER ENABLE_1"
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bitfld.long 0x00 6. "GOWB,GO Command for the write-back output" "GOWB_0,GOWB_1"
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bitfld.long 0x00 5. "GOLCD,GO Command for the secondary LCD output" "GOLCD_0,GOLCD_1"
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bitfld.long 0x00 4. "M8B,Mono 8-bit mode of the secondary LCD wr: VFP start period of secondary LCD output" "M8B_0,M8B_1"
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bitfld.long 0x00 3. "STNTFT,LCD Display type of the secondary LCD wr: VFP start period of secondary LCD output" "STNTFT_0,STNTFT_1"
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bitfld.long 0x00 2. "MONOCOLOR,Monochrome/Color selection for the secondary LCD wr: VFP start period of secondary LCD output" "MONOCOLOR_0,MONOCOLOR_1"
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bitfld.long 0x00 0. "LCDENABLE,Enable the secondary LCD output wr:immediate" "LCDENABLE_0,LCDENABLE_1"
group.long 0x228++0x03
line.long 0x00 "DISPC_CPR1_COEF_B,The register configures the color phase rotation matrix coefficients for the Blue component"
hexmask.long.word 0x00 22.--31. 1. "BR,BR Coefficient Encoded signed value (from -512 to 511)"
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hexmask.long.word 0x00 11.--20. 1. "BG,BG Coefficient Encoded signed value (from -512 to 511)"
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hexmask.long.word 0x00 0.--9. 1. "BB,BB Coefficient Encoded signed value (from -512 to 511)"
group.long 0x224++0x03
line.long 0x00 "DISPC_CPR1_COEF_G,The register configures the color phase rotation matrix coefficients for the Green component"
hexmask.long.word 0x00 22.--31. 1. "GR,GR Coefficient Encoded signed value (from -512 to 511)"
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hexmask.long.word 0x00 11.--20. 1. "GG,GG Coefficient Encoded signed value (from -512 to 511)"
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hexmask.long.word 0x00 0.--9. 1. "GB,GB Coefficient Encoded signed value (from -512 to 511)"
group.long 0x220++0x03
line.long 0x00 "DISPC_CPR1_COEF_R,The register configures the color phase rotation matrix coefficients for the Red component"
hexmask.long.word 0x00 22.--31. 1. "RR,RR Coefficient Encoded signed value (from -512 to 511)"
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hexmask.long.word 0x00 11.--20. 1. "RG,RG Coefficient Encoded signed value (from -512 to 511)"
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hexmask.long.word 0x00 0.--9. 1. "RB,RB Coefficient Encoded signed value (from -512 to 511)"
group.long 0x3B4++0x0B
line.long 0x00 "DISPC_CPR2_COEF_B,The register configures the color phase rotation matrix coefficients for the Blue component"
hexmask.long.word 0x00 22.--31. 1. "BR,BR Coefficient Encoded signed value (from -512 to 511)"
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hexmask.long.word 0x00 11.--20. 1. "BG,BG Coefficient Encoded signed value (from -512 to 511)"
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hexmask.long.word 0x00 0.--9. 1. "BB,BB Coefficient Encoded signed value (from -512 to 511)"
line.long 0x04 "DISPC_CPR2_COEF_G,The register configures the color phase rotation matrix coefficients for the Green component"
hexmask.long.word 0x04 22.--31. 1. "GR,GR Coefficient Encoded signed value (from -512 to 511)"
newline
hexmask.long.word 0x04 11.--20. 1. "GG,GG Coefficient Encoded signed value (from -512 to 511)"
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hexmask.long.word 0x04 0.--9. 1. "GB,GB Coefficient Encoded signed value (from -512 to 511)"
line.long 0x08 "DISPC_CPR2_COEF_R,The register configures the color phase rotation matrix coefficients for the Red component"
hexmask.long.word 0x08 22.--31. 1. "RR,RR Coefficient Encoded signed value (from -512 to 511)"
newline
hexmask.long.word 0x08 11.--20. 1. "RG,RG Coefficient Encoded signed value (from -512 to 511)"
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hexmask.long.word 0x08 0.--9. 1. "RB,RB Coefficient Encoded signed value (from -512 to 511)"
group.long 0x1D4++0x0B
line.long 0x00 "DISPC_DATA1_CYCLE1,The control register configures the output data format for 1st cycle"
bitfld.long 0x00 24.--27. "BITALIGNMENTPIXEL2,Bit alignment" "BITALIGNMENTPIXEL2_0,BITALIGNMENTPIXEL2_1,BITALIGNMENTPIXEL2_2,BITALIGNMENTPIXEL2_3,BITALIGNMENTPIXEL2_4,BITALIGNMENTPIXEL2_5,BITALIGNMENTPIXEL2_6,BITALIGNMENTPIXEL2_7,BITALIGNMENTPIXEL2_8,BITALIGNMENTPIXEL2_9,BITALIGNMENTPIXEL2_10,BITALIGNMENTPIXEL2_11,BITALIGNMENTPIXEL2_12,BITALIGNMENTPIXEL2_13,BITALIGNMENTPIXEL2_14,BITALIGNMENTPIXEL2_15"
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bitfld.long 0x00 16.--20. "NBBITSPIXEL2,Number of bits Number of bits from the pixel 2 (value from 0 to 16 bits)" "NBBITSPIXEL2_0,NBBITSPIXEL2_1,NBBITSPIXEL2_2,NBBITSPIXEL2_3,NBBITSPIXEL2_4,NBBITSPIXEL2_5,NBBITSPIXEL2_6,NBBITSPIXEL2_7,NBBITSPIXEL2_8,NBBITSPIXEL2_9,NBBITSPIXEL2_10,NBBITSPIXEL2_11,NBBITSPIXEL2_12,NBBITSPIXEL2_13,NBBITSPIXEL2_14,NBBITSPIXEL2_15,NBBITSPIXEL2_16,NBBITSPIXEL2_17,NBBITSPIXEL2_18,NBBITSPIXEL2_19,NBBITSPIXEL2_20,NBBITSPIXEL2_21,NBBITSPIXEL2_22,NBBITSPIXEL2_23,NBBITSPIXEL2_24,NBBITSPIXEL2_25,NBBITSPIXEL2_26,NBBITSPIXEL2_27,NBBITSPIXEL2_28,NBBITSPIXEL2_29,NBBITSPIXEL2_30,NBBITSPIXEL2_31"
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bitfld.long 0x00 8.--11. "BITALIGNMENTPIXEL1,Bit alignment" "BITALIGNMENTPIXEL1_0,BITALIGNMENTPIXEL1_1,BITALIGNMENTPIXEL1_2,BITALIGNMENTPIXEL1_3,BITALIGNMENTPIXEL1_4,BITALIGNMENTPIXEL1_5,BITALIGNMENTPIXEL1_6,BITALIGNMENTPIXEL1_7,BITALIGNMENTPIXEL1_8,BITALIGNMENTPIXEL1_9,BITALIGNMENTPIXEL1_10,BITALIGNMENTPIXEL1_11,BITALIGNMENTPIXEL1_12,BITALIGNMENTPIXEL1_13,BITALIGNMENTPIXEL1_14,BITALIGNMENTPIXEL1_15"
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bitfld.long 0x00 0.--4. "NBBITSPIXEL1,Number of bits Number of bits from the pixel 1 (value from 0 to 16 bits)" "NBBITSPIXEL1_0,NBBITSPIXEL1_1,NBBITSPIXEL1_2,NBBITSPIXEL1_3,NBBITSPIXEL1_4,NBBITSPIXEL1_5,NBBITSPIXEL1_6,NBBITSPIXEL1_7,NBBITSPIXEL1_8,NBBITSPIXEL1_9,NBBITSPIXEL1_10,NBBITSPIXEL1_11,NBBITSPIXEL1_12,NBBITSPIXEL1_13,NBBITSPIXEL1_14,NBBITSPIXEL1_15,NBBITSPIXEL1_16,NBBITSPIXEL1_17,NBBITSPIXEL1_18,NBBITSPIXEL1_19,NBBITSPIXEL1_20,NBBITSPIXEL1_21,NBBITSPIXEL1_22,NBBITSPIXEL1_23,NBBITSPIXEL1_24,NBBITSPIXEL1_25,NBBITSPIXEL1_26,NBBITSPIXEL1_27,NBBITSPIXEL1_28,NBBITSPIXEL1_29,NBBITSPIXEL1_30,NBBITSPIXEL1_31"
line.long 0x04 "DISPC_DATA1_CYCLE2,The control register configures the output data format for 2nd cycle"
bitfld.long 0x04 24.--27. "BITALIGNMENTPIXEL2,Bit alignment" "BITALIGNMENTPIXEL2_0,BITALIGNMENTPIXEL2_1,BITALIGNMENTPIXEL2_2,BITALIGNMENTPIXEL2_3,BITALIGNMENTPIXEL2_4,BITALIGNMENTPIXEL2_5,BITALIGNMENTPIXEL2_6,BITALIGNMENTPIXEL2_7,BITALIGNMENTPIXEL2_8,BITALIGNMENTPIXEL2_9,BITALIGNMENTPIXEL2_10,BITALIGNMENTPIXEL2_11,BITALIGNMENTPIXEL2_12,BITALIGNMENTPIXEL2_13,BITALIGNMENTPIXEL2_14,BITALIGNMENTPIXEL2_15"
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bitfld.long 0x04 16.--20. "NBBITSPIXEL2,Number of bits Number of bits from the pixel 2 (value from 0 to 16 bits)" "NBBITSPIXEL2_0,NBBITSPIXEL2_1,NBBITSPIXEL2_2,NBBITSPIXEL2_3,NBBITSPIXEL2_4,NBBITSPIXEL2_5,NBBITSPIXEL2_6,NBBITSPIXEL2_7,NBBITSPIXEL2_8,NBBITSPIXEL2_9,NBBITSPIXEL2_10,NBBITSPIXEL2_11,NBBITSPIXEL2_12,NBBITSPIXEL2_13,NBBITSPIXEL2_14,NBBITSPIXEL2_15,NBBITSPIXEL2_16,NBBITSPIXEL2_17,NBBITSPIXEL2_18,NBBITSPIXEL2_19,NBBITSPIXEL2_20,NBBITSPIXEL2_21,NBBITSPIXEL2_22,NBBITSPIXEL2_23,NBBITSPIXEL2_24,NBBITSPIXEL2_25,NBBITSPIXEL2_26,NBBITSPIXEL2_27,NBBITSPIXEL2_28,NBBITSPIXEL2_29,NBBITSPIXEL2_30,NBBITSPIXEL2_31"
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bitfld.long 0x04 8.--11. "BITALIGNMENTPIXEL1,Bit alignment" "BITALIGNMENTPIXEL1_0,BITALIGNMENTPIXEL1_1,BITALIGNMENTPIXEL1_2,BITALIGNMENTPIXEL1_3,BITALIGNMENTPIXEL1_4,BITALIGNMENTPIXEL1_5,BITALIGNMENTPIXEL1_6,BITALIGNMENTPIXEL1_7,BITALIGNMENTPIXEL1_8,BITALIGNMENTPIXEL1_9,BITALIGNMENTPIXEL1_10,BITALIGNMENTPIXEL1_11,BITALIGNMENTPIXEL1_12,BITALIGNMENTPIXEL1_13,BITALIGNMENTPIXEL1_14,BITALIGNMENTPIXEL1_15"
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bitfld.long 0x04 0.--4. "NBBITSPIXEL1,Number of bits Number of bits from the pixel 1 (value from 0 to 16 bits)" "NBBITSPIXEL1_0,NBBITSPIXEL1_1,NBBITSPIXEL1_2,NBBITSPIXEL1_3,NBBITSPIXEL1_4,NBBITSPIXEL1_5,NBBITSPIXEL1_6,NBBITSPIXEL1_7,NBBITSPIXEL1_8,NBBITSPIXEL1_9,NBBITSPIXEL1_10,NBBITSPIXEL1_11,NBBITSPIXEL1_12,NBBITSPIXEL1_13,NBBITSPIXEL1_14,NBBITSPIXEL1_15,NBBITSPIXEL1_16,NBBITSPIXEL1_17,NBBITSPIXEL1_18,NBBITSPIXEL1_19,NBBITSPIXEL1_20,NBBITSPIXEL1_21,NBBITSPIXEL1_22,NBBITSPIXEL1_23,NBBITSPIXEL1_24,NBBITSPIXEL1_25,NBBITSPIXEL1_26,NBBITSPIXEL1_27,NBBITSPIXEL1_28,NBBITSPIXEL1_29,NBBITSPIXEL1_30,NBBITSPIXEL1_31"
line.long 0x08 "DISPC_DATA1_CYCLE3,The control register configures the output data format for 3rd cycle"
bitfld.long 0x08 24.--27. "BITALIGNMENTPIXEL2,Bit alignment" "BITALIGNMENTPIXEL2_0,BITALIGNMENTPIXEL2_1,BITALIGNMENTPIXEL2_2,BITALIGNMENTPIXEL2_3,BITALIGNMENTPIXEL2_4,BITALIGNMENTPIXEL2_5,BITALIGNMENTPIXEL2_6,BITALIGNMENTPIXEL2_7,BITALIGNMENTPIXEL2_8,BITALIGNMENTPIXEL2_9,BITALIGNMENTPIXEL2_10,BITALIGNMENTPIXEL2_11,BITALIGNMENTPIXEL2_12,BITALIGNMENTPIXEL2_13,BITALIGNMENTPIXEL2_14,BITALIGNMENTPIXEL2_15"
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bitfld.long 0x08 16.--20. "NBBITSPIXEL2,Number of bits Number of bits from the pixel 2 (value from 0 to 16 bits)" "NBBITSPIXEL2_0,NBBITSPIXEL2_1,NBBITSPIXEL2_2,NBBITSPIXEL2_3,NBBITSPIXEL2_4,NBBITSPIXEL2_5,NBBITSPIXEL2_6,NBBITSPIXEL2_7,NBBITSPIXEL2_8,NBBITSPIXEL2_9,NBBITSPIXEL2_10,NBBITSPIXEL2_11,NBBITSPIXEL2_12,NBBITSPIXEL2_13,NBBITSPIXEL2_14,NBBITSPIXEL2_15,NBBITSPIXEL2_16,NBBITSPIXEL2_17,NBBITSPIXEL2_18,NBBITSPIXEL2_19,NBBITSPIXEL2_20,NBBITSPIXEL2_21,NBBITSPIXEL2_22,NBBITSPIXEL2_23,NBBITSPIXEL2_24,NBBITSPIXEL2_25,NBBITSPIXEL2_26,NBBITSPIXEL2_27,NBBITSPIXEL2_28,NBBITSPIXEL2_29,NBBITSPIXEL2_30,NBBITSPIXEL2_31"
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bitfld.long 0x08 8.--11. "BITALIGNMENTPIXEL1,Bit alignment" "BITALIGNMENTPIXEL1_0,BITALIGNMENTPIXEL1_1,BITALIGNMENTPIXEL1_2,BITALIGNMENTPIXEL1_3,BITALIGNMENTPIXEL1_4,BITALIGNMENTPIXEL1_5,BITALIGNMENTPIXEL1_6,BITALIGNMENTPIXEL1_7,BITALIGNMENTPIXEL1_8,BITALIGNMENTPIXEL1_9,BITALIGNMENTPIXEL1_10,BITALIGNMENTPIXEL1_11,BITALIGNMENTPIXEL1_12,BITALIGNMENTPIXEL1_13,BITALIGNMENTPIXEL1_14,BITALIGNMENTPIXEL1_15"
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bitfld.long 0x08 0.--4. "NBBITSPIXEL1,Number of bits Number of bits from the pixel 1 (value from 0 to 16 bits)" "NBBITSPIXEL1_0,NBBITSPIXEL1_1,NBBITSPIXEL1_2,NBBITSPIXEL1_3,NBBITSPIXEL1_4,NBBITSPIXEL1_5,NBBITSPIXEL1_6,NBBITSPIXEL1_7,NBBITSPIXEL1_8,NBBITSPIXEL1_9,NBBITSPIXEL1_10,NBBITSPIXEL1_11,NBBITSPIXEL1_12,NBBITSPIXEL1_13,NBBITSPIXEL1_14,NBBITSPIXEL1_15,NBBITSPIXEL1_16,NBBITSPIXEL1_17,NBBITSPIXEL1_18,NBBITSPIXEL1_19,NBBITSPIXEL1_20,NBBITSPIXEL1_21,NBBITSPIXEL1_22,NBBITSPIXEL1_23,NBBITSPIXEL1_24,NBBITSPIXEL1_25,NBBITSPIXEL1_26,NBBITSPIXEL1_27,NBBITSPIXEL1_28,NBBITSPIXEL1_29,NBBITSPIXEL1_30,NBBITSPIXEL1_31"
group.long 0x3C0++0x0B
line.long 0x00 "DISPC_DATA2_CYCLE1,The control register configures the output data format for 1st cycle"
bitfld.long 0x00 24.--27. "BITALIGNMENTPIXEL2,Bit alignment" "BITALIGNMENTPIXEL2_0,BITALIGNMENTPIXEL2_1,BITALIGNMENTPIXEL2_2,BITALIGNMENTPIXEL2_3,BITALIGNMENTPIXEL2_4,BITALIGNMENTPIXEL2_5,BITALIGNMENTPIXEL2_6,BITALIGNMENTPIXEL2_7,BITALIGNMENTPIXEL2_8,BITALIGNMENTPIXEL2_9,BITALIGNMENTPIXEL2_10,BITALIGNMENTPIXEL2_11,BITALIGNMENTPIXEL2_12,BITALIGNMENTPIXEL2_13,BITALIGNMENTPIXEL2_14,BITALIGNMENTPIXEL2_15"
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bitfld.long 0x00 16.--20. "NBBITSPIXEL2,Number of bits Number of bits from the pixel 2 (value from 0 to 16 bits)" "NBBITSPIXEL2_0,NBBITSPIXEL2_1,NBBITSPIXEL2_2,NBBITSPIXEL2_3,NBBITSPIXEL2_4,NBBITSPIXEL2_5,NBBITSPIXEL2_6,NBBITSPIXEL2_7,NBBITSPIXEL2_8,NBBITSPIXEL2_9,NBBITSPIXEL2_10,NBBITSPIXEL2_11,NBBITSPIXEL2_12,NBBITSPIXEL2_13,NBBITSPIXEL2_14,NBBITSPIXEL2_15,NBBITSPIXEL2_16,NBBITSPIXEL2_17,NBBITSPIXEL2_18,NBBITSPIXEL2_19,NBBITSPIXEL2_20,NBBITSPIXEL2_21,NBBITSPIXEL2_22,NBBITSPIXEL2_23,NBBITSPIXEL2_24,NBBITSPIXEL2_25,NBBITSPIXEL2_26,NBBITSPIXEL2_27,NBBITSPIXEL2_28,NBBITSPIXEL2_29,NBBITSPIXEL2_30,NBBITSPIXEL2_31"
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bitfld.long 0x00 8.--11. "BITALIGNMENTPIXEL1,Bit alignment" "BITALIGNMENTPIXEL1_0,BITALIGNMENTPIXEL1_1,BITALIGNMENTPIXEL1_2,BITALIGNMENTPIXEL1_3,BITALIGNMENTPIXEL1_4,BITALIGNMENTPIXEL1_5,BITALIGNMENTPIXEL1_6,BITALIGNMENTPIXEL1_7,BITALIGNMENTPIXEL1_8,BITALIGNMENTPIXEL1_9,BITALIGNMENTPIXEL1_10,BITALIGNMENTPIXEL1_11,BITALIGNMENTPIXEL1_12,BITALIGNMENTPIXEL1_13,BITALIGNMENTPIXEL1_14,BITALIGNMENTPIXEL1_15"
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bitfld.long 0x00 0.--4. "NBBITSPIXEL1,Number of bits Number of bits from the pixel 1 (value from 0 to 16 bits)" "NBBITSPIXEL1_0,NBBITSPIXEL1_1,NBBITSPIXEL1_2,NBBITSPIXEL1_3,NBBITSPIXEL1_4,NBBITSPIXEL1_5,NBBITSPIXEL1_6,NBBITSPIXEL1_7,NBBITSPIXEL1_8,NBBITSPIXEL1_9,NBBITSPIXEL1_10,NBBITSPIXEL1_11,NBBITSPIXEL1_12,NBBITSPIXEL1_13,NBBITSPIXEL1_14,NBBITSPIXEL1_15,NBBITSPIXEL1_16,NBBITSPIXEL1_17,NBBITSPIXEL1_18,NBBITSPIXEL1_19,NBBITSPIXEL1_20,NBBITSPIXEL1_21,NBBITSPIXEL1_22,NBBITSPIXEL1_23,NBBITSPIXEL1_24,NBBITSPIXEL1_25,NBBITSPIXEL1_26,NBBITSPIXEL1_27,NBBITSPIXEL1_28,NBBITSPIXEL1_29,NBBITSPIXEL1_30,NBBITSPIXEL1_31"
line.long 0x04 "DISPC_DATA2_CYCLE2,The control register configures the output data format for 2nd cycle"
bitfld.long 0x04 24.--27. "BITALIGNMENTPIXEL2,Bit alignment" "BITALIGNMENTPIXEL2_0,BITALIGNMENTPIXEL2_1,BITALIGNMENTPIXEL2_2,BITALIGNMENTPIXEL2_3,BITALIGNMENTPIXEL2_4,BITALIGNMENTPIXEL2_5,BITALIGNMENTPIXEL2_6,BITALIGNMENTPIXEL2_7,BITALIGNMENTPIXEL2_8,BITALIGNMENTPIXEL2_9,BITALIGNMENTPIXEL2_10,BITALIGNMENTPIXEL2_11,BITALIGNMENTPIXEL2_12,BITALIGNMENTPIXEL2_13,BITALIGNMENTPIXEL2_14,BITALIGNMENTPIXEL2_15"
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bitfld.long 0x04 16.--20. "NBBITSPIXEL2,Number of bits Number of bits from the pixel 2 (value from 0 to 16 bits)" "NBBITSPIXEL2_0,NBBITSPIXEL2_1,NBBITSPIXEL2_2,NBBITSPIXEL2_3,NBBITSPIXEL2_4,NBBITSPIXEL2_5,NBBITSPIXEL2_6,NBBITSPIXEL2_7,NBBITSPIXEL2_8,NBBITSPIXEL2_9,NBBITSPIXEL2_10,NBBITSPIXEL2_11,NBBITSPIXEL2_12,NBBITSPIXEL2_13,NBBITSPIXEL2_14,NBBITSPIXEL2_15,NBBITSPIXEL2_16,NBBITSPIXEL2_17,NBBITSPIXEL2_18,NBBITSPIXEL2_19,NBBITSPIXEL2_20,NBBITSPIXEL2_21,NBBITSPIXEL2_22,NBBITSPIXEL2_23,NBBITSPIXEL2_24,NBBITSPIXEL2_25,NBBITSPIXEL2_26,NBBITSPIXEL2_27,NBBITSPIXEL2_28,NBBITSPIXEL2_29,NBBITSPIXEL2_30,NBBITSPIXEL2_31"
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bitfld.long 0x04 8.--11. "BITALIGNMENTPIXEL1,Bit alignment" "BITALIGNMENTPIXEL1_0,BITALIGNMENTPIXEL1_1,BITALIGNMENTPIXEL1_2,BITALIGNMENTPIXEL1_3,BITALIGNMENTPIXEL1_4,BITALIGNMENTPIXEL1_5,BITALIGNMENTPIXEL1_6,BITALIGNMENTPIXEL1_7,BITALIGNMENTPIXEL1_8,BITALIGNMENTPIXEL1_9,BITALIGNMENTPIXEL1_10,BITALIGNMENTPIXEL1_11,BITALIGNMENTPIXEL1_12,BITALIGNMENTPIXEL1_13,BITALIGNMENTPIXEL1_14,BITALIGNMENTPIXEL1_15"
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bitfld.long 0x04 0.--4. "NBBITSPIXEL1,Number of bits Number of bits from the pixel 1 (value from 0 to 16 bits)" "NBBITSPIXEL1_0,NBBITSPIXEL1_1,NBBITSPIXEL1_2,NBBITSPIXEL1_3,NBBITSPIXEL1_4,NBBITSPIXEL1_5,NBBITSPIXEL1_6,NBBITSPIXEL1_7,NBBITSPIXEL1_8,NBBITSPIXEL1_9,NBBITSPIXEL1_10,NBBITSPIXEL1_11,NBBITSPIXEL1_12,NBBITSPIXEL1_13,NBBITSPIXEL1_14,NBBITSPIXEL1_15,NBBITSPIXEL1_16,NBBITSPIXEL1_17,NBBITSPIXEL1_18,NBBITSPIXEL1_19,NBBITSPIXEL1_20,NBBITSPIXEL1_21,NBBITSPIXEL1_22,NBBITSPIXEL1_23,NBBITSPIXEL1_24,NBBITSPIXEL1_25,NBBITSPIXEL1_26,NBBITSPIXEL1_27,NBBITSPIXEL1_28,NBBITSPIXEL1_29,NBBITSPIXEL1_30,NBBITSPIXEL1_31"
line.long 0x08 "DISPC_DATA2_CYCLE3,The control register configures the output data format for 3rd cycle"
bitfld.long 0x08 24.--27. "BITALIGNMENTPIXEL2,Bit alignment" "BITALIGNMENTPIXEL2_0,BITALIGNMENTPIXEL2_1,BITALIGNMENTPIXEL2_2,BITALIGNMENTPIXEL2_3,BITALIGNMENTPIXEL2_4,BITALIGNMENTPIXEL2_5,BITALIGNMENTPIXEL2_6,BITALIGNMENTPIXEL2_7,BITALIGNMENTPIXEL2_8,BITALIGNMENTPIXEL2_9,BITALIGNMENTPIXEL2_10,BITALIGNMENTPIXEL2_11,BITALIGNMENTPIXEL2_12,BITALIGNMENTPIXEL2_13,BITALIGNMENTPIXEL2_14,BITALIGNMENTPIXEL2_15"
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bitfld.long 0x08 16.--20. "NBBITSPIXEL2,Number of bits Number of bits from the pixel 2 (value from 0 to 16 bits)" "NBBITSPIXEL2_0,NBBITSPIXEL2_1,NBBITSPIXEL2_2,NBBITSPIXEL2_3,NBBITSPIXEL2_4,NBBITSPIXEL2_5,NBBITSPIXEL2_6,NBBITSPIXEL2_7,NBBITSPIXEL2_8,NBBITSPIXEL2_9,NBBITSPIXEL2_10,NBBITSPIXEL2_11,NBBITSPIXEL2_12,NBBITSPIXEL2_13,NBBITSPIXEL2_14,NBBITSPIXEL2_15,NBBITSPIXEL2_16,NBBITSPIXEL2_17,NBBITSPIXEL2_18,NBBITSPIXEL2_19,NBBITSPIXEL2_20,NBBITSPIXEL2_21,NBBITSPIXEL2_22,NBBITSPIXEL2_23,NBBITSPIXEL2_24,NBBITSPIXEL2_25,NBBITSPIXEL2_26,NBBITSPIXEL2_27,NBBITSPIXEL2_28,NBBITSPIXEL2_29,NBBITSPIXEL2_30,NBBITSPIXEL2_31"
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bitfld.long 0x08 8.--11. "BITALIGNMENTPIXEL1,Bit alignment" "BITALIGNMENTPIXEL1_0,BITALIGNMENTPIXEL1_1,BITALIGNMENTPIXEL1_2,BITALIGNMENTPIXEL1_3,BITALIGNMENTPIXEL1_4,BITALIGNMENTPIXEL1_5,BITALIGNMENTPIXEL1_6,BITALIGNMENTPIXEL1_7,BITALIGNMENTPIXEL1_8,BITALIGNMENTPIXEL1_9,BITALIGNMENTPIXEL1_10,BITALIGNMENTPIXEL1_11,BITALIGNMENTPIXEL1_12,BITALIGNMENTPIXEL1_13,BITALIGNMENTPIXEL1_14,BITALIGNMENTPIXEL1_15"
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bitfld.long 0x08 0.--4. "NBBITSPIXEL1,Number of bits Number of bits from the pixel 1 (value from 0 to 16 bits)" "NBBITSPIXEL1_0,NBBITSPIXEL1_1,NBBITSPIXEL1_2,NBBITSPIXEL1_3,NBBITSPIXEL1_4,NBBITSPIXEL1_5,NBBITSPIXEL1_6,NBBITSPIXEL1_7,NBBITSPIXEL1_8,NBBITSPIXEL1_9,NBBITSPIXEL1_10,NBBITSPIXEL1_11,NBBITSPIXEL1_12,NBBITSPIXEL1_13,NBBITSPIXEL1_14,NBBITSPIXEL1_15,NBBITSPIXEL1_16,NBBITSPIXEL1_17,NBBITSPIXEL1_18,NBBITSPIXEL1_19,NBBITSPIXEL1_20,NBBITSPIXEL1_21,NBBITSPIXEL1_22,NBBITSPIXEL1_23,NBBITSPIXEL1_24,NBBITSPIXEL1_25,NBBITSPIXEL1_26,NBBITSPIXEL1_27,NBBITSPIXEL1_28,NBBITSPIXEL1_29,NBBITSPIXEL1_30,NBBITSPIXEL1_31"
group.long 0x4C++0x07
line.long 0x00 "DISPC_DEFAULT_COLOR0,The control register allows to configure the default solid background color for 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"
line.long 0x04 "DISPC_DEFAULT_COLOR1,The control register allows to configure the default solid background color for the TV output"
hexmask.long.tbyte 0x04 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 0x3AC++0x03
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 0x804++0x03
line.long 0x00 "DISPC_DIVISOR,The register configures the divisor value 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"
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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" "ENABLE_0,ENABLE_1"
group.long 0x70++0x03
line.long 0x00 "DISPC_DIVISOR1,The register configures the divisors"
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"
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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"
group.long 0x40C++0x03
line.long 0x00 "DISPC_DIVISOR2,The register configures the divisors"
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"
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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"
group.long 0x630++0x0B
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"
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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"
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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"
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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"
line.long 0x04 "DISPC_GAMMA_TABLE1,The register configures the gamma table on the secondary LCD output"
hexmask.long.byte 0x04 24.--31. 1. "INDEX,Defines the location in the table where the bit field VALUE is stored"
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hexmask.long.byte 0x04 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"
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hexmask.long.byte 0x04 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"
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hexmask.long.byte 0x04 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"
line.long 0x08 "DISPC_GAMMA_TABLE2,The register configures the gamma table on the TV output"
bitfld.long 0x08 31. "INDEX,Setting this bit to 1 resets the internal index counter to zero" "INDEX_0,INDEX_1"
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hexmask.long.word 0x08 20.--29. 1. "VALUE_R,10-bit color component value to store in the table"
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hexmask.long.word 0x08 10.--19. 1. "VALUE_G,10-bit color component value to store in the table"
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hexmask.long.word 0x08 0.--9. 1. "VALUE_B,10-bit color component value to store in the table"
group.long 0xA0++0x03
line.long 0x00 "DISPC_GFX_ATTRIBUTES,The register configures the graphics attributes"
bitfld.long 0x00 30.--31. "CHANNELOUT2,It is not used if CHANNELOUT is set to TV" "CHANNELOUT2_0,CHANNELOUT2_1,?,CHANNELOUT2_3"
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bitfld.long 0x00 29. "BURSTTYPE,The type of burst can be INCR (incremental) or BLCK (2D block)" "BURSTTYPE_0,BURSTTYPE_1"
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bitfld.long 0x00 28. "PREMULTIPLYALPHA,The field configures the DISPC GFX to process incoming data as premultiplied alpha data or non premultiplied alpha data" "PREMULTIPLYALPHA_0,PREMULTIPLYALPHA_1"
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bitfld.long 0x00 26.--27. "ZORDER,Z-Order defining the priority of the layer compared to others when overlaying" "ZORDER_0,ZORDER_1,ZORDER_2,ZORDER_3"
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bitfld.long 0x00 25. "ZORDERENABLE,Z-order Enable" "ZORDERENABLE_0,ZORDERENABLE_1"
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bitfld.long 0x00 24. "ANTIFLICKER,Antiflicker filtering using a 3-tap filter with hardcoded coefficients (1/4 1/2 " "ANTIFLICKER_0,ANTIFLICKER_1"
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bitfld.long 0x00 17. "SELFREFRESHAUTO,Automatic self-refresh mode" "SELFREFRESHAUTO_0,SELFREFRESHAUTO_1"
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bitfld.long 0x00 15. "SELFREFRESH,Enables the self refresh of the graphics window from its own DMA buffer" "SELFREFRESH_0,SELFREFRESH_1"
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bitfld.long 0x00 14. "ARBITRATION,Determines the priority of the graphics pipeline" "ARBITRATION_0,ARBITRATION_1"
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bitfld.long 0x00 12.--13. "ROTATION,Graphics Rotation Flag" "ROTATION_0,ROTATION_1,ROTATION_2,ROTATION_3"
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bitfld.long 0x00 11. "BUFPRELOAD,Graphics Preload Value" "BUFPRELOAD_0,BUFPRELOAD_1"
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bitfld.long 0x00 9. "NIBBLEMODE,Graphics Nibble Mode (only for 1- 2- and" "NIBBLEMODE_0,NIBBLEMODE_1"
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bitfld.long 0x00 8. "CHANNELOUT,Graphics Channel Out configuration: LCD WB or TV" "CHANNELOUT_0,CHANNELOUT_1"
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bitfld.long 0x00 6.--7. "BURSTSIZE,Graphics DMA Burst Size" "BURSTSIZE_0,BURSTSIZE_1,BURSTSIZE_2,BURSTSIZE_3"
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bitfld.long 0x00 5. "REPLICATIONENABLE,Graphics Replication Enabled: RGB" "REPLICATIONENABLE_0,REPLICATIONENABLE_1"
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bitfld.long 0x00 1.--4. "FORMAT,Graphics format" "FORMAT_0,FORMAT_1,FORMAT_2,FORMAT_3,FORMAT_4,FORMAT_5,FORMAT_6,FORMAT_7,FORMAT_8,FORMAT_9,FORMAT_10,FORMAT_11,FORMAT_12,FORMAT_13,FORMAT_14,FORMAT_15"
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bitfld.long 0x00 0. "ENABLE,Graphics Enable" "ENABLE_0,ENABLE_1"
rgroup.long 0xA8++0x03
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 0xA4++0x03
line.long 0x00 "DISPC_GFX_BUF_THRESHOLD,The register configures the graphics buffer"
hexmask.long.word 0x00 16.--31. 1. "BUFHIGHTHRESHOLD,DMA buffer High Threshold Number of 128-bits defining the threshold value"
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hexmask.long.word 0x00 0.--15. 1. "BUFLOWTHRESHOLD,DMA buffer Low Threshold Number of 128-bits defining the threshold value"
group.long 0xB0++0x03
line.long 0x00 "DISPC_GFX_PIXEL_INC,The register configures the number of bytes to increment between two pixels"
hexmask.long.byte 0x00 0.--7. 1. "PIXELINC,Number of bytes to increment between two pixels"
group.long 0x88++0x03
line.long 0x00 "DISPC_GFX_POSITION,The register configures the position of the graphics window"
hexmask.long.word 0x00 16.--26. 1. "POSY,Y position of the graphics window"
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hexmask.long.word 0x00 0.--10. 1. "POSX,X position of the graphics window"
group.long 0x22C++0x03
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 EVSYNC or when.GOWB is set to 1 by software and current WB frame is finished (no.."
hexmask.long.word 0x00 0.--11. 1. "PRELOAD,DMA buffer preload value Number of 128-bit words defining the preload value"
group.long 0xAC++0x03
line.long 0x00 "DISPC_GFX_ROW_INC,The register configures the number of bytes to increment at the end of the row"
group.long 0x8C++0x03
line.long 0x00 "DISPC_GFX_SIZE,The register configures the size of the graphics window"
hexmask.long.word 0x00 16.--26. 1. "SIZEY,Number of lines of the graphics window"
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hexmask.long.word 0x00 0.--10. 1. "SIZEX,Number of pixels of the graphics window"
group.long 0xB8++0x03
line.long 0x00 "DISPC_GFX_TABLE_BA,The register configures the base address of the palette buffer or the gamma table buffer"
group.long 0x74++0x03
line.long 0x00 "DISPC_GLOBAL_ALPHA,The register defines the global alpha value for the graphics and three video pipelines"
hexmask.long.byte 0x00 24.--31. 1. "VID3GLOBALALPHA,Global alpha value from 0 to 255"
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hexmask.long.byte 0x00 16.--23. 1. "VID2GLOBALALPHA,Global alpha value from 0 to 255"
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hexmask.long.byte 0x00 8.--15. 1. "VID1GLOBALALPHA,Global alpha value from 0 to 255"
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hexmask.long.byte 0x00 0.--7. 1. "GFXGLOBALALPHA,Global alpha value from 0 to 255"
group.long 0x800++0x03
line.long 0x00 "DISPC_GLOBAL_BUFFER,The register configures the DMA buffers allocations to the pipeline (graphics. video1. video2. video3 and write-back)"
bitfld.long 0x00 27.--29. "WB_BOTTOM_ BUFFER,Write-back DMA BOTTOM buffer (half of the full DMA buffer) allocation to one of the pipelines" "WB_BOTTOM_ BUFFER_0,WB_BOTTOM_ BUFFER_1,WB_BOTTOM_ BUFFER_2,WB_BOTTOM_ BUFFER_3,WB_BOTTOM_ BUFFER_4,?,?,?"
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bitfld.long 0x00 24.--26. "WB_TOP_ BUFFER,Write-back DMA TOP buffer (half of the full DMA buffer) allocation to one of the pipelines" "WB_TOP_ BUFFER_0,WB_TOP_ BUFFER_1,WB_TOP_ BUFFER_2,WB_TOP_ BUFFER_3,WB_TOP_ BUFFER_4,?,?,?"
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bitfld.long 0x00 21.--23. "VID3_BOTTOM_ BUFFER,Video3 DMA BOTTOM buffer (half of the full DMA buffer) allocation to one of the pipelines" "VID3_BOTTOM_ BUFFER_0,VID3_BOTTOM_ BUFFER_1,VID3_BOTTOM_ BUFFER_2,VID3_BOTTOM_ BUFFER_3,VID3_BOTTOM_ BUFFER_4,?,?,?"
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bitfld.long 0x00 18.--20. "VID3_TOP_ BUFFER,Video3 DMA TOP buffer (half of the full DMA buffer) allocation to one of the pipelines" "VID3_TOP_ BUFFER_0,VID3_TOP_ BUFFER_1,VID3_TOP_ BUFFER_2,VID3_TOP_ BUFFER_3,VID3_TOP_ BUFFER_4,?,?,?"
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bitfld.long 0x00 15.--17. "VID2_BOTTOM_ BUFFER,Video2 DMA BOTTOM buffer (half of the full DMA buffer) allocation to one of the pipelines" "VID2_BOTTOM_ BUFFER_0,VID2_BOTTOM_ BUFFER_1,VID2_BOTTOM_ BUFFER_2,VID2_BOTTOM_ BUFFER_3,VID2_BOTTOM_ BUFFER_4,?,?,?"
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bitfld.long 0x00 12.--14. "VID2_TOP_ BUFFER,Video2 DMA TOP buffer (half of the full DMA buffer) allocation to one of the pipelines" "VID2_TOP_ BUFFER_0,VID2_TOP_ BUFFER_1,VID2_TOP_ BUFFER_2,VID2_TOP_ BUFFER_3,VID2_TOP_ BUFFER_4,?,?,?"
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bitfld.long 0x00 9.--11. "VID1_BOTTOM_ BUFFER,Video1 DMA BOTTOM buffer (half of the full DMA buffer) allocation to one of the pipelines" "VID1_BOTTOM_ BUFFER_0,VID1_BOTTOM_ BUFFER_1,VID1_BOTTOM_ BUFFER_2,VID1_BOTTOM_ BUFFER_3,VID1_BOTTOM_ BUFFER_4,?,?,?"
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bitfld.long 0x00 6.--8. "VID1_TOP_ BUFFER,Video1 DMA TOP buffer (half of the full DMA buffer) allocation to one of the pipelines" "VID1_TOP_ BUFFER_0,VID1_TOP_ BUFFER_1,VID1_TOP_ BUFFER_2,VID1_TOP_ BUFFER_3,VID1_TOP_ BUFFER_4,?,?,?"
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bitfld.long 0x00 3.--5. "GFX_BOTTOM_ BUFFER,Graphics DMA BOTTOM buffer (half of the full DMA buffer) allocation to one of the pipelines" "GFX_BOTTOM_ BUFFER_0,GFX_BOTTOM_ BUFFER_1,GFX_BOTTOM_ BUFFER_2,GFX_BOTTOM_ BUFFER_3,GFX_BOTTOM_ BUFFER_4,?,?,?"
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bitfld.long 0x00 0.--2. "GFX_TOP_ BUFFER,Graphics DMA TOP buffer (half of the full DMA buffer) allocation to one of the pipelines" "GFX_TOP_ BUFFER_0,GFX_TOP_ BUFFER_1,GFX_TOP_ BUFFER_2,GFX_TOP_ BUFFER_3,GFX_TOP_ BUFFER_4,?,?,?"
group.long 0x1C++0x03
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 26. "WBUNCOMPLETEERROR_EN,The write back buffer has been flushed before it has been fully drained" "WBUNCOMPLETEERROR_EN_0,WBUNCOMPLETEERROR_EN_1"
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bitfld.long 0x00 25. "WBBUFFER OVERFLOW_EN,Write-back DMA Buffer Overflow" "WBBUFFER OVERFLOW_EN_0,WBBUFFER OVERFLOW_EN_1"
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bitfld.long 0x00 24. "FRAME DONETV_EN,Frame Done for the TV" "FRAME DONETV_EN_0,FRAME DONETV_EN_1"
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bitfld.long 0x00 23. "FRAME DONEWB_EN,Frame Done for the write-back channel" "FRAME DONEWB_EN_0,FRAME DONEWB_EN_1"
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bitfld.long 0x00 22. "FRAME DONE2_EN,Frame Done for the secondary LCD" "FRAME DONE2_EN_0,FRAME DONE2_EN_1"
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bitfld.long 0x00 21. "ACBIASCOUNT STATUS2_EN,AC Bias Count Status for the secondary LCD" "ACBIASCOUNT STATUS2_EN_0,ACBIASCOUNT STATUS2_EN_1"
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bitfld.long 0x00 20. "VID3BUFFER UNDERFLOW_EN,Video 3 DMA Buffer Underflow" "VID3BUFFER UNDERFLOW_EN_0,VID3BUFFER UNDERFLOW_EN_1"
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bitfld.long 0x00 19. "VID3END WINDOW_EN,The end of the video 3 Window has been reached" "VID3END WINDOW_EN_0,VID3END WINDOW_EN_1"
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bitfld.long 0x00 18. "VSYNC2_EN,Vertical Synchronization for the secondary LCD" "VSYNC2_EN_0,VSYNC2_EN_1"
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bitfld.long 0x00 17. "SYNC LOST2_EN,Synchronization Lost on the secondary LCD output" "SYNC LOST2_EN_0,SYNC LOST2_EN_1"
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bitfld.long 0x00 16. "WAKEUP_EN,Wake Up Mask" "WAKEUP_EN_0,WAKEUP_EN_1"
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bitfld.long 0x00 15. "SYNC LOSTTV_EN,Synchronization Lost on the TV output" "SYNC LOSTTV_EN_0,SYNC LOSTTV_EN_1"
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bitfld.long 0x00 14. "SYNC LOST1_EN,Synchronization Lost for the primary LCD" "SYNC LOST1_EN_0,SYNC LOST1_EN_1"
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bitfld.long 0x00 13. "VID2END WINDOW_EN,The end of the video 2 Window has been reached" "VID2END WINDOW_EN_0,VID2END WINDOW_EN_1"
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bitfld.long 0x00 12. "VID2BUFFER UNDERFLOW_EN,Video 2 DMA Buffer Underflow" "VID2BUFFER UNDERFLOW_EN_0,VID2BUFFER UNDERFLOW_EN_1"
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bitfld.long 0x00 11. "ENDVID1 WINDOW_EN,The end of the video 1 Window has been reached" "ENDVID1 WINDOW_EN_0,ENDVID1 WINDOW_EN_1"
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bitfld.long 0x00 10. "VID1BUFFER UNDERFLOW_EN,Video 1 DMA Buffer Underflow" "VID1BUFFER UNDERFLOW_EN_0,VID1BUFFER UNDERFLOW_EN_1"
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bitfld.long 0x00 9. "OCPERROR_EN,OCP Error" "OCPERROR_EN_0,OCPERROR_EN_1"
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bitfld.long 0x00 8. "PALETTE GAMMA_EN,Palette Gamma Loading mask" "PALETTE GAMMA_EN_0,PALETTE GAMMA_EN_1"
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bitfld.long 0x00 7. "GFXEND WINDOW_EN,The end of the graphics Window has been reached" "GFXEND WINDOW_EN_0,GFXEND WINDOW_EN_1"
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bitfld.long 0x00 6. "GFXBUFFER UNDERFLOW_EN,Graphics DMA Buffer Underflow" "GFXBUFFER UNDERFLOW_EN_0,GFXBUFFER UNDERFLOW_EN_1"
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bitfld.long 0x00 5. "PROGRAMMED LINENUMBER_EN,Programmed Line Number" "PROGRAMMED LINENUMBER_EN_0,PROGRAMMED LINENUMBER_EN_1"
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bitfld.long 0x00 4. "ACBIASCOUNT STATUS1_EN,AC Bias Count Status for the primary LCD" "ACBIASCOUNT STATUS1_EN_0,ACBIASCOUNT STATUS1_EN_1"
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bitfld.long 0x00 3. "EVSYNC_ODD_EN,VSYNC for odd field from the TV encoder (VENC or HDMI)" "EVSYNC_ODD_EN_0,EVSYNC_ODD_EN_1"
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bitfld.long 0x00 2. "EVSYNC_EVEN_EN,VSYNC for even field from the TV encoder (VENC or HDMI)" "EVSYNC_EVEN_EN_0,EVSYNC_EVEN_EN_1"
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bitfld.long 0x00 1. "VSYNC1_EN,Vertical Synchronization for the primary LCD" "VSYNC1_EN_0,VSYNC1_EN_1"
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bitfld.long 0x00 0. "FRAMEDONE_EN,Frame Done for the primary LCD" "FRAMEDONE_EN_0,FRAMEDONE_EN_1"
group.long 0x18++0x03
line.long 0x00 "DISPC_IRQSTATUS,This register regroups all the status of the module internal events that generate an interrupt"
bitfld.long 0x00 26. "WBUNCOMPLETEERROR_IRQ,Write-back DMA buffer is flushed before it is completely drained" "WBUNCOMPLETEERROR_IRQ_0,WBUNCOMPLETEERROR_IRQ_1"
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bitfld.long 0x00 25. "WBBUFFER OVERFLOW_IRQ,Write-back DMA Buffer Overflow" "WBBUFFER OVERFLOW_IRQ_0,WBBUFFER OVERFLOW_IRQ_1"
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bitfld.long 0x00 24. "FRAME DONETV_IRQ,Frame Done for the TV" "FRAME DONETV_IRQ_0,FRAME DONETV_IRQ_1"
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bitfld.long 0x00 23. "FRAME DONEWB_IRQ,Frame Done for the write-back channel" "FRAME DONEWB_IRQ_0,FRAME DONEWB_IRQ_1"
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bitfld.long 0x00 22. "FRAME DONE2_IRQ,Frame Done for the secondary LCD" "FRAME DONE2_IRQ_0,FRAME DONE2_IRQ_1"
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bitfld.long 0x00 21. "ACBIASCOUNT STATUS2_IRQ,AC Bias Count Status for the secondary LCD" "ACBIASCOUNT STATUS2_IRQ_0,ACBIASCOUNT STATUS2_IRQ_1"
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bitfld.long 0x00 20. "VID3BUFFER UNDERFLOW_IRQ,Video 3 DMA Buffer Underflow" "VID3BUFFER UNDERFLOW_IRQ_0,VID3BUFFER UNDERFLOW_IRQ_1"
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bitfld.long 0x00 19. "VID3END WINDOW_IRQ,The end of the video 3 Window has been reached" "VID3END WINDOW_IRQ_0,VID3END WINDOW_IRQ_1"
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bitfld.long 0x00 18. "VSYNC2_IRQ,Vertical Synchronization for the secondary LCD" "VSYNC2_IRQ_0,VSYNC2_IRQ_1"
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bitfld.long 0x00 17. "SYNC LOST2_IRQ,Synchronization Lost on the secondary LCD output" "SYNC LOST2_IRQ_0,SYNC LOST2_IRQ_1"
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bitfld.long 0x00 16. "WAKEUP_IRQ,Wake-up" "WAKEUP_IRQ_0,WAKEUP_IRQ_1"
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bitfld.long 0x00 15. "SYNCLOST TV_IRQ,Synchronization Lost on the TV output" "SYNCLOST TV_IRQ_0,SYNCLOST TV_IRQ_1"
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bitfld.long 0x00 14. "SYNC LOST1_IRQ,Synchronization Lost on the primary LCD output" "SYNC LOST1_IRQ_0,SYNC LOST1_IRQ_1"
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bitfld.long 0x00 13. "VID2END WINDOW_IRQ,The end of the video 2 Window has been reached" "VID2END WINDOW_IRQ_0,VID2END WINDOW_IRQ_1"
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bitfld.long 0x00 12. "VID2BUFFER UNDERFLOW_IRQ,Video 2 DMA Buffer Underflow" "VID2BUFFER UNDERFLOW_IRQ_0,VID2BUFFER UNDERFLOW_IRQ_1"
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bitfld.long 0x00 11. "VID1END WINDOW_IRQ,The end of the video 1 Window has been reached" "VID1END WINDOW_IRQ_0,VID1END WINDOW_IRQ_1"
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bitfld.long 0x00 10. "VID1BUFFER UNDERFLOW_IRQ,Video 1 DMA Buffer Underflow" "VID1BUFFER UNDERFLOW_IRQ_0,VID1BUFFER UNDERFLOW_IRQ_1"
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bitfld.long 0x00 9. "OCPERROR_IRQ,OCP Error" "OCPERROR_IRQ_0,OCPERROR_IRQ_1"
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bitfld.long 0x00 8. "PALETTEGAMMA LOADING_IRQ,Palette Gamma Loading status" "PALETTEGAMMA LOADING_IRQ_0,PALETTEGAMMA LOADING_IRQ_1"
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bitfld.long 0x00 7. "GFXEND WINDOW_IRQ,The end of the graphics Window has been reached" "GFXEND WINDOW_IRQ_0,GFXEND WINDOW_IRQ_1"
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bitfld.long 0x00 6. "GFXBUFFER UNDERFLOW_IRQ,Graphics DMA Buffer Underflow" "GFXBUFFER UNDERFLOW_IRQ_0,GFXBUFFER UNDERFLOW_IRQ_1"
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bitfld.long 0x00 5. "PROGRAMMED LINENUMBER_IRQ,Programmed Line Number" "PROGRAMMED LINENUMBER_IRQ_0,PROGRAMMED LINENUMBER_IRQ_1"
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bitfld.long 0x00 4. "ACBIASCOUNT STATUS1_IRQ,AC Bias Count Status for the primary LCD" "ACBIASCOUNT STATUS1_IRQ_0,ACBIASCOUNT STATUS1_IRQ_1"
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bitfld.long 0x00 3. "EVSYNC_ ODD_IRQ,VSYNC for odd field from the TV encoder (VENC or HDMI)" "EVSYNC_ ODD_IRQ_0,EVSYNC_ ODD_IRQ_1"
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bitfld.long 0x00 2. "EVSYNC_ EVEN_IRQ,VSYNC for even field from the TV encoder (VENC or HDMI)" "EVSYNC_ EVEN_IRQ_0,EVSYNC_ EVEN_IRQ_1"
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bitfld.long 0x00 1. "VSYNC1_IRQ,Vertical Synchronization for the primary LCD" "VSYNC1_IRQ_0,VSYNC1_IRQ_1"
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bitfld.long 0x00 0. "FRAME DONE1_IRQ,Frame Done for the primary LCD" "FRAME DONE1_IRQ_0,FRAME DONE1_IRQ_1"
group.long 0x60++0x03
line.long 0x00 "DISPC_LINE_NUMBER,The control register indicates the primary LCD panel display line number for the interrupt and the DMA request"
hexmask.long.word 0x00 0.--10. 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"
rgroup.long 0x5C++0x03
line.long 0x00 "DISPC_LINE_STATUS,The control register indicates the current primary LCD panel display line number"
hexmask.long.word 0x00 0.--10. 1. "LINENUMBER,Current LCD panel line number Current display line number"
group.long 0x6C++0x03
line.long 0x00 "DISPC_POL_FREQ1,The register configures the signal configuration"
bitfld.long 0x00 18. "ALIGN,Defines the alignment between HSYNC and VSYNC assertion" "ALIGN_0,ALIGN_1"
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bitfld.long 0x00 17. "ONOFF,HSYNC/VSYNC Pixel clock Control On/Off" "ONOFF_0,ONOFF_1"
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bitfld.long 0x00 16. "RF,Program HSYNC/VSYNC Rise or Fall" "RF_0,RF_1"
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bitfld.long 0x00 15. "IEO,Invert output enable" "IEO_0,IEO_1"
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bitfld.long 0x00 14. "IPC,Invert pixel clock" "IPC_0,IPC_1"
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bitfld.long 0x00 13. "IHS,Invert HSYNC" "IHS_0,IHS_1"
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bitfld.long 0x00 12. "IVS,Invert VSYNC" "IVS_0,IVS_1"
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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" "ACBI_0,ACBI_1,ACBI_2,ACBI_3,ACBI_4,ACBI_5,ACBI_6,ACBI_7,ACBI_8,ACBI_9,ACBI_10,ACBI_11,ACBI_12,ACBI_13,ACBI_14,ACBI_15"
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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"
group.long 0x408++0x03
line.long 0x00 "DISPC_POL_FREQ2,The register configures the signal configuration"
bitfld.long 0x00 18. "ALIGN,Defines the alignment between HSYNC and VSYNC assertion" "ALIGN_0,ALIGN_1"
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bitfld.long 0x00 17. "ONOFF,HSYNC/VSYNC Pixel clock Control On/Off" "ONOFF_0,ONOFF_1"
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bitfld.long 0x00 16. "RF,Program HSYNC/VSYNC Rise or Fall" "RF_0,RF_1"
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bitfld.long 0x00 15. "IEO,Invert output enable" "IEO_0,IEO_1"
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bitfld.long 0x00 14. "IPC,Invert pixel clock" "IPC_0,IPC_1"
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bitfld.long 0x00 13. "IHS,Invert HSYNC" "IHS_0,IHS_1"
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bitfld.long 0x00 12. "IVS,Invert VSYNC" "IVS_0,IVS_1"
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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" "ACBI_0,ACBI_1,ACBI_2,ACBI_3,ACBI_4,ACBI_5,ACBI_6,ACBI_7,ACBI_8,ACBI_9,ACBI_10,ACBI_11,ACBI_12,ACBI_13,ACBI_14,ACBI_15"
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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"
rgroup.long 0x00++0x03
line.long 0x00 "DISPC_REVISION,IP Revision"
group.long 0x7C++0x03
line.long 0x00 "DISPC_SIZE_LCD1,The register configures the panel size (horizontal and vertical)"
hexmask.long.word 0x00 16.--26. 1. "LPP,Lines per panel Encoded value (from 1 to 2048) to specify the number of lines per panel (program to value minus 1)"
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bitfld.long 0x00 14.--15. "DELTA_LPP,Indicates the delta size value of the odd field compared to the even field" "DELTA_LPP_0,DELTA_LPP_1,DELTA_LPP_2,?"
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hexmask.long.word 0x00 0.--10. 1. "PPL,Pixels per line Encoded value (from 1 to 2048) to specify the number of pixels contains within each line on the display (program to value minus 1)"
group.long 0x3CC++0x03
line.long 0x00 "DISPC_SIZE_LCD2,The register configures the panel size (horizontal and vertical)"
hexmask.long.word 0x00 16.--26. 1. "LPP,Lines per panel Encoded value (from 1 to 2048) to specify the number of lines per panel (program to value minus 1)"
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bitfld.long 0x00 14.--15. "DELTA_LPP,Indicates the delta size value of the odd field compared to the even field" "DELTA_LPP_0,DELTA_LPP_1,DELTA_LPP_2,?"
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hexmask.long.word 0x00 0.--10. 1. "PPL,Pixels per line Encoded value (from 1 to 2048) to specify the number of pixels contains within each line on the display (program to value minus 1)"
group.long 0x78++0x03
line.long 0x00 "DISPC_SIZE_TV,The register configures the size of the TV output field (interlace). frame (progressive) (horizontal and vertical)"
hexmask.long.word 0x00 16.--26. 1. "LPP,Lines per panel (LPP)"
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bitfld.long 0x00 14.--15. "DELTA_LPP,Indicates the delta size value of the odd field compared to the even field" "DELTA_LPP_0,DELTA_LPP_1,DELTA_LPP_2,?"
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hexmask.long.word 0x00 0.--10. 1. "PPL,Pixels per line Encoded value (from 1 to 2048) to specify the number of pixels contains within each line on the display"
group.long 0x10++0x07
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" "MIDLEMODE_0,MIDLEMODE_1,MIDLEMODE_2,MIDLEMODE_3"
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bitfld.long 0x00 8.--9. "CLOCKACTIVITY,Clocks activity during wake up mode period" "CLOCKACTIVITY_0,CLOCKACTIVITY_1,CLOCKACTIVITY_2,CLOCKACTIVITY_3"
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bitfld.long 0x00 5. "WARMRESET,Warm reset" "WARMRESET_0,WARMRESET_1"
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bitfld.long 0x00 3.--4. "SIDLEMODE,Slave interface power management Idle req/ack control" "SIDLEMODE_0,SIDLEMODE_1,SIDLEMODE_2,SIDLEMODE_3"
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bitfld.long 0x00 2. "ENWAKEUP,WakeUp feature control" "ENWAKEUP_0,ENWAKEUP_1"
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bitfld.long 0x00 1. "SOFTRESET,Software reset" "SOFTRESET_0,SOFTRESET_1"
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bitfld.long 0x00 0. "AUTOIDLE,Internal OCP clock gating strategy" "AUTOIDLE_0,AUTOIDLE_1"
line.long 0x04 "DISPC_SYSSTATUS,This register provides status information about the module. excluding the interrupt status information"
bitfld.long 0x04 0. "RESETDONE,Internal reset monitoring" "RESETDONE_0_r,RESETDONE_1_r"
group.long 0x64++0x03
line.long 0x00 "DISPC_TIMING_H1,The register configures the timing logic for the HSYNC signal"
hexmask.long.word 0x00 20.--31. 1. "HBP,Horizontal Back Porch"
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hexmask.long.word 0x00 8.--19. 1. "HFP,Horizontal front porch"
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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 0x400++0x03
line.long 0x00 "DISPC_TIMING_H2,The register configures the timing logic for the HSYNC signal"
hexmask.long.word 0x00 20.--31. 1. "HBP,Horizontal Back Porch"
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hexmask.long.word 0x00 8.--19. 1. "HFP,Horizontal front porch"
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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 0x68++0x03
line.long 0x00 "DISPC_TIMING_V1,The register configures the timing logic for the VSYNC signal"
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"
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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"
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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 frame after the end of frame wait (VFP).."
group.long 0x404++0x03
line.long 0x00 "DISPC_TIMING_V2,The register configures the timing logic for the VSYNC signal"
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"
newline
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"
newline
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 frame after the end of frame wait (VFP).."
group.long 0x54++0x07
line.long 0x00 "DISPC_TRANS_COLOR0,The register sets the transparency color value for the video/graphics overlays for the primary LCD output"
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 [23 12] set to 0s [15:0] RGB.."
line.long 0x04 "DISPC_TRANS_COLOR1,The register sets the transparency color value for the video/graphics overlays for the TV output"
hexmask.long.tbyte 0x04 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 [23 12] set to 0s [15:0] RGB.."
group.long 0x3B0++0x03
line.long 0x00 "DISPC_TRANS_COLOR2,The register sets the transparency color value for the video/graphics overlays for the secondary LCD output"
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 [23 12] set to 0s [15:0] RGB.."
group.long 0xCC++0x03
line.long 0x00 "DISPC_VID1_ATTRIBUTES,The register configures the attributes of the video window 1"
bitfld.long 0x00 30.--31. "CHANNELOUT2,It is not used if CHANNELOUT is set to TV" "CHANNELOUT2_0,CHANNELOUT2_1,?,CHANNELOUT2_3"
newline
bitfld.long 0x00 29. "BURSTTYPE,The type of burst can be INCR (incremental) or BLCK (2D block)" "BURSTTYPE_0,BURSTTYPE_1"
newline
bitfld.long 0x00 28. "PREMULTIPHYALPHA,The field configures the DISPC VID1 to process incoming data as premultiplied alpha data or non premultiplied alpha data" "PREMULTIPHYALPHA_0,PREMULTIPHYALPHA_1"
newline
bitfld.long 0x00 26.--27. "ZORDER,Z-Order defining the priority of the layer compared to others when overlaying" "ZORDER_0,ZORDER_1,ZORDER_2,ZORDER_3"
newline
bitfld.long 0x00 25. "ZORDERENABLE,Z-order Enable" "ZORDERENABLE_0,ZORDERENABLE_1"
newline
bitfld.long 0x00 24. "SELFREFRESH,Enables the self refresh of the video window from its own DMA buffer only" "SELFREFRESH_0,SELFREFRESH_1"
newline
bitfld.long 0x00 23. "ARBITRATION,Determines the priority of the video pipeline" "ARBITRATION_0,ARBITRATION_1"
newline
bitfld.long 0x00 22. "DOUBLESTRIDE,Determines if the stride for CbCr buffer is the 1x or 2x of the Y buffer stride" "DOUBLESTRIDE_0,DOUBLESTRIDE_1"
newline
bitfld.long 0x00 21. "VERTICALTAPS,Video Vertical Resize Tap Number" "VERTICALTAPS_0,VERTICALTAPS_1"
newline
rbitfld.long 0x00 20. "DMAOPTIMIZATION,Write 0s for future compatibility" "DMAOPTIMIZATION_0,DMAOPTIMIZATION_1"
newline
bitfld.long 0x00 19. "BUFPRELOAD,Video Preload Value" "BUFPRELOAD_0,BUFPRELOAD_1"
newline
bitfld.long 0x00 17. "SELFREFRESHAUTO,Automatic self-refresh mode" "SELFREFRESHAUTO_0,SELFREFRESHAUTO_1"
newline
bitfld.long 0x00 16. "CHANNELOUT,Video Channel Out configuration: LCD WB or TV" "CHANNELOUT_0,CHANNELOUT_1"
newline
bitfld.long 0x00 14.--15. "BURSTSIZE,Video DMA Burst Size" "BURSTSIZE_0,BURSTSIZE_1,BURSTSIZE_2,BURSTSIZE_3"
newline
bitfld.long 0x00 12.--13. "ROTATION,Video Rotation Flag" "ROTATION_0,ROTATION_1,ROTATION_2,ROTATION_3"
newline
bitfld.long 0x00 11. "FULLRANGE,Color Space Conversion full range setting" "FULLRANGE_0,FULLRANGE_1"
newline
bitfld.long 0x00 10. "REPLICATIONENABLE,Replication Enable" "REPLICATIONENABLE_0,REPLICATIONENABLE_1"
newline
bitfld.long 0x00 9. "COLORCONVENABLE,Enable the color space conversion" "COLORCONVENABLE_0,COLORCONVENABLE_1"
newline
rbitfld.long 0x00 8. "VRESIZECONF,Write 0s for future compatibility" "VRESIZECONF_0,VRESIZECONF_1"
newline
rbitfld.long 0x00 7. "HRESIZECONF,Write 0s for future compatibility" "HRESIZECONF_0,HRESIZECONF_1"
newline
bitfld.long 0x00 5.--6. "RESIZEENABLE,Video Resize Enable" "RESIZEENABLE_0,RESIZEENABLE_1,RESIZEENABLE_2,RESIZEENABLE_3"
newline
bitfld.long 0x00 1.--4. "FORMAT,Video Format" "FORMAT_0,FORMAT_1,FORMAT_2,?,FORMAT_4,FORMAT_5,FORMAT_6,FORMAT_7,FORMAT_8,FORMAT_9,FORMAT_10,FORMAT_11,FORMAT_12,FORMAT_13,FORMAT_14,FORMAT_15"
newline
bitfld.long 0x00 0. "ENABLE,Video Enable" "ENABLE_0,ENABLE_1"
group.long 0x624++0x03
line.long 0x00 "DISPC_VID1_ATTRIBUTES2,The register configures the attributes of the video window 1"
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" "YUVCHROMARE SAMPLING_0,YUVCHROMARE SAMPLING_1"
newline
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"
newline
bitfld.long 0x00 1.--3. "VC1_RANGE_Y,Defines the VC-1 range value for the Y component from 0 to 7" "VC1_RANGE_Y_0,VC1_RANGE_Y_1,VC1_RANGE_Y_2,VC1_RANGE_Y_3,VC1_RANGE_Y_4,VC1_RANGE_Y_5,VC1_RANGE_Y_6,VC1_RANGE_Y_7"
newline
bitfld.long 0x00 0. "VC1ENABLE,Enable/disable the VC-1 range mapping processing" "VC1ENABLE_0,VC1ENABLE_1"
rgroup.long 0xD4++0x03
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 0xD0++0x03
line.long 0x00 "DISPC_VID1_BUF_THRESHOLD,The register configures the video buffer associated with the video pipeline 1"
hexmask.long.word 0x00 16.--31. 1. "BUFHIGHTHRESHOLD,Video DMA buffer High Threshold Number of 128-bits defining the threshold value"
newline
hexmask.long.word 0x00 0.--15. 1. "BUFLOWTHRESHOLD,DMA buffer High Threshold Number of 128-bits defining the threshold value"
group.long 0x130++0x13
line.long 0x00 "DISPC_VID1_CONV_COEF0,The register configures the color space conversion matrix coefficients for the video pipeline 1"
hexmask.long.word 0x00 16.--26. 1. "RCR,RCr Coefficient Encoded signed value (from -1024 to 1023)"
newline
hexmask.long.word 0x00 0.--10. 1. "RY,RY Coefficient Encoded signed value (from -1024 to 1023)"
line.long 0x04 "DISPC_VID1_CONV_COEF1,The register configures the color space conversion matrix coefficients for the video pipeline 1"
hexmask.long.word 0x04 16.--26. 1. "GY,GY Coefficient Encoded signed value (from -1024 to 1023)"
newline
hexmask.long.word 0x04 0.--10. 1. "RCB,RCb Coefficient Encoded signed value (from -1024 to 1023)"
line.long 0x08 "DISPC_VID1_CONV_COEF2,The register configures the color space conversion matrix coefficients for the video pipeline 1"
hexmask.long.word 0x08 16.--26. 1. "GCB,GCb Coefficient Encoded signed value (from -1024 to 1023)"
newline
hexmask.long.word 0x08 0.--10. 1. "GCR,GCr Coefficient Encoded signed value (from -1024 to 1023)"
line.long 0x0C "DISPC_VID1_CONV_COEF3,The register configures the color space conversion matrix coefficients for the video pipeline 1"
hexmask.long.word 0x0C 16.--26. 1. "BCR,BCr coefficient Encoded signed value (from -1024 to 1023)"
newline
hexmask.long.word 0x0C 0.--10. 1. "BY,BY coefficient Encoded signed value (from -1024 to 1023)"
line.long 0x10 "DISPC_VID1_CONV_COEF4,The register configures the color space conversion matrix coefficients for the video pipeline 1"
hexmask.long.word 0x10 0.--10. 1. "BCB,BCb Coefficient Encoded signed value (from -1024 to 1023)"
group.long 0xE0++0x03
line.long 0x00 "DISPC_VID1_FIR,The register configures the resize factors for horizontal and vertical up/downsampling of the video window 1"
hexmask.long.word 0x00 16.--28. 1. "FIRVINC,Vertical increment of the up/downsampling filter"
newline
hexmask.long.word 0x00 0.--12. 1. "FIRHINC,Horizontal increment of the up/downsampling filter"
group.long 0x63C++0x03
line.long 0x00 "DISPC_VID1_FIR2,The register configures the resize factors for horizontal and vertical up/downsampling of the video window 1"
hexmask.long.word 0x00 16.--28. 1. "FIRVINC,Vertical increment of the up/downsampling filter for Cb and Cr"
newline
hexmask.long.word 0x00 0.--12. 1. "FIRHINC,Horizontal increment of the up/downsampling filter for Cb and Cr"
group.long 0xE4++0x03
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"
hexmask.long.word 0x00 16.--26. 1. "ORGSIZEY,Number of lines of the video picture"
newline
hexmask.long.word 0x00 0.--10. 1. "ORGSIZEX,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)"
group.long 0xDC++0x03
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"
hexmask.long.byte 0x00 0.--7. 1. "PIXELINC,Number of bytes to increment between two pixels"
group.long 0xC4++0x03
line.long 0x00 "DISPC_VID1_POSITION,The register configures the position of the video window 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"
newline
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"
group.long 0x230++0x03
line.long 0x00 "DISPC_VID1_PRELOAD,The register configures the DMA buffer of the video 1 pipeline"
hexmask.long.word 0x00 0.--11. 1. "PRELOAD,DMA buffer preload value Number of 128-bit words defining the preload value"
group.long 0xD8++0x03
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"
group.long 0xC8++0x03
line.long 0x00 "DISPC_VID1_SIZE,The register configures the size of the video window 1"
hexmask.long.word 0x00 16.--26. 1. "SIZEY,Number of lines of the video 1 Encoded value (from 1 to 2048) to specify the number of lines of the video window 1"
newline
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"
group.long 0x15C++0x03
line.long 0x00 "DISPC_VID2_ATTRIBUTES,The register configures the attributes of the video window 2"
bitfld.long 0x00 30.--31. "CHANNELOUT2,It is not used if CHANNELOUT is set to TV" "CHANNELOUT2_0,CHANNELOUT2_1,?,CHANNELOUT2_3"
newline
bitfld.long 0x00 29. "BURSTTYPE,The type of burst can be INCR (incremental) or BLCK (2D block)" "BURSTTYPE_0,BURSTTYPE_1"
newline
bitfld.long 0x00 28. "PREMULTIPLYALPHA,The field configures the DISPC VID2 to process incoming data as premultiplied alpha data or non premultiplied alpha data" "PREMULTIPLYALPHA_0,PREMULTIPLYALPHA_1"
newline
bitfld.long 0x00 26.--27. "ZORDER,Z-Order defining the priority of the layer compared to others when overlaying" "ZORDER_0,ZORDER_1,ZORDER_2,ZORDER_3"
newline
bitfld.long 0x00 25. "ZORDERENABLE,Z-order Enable" "ZORDERENABLE_0,ZORDERENABLE_1"
newline
bitfld.long 0x00 24. "SELFREFRESH,Enables the self refresh of the video window from its own DMA buffer only" "SELFREFRESH_0,SELFREFRESH_1"
newline
bitfld.long 0x00 23. "ARBITRATION,Determines the priority of the video pipeline" "ARBITRATION_0,ARBITRATION_1"
newline
bitfld.long 0x00 22. "DOUBLESTRIDE,Determines if the stride for CbCr buffer is the 1x or 2x of the Y buffer stride" "DOUBLESTRIDE_0,DOUBLESTRIDE_1"
newline
bitfld.long 0x00 21. "VERTICALTAPS,Video Vertical Resize Tap Number" "VERTICALTAPS_0,VERTICALTAPS_1"
newline
rbitfld.long 0x00 20. "DMAOPTIMIZATION,Write 0s for future compatibility" "DMAOPTIMIZATION_0,DMAOPTIMIZATION_1"
newline
bitfld.long 0x00 19. "BUFPRELOAD,Video Preload Value" "BUFPRELOAD_0,BUFPRELOAD_1"
newline
bitfld.long 0x00 17. "SELFREFRESHAUTO,Automatic self-refresh mode" "SELFREFRESHAUTO_0,SELFREFRESHAUTO_1"
newline
bitfld.long 0x00 16. "CHANNELOUT,Video Channel Out configuration: LCD WB or TV" "CHANNELOUT_0,CHANNELOUT_1"
newline
bitfld.long 0x00 14.--15. "BURSTSIZE,Video DMA Burst Size" "BURSTSIZE_0,BURSTSIZE_1,BURSTSIZE_2,BURSTSIZE_3"
newline
bitfld.long 0x00 12.--13. "ROTATION,Video Rotation Flag" "ROTATION_0,ROTATION_1,ROTATION_2,ROTATION_3"
newline
bitfld.long 0x00 11. "FULLRANGE,Color Space Conversion full range setting" "FULLRANGE_0,FULLRANGE_1"
newline
bitfld.long 0x00 10. "REPLICATIONENABLE,Replication Enable" "REPLICATIONENABLE_0,REPLICATIONENABLE_1"
newline
bitfld.long 0x00 9. "COLORCONVENABLE,Enable the color space conversion" "COLORCONVENABLE_0,COLORCONVENABLE_1"
newline
rbitfld.long 0x00 8. "VRESIZECONF,Write 0s for future compatibility" "VRESIZECONF_0,VRESIZECONF_1"
newline
rbitfld.long 0x00 7. "HRESIZECONF,Write 0s for future compatibility" "HRESIZECONF_0,HRESIZECONF_1"
newline
bitfld.long 0x00 5.--6. "RESIZEENABLE,Video Resize Enable" "RESIZEENABLE_0,RESIZEENABLE_1,RESIZEENABLE_2,RESIZEENABLE_3"
newline
bitfld.long 0x00 1.--4. "FORMAT,Video Format" "FORMAT_0,FORMAT_1,FORMAT_2,?,FORMAT_4,FORMAT_5,FORMAT_6,FORMAT_7,FORMAT_8,FORMAT_9,FORMAT_10,FORMAT_11,FORMAT_12,FORMAT_13,FORMAT_14,FORMAT_15"
newline
bitfld.long 0x00 0. "ENABLE,VidEnable" "ENABLE_0,ENABLE_1"
group.long 0x628++0x03
line.long 0x00 "DISPC_VID2_ATTRIBUTES2,The register configures the attributes of the video window 2"
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" "YUVCHROMARE SAMPLING_0,YUVCHROMARE SAMPLING_1"
newline
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"
newline
bitfld.long 0x00 1.--3. "VC1_RANGE_Y,Defines the VC-1 range value for the Y component from 0 to 7" "VC1_RANGE_Y_0,VC1_RANGE_Y_1,VC1_RANGE_Y_2,VC1_RANGE_Y_3,VC1_RANGE_Y_4,VC1_RANGE_Y_5,VC1_RANGE_Y_6,VC1_RANGE_Y_7"
newline
bitfld.long 0x00 0. "VC1ENABLE,Enable/disable the VC-1 range mapping processing" "VC1ENABLE_0,VC1ENABLE_1"
rgroup.long 0x164++0x03
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 0x160++0x03
line.long 0x00 "DISPC_VID2_BUF_THRESHOLD,The register configures the DMA buffer associated with the video pipeline 2"
hexmask.long.word 0x00 16.--31. 1. "BUFHIGHTHRESHOLD,DMA buffer High Threshold Number of 128-bits defining the threshold value"
newline
hexmask.long.word 0x00 0.--15. 1. "BUFLOWTHRESHOLD,DMA buffer High Threshold Number of 128-bits defining the threshold value"
group.long 0x1C0++0x13
line.long 0x00 "DISPC_VID2_CONV_COEF0,The register configures the color space conversion matrix coefficients for the video pipeline 2"
hexmask.long.word 0x00 16.--26. 1. "RCR,RCr Coefficient Encoded signed value (from -1024 to 1023)"
newline
hexmask.long.word 0x00 0.--10. 1. "RY,RY Coefficient Encoded signed value (from -1024 to 1023)"
line.long 0x04 "DISPC_VID2_CONV_COEF1,The register configures the color space conversion matrix coefficients for the video pipeline 2"
hexmask.long.word 0x04 16.--26. 1. "GY,GY Coefficient Encoded signed value (from -1024 to 1023)"
newline
hexmask.long.word 0x04 0.--10. 1. "RCB,RCb Coefficient Encoded signed value (from -1024 to 1023)"
line.long 0x08 "DISPC_VID2_CONV_COEF2,The register configures the color space conversion matrix coefficients for the video pipeline 2"
hexmask.long.word 0x08 16.--26. 1. "GCB,GCb Coefficient Encoded signed value (from -1024 to 1023)"
newline
hexmask.long.word 0x08 0.--10. 1. "GCR,GCr Coefficient Encoded signed value (from -1024 to 1023)"
line.long 0x0C "DISPC_VID2_CONV_COEF3,The register configures the color space conversion matrix coefficients for the video pipeline 2"
hexmask.long.word 0x0C 16.--26. 1. "BCR,BCr coefficient Encoded signed value (from -1024 to 1023)"
newline
hexmask.long.word 0x0C 0.--10. 1. "BY,BY coefficient Encoded signed value (from -1024 to 1023)"
line.long 0x10 "DISPC_VID2_CONV_COEF4,The register configures the color space conversion matrix coefficients for the video pipeline 2"
hexmask.long.word 0x10 0.--10. 1. "BCB,BCb Coefficient Encoded signed value (from -1024 to 1023)"
group.long 0x170++0x03
line.long 0x00 "DISPC_VID2_FIR,The register configures the resize factors for horizontal and vertical up/downsampling of the video window 2"
hexmask.long.word 0x00 16.--28. 1. "FIRVINC,Vertical increment of the up/downsampling filter Encoded value (from 1 to 4096)"
newline
hexmask.long.word 0x00 0.--12. 1. "FIRHINC,Horizontal increment of the up/downsampling filter Encoded value (from 1 to 4096)"
group.long 0x6A8++0x03
line.long 0x00 "DISPC_VID2_FIR2,The register configures the resize factors for horizontal and vertical up/downsampling of the video window 2"
hexmask.long.word 0x00 16.--28. 1. "FIRVINC,Vertical increment of the up/downsampling filter for Cb and Cr"
newline
hexmask.long.word 0x00 0.--12. 1. "FIRHINC,Horizontal increment of the up/downsampling filter for Cb and Cr"
group.long 0x174++0x03
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"
hexmask.long.word 0x00 16.--26. 1. "ORGSIZEY,Number of lines of the video picture Encoded value (from 1 to 2048) to specify the number of lines of the video picture in memory (program to value minus 1)"
newline
hexmask.long.word 0x00 0.--10. 1. "ORGSIZEX,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)"
group.long 0x16C++0x03
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"
hexmask.long.byte 0x00 0.--7. 1. "PIXELINC,Number of bytes to increment between two pixels"
group.long 0x154++0x03
line.long 0x00 "DISPC_VID2_POSITION,The register configures the position of the video window 2"
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"
newline
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"
group.long 0x234++0x03
line.long 0x00 "DISPC_VID2_PRELOAD,The register configures the DMA buffer of the video 2 pipeline"
hexmask.long.word 0x00 0.--11. 1. "PRELOAD,DMA buffer preload value Number of 128-bit words defining the preload value"
group.long 0x168++0x03
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"
group.long 0x158++0x03
line.long 0x00 "DISPC_VID2_SIZE,The register configures the size of the video window 2"
hexmask.long.word 0x00 16.--26. 1. "SIZEY,Number of lines of the video 2 Encoded value (from 1 to 2048) to specify the number of lines of the video window 2"
newline
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"
group.long 0x370++0x03
line.long 0x00 "DISPC_VID3_ATTRIBUTES,The register configures the attributes of the video window 3"
bitfld.long 0x00 30.--31. "CHANNELOUT2,It is not used if CHANNELOUT is set to TV" "CHANNELOUT2_0,CHANNELOUT2_1,?,CHANNELOUT2_3"
newline
bitfld.long 0x00 29. "BURSTTYPE,The type of burst can be INCR (incremental) or BLCK (2D block)" "BURSTTYPE_0,BURSTTYPE_1"
newline
bitfld.long 0x00 28. "PREMULTIPLYALPHA,The field configures the DISPC VID3 to process incoming data as premultiplied alpha data or non premultiplied alpha data" "PREMULTIPLYALPHA_0,PREMULTIPLYALPHA_1"
newline
bitfld.long 0x00 26.--27. "ZORDER,Z-Order defining the priority of the layer compared to others when overlaying" "ZORDER_0,ZORDER_1,ZORDER_2,ZORDER_3"
newline
bitfld.long 0x00 25. "ZORDERENABLE,Z-order Enable" "ZORDERENABLE_0,ZORDERENABLE_1"
newline
bitfld.long 0x00 24. "SELFREFRESH,Enables the self refresh of the video window from its own DMA buffer only" "SELFREFRESH_0,SELFREFRESH_1"
newline
bitfld.long 0x00 23. "ARBITRATION,Determines the priority of the video pipeline" "ARBITRATION_0,ARBITRATION_1"
newline
bitfld.long 0x00 22. "DOUBLESTRIDE,Determines if the stride for CbCr buffer is the 1x or 2x of the Y buffer stride" "DOUBLESTRIDE_0,DOUBLESTRIDE_1"
newline
bitfld.long 0x00 21. "VERTICALTAPS,Video Vertical Resize Tap Number" "VERTICALTAPS_0,VERTICALTAPS_1"
newline
rbitfld.long 0x00 20. "DMAOPTIMIZATION,Write 0s for future compatibility" "DMAOPTIMIZATION_0,DMAOPTIMIZATION_1"
newline
bitfld.long 0x00 19. "BUFPRELOAD,Video Preload Value" "BUFPRELOAD_0,BUFPRELOAD_1"
newline
bitfld.long 0x00 17. "SELFREFRESHAUTO,Automatic self-refresh mode" "SELFREFRESHAUTO_0,SELFREFRESHAUTO_1"
newline
bitfld.long 0x00 16. "CHANNELOUT,Video Channel Out configuration: LCD WB or TV" "CHANNELOUT_0,CHANNELOUT_1"
newline
bitfld.long 0x00 14.--15. "BURSTSIZE,Video DMA Burst Size" "BURSTSIZE_0,BURSTSIZE_1,BURSTSIZE_2,BURSTSIZE_3"
newline
bitfld.long 0x00 12.--13. "ROTATION,Video Rotation Flag" "ROTATION_0,ROTATION_1,ROTATION_2,ROTATION_3"
newline
bitfld.long 0x00 11. "FULLRANGE,Color Space Conversion full range setting" "FULLRANGE_0,FULLRANGE_1"
newline
bitfld.long 0x00 10. "REPLICATIONENABLE,Replication Enable" "REPLICATIONENABLE_0,REPLICATIONENABLE_1"
newline
bitfld.long 0x00 9. "COLORCONVENABLE,Enable the color space conversion" "COLORCONVENABLE_0,COLORCONVENABLE_1"
newline
rbitfld.long 0x00 8. "VRESIZECONF,Write 0s for future compatibility" "VRESIZECONF_0,VRESIZECONF_1"
newline
rbitfld.long 0x00 7. "HRESIZECONF,Write 0s for future compatibility" "HRESIZECONF_0,HRESIZECONF_1"
newline
bitfld.long 0x00 5.--6. "RESIZEENABLE,Video Resize Enable" "RESIZEENABLE_0,RESIZEENABLE_1,RESIZEENABLE_2,RESIZEENABLE_3"
newline
bitfld.long 0x00 1.--4. "FORMAT,Video Format" "FORMAT_0,FORMAT_1,FORMAT_2,?,FORMAT_4,FORMAT_5,FORMAT_6,FORMAT_7,FORMAT_8,FORMAT_9,FORMAT_10,FORMAT_11,FORMAT_12,FORMAT_13,FORMAT_14,FORMAT_15"
newline
bitfld.long 0x00 0. "ENABLE,Video Enable" "ENABLE_0,ENABLE_1"
group.long 0x62C++0x03
line.long 0x00 "DISPC_VID3_ATTRIBUTES2,The register configures the attributes of the video window 3"
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" "YUVCHROMARE SAMPLING_0,YUVCHROMARE SAMPLING_1"
newline
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"
newline
bitfld.long 0x00 1.--3. "VC1_RANGE_Y,Defines the VC-1 range value for the Y component from 0 to 7" "VC1_RANGE_Y_0,VC1_RANGE_Y_1,VC1_RANGE_Y_2,VC1_RANGE_Y_3,VC1_RANGE_Y_4,VC1_RANGE_Y_5,VC1_RANGE_Y_6,VC1_RANGE_Y_7"
newline
bitfld.long 0x00 0. "VC1ENABLE,Enable/disable the VC-1 range mapping processing" "VC1ENABLE_0,VC1ENABLE_1"
rgroup.long 0x388++0x07
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"
line.long 0x04 "DISPC_VID3_BUF_THRESHOLD,The register configures the DMA buffer associated with the video pipeline 3"
hexmask.long.word 0x04 16.--31. 1. "BUFHIGHTHRESHOLD,DMA buffer High Threshold Number of 128-bits defining the threshold value"
newline
hexmask.long.word 0x04 0.--15. 1. "BUFLOWTHRESHOLD,DMA buffer High Threshold Number of 128-bits defining the threshold value"
group.long 0x374++0x13
line.long 0x00 "DISPC_VID3_CONV_COEF0,The register configures the color space conversion matrix coefficients for the video pipeline 3"
hexmask.long.word 0x00 16.--26. 1. "RCR,RCr Coefficient Encoded signed value (from -1024 to 1023)"
newline
hexmask.long.word 0x00 0.--10. 1. "RY,RY Coefficient Encoded signed value (from -1024 to 1023)"
line.long 0x04 "DISPC_VID3_CONV_COEF1,The register configures the color space conversion matrix coefficients for the video pipeline 3"
hexmask.long.word 0x04 16.--26. 1. "GY,GY Coefficient Encoded signed value (from -1024 to 1023)"
newline
hexmask.long.word 0x04 0.--10. 1. "RCB,RCb Coefficient Encoded signed value (from -1024 to 1023)"
line.long 0x08 "DISPC_VID3_CONV_COEF2,The register configures the color space conversion matrix coefficients for the video pipeline 3"
hexmask.long.word 0x08 16.--26. 1. "GCB,GCb Coefficient Encoded signed value (from -1024 to 1023)"
newline
hexmask.long.word 0x08 0.--10. 1. "GCR,GCr Coefficient Encoded signed value (from -1024 to 1023)"
line.long 0x0C "DISPC_VID3_CONV_COEF3,The register configures the color space conversion matrix coefficients for the video pipeline 3"
hexmask.long.word 0x0C 16.--26. 1. "BCR,BCr coefficient Encoded signed value (from -1024 to 1023)"
newline
hexmask.long.word 0x0C 0.--10. 1. "BY,BY coefficient Encoded signed value (from -1024 to 1023)"
line.long 0x10 "DISPC_VID3_CONV_COEF4,The register configures the color space conversion matrix coefficients for the video pipeline 3"
hexmask.long.word 0x10 0.--10. 1. "BCB,BCb Coefficient Encoded signed value (from -1024 to 1023)"
group.long 0x390++0x03
line.long 0x00 "DISPC_VID3_FIR,The register configures the resize factors for horizontal and vertical up/downsampling of the video window 3"
hexmask.long.word 0x00 16.--28. 1. "FIRVINC,Vertical increment of the up/downsampling filter Encoded value (from 1 to 4096)"
newline
hexmask.long.word 0x00 0.--12. 1. "FIRHINC,Horizontal increment of the up/downsampling filter Encoded value (from 1 to 4096)"
group.long 0x724++0x03
line.long 0x00 "DISPC_VID3_FIR2,The register configures the resize factors for horizontal and vertical up/downsampling of the video window 3"
hexmask.long.word 0x00 16.--28. 1. "FIRVINC,Vertical increment of the up/downsampling filter for Cb and Cr"
newline
hexmask.long.word 0x00 0.--12. 1. "FIRHINC,Horizontal increment of the up/downsampling filter for Cb and Cr"
group.long 0x394++0x17
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"
hexmask.long.word 0x00 16.--26. 1. "ORGSIZEY,Number of lines of the video picture Encoded value (from 1 to 2048) to specify the number of lines of the video picture in memory (program to value minus 1)"
newline
hexmask.long.word 0x00 0.--10. 1. "ORGSIZEX,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)"
line.long 0x04 "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"
hexmask.long.byte 0x04 0.--7. 1. "PIXELINC,Number of bytes to increment between two pixels"
line.long 0x08 "DISPC_VID3_POSITION,The register configures the position of the video window 3"
hexmask.long.word 0x08 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"
newline
hexmask.long.word 0x08 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"
line.long 0x0C "DISPC_VID3_PRELOAD,The register configures the DMA buffer of the video 3 pipeline"
hexmask.long.word 0x0C 0.--11. 1. "PRELOAD,DMA buffer preload value Number of 128-bit words defining the preload value"
line.long 0x10 "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"
line.long 0x14 "DISPC_VID3_SIZE,The register configures the size of the video window 3"
hexmask.long.word 0x14 16.--26. 1. "SIZEY,Number of lines of the video 3 Encoded value (from 1 to 2048) to specify the number of lines of the video window 3"
newline
hexmask.long.word 0x14 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"
group.long 0x570++0x03
line.long 0x00 "DISPC_WB_ATTRIBUTES,The register configures the attributes of the viwrite back pipeline"
bitfld.long 0x00 28.--31. "IDLENUMBER,Determines the number of idles between requests on the L3 interconnect" "IDLENUMBER_0,IDLENUMBER_1,IDLENUMBER_2,IDLENUMBER_3,IDLENUMBER_4,IDLENUMBER_5,IDLENUMBER_6,IDLENUMBER_7,IDLENUMBER_8,IDLENUMBER_9,IDLENUMBER_10,IDLENUMBER_11,IDLENUMBER_12,IDLENUMBER_13,IDLENUMBER_14,IDLENUMBER_15"
newline
bitfld.long 0x00 27. "IDLESIZE,Determines if the IDLENUMBER corresponds to a number of bursts or singles" "IDLESIZE_0,IDLESIZE_1"
newline
bitfld.long 0x00 24.--26. "CAPTUREMODE,Defines the frame rate capture" "CAPTUREMODE_0,CAPTUREMODE_1,CAPTUREMODE_2,CAPTUREMODE_3,CAPTUREMODE_4,CAPTUREMODE_5,CAPTUREMODE_6,CAPTUREMODE_7"
newline
bitfld.long 0x00 23. "ARBITRATION,Determines the priority of the write-back pipeline" "ARBITRATION_0,ARBITRATION_1"
newline
bitfld.long 0x00 22. "DOUBLESTRIDE,Determines if the stride for CbCr buffer is the 1x or 2x of the Y buffer stride" "DOUBLESTRIDE_0,DOUBLESTRIDE_1"
newline
bitfld.long 0x00 21. "VERTICALTAPS,Video Vertical Resize Tap Number" "VERTICALTAPS_0,VERTICALTAPS_1"
newline
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" "Capture mode (default mode),Memory-to-memory mode"
newline
bitfld.long 0x00 16.--18. "CHANNELIN,Video Channel In configuration wr: immediate" "CHANNELIN_0,CHANNELIN_1,CHANNELIN_2,CHANNELIN_3,CHANNELIN_4,CHANNELIN_5,CHANNELIN_6,?"
newline
bitfld.long 0x00 14.--15. "BURSTSIZE,Write-back DMA Burst Size" "BURSTSIZE_0,BURSTSIZE_1,BURSTSIZE_2,BURSTSIZE_3"
newline
bitfld.long 0x00 11. "FULLRANGE,Color Space Conversion full range setting" "FULLRANGE_0,FULLRANGE_1"
newline
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" "TRUNCATIONENABLE_0,TRUNCATIONENABLE_1"
newline
bitfld.long 0x00 9. "COLORCONVENABLE,Enable the color space conversion" "COLORCONVENABLE_0,COLORCONVENABLE_1"
newline
bitfld.long 0x00 8. "BURSTTYPE,The type of burst can be INCR (incremental) or BLCK (2D block)" "BURSTTYPE_0,BURSTTYPE_1"
newline
bitfld.long 0x00 7. "ALPHAENABLE,Premultiplied alpha enable" "The alpha value is not written back,The WB pipe copies back to memory the.."
newline
bitfld.long 0x00 5.--6. "RESIZEENABLE,Resize Enable" "RESIZEENABLE_0,RESIZEENABLE_1,RESIZEENABLE_2,RESIZEENABLE_3"
newline
bitfld.long 0x00 1.--4. "FORMAT,Write-back Format" "FORMAT_0,FORMAT_1,FORMAT_2,?,FORMAT_4,FORMAT_5,FORMAT_6,FORMAT_7,FORMAT_8,FORMAT_9,FORMAT_10,FORMAT_11,FORMAT_12,FORMAT_13,FORMAT_14,FORMAT_15"
newline
bitfld.long 0x00 0. "ENABLE,Write-back Enable" "ENABLE_0,ENABLE_1"
group.long 0x810++0x03
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"
hexmask.long.byte 0x00 0.--7. 1. "WBDELAYCOUNT,Delays the WB pipe flush after the end of the frame.delay = n x (1/F_clk) n = 0:255"
rgroup.long 0x588++0x07
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"
line.long 0x04 "DISPC_WB_BUF_THRESHOLD,The register configures the DMA buffer associated with the write-back pipeline"
hexmask.long.word 0x04 16.--31. 1. "BUFHIGHTHRESHOLD,DMA buffer High Threshold Number of 128-bits defining the threshold value"
newline
hexmask.long.word 0x04 0.--15. 1. "BUFLOWTHRESHOLD,DMA buffer High Threshold Number of 128-bits defining the threshold value"
group.long 0x574++0x13
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)"
newline
hexmask.long.word 0x00 0.--10. 1. "YR,YR Coefficient Encoded signed value (from -1024 to 1023)"
line.long 0x04 "DISPC_WB_CONV_COEF1,The register configures the color space conversion matrix coefficients for the write back pipeline"
hexmask.long.word 0x04 16.--26. 1. "CRR,CrR Coefficient Encoded signed value (from -1024 to 1023)"
newline
hexmask.long.word 0x04 0.--10. 1. "YB,YB Coefficient Encoded signed value (from -1024 to 1023)"
line.long 0x08 "DISPC_WB_CONV_COEF2,The register configures the color space conversion matrix coefficients for the write back pipeline"
hexmask.long.word 0x08 16.--26. 1. "CRB,CrB Coefficient Encoded signed value (from -1024 to 1023)"
newline
hexmask.long.word 0x08 0.--10. 1. "CRG,CrG Coefficient Encoded signed value (from -1024 to 1023)"
line.long 0x0C "DISPC_WB_CONV_COEF3,The register configures the color space conversion matrix coefficients for the write back pipeline"
hexmask.long.word 0x0C 16.--26. 1. "CBG,CbG coefficient Encoded signed value (from -1024 to 1023)"
newline
hexmask.long.word 0x0C 0.--10. 1. "CBR,CbR coefficient Encoded signed value (from -1024 to 1023)"
line.long 0x10 "DISPC_WB_CONV_COEF4,The register configures the color space conversion matrix coefficients for the write back pipeline"
hexmask.long.word 0x10 0.--10. 1. "CBB,CbB Coefficient Encoded signed value (from -1024 to 1023)"
group.long 0x590++0x03
line.long 0x00 "DISPC_WB_FIR,The register configures the resize factors for horizontal and vertical up/downsampling of the write back pipeline"
hexmask.long.word 0x00 16.--28. 1. "FIRVINC,Vertical increment of the up/downsampling filter Encoded value (from 1 to 4096)"
newline
hexmask.long.word 0x00 0.--12. 1. "FIRHINC,Horizontal increment of the up/downsampling filter Encoded value (from 1 to 4096)"
group.long 0x790++0x03
line.long 0x00 "DISPC_WB_FIR2,The register configures the resize factors for horizontal and vertical up/downsampling of the write-back pipeline"
hexmask.long.word 0x00 16.--28. 1. "FIRVINC,Vertical increment of the up/downsampling filter for Cb and Cr"
newline
hexmask.long.word 0x00 0.--12. 1. "FIRHINC,Horizontal increment of the up/downsampling filter for Cb and Cr"
group.long 0x594++0x07
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"
hexmask.long.word 0x00 16.--26. 1. "ORGSIZEY,Number of lines of the video picture Encoded value (from 1 to 2048) to specify the number of lines of the video picture in memory (program to value minus 1)"
newline
hexmask.long.word 0x00 0.--10. 1. "ORGSIZEX,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)"
line.long 0x04 "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"
hexmask.long.byte 0x04 0.--7. 1. "PIXELINC,Values other than 1 are invalid"
group.long 0x5A4++0x07
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"
line.long 0x04 "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"
hexmask.long.word 0x04 16.--26. 1. "SIZEY,Number of lines of the Write-back picture Encoded value (from 1 to 2048) to specify the number of lines of the write-back picture"
newline
hexmask.long.word 0x04 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"
tree.end
tree "DISPC_L4_PER"
base ansd:0x48041000
tree "Channel_0"
group.long 0x80++0x03
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.."
group.long 0x640++0x03
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.."
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++0x03
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 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 0x600++0x03
line.long 0x00 "DISPC_VID1_BA_UV_j_0,The register configures the base address of the UV buffer for the video window 1"
group.long 0xBC++0x03
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)"
group.long 0x648++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0xF4++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0xF0++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x688++0x03
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"
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++0x03
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"
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++0x03
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.."
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++0x03
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 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 0x608++0x03
line.long 0x00 "DISPC_VID2_BA_UV_j_0,The register configures the base address of the UV buffer for the video window 2"
group.long 0x14C++0x03
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.."
group.long 0x6B4++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x184++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x180++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x6F4++0x03
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"
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++0x03
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"
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++0x03
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.."
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++0x03
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++0x03
line.long 0x00 "DISPC_VID3_BA_UV_j_0,The register configures the base address of the UV buffer for the video window 3"
group.long 0x308++0x03
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.."
group.long 0x730++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x314++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x310++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x770++0x03
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"
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++0x03
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"
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++0x03
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 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 0x500++0x03
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.."
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 0x618++0x03
line.long 0x00 "DISPC_WB_BA_UV_j_0,The register configures the base address of the UV buffer for the write-back pipeline"
group.long 0x508++0x03
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)"
group.long 0x7A0++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x514++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x510++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x7E0++0x03
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"
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++0x03
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"
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"
group.long 0x84++0x03
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.."
group.long 0x644++0x03
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.."
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++0x03
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 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 0x604++0x03
line.long 0x00 "DISPC_VID1_BA_UV_j_1,The register configures the base address of the UV buffer for the video window 1"
group.long 0xC0++0x03
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)"
group.long 0x650++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0xFC++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0xF8++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x68C++0x03
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"
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++0x03
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"
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++0x03
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.."
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++0x03
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 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 0x60C++0x03
line.long 0x00 "DISPC_VID2_BA_UV_j_1,The register configures the base address of the UV buffer for the video window 2"
group.long 0x150++0x03
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.."
group.long 0x6BC++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x18C++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x188++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x6F8++0x03
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"
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++0x03
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"
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++0x03
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.."
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++0x03
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++0x03
line.long 0x00 "DISPC_VID3_BA_UV_j_1,The register configures the base address of the UV buffer for the video window 3"
group.long 0x30C++0x03
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.."
group.long 0x738++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x31C++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x318++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x774++0x03
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"
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++0x03
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"
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++0x03
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 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 0x504++0x03
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.."
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 0x61C++0x03
line.long 0x00 "DISPC_WB_BA_UV_j_1,The register configures the base address of the UV buffer for the write-back pipeline"
group.long 0x50C++0x03
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)"
group.long 0x7A8++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x51C++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x518++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x7E4++0x03
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"
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++0x03
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"
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"
group.long 0x658++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x104++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x100++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x690++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x194++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x190++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x6FC++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x324++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x320++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x778++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x524++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x520++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x7E8++0x03
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"
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++0x03
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"
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"
group.long 0x660++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x10C++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x108++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x694++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x19C++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x198++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x700++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x32C++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x328++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x77C++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x52C++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x528++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x7EC++0x03
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"
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++0x03
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"
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"
group.long 0x668++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x114++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x110++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x698++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x1A4++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x1A0++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x704++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x334++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x330++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x780++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x534++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x530++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x7F0++0x03
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"
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++0x03
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"
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"
group.long 0x670++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x11C++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x118++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x69C++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x1AC++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x1A8++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x708++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x33C++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x338++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x784++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x53C++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x538++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x7F4++0x03
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"
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++0x03
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"
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"
group.long 0x678++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x124++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x120++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x6A0++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x1B4++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x1B0++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x70C++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x344++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x340++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x788++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x544++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x540++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x7F8++0x03
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"
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++0x03
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"
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"
group.long 0x680++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x12C++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x128++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x6A4++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x1BC++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x1B8++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x710++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x34C++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x348++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x78C++0x03
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"
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++0x03
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"
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++0x07
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
line.long 0x04 "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"
hexmask.long.byte 0x04 24.--31. 1. "FIRVC2,Signed coefficient C2 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 16.--23. 1. "FIRVC1,Unsigned coefficient C1 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 8.--15. 1. "FIRVC0,Signed coefficient C0 for the vertical up/down-scaling with the phase n"
hexmask.long.byte 0x04 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x54C++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC4,Signed coefficient C4 for the horizontal up/down-scaling with the phase n"
group.long 0x548++0x03
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"
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"
hexmask.long.byte 0x00 0.--7. 1. "FIRHC0,Signed coefficient C0 for the horizontal up/down-scaling with the phase n"
group.long 0x7FC++0x03
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"
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++0x03
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"
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
group.long 0x44++0x03
line.long 0x00 "DISPC_CONFIG1,The control register configures the Display Controller module for the primary LCD output and TV output"
bitfld.long 0x00 25. "FULLRANGE,Color Space Conversion full range setting" "FULLRANGE_0,FULLRANGE_1"
newline
bitfld.long 0x00 24. "COLORCONV ENABLE,Enable the color space conversion" "COLORCONV ENABLE_0,COLORCONV ENABLE_1"
newline
bitfld.long 0x00 23. "FIDFIRST,Selects the first field to output in case of interlace mode" "FIDFIRST_0,FIDFIRST_1"
newline
bitfld.long 0x00 22. "OUTPUTMODE ENABLE,Selects between progressive and interlace mode for the primary LCD output" "OUTPUTMODE ENABLE_0,OUTPUTMODE ENABLE_1"
newline
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)" "TVALPHABLENDER ENABLE_0,TVALPHABLENDER ENABLE_1"
newline
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)" "LCDALPHABLENDER ENABLE_0,LCDALPHABLENDER ENABLE_1"
newline
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" "BUFFERFILLING_0,BUFFERFILLING_1"
newline
bitfld.long 0x00 16. "BUFFERHAND CHECK,Controls the handcheck between DMA buffer and STALL signal in order to prevent from underflow" "BUFFERHAND CHECK_0,BUFFERHAND CHECK_1"
newline
bitfld.long 0x00 15. "CPR,Color Phase Rotation Control (primary LCD output)" "CPR_0,CPR_1"
newline
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)" "BUFFERMERGE_0,BUFFERMERGE_1"
newline
bitfld.long 0x00 13. "TCKTV SELECTION,Transparency Color Key Selection (TV output) wr: EVSYNC" "TCKTV SELECTION_0,TCKTV SELECTION_1"
newline
bitfld.long 0x00 12. "TCKTVENABLE,Transparency Color Key Enabled (TV output) wr: EVSYNC" "TCKTVENABLE_0,TCKTVENABLE_1"
newline
bitfld.long 0x00 11. "TCKLCD SELECTION,Transparency Color Key Selection (primary LCD output) wr: VFP start period of primary LCD output" "TCKLCD SELECTION_0,TCKLCD SELECTION_1"
newline
bitfld.long 0x00 10. "TCKLCDENABLE,Transparency Color Key Enabled (primary LCD output) wr: VFP start period of primary LCD output" "TCKLCDENABLE_0,TCKLCDENABLE_1"
newline
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)" "GAMATABLE ENABLE_0,GAMATABLE ENABLE_1"
newline
bitfld.long 0x00 8. "ACBIASGATED,ACBias Gated Enabled (primary LCD output) wr: VFP start period of primary LCD output" "ACBIASGATED_0,ACBIASGATED_1"
newline
bitfld.long 0x00 7. "VSYNCGATED,VSYNC Gated Enabled (primary LCD output) wr: VFP start period of primary LCD output" "VSYNCGATED_0,VSYNCGATED_1"
newline
bitfld.long 0x00 6. "HSYNCGATED,HSYNC Gated Enabled (primary LCD output) wr: VFP start period of primary LCD output" "HSYNCGATED_0,HSYNCGATED_1"
newline
bitfld.long 0x00 5. "PIXELCLOCK GATED,Pixel Clock Gated Enabled (primary LCD output) wr: VFP start period of primary LCD output" "PIXELCLOCK GATED_0,PIXELCLOCK GATED_1"
newline
bitfld.long 0x00 4. "PIXELDATAGATED,Pixel Data Gated Enabled (primary LCD output) wr: VFP start period of primary LCD output" "PIXELDATAGATED_0,PIXELDATAGATED_1"
newline
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 (no more data in the.." "PALETTEGAMMA TABLE_0,PALETTEGAMMA TABLE_1"
newline
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 finished (no more data in the.." "LOADMODE_0,LOADMODE_1,LOADMODE_2,LOADMODE_3"
newline
bitfld.long 0x00 0. "PIXELGATED,Pixel Gated Enable (only for TFT) (primary LCD output) wr: VFP start period of primary LCD output" "PIXELGATED_0,PIXELGATED_1"
group.long 0x620++0x03
line.long 0x00 "DISPC_CONFIG2,The control register configures the Display Controller module for the secondary LCD output"
bitfld.long 0x00 25. "FULLRANGE,Color Space Conversion full range setting" "FULLRANGE_0,FULLRANGE_1"
newline
bitfld.long 0x00 24. "COLORCONV ENABLE,Enable the color space conversion" "COLORCONV ENABLE_0,COLORCONV ENABLE_1"
newline
bitfld.long 0x00 23. "FIDFIRST,Selects the first field to output in case of interlace mode" "FIDFIRST_0,FIDFIRST_1"
newline
bitfld.long 0x00 22. "OUTPUTMODE ENABLE,Selects between progressive and interlace mode for the secondary LCD output" "OUTPUTMODE ENABLE_0,OUTPUTMODE ENABLE_1"
newline
bitfld.long 0x00 16. "BUFFERHAND CHECK,Controls the handcheck between DMA buffer and STALL signal in order to prevent from underflow" "BUFFERHAND CHECK_0,BUFFERHAND CHECK_1"
newline
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" "CPR_0,CPR_1"
newline
bitfld.long 0x00 11. "TCKLCD SELECTION,Transparency Color Key Selection (secondary LCD output) wr: VFP start period of secondary LCD output" "TCKLCD SELECTION_0,TCKLCD SELECTION_1"
newline
bitfld.long 0x00 10. "TCKLCDENABLE,Transparency Color Key Enabled (secondary LCD output) wr: VFP start period of secondary LCD output" "TCKLCDENABLE_0,TCKLCDENABLE_1"
newline
bitfld.long 0x00 8. "ACBIASGATED,ACBias Gated Enabled (secondary LCD output) wr: VFP start period of secondary LCD output" "ACBIASGATED_0,ACBIASGATED_1"
newline
bitfld.long 0x00 7. "VSYNCGATED,VSYNC Gated Enabled (secondary LCD output) wr: VFP start period of secondary LCD output" "VSYNCGATED_0,VSYNCGATED_1"
newline
bitfld.long 0x00 6. "HSYNCGATED,HSYNC Gated Enabled (secondary LCD output) wr: VFP start period of secondary LCD output" "HSYNCGATED_0,HSYNCGATED_1"
newline
bitfld.long 0x00 5. "PIXELCLOCK GATED,Pixel Clock Gated Enabled (secondary LCD output) wr: VFP start period of secondary LCD output" "PIXELCLOCK GATED_0,PIXELCLOCK GATED_1"
newline
bitfld.long 0x00 4. "PIXELDATA GATED,Pixel Data Gated Enabled (secondary LCD output) wr: VFP start period of secondary LCD output" "PIXELDATA GATED_0,PIXELDATA GATED_1"
newline
bitfld.long 0x00 0. "PIXELGATED,Pixel Gated Enable (only for Active Matrix) (secondary LCD output) wr: VFP start period of secondary LCD output" "PIXELGATED_0,PIXELGATED_1"
group.long 0x40++0x03
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" "SPATIALTEMPORAL DITHERINGFRAMES_0,SPATIALTEMPORAL DITHERINGFRAMES_1,SPATIALTEMPORAL DITHERINGFRAMES_2,SPATIALTEMPORAL DITHERINGFRAMES_3"
newline
rbitfld.long 0x00 29. "LCDENABLEPOL,Write 0s for future compatibility" "LCDENABLEPOL_0,LCDENABLEPOL_1"
newline
rbitfld.long 0x00 28. "LCDENABLESIGNAL,Write 0s for future compatibility" "LCDENABLESIGNAL_0,LCDENABLESIGNAL_1"
newline
rbitfld.long 0x00 27. "PCKFREEENABLE,Write 0s for future compatibility" "PCKFREEENABLE_0,PCKFREEENABLE_1"
newline
bitfld.long 0x00 25.--26. "TDMUNUSEDBITS,State of unused bits (TDM mode only) for the primary LCD output" "TDMUNUSEDBITS_0,TDMUNUSEDBITS_1,TDMUNUSEDBITS_2,TDMUNUSEDBITS_3"
newline
bitfld.long 0x00 23.--24. "TDMCYCLEFORMAT,Cycle format (TDM mode only) for the primary LCD output wr: VFP start period of primary LCD" "TDMCYCLEFORMAT_0,TDMCYCLEFORMAT_1,TDMCYCLEFORMAT_2,TDMCYCLEFORMAT_3"
newline
bitfld.long 0x00 21.--22. "TDMPARALLELMODE,Output Interface width (TDM mode only) for the primary LCD output wr: VFP start period of primary LCD" "TDMPARALLELMODE_0,TDMPARALLELMODE_1,TDMPARALLELMODE_2,TDMPARALLELMODE_3"
newline
bitfld.long 0x00 20. "TDMENABLE,Enable the multiple cycle format (TDM mode only used for TFT mode with the RFBI enable bit off) for the primary LCD output" "TDMENABLE_0,TDMENABLE_1"
newline
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)" "HT_0,HT_1,HT_2,HT_3,HT_4,HT_5,HT_6,HT_7"
newline
bitfld.long 0x00 16. "GPOUT1,General Purpose Output Signal wr:immediate" "GPOUT1_0,GPOUT1_1"
newline
bitfld.long 0x00 15. "GPOUT0,General Purpose Output Signal wr:immediate" "GPOUT0_0,GPOUT0_1"
newline
rbitfld.long 0x00 14. "GPIN1,General Purpose Input Signal wr: immediately" "GPIN1_0_r,GPIN1_1_r"
newline
rbitfld.long 0x00 13. "GPIN0,General Purpose Input Signal wr: immediately" "GPIN0_0_r,GPIN0_1_r"
newline
bitfld.long 0x00 12. "OVERLAYOPTI MIZATION,Overlay Optimization for the primary LCD output wr: VFP start period of the primary LCD" "OVERLAYOPTI MIZATION_0,OVERLAYOPTI MIZATION_1"
newline
bitfld.long 0x00 11. "STALLMODE,STALL Mode for the primary LCD output wr: VFP start period of primary LCD" "STALLMODE_0,STALLMODE_1"
newline
bitfld.long 0x00 8.--9. "TFTDATALINES,Number of lines of the primary LCD interface wr: VFP start period of primary LCD" "TFTDATALINES_0,TFTDATALINES_1,TFTDATALINES_2,TFTDATALINES_3"
newline
bitfld.long 0x00 7. "STDITHERENABLE,Spatial Temporal dithering enable for the primary LCD output wr: VFP start period of primary LCD" "STDITHERENABLE_0,STDITHERENABLE_1"
newline
bitfld.long 0x00 6. "GOTV,GO Command for the TV output" "GOTV_0,GOTV_1"
newline
bitfld.long 0x00 5. "GOLCD,GO Command for the primary LCD output" "GOLCD_0,GOLCD_1"
newline
bitfld.long 0x00 4. "M8B,Mono 8-bit mode of the primary LCD wr: VFP start period of primary LCD output" "M8B_0,M8B_1"
newline
bitfld.long 0x00 3. "STNTFT,LCD Display type of the primary LCD wr: VFP start period of primary LCD output" "STNTFT_0,STNTFT_1"
newline
bitfld.long 0x00 2. "MONOCOLOR,Monochrome/Color selection for the primary LCD wr: VFP start period of primary LCD output" "MONOCOLOR_0,MONOCOLOR_1"
newline
bitfld.long 0x00 1. "TVENABLE,Enable the TV output wr: immediate effect only occurs at the end of the current frame" "TVENABLE_0,TVENABLE_1"
newline
bitfld.long 0x00 0. "LCDENABLE,Enable the primary LCD outputs wr: immediate Effect only occurs at the end of the current frame" "LCDENABLE_0,LCDENABLE_1"
group.long 0x238++0x03
line.long 0x00 "DISPC_CONTROL2,The control register configures the Display Controller module for the secondary LCD output"
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" "SPATIALTEMPORAL DITHERINGFRAMES_0,SPATIALTEMPORAL DITHERINGFRAMES_1,SPATIALTEMPORAL DITHERINGFRAMES_2,SPATIALTEMPORAL DITHERINGFRAMES_3"
newline
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" "TDMUNUSED BITS_0,TDMUNUSED BITS_1,TDMUNUSED BITS_2,TDMUNUSED BITS_3"
newline
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" "TDMCYCLE FORMAT_0,TDMCYCLE FORMAT_1,TDMCYCLE FORMAT_2,TDMCYCLE FORMAT_3"
newline
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" "TDMPARALLEL MODE_0,TDMPARALLEL MODE_1,TDMPARALLEL MODE_2,TDMPARALLEL MODE_3"
newline
bitfld.long 0x00 20. "TDMENABLE,Enable the multiple cycle format (TDM mode only used for Active Matrix mode with the RFBI enable bit off) for the secondary LCD output wr: VFP start period of secondary LCD output" "TDMENABLE_0,TDMENABLE_1"
newline
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)" "TVOVERLAY OPTIMIZATION_0,TVOVERLAY OPTIMIZATION_1"
newline
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)" "OVERLAY OPTIMIZATION_0,OVERLAY OPTIMIZATION_1"
newline
bitfld.long 0x00 11. "STALLMODE,STALL Mode for the secondary LCD output wr: VFP start period of secondary LCD output" "STALLMODE_0,STALLMODE_1"
newline
bitfld.long 0x00 8.--9. "TFTDATALINES,Number of lines of the secondary LCD interface wr: VFP start period of secondary LCD output" "TFTDATALINES_0,TFTDATALINES_1,TFTDATALINES_2,TFTDATALINES_3"
newline
bitfld.long 0x00 7. "STDITHER ENABLE,Spatial Temporal dithering enable for the secondary LCD output wr: VFP start period of secondary LCD output" "STDITHER ENABLE_0,STDITHER ENABLE_1"
newline
bitfld.long 0x00 6. "GOWB,GO Command for the write-back output" "GOWB_0,GOWB_1"
newline
bitfld.long 0x00 5. "GOLCD,GO Command for the secondary LCD output" "GOLCD_0,GOLCD_1"
newline
bitfld.long 0x00 4. "M8B,Mono 8-bit mode of the secondary LCD wr: VFP start period of secondary LCD output" "M8B_0,M8B_1"
newline
bitfld.long 0x00 3. "STNTFT,LCD Display type of the secondary LCD wr: VFP start period of secondary LCD output" "STNTFT_0,STNTFT_1"
newline
bitfld.long 0x00 2. "MONOCOLOR,Monochrome/Color selection for the secondary LCD wr: VFP start period of secondary LCD output" "MONOCOLOR_0,MONOCOLOR_1"
newline
bitfld.long 0x00 0. "LCDENABLE,Enable the secondary LCD output wr:immediate" "LCDENABLE_0,LCDENABLE_1"
group.long 0x228++0x03
line.long 0x00 "DISPC_CPR1_COEF_B,The register configures the color phase rotation matrix coefficients for the Blue component"
hexmask.long.word 0x00 22.--31. 1. "BR,BR Coefficient Encoded signed value (from -512 to 511)"
newline
hexmask.long.word 0x00 11.--20. 1. "BG,BG Coefficient Encoded signed value (from -512 to 511)"
newline
hexmask.long.word 0x00 0.--9. 1. "BB,BB Coefficient Encoded signed value (from -512 to 511)"
group.long 0x224++0x03
line.long 0x00 "DISPC_CPR1_COEF_G,The register configures the color phase rotation matrix coefficients for the Green component"
hexmask.long.word 0x00 22.--31. 1. "GR,GR Coefficient Encoded signed value (from -512 to 511)"
newline
hexmask.long.word 0x00 11.--20. 1. "GG,GG Coefficient Encoded signed value (from -512 to 511)"
newline
hexmask.long.word 0x00 0.--9. 1. "GB,GB Coefficient Encoded signed value (from -512 to 511)"
group.long 0x220++0x03
line.long 0x00 "DISPC_CPR1_COEF_R,The register configures the color phase rotation matrix coefficients for the Red component"
hexmask.long.word 0x00 22.--31. 1. "RR,RR Coefficient Encoded signed value (from -512 to 511)"
newline
hexmask.long.word 0x00 11.--20. 1. "RG,RG Coefficient Encoded signed value (from -512 to 511)"
newline
hexmask.long.word 0x00 0.--9. 1. "RB,RB Coefficient Encoded signed value (from -512 to 511)"
group.long 0x3B4++0x0B
line.long 0x00 "DISPC_CPR2_COEF_B,The register configures the color phase rotation matrix coefficients for the Blue component"
hexmask.long.word 0x00 22.--31. 1. "BR,BR Coefficient Encoded signed value (from -512 to 511)"
newline
hexmask.long.word 0x00 11.--20. 1. "BG,BG Coefficient Encoded signed value (from -512 to 511)"
newline
hexmask.long.word 0x00 0.--9. 1. "BB,BB Coefficient Encoded signed value (from -512 to 511)"
line.long 0x04 "DISPC_CPR2_COEF_G,The register configures the color phase rotation matrix coefficients for the Green component"
hexmask.long.word 0x04 22.--31. 1. "GR,GR Coefficient Encoded signed value (from -512 to 511)"
newline
hexmask.long.word 0x04 11.--20. 1. "GG,GG Coefficient Encoded signed value (from -512 to 511)"
newline
hexmask.long.word 0x04 0.--9. 1. "GB,GB Coefficient Encoded signed value (from -512 to 511)"
line.long 0x08 "DISPC_CPR2_COEF_R,The register configures the color phase rotation matrix coefficients for the Red component"
hexmask.long.word 0x08 22.--31. 1. "RR,RR Coefficient Encoded signed value (from -512 to 511)"
newline
hexmask.long.word 0x08 11.--20. 1. "RG,RG Coefficient Encoded signed value (from -512 to 511)"
newline
hexmask.long.word 0x08 0.--9. 1. "RB,RB Coefficient Encoded signed value (from -512 to 511)"
group.long 0x1D4++0x0B
line.long 0x00 "DISPC_DATA1_CYCLE1,The control register configures the output data format for 1st cycle"
bitfld.long 0x00 24.--27. "BITALIGNMENTPIXEL2,Bit alignment" "BITALIGNMENTPIXEL2_0,BITALIGNMENTPIXEL2_1,BITALIGNMENTPIXEL2_2,BITALIGNMENTPIXEL2_3,BITALIGNMENTPIXEL2_4,BITALIGNMENTPIXEL2_5,BITALIGNMENTPIXEL2_6,BITALIGNMENTPIXEL2_7,BITALIGNMENTPIXEL2_8,BITALIGNMENTPIXEL2_9,BITALIGNMENTPIXEL2_10,BITALIGNMENTPIXEL2_11,BITALIGNMENTPIXEL2_12,BITALIGNMENTPIXEL2_13,BITALIGNMENTPIXEL2_14,BITALIGNMENTPIXEL2_15"
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bitfld.long 0x00 16.--20. "NBBITSPIXEL2,Number of bits Number of bits from the pixel 2 (value from 0 to 16 bits)" "NBBITSPIXEL2_0,NBBITSPIXEL2_1,NBBITSPIXEL2_2,NBBITSPIXEL2_3,NBBITSPIXEL2_4,NBBITSPIXEL2_5,NBBITSPIXEL2_6,NBBITSPIXEL2_7,NBBITSPIXEL2_8,NBBITSPIXEL2_9,NBBITSPIXEL2_10,NBBITSPIXEL2_11,NBBITSPIXEL2_12,NBBITSPIXEL2_13,NBBITSPIXEL2_14,NBBITSPIXEL2_15,NBBITSPIXEL2_16,NBBITSPIXEL2_17,NBBITSPIXEL2_18,NBBITSPIXEL2_19,NBBITSPIXEL2_20,NBBITSPIXEL2_21,NBBITSPIXEL2_22,NBBITSPIXEL2_23,NBBITSPIXEL2_24,NBBITSPIXEL2_25,NBBITSPIXEL2_26,NBBITSPIXEL2_27,NBBITSPIXEL2_28,NBBITSPIXEL2_29,NBBITSPIXEL2_30,NBBITSPIXEL2_31"
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bitfld.long 0x00 8.--11. "BITALIGNMENTPIXEL1,Bit alignment" "BITALIGNMENTPIXEL1_0,BITALIGNMENTPIXEL1_1,BITALIGNMENTPIXEL1_2,BITALIGNMENTPIXEL1_3,BITALIGNMENTPIXEL1_4,BITALIGNMENTPIXEL1_5,BITALIGNMENTPIXEL1_6,BITALIGNMENTPIXEL1_7,BITALIGNMENTPIXEL1_8,BITALIGNMENTPIXEL1_9,BITALIGNMENTPIXEL1_10,BITALIGNMENTPIXEL1_11,BITALIGNMENTPIXEL1_12,BITALIGNMENTPIXEL1_13,BITALIGNMENTPIXEL1_14,BITALIGNMENTPIXEL1_15"
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bitfld.long 0x00 0.--4. "NBBITSPIXEL1,Number of bits Number of bits from the pixel 1 (value from 0 to 16 bits)" "NBBITSPIXEL1_0,NBBITSPIXEL1_1,NBBITSPIXEL1_2,NBBITSPIXEL1_3,NBBITSPIXEL1_4,NBBITSPIXEL1_5,NBBITSPIXEL1_6,NBBITSPIXEL1_7,NBBITSPIXEL1_8,NBBITSPIXEL1_9,NBBITSPIXEL1_10,NBBITSPIXEL1_11,NBBITSPIXEL1_12,NBBITSPIXEL1_13,NBBITSPIXEL1_14,NBBITSPIXEL1_15,NBBITSPIXEL1_16,NBBITSPIXEL1_17,NBBITSPIXEL1_18,NBBITSPIXEL1_19,NBBITSPIXEL1_20,NBBITSPIXEL1_21,NBBITSPIXEL1_22,NBBITSPIXEL1_23,NBBITSPIXEL1_24,NBBITSPIXEL1_25,NBBITSPIXEL1_26,NBBITSPIXEL1_27,NBBITSPIXEL1_28,NBBITSPIXEL1_29,NBBITSPIXEL1_30,NBBITSPIXEL1_31"
line.long 0x04 "DISPC_DATA1_CYCLE2,The control register configures the output data format for 2nd cycle"
bitfld.long 0x04 24.--27. "BITALIGNMENTPIXEL2,Bit alignment" "BITALIGNMENTPIXEL2_0,BITALIGNMENTPIXEL2_1,BITALIGNMENTPIXEL2_2,BITALIGNMENTPIXEL2_3,BITALIGNMENTPIXEL2_4,BITALIGNMENTPIXEL2_5,BITALIGNMENTPIXEL2_6,BITALIGNMENTPIXEL2_7,BITALIGNMENTPIXEL2_8,BITALIGNMENTPIXEL2_9,BITALIGNMENTPIXEL2_10,BITALIGNMENTPIXEL2_11,BITALIGNMENTPIXEL2_12,BITALIGNMENTPIXEL2_13,BITALIGNMENTPIXEL2_14,BITALIGNMENTPIXEL2_15"
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bitfld.long 0x04 16.--20. "NBBITSPIXEL2,Number of bits Number of bits from the pixel 2 (value from 0 to 16 bits)" "NBBITSPIXEL2_0,NBBITSPIXEL2_1,NBBITSPIXEL2_2,NBBITSPIXEL2_3,NBBITSPIXEL2_4,NBBITSPIXEL2_5,NBBITSPIXEL2_6,NBBITSPIXEL2_7,NBBITSPIXEL2_8,NBBITSPIXEL2_9,NBBITSPIXEL2_10,NBBITSPIXEL2_11,NBBITSPIXEL2_12,NBBITSPIXEL2_13,NBBITSPIXEL2_14,NBBITSPIXEL2_15,NBBITSPIXEL2_16,NBBITSPIXEL2_17,NBBITSPIXEL2_18,NBBITSPIXEL2_19,NBBITSPIXEL2_20,NBBITSPIXEL2_21,NBBITSPIXEL2_22,NBBITSPIXEL2_23,NBBITSPIXEL2_24,NBBITSPIXEL2_25,NBBITSPIXEL2_26,NBBITSPIXEL2_27,NBBITSPIXEL2_28,NBBITSPIXEL2_29,NBBITSPIXEL2_30,NBBITSPIXEL2_31"
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bitfld.long 0x04 8.--11. "BITALIGNMENTPIXEL1,Bit alignment" "BITALIGNMENTPIXEL1_0,BITALIGNMENTPIXEL1_1,BITALIGNMENTPIXEL1_2,BITALIGNMENTPIXEL1_3,BITALIGNMENTPIXEL1_4,BITALIGNMENTPIXEL1_5,BITALIGNMENTPIXEL1_6,BITALIGNMENTPIXEL1_7,BITALIGNMENTPIXEL1_8,BITALIGNMENTPIXEL1_9,BITALIGNMENTPIXEL1_10,BITALIGNMENTPIXEL1_11,BITALIGNMENTPIXEL1_12,BITALIGNMENTPIXEL1_13,BITALIGNMENTPIXEL1_14,BITALIGNMENTPIXEL1_15"
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bitfld.long 0x04 0.--4. "NBBITSPIXEL1,Number of bits Number of bits from the pixel 1 (value from 0 to 16 bits)" "NBBITSPIXEL1_0,NBBITSPIXEL1_1,NBBITSPIXEL1_2,NBBITSPIXEL1_3,NBBITSPIXEL1_4,NBBITSPIXEL1_5,NBBITSPIXEL1_6,NBBITSPIXEL1_7,NBBITSPIXEL1_8,NBBITSPIXEL1_9,NBBITSPIXEL1_10,NBBITSPIXEL1_11,NBBITSPIXEL1_12,NBBITSPIXEL1_13,NBBITSPIXEL1_14,NBBITSPIXEL1_15,NBBITSPIXEL1_16,NBBITSPIXEL1_17,NBBITSPIXEL1_18,NBBITSPIXEL1_19,NBBITSPIXEL1_20,NBBITSPIXEL1_21,NBBITSPIXEL1_22,NBBITSPIXEL1_23,NBBITSPIXEL1_24,NBBITSPIXEL1_25,NBBITSPIXEL1_26,NBBITSPIXEL1_27,NBBITSPIXEL1_28,NBBITSPIXEL1_29,NBBITSPIXEL1_30,NBBITSPIXEL1_31"
line.long 0x08 "DISPC_DATA1_CYCLE3,The control register configures the output data format for 3rd cycle"
bitfld.long 0x08 24.--27. "BITALIGNMENTPIXEL2,Bit alignment" "BITALIGNMENTPIXEL2_0,BITALIGNMENTPIXEL2_1,BITALIGNMENTPIXEL2_2,BITALIGNMENTPIXEL2_3,BITALIGNMENTPIXEL2_4,BITALIGNMENTPIXEL2_5,BITALIGNMENTPIXEL2_6,BITALIGNMENTPIXEL2_7,BITALIGNMENTPIXEL2_8,BITALIGNMENTPIXEL2_9,BITALIGNMENTPIXEL2_10,BITALIGNMENTPIXEL2_11,BITALIGNMENTPIXEL2_12,BITALIGNMENTPIXEL2_13,BITALIGNMENTPIXEL2_14,BITALIGNMENTPIXEL2_15"
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bitfld.long 0x08 16.--20. "NBBITSPIXEL2,Number of bits Number of bits from the pixel 2 (value from 0 to 16 bits)" "NBBITSPIXEL2_0,NBBITSPIXEL2_1,NBBITSPIXEL2_2,NBBITSPIXEL2_3,NBBITSPIXEL2_4,NBBITSPIXEL2_5,NBBITSPIXEL2_6,NBBITSPIXEL2_7,NBBITSPIXEL2_8,NBBITSPIXEL2_9,NBBITSPIXEL2_10,NBBITSPIXEL2_11,NBBITSPIXEL2_12,NBBITSPIXEL2_13,NBBITSPIXEL2_14,NBBITSPIXEL2_15,NBBITSPIXEL2_16,NBBITSPIXEL2_17,NBBITSPIXEL2_18,NBBITSPIXEL2_19,NBBITSPIXEL2_20,NBBITSPIXEL2_21,NBBITSPIXEL2_22,NBBITSPIXEL2_23,NBBITSPIXEL2_24,NBBITSPIXEL2_25,NBBITSPIXEL2_26,NBBITSPIXEL2_27,NBBITSPIXEL2_28,NBBITSPIXEL2_29,NBBITSPIXEL2_30,NBBITSPIXEL2_31"
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bitfld.long 0x08 8.--11. "BITALIGNMENTPIXEL1,Bit alignment" "BITALIGNMENTPIXEL1_0,BITALIGNMENTPIXEL1_1,BITALIGNMENTPIXEL1_2,BITALIGNMENTPIXEL1_3,BITALIGNMENTPIXEL1_4,BITALIGNMENTPIXEL1_5,BITALIGNMENTPIXEL1_6,BITALIGNMENTPIXEL1_7,BITALIGNMENTPIXEL1_8,BITALIGNMENTPIXEL1_9,BITALIGNMENTPIXEL1_10,BITALIGNMENTPIXEL1_11,BITALIGNMENTPIXEL1_12,BITALIGNMENTPIXEL1_13,BITALIGNMENTPIXEL1_14,BITALIGNMENTPIXEL1_15"
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bitfld.long 0x08 0.--4. "NBBITSPIXEL1,Number of bits Number of bits from the pixel 1 (value from 0 to 16 bits)" "NBBITSPIXEL1_0,NBBITSPIXEL1_1,NBBITSPIXEL1_2,NBBITSPIXEL1_3,NBBITSPIXEL1_4,NBBITSPIXEL1_5,NBBITSPIXEL1_6,NBBITSPIXEL1_7,NBBITSPIXEL1_8,NBBITSPIXEL1_9,NBBITSPIXEL1_10,NBBITSPIXEL1_11,NBBITSPIXEL1_12,NBBITSPIXEL1_13,NBBITSPIXEL1_14,NBBITSPIXEL1_15,NBBITSPIXEL1_16,NBBITSPIXEL1_17,NBBITSPIXEL1_18,NBBITSPIXEL1_19,NBBITSPIXEL1_20,NBBITSPIXEL1_21,NBBITSPIXEL1_22,NBBITSPIXEL1_23,NBBITSPIXEL1_24,NBBITSPIXEL1_25,NBBITSPIXEL1_26,NBBITSPIXEL1_27,NBBITSPIXEL1_28,NBBITSPIXEL1_29,NBBITSPIXEL1_30,NBBITSPIXEL1_31"
group.long 0x3C0++0x0B
line.long 0x00 "DISPC_DATA2_CYCLE1,The control register configures the output data format for 1st cycle"
bitfld.long 0x00 24.--27. "BITALIGNMENTPIXEL2,Bit alignment" "BITALIGNMENTPIXEL2_0,BITALIGNMENTPIXEL2_1,BITALIGNMENTPIXEL2_2,BITALIGNMENTPIXEL2_3,BITALIGNMENTPIXEL2_4,BITALIGNMENTPIXEL2_5,BITALIGNMENTPIXEL2_6,BITALIGNMENTPIXEL2_7,BITALIGNMENTPIXEL2_8,BITALIGNMENTPIXEL2_9,BITALIGNMENTPIXEL2_10,BITALIGNMENTPIXEL2_11,BITALIGNMENTPIXEL2_12,BITALIGNMENTPIXEL2_13,BITALIGNMENTPIXEL2_14,BITALIGNMENTPIXEL2_15"
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bitfld.long 0x00 16.--20. "NBBITSPIXEL2,Number of bits Number of bits from the pixel 2 (value from 0 to 16 bits)" "NBBITSPIXEL2_0,NBBITSPIXEL2_1,NBBITSPIXEL2_2,NBBITSPIXEL2_3,NBBITSPIXEL2_4,NBBITSPIXEL2_5,NBBITSPIXEL2_6,NBBITSPIXEL2_7,NBBITSPIXEL2_8,NBBITSPIXEL2_9,NBBITSPIXEL2_10,NBBITSPIXEL2_11,NBBITSPIXEL2_12,NBBITSPIXEL2_13,NBBITSPIXEL2_14,NBBITSPIXEL2_15,NBBITSPIXEL2_16,NBBITSPIXEL2_17,NBBITSPIXEL2_18,NBBITSPIXEL2_19,NBBITSPIXEL2_20,NBBITSPIXEL2_21,NBBITSPIXEL2_22,NBBITSPIXEL2_23,NBBITSPIXEL2_24,NBBITSPIXEL2_25,NBBITSPIXEL2_26,NBBITSPIXEL2_27,NBBITSPIXEL2_28,NBBITSPIXEL2_29,NBBITSPIXEL2_30,NBBITSPIXEL2_31"
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bitfld.long 0x00 8.--11. "BITALIGNMENTPIXEL1,Bit alignment" "BITALIGNMENTPIXEL1_0,BITALIGNMENTPIXEL1_1,BITALIGNMENTPIXEL1_2,BITALIGNMENTPIXEL1_3,BITALIGNMENTPIXEL1_4,BITALIGNMENTPIXEL1_5,BITALIGNMENTPIXEL1_6,BITALIGNMENTPIXEL1_7,BITALIGNMENTPIXEL1_8,BITALIGNMENTPIXEL1_9,BITALIGNMENTPIXEL1_10,BITALIGNMENTPIXEL1_11,BITALIGNMENTPIXEL1_12,BITALIGNMENTPIXEL1_13,BITALIGNMENTPIXEL1_14,BITALIGNMENTPIXEL1_15"
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bitfld.long 0x00 0.--4. "NBBITSPIXEL1,Number of bits Number of bits from the pixel 1 (value from 0 to 16 bits)" "NBBITSPIXEL1_0,NBBITSPIXEL1_1,NBBITSPIXEL1_2,NBBITSPIXEL1_3,NBBITSPIXEL1_4,NBBITSPIXEL1_5,NBBITSPIXEL1_6,NBBITSPIXEL1_7,NBBITSPIXEL1_8,NBBITSPIXEL1_9,NBBITSPIXEL1_10,NBBITSPIXEL1_11,NBBITSPIXEL1_12,NBBITSPIXEL1_13,NBBITSPIXEL1_14,NBBITSPIXEL1_15,NBBITSPIXEL1_16,NBBITSPIXEL1_17,NBBITSPIXEL1_18,NBBITSPIXEL1_19,NBBITSPIXEL1_20,NBBITSPIXEL1_21,NBBITSPIXEL1_22,NBBITSPIXEL1_23,NBBITSPIXEL1_24,NBBITSPIXEL1_25,NBBITSPIXEL1_26,NBBITSPIXEL1_27,NBBITSPIXEL1_28,NBBITSPIXEL1_29,NBBITSPIXEL1_30,NBBITSPIXEL1_31"
line.long 0x04 "DISPC_DATA2_CYCLE2,The control register configures the output data format for 2nd cycle"
bitfld.long 0x04 24.--27. "BITALIGNMENTPIXEL2,Bit alignment" "BITALIGNMENTPIXEL2_0,BITALIGNMENTPIXEL2_1,BITALIGNMENTPIXEL2_2,BITALIGNMENTPIXEL2_3,BITALIGNMENTPIXEL2_4,BITALIGNMENTPIXEL2_5,BITALIGNMENTPIXEL2_6,BITALIGNMENTPIXEL2_7,BITALIGNMENTPIXEL2_8,BITALIGNMENTPIXEL2_9,BITALIGNMENTPIXEL2_10,BITALIGNMENTPIXEL2_11,BITALIGNMENTPIXEL2_12,BITALIGNMENTPIXEL2_13,BITALIGNMENTPIXEL2_14,BITALIGNMENTPIXEL2_15"
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bitfld.long 0x04 16.--20. "NBBITSPIXEL2,Number of bits Number of bits from the pixel 2 (value from 0 to 16 bits)" "NBBITSPIXEL2_0,NBBITSPIXEL2_1,NBBITSPIXEL2_2,NBBITSPIXEL2_3,NBBITSPIXEL2_4,NBBITSPIXEL2_5,NBBITSPIXEL2_6,NBBITSPIXEL2_7,NBBITSPIXEL2_8,NBBITSPIXEL2_9,NBBITSPIXEL2_10,NBBITSPIXEL2_11,NBBITSPIXEL2_12,NBBITSPIXEL2_13,NBBITSPIXEL2_14,NBBITSPIXEL2_15,NBBITSPIXEL2_16,NBBITSPIXEL2_17,NBBITSPIXEL2_18,NBBITSPIXEL2_19,NBBITSPIXEL2_20,NBBITSPIXEL2_21,NBBITSPIXEL2_22,NBBITSPIXEL2_23,NBBITSPIXEL2_24,NBBITSPIXEL2_25,NBBITSPIXEL2_26,NBBITSPIXEL2_27,NBBITSPIXEL2_28,NBBITSPIXEL2_29,NBBITSPIXEL2_30,NBBITSPIXEL2_31"
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bitfld.long 0x04 8.--11. "BITALIGNMENTPIXEL1,Bit alignment" "BITALIGNMENTPIXEL1_0,BITALIGNMENTPIXEL1_1,BITALIGNMENTPIXEL1_2,BITALIGNMENTPIXEL1_3,BITALIGNMENTPIXEL1_4,BITALIGNMENTPIXEL1_5,BITALIGNMENTPIXEL1_6,BITALIGNMENTPIXEL1_7,BITALIGNMENTPIXEL1_8,BITALIGNMENTPIXEL1_9,BITALIGNMENTPIXEL1_10,BITALIGNMENTPIXEL1_11,BITALIGNMENTPIXEL1_12,BITALIGNMENTPIXEL1_13,BITALIGNMENTPIXEL1_14,BITALIGNMENTPIXEL1_15"
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bitfld.long 0x04 0.--4. "NBBITSPIXEL1,Number of bits Number of bits from the pixel 1 (value from 0 to 16 bits)" "NBBITSPIXEL1_0,NBBITSPIXEL1_1,NBBITSPIXEL1_2,NBBITSPIXEL1_3,NBBITSPIXEL1_4,NBBITSPIXEL1_5,NBBITSPIXEL1_6,NBBITSPIXEL1_7,NBBITSPIXEL1_8,NBBITSPIXEL1_9,NBBITSPIXEL1_10,NBBITSPIXEL1_11,NBBITSPIXEL1_12,NBBITSPIXEL1_13,NBBITSPIXEL1_14,NBBITSPIXEL1_15,NBBITSPIXEL1_16,NBBITSPIXEL1_17,NBBITSPIXEL1_18,NBBITSPIXEL1_19,NBBITSPIXEL1_20,NBBITSPIXEL1_21,NBBITSPIXEL1_22,NBBITSPIXEL1_23,NBBITSPIXEL1_24,NBBITSPIXEL1_25,NBBITSPIXEL1_26,NBBITSPIXEL1_27,NBBITSPIXEL1_28,NBBITSPIXEL1_29,NBBITSPIXEL1_30,NBBITSPIXEL1_31"
line.long 0x08 "DISPC_DATA2_CYCLE3,The control register configures the output data format for 3rd cycle"
bitfld.long 0x08 24.--27. "BITALIGNMENTPIXEL2,Bit alignment" "BITALIGNMENTPIXEL2_0,BITALIGNMENTPIXEL2_1,BITALIGNMENTPIXEL2_2,BITALIGNMENTPIXEL2_3,BITALIGNMENTPIXEL2_4,BITALIGNMENTPIXEL2_5,BITALIGNMENTPIXEL2_6,BITALIGNMENTPIXEL2_7,BITALIGNMENTPIXEL2_8,BITALIGNMENTPIXEL2_9,BITALIGNMENTPIXEL2_10,BITALIGNMENTPIXEL2_11,BITALIGNMENTPIXEL2_12,BITALIGNMENTPIXEL2_13,BITALIGNMENTPIXEL2_14,BITALIGNMENTPIXEL2_15"
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bitfld.long 0x08 16.--20. "NBBITSPIXEL2,Number of bits Number of bits from the pixel 2 (value from 0 to 16 bits)" "NBBITSPIXEL2_0,NBBITSPIXEL2_1,NBBITSPIXEL2_2,NBBITSPIXEL2_3,NBBITSPIXEL2_4,NBBITSPIXEL2_5,NBBITSPIXEL2_6,NBBITSPIXEL2_7,NBBITSPIXEL2_8,NBBITSPIXEL2_9,NBBITSPIXEL2_10,NBBITSPIXEL2_11,NBBITSPIXEL2_12,NBBITSPIXEL2_13,NBBITSPIXEL2_14,NBBITSPIXEL2_15,NBBITSPIXEL2_16,NBBITSPIXEL2_17,NBBITSPIXEL2_18,NBBITSPIXEL2_19,NBBITSPIXEL2_20,NBBITSPIXEL2_21,NBBITSPIXEL2_22,NBBITSPIXEL2_23,NBBITSPIXEL2_24,NBBITSPIXEL2_25,NBBITSPIXEL2_26,NBBITSPIXEL2_27,NBBITSPIXEL2_28,NBBITSPIXEL2_29,NBBITSPIXEL2_30,NBBITSPIXEL2_31"
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bitfld.long 0x08 8.--11. "BITALIGNMENTPIXEL1,Bit alignment" "BITALIGNMENTPIXEL1_0,BITALIGNMENTPIXEL1_1,BITALIGNMENTPIXEL1_2,BITALIGNMENTPIXEL1_3,BITALIGNMENTPIXEL1_4,BITALIGNMENTPIXEL1_5,BITALIGNMENTPIXEL1_6,BITALIGNMENTPIXEL1_7,BITALIGNMENTPIXEL1_8,BITALIGNMENTPIXEL1_9,BITALIGNMENTPIXEL1_10,BITALIGNMENTPIXEL1_11,BITALIGNMENTPIXEL1_12,BITALIGNMENTPIXEL1_13,BITALIGNMENTPIXEL1_14,BITALIGNMENTPIXEL1_15"
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bitfld.long 0x08 0.--4. "NBBITSPIXEL1,Number of bits Number of bits from the pixel 1 (value from 0 to 16 bits)" "NBBITSPIXEL1_0,NBBITSPIXEL1_1,NBBITSPIXEL1_2,NBBITSPIXEL1_3,NBBITSPIXEL1_4,NBBITSPIXEL1_5,NBBITSPIXEL1_6,NBBITSPIXEL1_7,NBBITSPIXEL1_8,NBBITSPIXEL1_9,NBBITSPIXEL1_10,NBBITSPIXEL1_11,NBBITSPIXEL1_12,NBBITSPIXEL1_13,NBBITSPIXEL1_14,NBBITSPIXEL1_15,NBBITSPIXEL1_16,NBBITSPIXEL1_17,NBBITSPIXEL1_18,NBBITSPIXEL1_19,NBBITSPIXEL1_20,NBBITSPIXEL1_21,NBBITSPIXEL1_22,NBBITSPIXEL1_23,NBBITSPIXEL1_24,NBBITSPIXEL1_25,NBBITSPIXEL1_26,NBBITSPIXEL1_27,NBBITSPIXEL1_28,NBBITSPIXEL1_29,NBBITSPIXEL1_30,NBBITSPIXEL1_31"
group.long 0x4C++0x07
line.long 0x00 "DISPC_DEFAULT_COLOR0,The control register allows to configure the default solid background color for 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"
line.long 0x04 "DISPC_DEFAULT_COLOR1,The control register allows to configure the default solid background color for the TV output"
hexmask.long.tbyte 0x04 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 0x3AC++0x03
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 0x804++0x03
line.long 0x00 "DISPC_DIVISOR,The register configures the divisor value 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"
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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" "ENABLE_0,ENABLE_1"
group.long 0x70++0x03
line.long 0x00 "DISPC_DIVISOR1,The register configures the divisors"
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"
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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"
group.long 0x40C++0x03
line.long 0x00 "DISPC_DIVISOR2,The register configures the divisors"
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"
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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"
group.long 0x630++0x0B
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"
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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"
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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"
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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"
line.long 0x04 "DISPC_GAMMA_TABLE1,The register configures the gamma table on the secondary LCD output"
hexmask.long.byte 0x04 24.--31. 1. "INDEX,Defines the location in the table where the bit field VALUE is stored"
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hexmask.long.byte 0x04 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"
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hexmask.long.byte 0x04 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"
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hexmask.long.byte 0x04 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"
line.long 0x08 "DISPC_GAMMA_TABLE2,The register configures the gamma table on the TV output"
bitfld.long 0x08 31. "INDEX,Setting this bit to 1 resets the internal index counter to zero" "INDEX_0,INDEX_1"
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hexmask.long.word 0x08 20.--29. 1. "VALUE_R,10-bit color component value to store in the table"
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hexmask.long.word 0x08 10.--19. 1. "VALUE_G,10-bit color component value to store in the table"
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hexmask.long.word 0x08 0.--9. 1. "VALUE_B,10-bit color component value to store in the table"
group.long 0xA0++0x03
line.long 0x00 "DISPC_GFX_ATTRIBUTES,The register configures the graphics attributes"
bitfld.long 0x00 30.--31. "CHANNELOUT2,It is not used if CHANNELOUT is set to TV" "CHANNELOUT2_0,CHANNELOUT2_1,?,CHANNELOUT2_3"
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bitfld.long 0x00 29. "BURSTTYPE,The type of burst can be INCR (incremental) or BLCK (2D block)" "BURSTTYPE_0,BURSTTYPE_1"
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bitfld.long 0x00 28. "PREMULTIPLYALPHA,The field configures the DISPC GFX to process incoming data as premultiplied alpha data or non premultiplied alpha data" "PREMULTIPLYALPHA_0,PREMULTIPLYALPHA_1"
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bitfld.long 0x00 26.--27. "ZORDER,Z-Order defining the priority of the layer compared to others when overlaying" "ZORDER_0,ZORDER_1,ZORDER_2,ZORDER_3"
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bitfld.long 0x00 25. "ZORDERENABLE,Z-order Enable" "ZORDERENABLE_0,ZORDERENABLE_1"
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bitfld.long 0x00 24. "ANTIFLICKER,Antiflicker filtering using a 3-tap filter with hardcoded coefficients (1/4 1/2 " "ANTIFLICKER_0,ANTIFLICKER_1"
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bitfld.long 0x00 17. "SELFREFRESHAUTO,Automatic self-refresh mode" "SELFREFRESHAUTO_0,SELFREFRESHAUTO_1"
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bitfld.long 0x00 15. "SELFREFRESH,Enables the self refresh of the graphics window from its own DMA buffer" "SELFREFRESH_0,SELFREFRESH_1"
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bitfld.long 0x00 14. "ARBITRATION,Determines the priority of the graphics pipeline" "ARBITRATION_0,ARBITRATION_1"
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bitfld.long 0x00 12.--13. "ROTATION,Graphics Rotation Flag" "ROTATION_0,ROTATION_1,ROTATION_2,ROTATION_3"
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bitfld.long 0x00 11. "BUFPRELOAD,Graphics Preload Value" "BUFPRELOAD_0,BUFPRELOAD_1"
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bitfld.long 0x00 9. "NIBBLEMODE,Graphics Nibble Mode (only for 1- 2- and" "NIBBLEMODE_0,NIBBLEMODE_1"
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bitfld.long 0x00 8. "CHANNELOUT,Graphics Channel Out configuration: LCD WB or TV" "CHANNELOUT_0,CHANNELOUT_1"
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bitfld.long 0x00 6.--7. "BURSTSIZE,Graphics DMA Burst Size" "BURSTSIZE_0,BURSTSIZE_1,BURSTSIZE_2,BURSTSIZE_3"
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bitfld.long 0x00 5. "REPLICATIONENABLE,Graphics Replication Enabled: RGB" "REPLICATIONENABLE_0,REPLICATIONENABLE_1"
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bitfld.long 0x00 1.--4. "FORMAT,Graphics format" "FORMAT_0,FORMAT_1,FORMAT_2,FORMAT_3,FORMAT_4,FORMAT_5,FORMAT_6,FORMAT_7,FORMAT_8,FORMAT_9,FORMAT_10,FORMAT_11,FORMAT_12,FORMAT_13,FORMAT_14,FORMAT_15"
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bitfld.long 0x00 0. "ENABLE,Graphics Enable" "ENABLE_0,ENABLE_1"
rgroup.long 0xA8++0x03
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 0xA4++0x03
line.long 0x00 "DISPC_GFX_BUF_THRESHOLD,The register configures the graphics buffer"
hexmask.long.word 0x00 16.--31. 1. "BUFHIGHTHRESHOLD,DMA buffer High Threshold Number of 128-bits defining the threshold value"
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hexmask.long.word 0x00 0.--15. 1. "BUFLOWTHRESHOLD,DMA buffer Low Threshold Number of 128-bits defining the threshold value"
group.long 0xB0++0x03
line.long 0x00 "DISPC_GFX_PIXEL_INC,The register configures the number of bytes to increment between two pixels"
hexmask.long.byte 0x00 0.--7. 1. "PIXELINC,Number of bytes to increment between two pixels"
group.long 0x88++0x03
line.long 0x00 "DISPC_GFX_POSITION,The register configures the position of the graphics window"
hexmask.long.word 0x00 16.--26. 1. "POSY,Y position of the graphics window"
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hexmask.long.word 0x00 0.--10. 1. "POSX,X position of the graphics window"
group.long 0x22C++0x03
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 EVSYNC or when.GOWB is set to 1 by software and current WB frame is finished (no.."
hexmask.long.word 0x00 0.--11. 1. "PRELOAD,DMA buffer preload value Number of 128-bit words defining the preload value"
group.long 0xAC++0x03
line.long 0x00 "DISPC_GFX_ROW_INC,The register configures the number of bytes to increment at the end of the row"
group.long 0x8C++0x03
line.long 0x00 "DISPC_GFX_SIZE,The register configures the size of the graphics window"
hexmask.long.word 0x00 16.--26. 1. "SIZEY,Number of lines of the graphics window"
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hexmask.long.word 0x00 0.--10. 1. "SIZEX,Number of pixels of the graphics window"
group.long 0xB8++0x03
line.long 0x00 "DISPC_GFX_TABLE_BA,The register configures the base address of the palette buffer or the gamma table buffer"
group.long 0x74++0x03
line.long 0x00 "DISPC_GLOBAL_ALPHA,The register defines the global alpha value for the graphics and three video pipelines"
hexmask.long.byte 0x00 24.--31. 1. "VID3GLOBALALPHA,Global alpha value from 0 to 255"
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hexmask.long.byte 0x00 16.--23. 1. "VID2GLOBALALPHA,Global alpha value from 0 to 255"
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hexmask.long.byte 0x00 8.--15. 1. "VID1GLOBALALPHA,Global alpha value from 0 to 255"
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hexmask.long.byte 0x00 0.--7. 1. "GFXGLOBALALPHA,Global alpha value from 0 to 255"
group.long 0x800++0x03
line.long 0x00 "DISPC_GLOBAL_BUFFER,The register configures the DMA buffers allocations to the pipeline (graphics. video1. video2. video3 and write-back)"
bitfld.long 0x00 27.--29. "WB_BOTTOM_ BUFFER,Write-back DMA BOTTOM buffer (half of the full DMA buffer) allocation to one of the pipelines" "WB_BOTTOM_ BUFFER_0,WB_BOTTOM_ BUFFER_1,WB_BOTTOM_ BUFFER_2,WB_BOTTOM_ BUFFER_3,WB_BOTTOM_ BUFFER_4,?,?,?"
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bitfld.long 0x00 24.--26. "WB_TOP_ BUFFER,Write-back DMA TOP buffer (half of the full DMA buffer) allocation to one of the pipelines" "WB_TOP_ BUFFER_0,WB_TOP_ BUFFER_1,WB_TOP_ BUFFER_2,WB_TOP_ BUFFER_3,WB_TOP_ BUFFER_4,?,?,?"
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bitfld.long 0x00 21.--23. "VID3_BOTTOM_ BUFFER,Video3 DMA BOTTOM buffer (half of the full DMA buffer) allocation to one of the pipelines" "VID3_BOTTOM_ BUFFER_0,VID3_BOTTOM_ BUFFER_1,VID3_BOTTOM_ BUFFER_2,VID3_BOTTOM_ BUFFER_3,VID3_BOTTOM_ BUFFER_4,?,?,?"
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bitfld.long 0x00 18.--20. "VID3_TOP_ BUFFER,Video3 DMA TOP buffer (half of the full DMA buffer) allocation to one of the pipelines" "VID3_TOP_ BUFFER_0,VID3_TOP_ BUFFER_1,VID3_TOP_ BUFFER_2,VID3_TOP_ BUFFER_3,VID3_TOP_ BUFFER_4,?,?,?"
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bitfld.long 0x00 15.--17. "VID2_BOTTOM_ BUFFER,Video2 DMA BOTTOM buffer (half of the full DMA buffer) allocation to one of the pipelines" "VID2_BOTTOM_ BUFFER_0,VID2_BOTTOM_ BUFFER_1,VID2_BOTTOM_ BUFFER_2,VID2_BOTTOM_ BUFFER_3,VID2_BOTTOM_ BUFFER_4,?,?,?"
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bitfld.long 0x00 12.--14. "VID2_TOP_ BUFFER,Video2 DMA TOP buffer (half of the full DMA buffer) allocation to one of the pipelines" "VID2_TOP_ BUFFER_0,VID2_TOP_ BUFFER_1,VID2_TOP_ BUFFER_2,VID2_TOP_ BUFFER_3,VID2_TOP_ BUFFER_4,?,?,?"
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bitfld.long 0x00 9.--11. "VID1_BOTTOM_ BUFFER,Video1 DMA BOTTOM buffer (half of the full DMA buffer) allocation to one of the pipelines" "VID1_BOTTOM_ BUFFER_0,VID1_BOTTOM_ BUFFER_1,VID1_BOTTOM_ BUFFER_2,VID1_BOTTOM_ BUFFER_3,VID1_BOTTOM_ BUFFER_4,?,?,?"
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bitfld.long 0x00 6.--8. "VID1_TOP_ BUFFER,Video1 DMA TOP buffer (half of the full DMA buffer) allocation to one of the pipelines" "VID1_TOP_ BUFFER_0,VID1_TOP_ BUFFER_1,VID1_TOP_ BUFFER_2,VID1_TOP_ BUFFER_3,VID1_TOP_ BUFFER_4,?,?,?"
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bitfld.long 0x00 3.--5. "GFX_BOTTOM_ BUFFER,Graphics DMA BOTTOM buffer (half of the full DMA buffer) allocation to one of the pipelines" "GFX_BOTTOM_ BUFFER_0,GFX_BOTTOM_ BUFFER_1,GFX_BOTTOM_ BUFFER_2,GFX_BOTTOM_ BUFFER_3,GFX_BOTTOM_ BUFFER_4,?,?,?"
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bitfld.long 0x00 0.--2. "GFX_TOP_ BUFFER,Graphics DMA TOP buffer (half of the full DMA buffer) allocation to one of the pipelines" "GFX_TOP_ BUFFER_0,GFX_TOP_ BUFFER_1,GFX_TOP_ BUFFER_2,GFX_TOP_ BUFFER_3,GFX_TOP_ BUFFER_4,?,?,?"
group.long 0x1C++0x03
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 26. "WBUNCOMPLETEERROR_EN,The write back buffer has been flushed before it has been fully drained" "WBUNCOMPLETEERROR_EN_0,WBUNCOMPLETEERROR_EN_1"
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bitfld.long 0x00 25. "WBBUFFER OVERFLOW_EN,Write-back DMA Buffer Overflow" "WBBUFFER OVERFLOW_EN_0,WBBUFFER OVERFLOW_EN_1"
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bitfld.long 0x00 24. "FRAME DONETV_EN,Frame Done for the TV" "FRAME DONETV_EN_0,FRAME DONETV_EN_1"
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bitfld.long 0x00 23. "FRAME DONEWB_EN,Frame Done for the write-back channel" "FRAME DONEWB_EN_0,FRAME DONEWB_EN_1"
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bitfld.long 0x00 22. "FRAME DONE2_EN,Frame Done for the secondary LCD" "FRAME DONE2_EN_0,FRAME DONE2_EN_1"
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bitfld.long 0x00 21. "ACBIASCOUNT STATUS2_EN,AC Bias Count Status for the secondary LCD" "ACBIASCOUNT STATUS2_EN_0,ACBIASCOUNT STATUS2_EN_1"
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bitfld.long 0x00 20. "VID3BUFFER UNDERFLOW_EN,Video 3 DMA Buffer Underflow" "VID3BUFFER UNDERFLOW_EN_0,VID3BUFFER UNDERFLOW_EN_1"
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bitfld.long 0x00 19. "VID3END WINDOW_EN,The end of the video 3 Window has been reached" "VID3END WINDOW_EN_0,VID3END WINDOW_EN_1"
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bitfld.long 0x00 18. "VSYNC2_EN,Vertical Synchronization for the secondary LCD" "VSYNC2_EN_0,VSYNC2_EN_1"
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bitfld.long 0x00 17. "SYNC LOST2_EN,Synchronization Lost on the secondary LCD output" "SYNC LOST2_EN_0,SYNC LOST2_EN_1"
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bitfld.long 0x00 16. "WAKEUP_EN,Wake Up Mask" "WAKEUP_EN_0,WAKEUP_EN_1"
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bitfld.long 0x00 15. "SYNC LOSTTV_EN,Synchronization Lost on the TV output" "SYNC LOSTTV_EN_0,SYNC LOSTTV_EN_1"
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bitfld.long 0x00 14. "SYNC LOST1_EN,Synchronization Lost for the primary LCD" "SYNC LOST1_EN_0,SYNC LOST1_EN_1"
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bitfld.long 0x00 13. "VID2END WINDOW_EN,The end of the video 2 Window has been reached" "VID2END WINDOW_EN_0,VID2END WINDOW_EN_1"
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bitfld.long 0x00 12. "VID2BUFFER UNDERFLOW_EN,Video 2 DMA Buffer Underflow" "VID2BUFFER UNDERFLOW_EN_0,VID2BUFFER UNDERFLOW_EN_1"
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bitfld.long 0x00 11. "ENDVID1 WINDOW_EN,The end of the video 1 Window has been reached" "ENDVID1 WINDOW_EN_0,ENDVID1 WINDOW_EN_1"
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bitfld.long 0x00 10. "VID1BUFFER UNDERFLOW_EN,Video 1 DMA Buffer Underflow" "VID1BUFFER UNDERFLOW_EN_0,VID1BUFFER UNDERFLOW_EN_1"
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bitfld.long 0x00 9. "OCPERROR_EN,OCP Error" "OCPERROR_EN_0,OCPERROR_EN_1"
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bitfld.long 0x00 8. "PALETTE GAMMA_EN,Palette Gamma Loading mask" "PALETTE GAMMA_EN_0,PALETTE GAMMA_EN_1"
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bitfld.long 0x00 7. "GFXEND WINDOW_EN,The end of the graphics Window has been reached" "GFXEND WINDOW_EN_0,GFXEND WINDOW_EN_1"
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bitfld.long 0x00 6. "GFXBUFFER UNDERFLOW_EN,Graphics DMA Buffer Underflow" "GFXBUFFER UNDERFLOW_EN_0,GFXBUFFER UNDERFLOW_EN_1"
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bitfld.long 0x00 5. "PROGRAMMED LINENUMBER_EN,Programmed Line Number" "PROGRAMMED LINENUMBER_EN_0,PROGRAMMED LINENUMBER_EN_1"
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bitfld.long 0x00 4. "ACBIASCOUNT STATUS1_EN,AC Bias Count Status for the primary LCD" "ACBIASCOUNT STATUS1_EN_0,ACBIASCOUNT STATUS1_EN_1"
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bitfld.long 0x00 3. "EVSYNC_ODD_EN,VSYNC for odd field from the TV encoder (VENC or HDMI)" "EVSYNC_ODD_EN_0,EVSYNC_ODD_EN_1"
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bitfld.long 0x00 2. "EVSYNC_EVEN_EN,VSYNC for even field from the TV encoder (VENC or HDMI)" "EVSYNC_EVEN_EN_0,EVSYNC_EVEN_EN_1"
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bitfld.long 0x00 1. "VSYNC1_EN,Vertical Synchronization for the primary LCD" "VSYNC1_EN_0,VSYNC1_EN_1"
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bitfld.long 0x00 0. "FRAMEDONE_EN,Frame Done for the primary LCD" "FRAMEDONE_EN_0,FRAMEDONE_EN_1"
group.long 0x18++0x03
line.long 0x00 "DISPC_IRQSTATUS,This register regroups all the status of the module internal events that generate an interrupt"
bitfld.long 0x00 26. "WBUNCOMPLETEERROR_IRQ,Write-back DMA buffer is flushed before it is completely drained" "WBUNCOMPLETEERROR_IRQ_0,WBUNCOMPLETEERROR_IRQ_1"
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bitfld.long 0x00 25. "WBBUFFER OVERFLOW_IRQ,Write-back DMA Buffer Overflow" "WBBUFFER OVERFLOW_IRQ_0,WBBUFFER OVERFLOW_IRQ_1"
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bitfld.long 0x00 24. "FRAME DONETV_IRQ,Frame Done for the TV" "FRAME DONETV_IRQ_0,FRAME DONETV_IRQ_1"
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bitfld.long 0x00 23. "FRAME DONEWB_IRQ,Frame Done for the write-back channel" "FRAME DONEWB_IRQ_0,FRAME DONEWB_IRQ_1"
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bitfld.long 0x00 22. "FRAME DONE2_IRQ,Frame Done for the secondary LCD" "FRAME DONE2_IRQ_0,FRAME DONE2_IRQ_1"
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bitfld.long 0x00 21. "ACBIASCOUNT STATUS2_IRQ,AC Bias Count Status for the secondary LCD" "ACBIASCOUNT STATUS2_IRQ_0,ACBIASCOUNT STATUS2_IRQ_1"
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bitfld.long 0x00 20. "VID3BUFFER UNDERFLOW_IRQ,Video 3 DMA Buffer Underflow" "VID3BUFFER UNDERFLOW_IRQ_0,VID3BUFFER UNDERFLOW_IRQ_1"
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bitfld.long 0x00 19. "VID3END WINDOW_IRQ,The end of the video 3 Window has been reached" "VID3END WINDOW_IRQ_0,VID3END WINDOW_IRQ_1"
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bitfld.long 0x00 18. "VSYNC2_IRQ,Vertical Synchronization for the secondary LCD" "VSYNC2_IRQ_0,VSYNC2_IRQ_1"
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bitfld.long 0x00 17. "SYNC LOST2_IRQ,Synchronization Lost on the secondary LCD output" "SYNC LOST2_IRQ_0,SYNC LOST2_IRQ_1"
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bitfld.long 0x00 16. "WAKEUP_IRQ,Wake-up" "WAKEUP_IRQ_0,WAKEUP_IRQ_1"
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bitfld.long 0x00 15. "SYNCLOST TV_IRQ,Synchronization Lost on the TV output" "SYNCLOST TV_IRQ_0,SYNCLOST TV_IRQ_1"
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bitfld.long 0x00 14. "SYNC LOST1_IRQ,Synchronization Lost on the primary LCD output" "SYNC LOST1_IRQ_0,SYNC LOST1_IRQ_1"
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bitfld.long 0x00 13. "VID2END WINDOW_IRQ,The end of the video 2 Window has been reached" "VID2END WINDOW_IRQ_0,VID2END WINDOW_IRQ_1"
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bitfld.long 0x00 12. "VID2BUFFER UNDERFLOW_IRQ,Video 2 DMA Buffer Underflow" "VID2BUFFER UNDERFLOW_IRQ_0,VID2BUFFER UNDERFLOW_IRQ_1"
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bitfld.long 0x00 11. "VID1END WINDOW_IRQ,The end of the video 1 Window has been reached" "VID1END WINDOW_IRQ_0,VID1END WINDOW_IRQ_1"
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bitfld.long 0x00 10. "VID1BUFFER UNDERFLOW_IRQ,Video 1 DMA Buffer Underflow" "VID1BUFFER UNDERFLOW_IRQ_0,VID1BUFFER UNDERFLOW_IRQ_1"
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bitfld.long 0x00 9. "OCPERROR_IRQ,OCP Error" "OCPERROR_IRQ_0,OCPERROR_IRQ_1"
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bitfld.long 0x00 8. "PALETTEGAMMA LOADING_IRQ,Palette Gamma Loading status" "PALETTEGAMMA LOADING_IRQ_0,PALETTEGAMMA LOADING_IRQ_1"
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bitfld.long 0x00 7. "GFXEND WINDOW_IRQ,The end of the graphics Window has been reached" "GFXEND WINDOW_IRQ_0,GFXEND WINDOW_IRQ_1"
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bitfld.long 0x00 6. "GFXBUFFER UNDERFLOW_IRQ,Graphics DMA Buffer Underflow" "GFXBUFFER UNDERFLOW_IRQ_0,GFXBUFFER UNDERFLOW_IRQ_1"
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bitfld.long 0x00 5. "PROGRAMMED LINENUMBER_IRQ,Programmed Line Number" "PROGRAMMED LINENUMBER_IRQ_0,PROGRAMMED LINENUMBER_IRQ_1"
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bitfld.long 0x00 4. "ACBIASCOUNT STATUS1_IRQ,AC Bias Count Status for the primary LCD" "ACBIASCOUNT STATUS1_IRQ_0,ACBIASCOUNT STATUS1_IRQ_1"
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bitfld.long 0x00 3. "EVSYNC_ ODD_IRQ,VSYNC for odd field from the TV encoder (VENC or HDMI)" "EVSYNC_ ODD_IRQ_0,EVSYNC_ ODD_IRQ_1"
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bitfld.long 0x00 2. "EVSYNC_ EVEN_IRQ,VSYNC for even field from the TV encoder (VENC or HDMI)" "EVSYNC_ EVEN_IRQ_0,EVSYNC_ EVEN_IRQ_1"
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bitfld.long 0x00 1. "VSYNC1_IRQ,Vertical Synchronization for the primary LCD" "VSYNC1_IRQ_0,VSYNC1_IRQ_1"
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bitfld.long 0x00 0. "FRAME DONE1_IRQ,Frame Done for the primary LCD" "FRAME DONE1_IRQ_0,FRAME DONE1_IRQ_1"
group.long 0x60++0x03
line.long 0x00 "DISPC_LINE_NUMBER,The control register indicates the primary LCD panel display line number for the interrupt and the DMA request"
hexmask.long.word 0x00 0.--10. 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"
rgroup.long 0x5C++0x03
line.long 0x00 "DISPC_LINE_STATUS,The control register indicates the current primary LCD panel display line number"
hexmask.long.word 0x00 0.--10. 1. "LINENUMBER,Current LCD panel line number Current display line number"
group.long 0x6C++0x03
line.long 0x00 "DISPC_POL_FREQ1,The register configures the signal configuration"
bitfld.long 0x00 18. "ALIGN,Defines the alignment between HSYNC and VSYNC assertion" "ALIGN_0,ALIGN_1"
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bitfld.long 0x00 17. "ONOFF,HSYNC/VSYNC Pixel clock Control On/Off" "ONOFF_0,ONOFF_1"
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bitfld.long 0x00 16. "RF,Program HSYNC/VSYNC Rise or Fall" "RF_0,RF_1"
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bitfld.long 0x00 15. "IEO,Invert output enable" "IEO_0,IEO_1"
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bitfld.long 0x00 14. "IPC,Invert pixel clock" "IPC_0,IPC_1"
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bitfld.long 0x00 13. "IHS,Invert HSYNC" "IHS_0,IHS_1"
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bitfld.long 0x00 12. "IVS,Invert VSYNC" "IVS_0,IVS_1"
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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" "ACBI_0,ACBI_1,ACBI_2,ACBI_3,ACBI_4,ACBI_5,ACBI_6,ACBI_7,ACBI_8,ACBI_9,ACBI_10,ACBI_11,ACBI_12,ACBI_13,ACBI_14,ACBI_15"
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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"
group.long 0x408++0x03
line.long 0x00 "DISPC_POL_FREQ2,The register configures the signal configuration"
bitfld.long 0x00 18. "ALIGN,Defines the alignment between HSYNC and VSYNC assertion" "ALIGN_0,ALIGN_1"
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bitfld.long 0x00 17. "ONOFF,HSYNC/VSYNC Pixel clock Control On/Off" "ONOFF_0,ONOFF_1"
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bitfld.long 0x00 16. "RF,Program HSYNC/VSYNC Rise or Fall" "RF_0,RF_1"
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bitfld.long 0x00 15. "IEO,Invert output enable" "IEO_0,IEO_1"
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bitfld.long 0x00 14. "IPC,Invert pixel clock" "IPC_0,IPC_1"
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bitfld.long 0x00 13. "IHS,Invert HSYNC" "IHS_0,IHS_1"
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bitfld.long 0x00 12. "IVS,Invert VSYNC" "IVS_0,IVS_1"
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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" "ACBI_0,ACBI_1,ACBI_2,ACBI_3,ACBI_4,ACBI_5,ACBI_6,ACBI_7,ACBI_8,ACBI_9,ACBI_10,ACBI_11,ACBI_12,ACBI_13,ACBI_14,ACBI_15"
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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"
rgroup.long 0x00++0x03
line.long 0x00 "DISPC_REVISION,IP Revision"
group.long 0x7C++0x03
line.long 0x00 "DISPC_SIZE_LCD1,The register configures the panel size (horizontal and vertical)"
hexmask.long.word 0x00 16.--26. 1. "LPP,Lines per panel Encoded value (from 1 to 2048) to specify the number of lines per panel (program to value minus 1)"
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bitfld.long 0x00 14.--15. "DELTA_LPP,Indicates the delta size value of the odd field compared to the even field" "DELTA_LPP_0,DELTA_LPP_1,DELTA_LPP_2,?"
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hexmask.long.word 0x00 0.--10. 1. "PPL,Pixels per line Encoded value (from 1 to 2048) to specify the number of pixels contains within each line on the display (program to value minus 1)"
group.long 0x3CC++0x03
line.long 0x00 "DISPC_SIZE_LCD2,The register configures the panel size (horizontal and vertical)"
hexmask.long.word 0x00 16.--26. 1. "LPP,Lines per panel Encoded value (from 1 to 2048) to specify the number of lines per panel (program to value minus 1)"
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bitfld.long 0x00 14.--15. "DELTA_LPP,Indicates the delta size value of the odd field compared to the even field" "DELTA_LPP_0,DELTA_LPP_1,DELTA_LPP_2,?"
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hexmask.long.word 0x00 0.--10. 1. "PPL,Pixels per line Encoded value (from 1 to 2048) to specify the number of pixels contains within each line on the display (program to value minus 1)"
group.long 0x78++0x03
line.long 0x00 "DISPC_SIZE_TV,The register configures the size of the TV output field (interlace). frame (progressive) (horizontal and vertical)"
hexmask.long.word 0x00 16.--26. 1. "LPP,Lines per panel (LPP)"
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bitfld.long 0x00 14.--15. "DELTA_LPP,Indicates the delta size value of the odd field compared to the even field" "DELTA_LPP_0,DELTA_LPP_1,DELTA_LPP_2,?"
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hexmask.long.word 0x00 0.--10. 1. "PPL,Pixels per line Encoded value (from 1 to 2048) to specify the number of pixels contains within each line on the display"
group.long 0x10++0x07
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" "MIDLEMODE_0,MIDLEMODE_1,MIDLEMODE_2,MIDLEMODE_3"
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bitfld.long 0x00 8.--9. "CLOCKACTIVITY,Clocks activity during wake up mode period" "CLOCKACTIVITY_0,CLOCKACTIVITY_1,CLOCKACTIVITY_2,CLOCKACTIVITY_3"
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bitfld.long 0x00 5. "WARMRESET,Warm reset" "WARMRESET_0,WARMRESET_1"
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bitfld.long 0x00 3.--4. "SIDLEMODE,Slave interface power management Idle req/ack control" "SIDLEMODE_0,SIDLEMODE_1,SIDLEMODE_2,SIDLEMODE_3"
newline
bitfld.long 0x00 2. "ENWAKEUP,WakeUp feature control" "ENWAKEUP_0,ENWAKEUP_1"
newline
bitfld.long 0x00 1. "SOFTRESET,Software reset" "SOFTRESET_0,SOFTRESET_1"
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bitfld.long 0x00 0. "AUTOIDLE,Internal OCP clock gating strategy" "AUTOIDLE_0,AUTOIDLE_1"
line.long 0x04 "DISPC_SYSSTATUS,This register provides status information about the module. excluding the interrupt status information"
bitfld.long 0x04 0. "RESETDONE,Internal reset monitoring" "RESETDONE_0_r,RESETDONE_1_r"
group.long 0x64++0x03
line.long 0x00 "DISPC_TIMING_H1,The register configures the timing logic for the HSYNC signal"
hexmask.long.word 0x00 20.--31. 1. "HBP,Horizontal Back Porch"
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hexmask.long.word 0x00 8.--19. 1. "HFP,Horizontal front porch"
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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 0x400++0x03
line.long 0x00 "DISPC_TIMING_H2,The register configures the timing logic for the HSYNC signal"
hexmask.long.word 0x00 20.--31. 1. "HBP,Horizontal Back Porch"
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hexmask.long.word 0x00 8.--19. 1. "HFP,Horizontal front porch"
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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 0x68++0x03
line.long 0x00 "DISPC_TIMING_V1,The register configures the timing logic for the VSYNC signal"
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"
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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"
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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 frame after the end of frame wait (VFP).."
group.long 0x404++0x03
line.long 0x00 "DISPC_TIMING_V2,The register configures the timing logic for the VSYNC signal"
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"
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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"
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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 frame after the end of frame wait (VFP).."
group.long 0x54++0x07
line.long 0x00 "DISPC_TRANS_COLOR0,The register sets the transparency color value for the video/graphics overlays for the primary LCD output"
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 [23 12] set to 0s [15:0] RGB.."
line.long 0x04 "DISPC_TRANS_COLOR1,The register sets the transparency color value for the video/graphics overlays for the TV output"
hexmask.long.tbyte 0x04 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 [23 12] set to 0s [15:0] RGB.."
group.long 0x3B0++0x03
line.long 0x00 "DISPC_TRANS_COLOR2,The register sets the transparency color value for the video/graphics overlays for the secondary LCD output"
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 [23 12] set to 0s [15:0] RGB.."
group.long 0xCC++0x03
line.long 0x00 "DISPC_VID1_ATTRIBUTES,The register configures the attributes of the video window 1"
bitfld.long 0x00 30.--31. "CHANNELOUT2,It is not used if CHANNELOUT is set to TV" "CHANNELOUT2_0,CHANNELOUT2_1,?,CHANNELOUT2_3"
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bitfld.long 0x00 29. "BURSTTYPE,The type of burst can be INCR (incremental) or BLCK (2D block)" "BURSTTYPE_0,BURSTTYPE_1"
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bitfld.long 0x00 28. "PREMULTIPHYALPHA,The field configures the DISPC VID1 to process incoming data as premultiplied alpha data or non premultiplied alpha data" "PREMULTIPHYALPHA_0,PREMULTIPHYALPHA_1"
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bitfld.long 0x00 26.--27. "ZORDER,Z-Order defining the priority of the layer compared to others when overlaying" "ZORDER_0,ZORDER_1,ZORDER_2,ZORDER_3"
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bitfld.long 0x00 25. "ZORDERENABLE,Z-order Enable" "ZORDERENABLE_0,ZORDERENABLE_1"
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bitfld.long 0x00 24. "SELFREFRESH,Enables the self refresh of the video window from its own DMA buffer only" "SELFREFRESH_0,SELFREFRESH_1"
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bitfld.long 0x00 23. "ARBITRATION,Determines the priority of the video pipeline" "ARBITRATION_0,ARBITRATION_1"
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bitfld.long 0x00 22. "DOUBLESTRIDE,Determines if the stride for CbCr buffer is the 1x or 2x of the Y buffer stride" "DOUBLESTRIDE_0,DOUBLESTRIDE_1"
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bitfld.long 0x00 21. "VERTICALTAPS,Video Vertical Resize Tap Number" "VERTICALTAPS_0,VERTICALTAPS_1"
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rbitfld.long 0x00 20. "DMAOPTIMIZATION,Write 0s for future compatibility" "DMAOPTIMIZATION_0,DMAOPTIMIZATION_1"
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bitfld.long 0x00 19. "BUFPRELOAD,Video Preload Value" "BUFPRELOAD_0,BUFPRELOAD_1"
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bitfld.long 0x00 17. "SELFREFRESHAUTO,Automatic self-refresh mode" "SELFREFRESHAUTO_0,SELFREFRESHAUTO_1"
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bitfld.long 0x00 16. "CHANNELOUT,Video Channel Out configuration: LCD WB or TV" "CHANNELOUT_0,CHANNELOUT_1"
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bitfld.long 0x00 14.--15. "BURSTSIZE,Video DMA Burst Size" "BURSTSIZE_0,BURSTSIZE_1,BURSTSIZE_2,BURSTSIZE_3"
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bitfld.long 0x00 12.--13. "ROTATION,Video Rotation Flag" "ROTATION_0,ROTATION_1,ROTATION_2,ROTATION_3"
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bitfld.long 0x00 11. "FULLRANGE,Color Space Conversion full range setting" "FULLRANGE_0,FULLRANGE_1"
newline
bitfld.long 0x00 10. "REPLICATIONENABLE,Replication Enable" "REPLICATIONENABLE_0,REPLICATIONENABLE_1"
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bitfld.long 0x00 9. "COLORCONVENABLE,Enable the color space conversion" "COLORCONVENABLE_0,COLORCONVENABLE_1"
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rbitfld.long 0x00 8. "VRESIZECONF,Write 0s for future compatibility" "VRESIZECONF_0,VRESIZECONF_1"
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rbitfld.long 0x00 7. "HRESIZECONF,Write 0s for future compatibility" "HRESIZECONF_0,HRESIZECONF_1"
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bitfld.long 0x00 5.--6. "RESIZEENABLE,Video Resize Enable" "RESIZEENABLE_0,RESIZEENABLE_1,RESIZEENABLE_2,RESIZEENABLE_3"
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bitfld.long 0x00 1.--4. "FORMAT,Video Format" "FORMAT_0,FORMAT_1,FORMAT_2,?,FORMAT_4,FORMAT_5,FORMAT_6,FORMAT_7,FORMAT_8,FORMAT_9,FORMAT_10,FORMAT_11,FORMAT_12,FORMAT_13,FORMAT_14,FORMAT_15"
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bitfld.long 0x00 0. "ENABLE,Video Enable" "ENABLE_0,ENABLE_1"
group.long 0x624++0x03
line.long 0x00 "DISPC_VID1_ATTRIBUTES2,The register configures the attributes of the video window 1"
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" "YUVCHROMARE SAMPLING_0,YUVCHROMARE SAMPLING_1"
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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"
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bitfld.long 0x00 1.--3. "VC1_RANGE_Y,Defines the VC-1 range value for the Y component from 0 to 7" "VC1_RANGE_Y_0,VC1_RANGE_Y_1,VC1_RANGE_Y_2,VC1_RANGE_Y_3,VC1_RANGE_Y_4,VC1_RANGE_Y_5,VC1_RANGE_Y_6,VC1_RANGE_Y_7"
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bitfld.long 0x00 0. "VC1ENABLE,Enable/disable the VC-1 range mapping processing" "VC1ENABLE_0,VC1ENABLE_1"
rgroup.long 0xD4++0x03
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 0xD0++0x03
line.long 0x00 "DISPC_VID1_BUF_THRESHOLD,The register configures the video buffer associated with the video pipeline 1"
hexmask.long.word 0x00 16.--31. 1. "BUFHIGHTHRESHOLD,Video DMA buffer High Threshold Number of 128-bits defining the threshold value"
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hexmask.long.word 0x00 0.--15. 1. "BUFLOWTHRESHOLD,DMA buffer High Threshold Number of 128-bits defining the threshold value"
group.long 0x130++0x13
line.long 0x00 "DISPC_VID1_CONV_COEF0,The register configures the color space conversion matrix coefficients for the video pipeline 1"
hexmask.long.word 0x00 16.--26. 1. "RCR,RCr Coefficient Encoded signed value (from -1024 to 1023)"
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hexmask.long.word 0x00 0.--10. 1. "RY,RY Coefficient Encoded signed value (from -1024 to 1023)"
line.long 0x04 "DISPC_VID1_CONV_COEF1,The register configures the color space conversion matrix coefficients for the video pipeline 1"
hexmask.long.word 0x04 16.--26. 1. "GY,GY Coefficient Encoded signed value (from -1024 to 1023)"
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hexmask.long.word 0x04 0.--10. 1. "RCB,RCb Coefficient Encoded signed value (from -1024 to 1023)"
line.long 0x08 "DISPC_VID1_CONV_COEF2,The register configures the color space conversion matrix coefficients for the video pipeline 1"
hexmask.long.word 0x08 16.--26. 1. "GCB,GCb Coefficient Encoded signed value (from -1024 to 1023)"
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hexmask.long.word 0x08 0.--10. 1. "GCR,GCr Coefficient Encoded signed value (from -1024 to 1023)"
line.long 0x0C "DISPC_VID1_CONV_COEF3,The register configures the color space conversion matrix coefficients for the video pipeline 1"
hexmask.long.word 0x0C 16.--26. 1. "BCR,BCr coefficient Encoded signed value (from -1024 to 1023)"
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hexmask.long.word 0x0C 0.--10. 1. "BY,BY coefficient Encoded signed value (from -1024 to 1023)"
line.long 0x10 "DISPC_VID1_CONV_COEF4,The register configures the color space conversion matrix coefficients for the video pipeline 1"
hexmask.long.word 0x10 0.--10. 1. "BCB,BCb Coefficient Encoded signed value (from -1024 to 1023)"
group.long 0xE0++0x03
line.long 0x00 "DISPC_VID1_FIR,The register configures the resize factors for horizontal and vertical up/downsampling of the video window 1"
hexmask.long.word 0x00 16.--28. 1. "FIRVINC,Vertical increment of the up/downsampling filter"
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hexmask.long.word 0x00 0.--12. 1. "FIRHINC,Horizontal increment of the up/downsampling filter"
group.long 0x63C++0x03
line.long 0x00 "DISPC_VID1_FIR2,The register configures the resize factors for horizontal and vertical up/downsampling of the video window 1"
hexmask.long.word 0x00 16.--28. 1. "FIRVINC,Vertical increment of the up/downsampling filter for Cb and Cr"
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hexmask.long.word 0x00 0.--12. 1. "FIRHINC,Horizontal increment of the up/downsampling filter for Cb and Cr"
group.long 0xE4++0x03
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"
hexmask.long.word 0x00 16.--26. 1. "ORGSIZEY,Number of lines of the video picture"
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hexmask.long.word 0x00 0.--10. 1. "ORGSIZEX,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)"
group.long 0xDC++0x03
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"
hexmask.long.byte 0x00 0.--7. 1. "PIXELINC,Number of bytes to increment between two pixels"
group.long 0xC4++0x03
line.long 0x00 "DISPC_VID1_POSITION,The register configures the position of the video window 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"
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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"
group.long 0x230++0x03
line.long 0x00 "DISPC_VID1_PRELOAD,The register configures the DMA buffer of the video 1 pipeline"
hexmask.long.word 0x00 0.--11. 1. "PRELOAD,DMA buffer preload value Number of 128-bit words defining the preload value"
group.long 0xD8++0x03
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"
group.long 0xC8++0x03
line.long 0x00 "DISPC_VID1_SIZE,The register configures the size of the video window 1"
hexmask.long.word 0x00 16.--26. 1. "SIZEY,Number of lines of the video 1 Encoded value (from 1 to 2048) to specify the number of lines of the video window 1"
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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"
group.long 0x15C++0x03
line.long 0x00 "DISPC_VID2_ATTRIBUTES,The register configures the attributes of the video window 2"
bitfld.long 0x00 30.--31. "CHANNELOUT2,It is not used if CHANNELOUT is set to TV" "CHANNELOUT2_0,CHANNELOUT2_1,?,CHANNELOUT2_3"
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bitfld.long 0x00 29. "BURSTTYPE,The type of burst can be INCR (incremental) or BLCK (2D block)" "BURSTTYPE_0,BURSTTYPE_1"
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bitfld.long 0x00 28. "PREMULTIPLYALPHA,The field configures the DISPC VID2 to process incoming data as premultiplied alpha data or non premultiplied alpha data" "PREMULTIPLYALPHA_0,PREMULTIPLYALPHA_1"
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bitfld.long 0x00 26.--27. "ZORDER,Z-Order defining the priority of the layer compared to others when overlaying" "ZORDER_0,ZORDER_1,ZORDER_2,ZORDER_3"
newline
bitfld.long 0x00 25. "ZORDERENABLE,Z-order Enable" "ZORDERENABLE_0,ZORDERENABLE_1"
newline
bitfld.long 0x00 24. "SELFREFRESH,Enables the self refresh of the video window from its own DMA buffer only" "SELFREFRESH_0,SELFREFRESH_1"
newline
bitfld.long 0x00 23. "ARBITRATION,Determines the priority of the video pipeline" "ARBITRATION_0,ARBITRATION_1"
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bitfld.long 0x00 22. "DOUBLESTRIDE,Determines if the stride for CbCr buffer is the 1x or 2x of the Y buffer stride" "DOUBLESTRIDE_0,DOUBLESTRIDE_1"
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bitfld.long 0x00 21. "VERTICALTAPS,Video Vertical Resize Tap Number" "VERTICALTAPS_0,VERTICALTAPS_1"
newline
rbitfld.long 0x00 20. "DMAOPTIMIZATION,Write 0s for future compatibility" "DMAOPTIMIZATION_0,DMAOPTIMIZATION_1"
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bitfld.long 0x00 19. "BUFPRELOAD,Video Preload Value" "BUFPRELOAD_0,BUFPRELOAD_1"
newline
bitfld.long 0x00 17. "SELFREFRESHAUTO,Automatic self-refresh mode" "SELFREFRESHAUTO_0,SELFREFRESHAUTO_1"
newline
bitfld.long 0x00 16. "CHANNELOUT,Video Channel Out configuration: LCD WB or TV" "CHANNELOUT_0,CHANNELOUT_1"
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bitfld.long 0x00 14.--15. "BURSTSIZE,Video DMA Burst Size" "BURSTSIZE_0,BURSTSIZE_1,BURSTSIZE_2,BURSTSIZE_3"
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bitfld.long 0x00 12.--13. "ROTATION,Video Rotation Flag" "ROTATION_0,ROTATION_1,ROTATION_2,ROTATION_3"
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bitfld.long 0x00 11. "FULLRANGE,Color Space Conversion full range setting" "FULLRANGE_0,FULLRANGE_1"
newline
bitfld.long 0x00 10. "REPLICATIONENABLE,Replication Enable" "REPLICATIONENABLE_0,REPLICATIONENABLE_1"
newline
bitfld.long 0x00 9. "COLORCONVENABLE,Enable the color space conversion" "COLORCONVENABLE_0,COLORCONVENABLE_1"
newline
rbitfld.long 0x00 8. "VRESIZECONF,Write 0s for future compatibility" "VRESIZECONF_0,VRESIZECONF_1"
newline
rbitfld.long 0x00 7. "HRESIZECONF,Write 0s for future compatibility" "HRESIZECONF_0,HRESIZECONF_1"
newline
bitfld.long 0x00 5.--6. "RESIZEENABLE,Video Resize Enable" "RESIZEENABLE_0,RESIZEENABLE_1,RESIZEENABLE_2,RESIZEENABLE_3"
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bitfld.long 0x00 1.--4. "FORMAT,Video Format" "FORMAT_0,FORMAT_1,FORMAT_2,?,FORMAT_4,FORMAT_5,FORMAT_6,FORMAT_7,FORMAT_8,FORMAT_9,FORMAT_10,FORMAT_11,FORMAT_12,FORMAT_13,FORMAT_14,FORMAT_15"
newline
bitfld.long 0x00 0. "ENABLE,VidEnable" "ENABLE_0,ENABLE_1"
group.long 0x628++0x03
line.long 0x00 "DISPC_VID2_ATTRIBUTES2,The register configures the attributes of the video window 2"
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" "YUVCHROMARE SAMPLING_0,YUVCHROMARE SAMPLING_1"
newline
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"
newline
bitfld.long 0x00 1.--3. "VC1_RANGE_Y,Defines the VC-1 range value for the Y component from 0 to 7" "VC1_RANGE_Y_0,VC1_RANGE_Y_1,VC1_RANGE_Y_2,VC1_RANGE_Y_3,VC1_RANGE_Y_4,VC1_RANGE_Y_5,VC1_RANGE_Y_6,VC1_RANGE_Y_7"
newline
bitfld.long 0x00 0. "VC1ENABLE,Enable/disable the VC-1 range mapping processing" "VC1ENABLE_0,VC1ENABLE_1"
rgroup.long 0x164++0x03
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 0x160++0x03
line.long 0x00 "DISPC_VID2_BUF_THRESHOLD,The register configures the DMA buffer associated with the video pipeline 2"
hexmask.long.word 0x00 16.--31. 1. "BUFHIGHTHRESHOLD,DMA buffer High Threshold Number of 128-bits defining the threshold value"
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hexmask.long.word 0x00 0.--15. 1. "BUFLOWTHRESHOLD,DMA buffer High Threshold Number of 128-bits defining the threshold value"
group.long 0x1C0++0x13
line.long 0x00 "DISPC_VID2_CONV_COEF0,The register configures the color space conversion matrix coefficients for the video pipeline 2"
hexmask.long.word 0x00 16.--26. 1. "RCR,RCr Coefficient Encoded signed value (from -1024 to 1023)"
newline
hexmask.long.word 0x00 0.--10. 1. "RY,RY Coefficient Encoded signed value (from -1024 to 1023)"
line.long 0x04 "DISPC_VID2_CONV_COEF1,The register configures the color space conversion matrix coefficients for the video pipeline 2"
hexmask.long.word 0x04 16.--26. 1. "GY,GY Coefficient Encoded signed value (from -1024 to 1023)"
newline
hexmask.long.word 0x04 0.--10. 1. "RCB,RCb Coefficient Encoded signed value (from -1024 to 1023)"
line.long 0x08 "DISPC_VID2_CONV_COEF2,The register configures the color space conversion matrix coefficients for the video pipeline 2"
hexmask.long.word 0x08 16.--26. 1. "GCB,GCb Coefficient Encoded signed value (from -1024 to 1023)"
newline
hexmask.long.word 0x08 0.--10. 1. "GCR,GCr Coefficient Encoded signed value (from -1024 to 1023)"
line.long 0x0C "DISPC_VID2_CONV_COEF3,The register configures the color space conversion matrix coefficients for the video pipeline 2"
hexmask.long.word 0x0C 16.--26. 1. "BCR,BCr coefficient Encoded signed value (from -1024 to 1023)"
newline
hexmask.long.word 0x0C 0.--10. 1. "BY,BY coefficient Encoded signed value (from -1024 to 1023)"
line.long 0x10 "DISPC_VID2_CONV_COEF4,The register configures the color space conversion matrix coefficients for the video pipeline 2"
hexmask.long.word 0x10 0.--10. 1. "BCB,BCb Coefficient Encoded signed value (from -1024 to 1023)"
group.long 0x170++0x03
line.long 0x00 "DISPC_VID2_FIR,The register configures the resize factors for horizontal and vertical up/downsampling of the video window 2"
hexmask.long.word 0x00 16.--28. 1. "FIRVINC,Vertical increment of the up/downsampling filter Encoded value (from 1 to 4096)"
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hexmask.long.word 0x00 0.--12. 1. "FIRHINC,Horizontal increment of the up/downsampling filter Encoded value (from 1 to 4096)"
group.long 0x6A8++0x03
line.long 0x00 "DISPC_VID2_FIR2,The register configures the resize factors for horizontal and vertical up/downsampling of the video window 2"
hexmask.long.word 0x00 16.--28. 1. "FIRVINC,Vertical increment of the up/downsampling filter for Cb and Cr"
newline
hexmask.long.word 0x00 0.--12. 1. "FIRHINC,Horizontal increment of the up/downsampling filter for Cb and Cr"
group.long 0x174++0x03
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"
hexmask.long.word 0x00 16.--26. 1. "ORGSIZEY,Number of lines of the video picture Encoded value (from 1 to 2048) to specify the number of lines of the video picture in memory (program to value minus 1)"
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hexmask.long.word 0x00 0.--10. 1. "ORGSIZEX,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)"
group.long 0x16C++0x03
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"
hexmask.long.byte 0x00 0.--7. 1. "PIXELINC,Number of bytes to increment between two pixels"
group.long 0x154++0x03
line.long 0x00 "DISPC_VID2_POSITION,The register configures the position of the video window 2"
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"
newline
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"
group.long 0x234++0x03
line.long 0x00 "DISPC_VID2_PRELOAD,The register configures the DMA buffer of the video 2 pipeline"
hexmask.long.word 0x00 0.--11. 1. "PRELOAD,DMA buffer preload value Number of 128-bit words defining the preload value"
group.long 0x168++0x03
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"
group.long 0x158++0x03
line.long 0x00 "DISPC_VID2_SIZE,The register configures the size of the video window 2"
hexmask.long.word 0x00 16.--26. 1. "SIZEY,Number of lines of the video 2 Encoded value (from 1 to 2048) to specify the number of lines of the video window 2"
newline
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"
group.long 0x370++0x03
line.long 0x00 "DISPC_VID3_ATTRIBUTES,The register configures the attributes of the video window 3"
bitfld.long 0x00 30.--31. "CHANNELOUT2,It is not used if CHANNELOUT is set to TV" "CHANNELOUT2_0,CHANNELOUT2_1,?,CHANNELOUT2_3"
newline
bitfld.long 0x00 29. "BURSTTYPE,The type of burst can be INCR (incremental) or BLCK (2D block)" "BURSTTYPE_0,BURSTTYPE_1"
newline
bitfld.long 0x00 28. "PREMULTIPLYALPHA,The field configures the DISPC VID3 to process incoming data as premultiplied alpha data or non premultiplied alpha data" "PREMULTIPLYALPHA_0,PREMULTIPLYALPHA_1"
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bitfld.long 0x00 26.--27. "ZORDER,Z-Order defining the priority of the layer compared to others when overlaying" "ZORDER_0,ZORDER_1,ZORDER_2,ZORDER_3"
newline
bitfld.long 0x00 25. "ZORDERENABLE,Z-order Enable" "ZORDERENABLE_0,ZORDERENABLE_1"
newline
bitfld.long 0x00 24. "SELFREFRESH,Enables the self refresh of the video window from its own DMA buffer only" "SELFREFRESH_0,SELFREFRESH_1"
newline
bitfld.long 0x00 23. "ARBITRATION,Determines the priority of the video pipeline" "ARBITRATION_0,ARBITRATION_1"
newline
bitfld.long 0x00 22. "DOUBLESTRIDE,Determines if the stride for CbCr buffer is the 1x or 2x of the Y buffer stride" "DOUBLESTRIDE_0,DOUBLESTRIDE_1"
newline
bitfld.long 0x00 21. "VERTICALTAPS,Video Vertical Resize Tap Number" "VERTICALTAPS_0,VERTICALTAPS_1"
newline
rbitfld.long 0x00 20. "DMAOPTIMIZATION,Write 0s for future compatibility" "DMAOPTIMIZATION_0,DMAOPTIMIZATION_1"
newline
bitfld.long 0x00 19. "BUFPRELOAD,Video Preload Value" "BUFPRELOAD_0,BUFPRELOAD_1"
newline
bitfld.long 0x00 17. "SELFREFRESHAUTO,Automatic self-refresh mode" "SELFREFRESHAUTO_0,SELFREFRESHAUTO_1"
newline
bitfld.long 0x00 16. "CHANNELOUT,Video Channel Out configuration: LCD WB or TV" "CHANNELOUT_0,CHANNELOUT_1"
newline
bitfld.long 0x00 14.--15. "BURSTSIZE,Video DMA Burst Size" "BURSTSIZE_0,BURSTSIZE_1,BURSTSIZE_2,BURSTSIZE_3"
newline
bitfld.long 0x00 12.--13. "ROTATION,Video Rotation Flag" "ROTATION_0,ROTATION_1,ROTATION_2,ROTATION_3"
newline
bitfld.long 0x00 11. "FULLRANGE,Color Space Conversion full range setting" "FULLRANGE_0,FULLRANGE_1"
newline
bitfld.long 0x00 10. "REPLICATIONENABLE,Replication Enable" "REPLICATIONENABLE_0,REPLICATIONENABLE_1"
newline
bitfld.long 0x00 9. "COLORCONVENABLE,Enable the color space conversion" "COLORCONVENABLE_0,COLORCONVENABLE_1"
newline
rbitfld.long 0x00 8. "VRESIZECONF,Write 0s for future compatibility" "VRESIZECONF_0,VRESIZECONF_1"
newline
rbitfld.long 0x00 7. "HRESIZECONF,Write 0s for future compatibility" "HRESIZECONF_0,HRESIZECONF_1"
newline
bitfld.long 0x00 5.--6. "RESIZEENABLE,Video Resize Enable" "RESIZEENABLE_0,RESIZEENABLE_1,RESIZEENABLE_2,RESIZEENABLE_3"
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bitfld.long 0x00 1.--4. "FORMAT,Video Format" "FORMAT_0,FORMAT_1,FORMAT_2,?,FORMAT_4,FORMAT_5,FORMAT_6,FORMAT_7,FORMAT_8,FORMAT_9,FORMAT_10,FORMAT_11,FORMAT_12,FORMAT_13,FORMAT_14,FORMAT_15"
newline
bitfld.long 0x00 0. "ENABLE,Video Enable" "ENABLE_0,ENABLE_1"
group.long 0x62C++0x03
line.long 0x00 "DISPC_VID3_ATTRIBUTES2,The register configures the attributes of the video window 3"
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" "YUVCHROMARE SAMPLING_0,YUVCHROMARE SAMPLING_1"
newline
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"
newline
bitfld.long 0x00 1.--3. "VC1_RANGE_Y,Defines the VC-1 range value for the Y component from 0 to 7" "VC1_RANGE_Y_0,VC1_RANGE_Y_1,VC1_RANGE_Y_2,VC1_RANGE_Y_3,VC1_RANGE_Y_4,VC1_RANGE_Y_5,VC1_RANGE_Y_6,VC1_RANGE_Y_7"
newline
bitfld.long 0x00 0. "VC1ENABLE,Enable/disable the VC-1 range mapping processing" "VC1ENABLE_0,VC1ENABLE_1"
rgroup.long 0x388++0x07
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"
line.long 0x04 "DISPC_VID3_BUF_THRESHOLD,The register configures the DMA buffer associated with the video pipeline 3"
hexmask.long.word 0x04 16.--31. 1. "BUFHIGHTHRESHOLD,DMA buffer High Threshold Number of 128-bits defining the threshold value"
newline
hexmask.long.word 0x04 0.--15. 1. "BUFLOWTHRESHOLD,DMA buffer High Threshold Number of 128-bits defining the threshold value"
group.long 0x374++0x13
line.long 0x00 "DISPC_VID3_CONV_COEF0,The register configures the color space conversion matrix coefficients for the video pipeline 3"
hexmask.long.word 0x00 16.--26. 1. "RCR,RCr Coefficient Encoded signed value (from -1024 to 1023)"
newline
hexmask.long.word 0x00 0.--10. 1. "RY,RY Coefficient Encoded signed value (from -1024 to 1023)"
line.long 0x04 "DISPC_VID3_CONV_COEF1,The register configures the color space conversion matrix coefficients for the video pipeline 3"
hexmask.long.word 0x04 16.--26. 1. "GY,GY Coefficient Encoded signed value (from -1024 to 1023)"
newline
hexmask.long.word 0x04 0.--10. 1. "RCB,RCb Coefficient Encoded signed value (from -1024 to 1023)"
line.long 0x08 "DISPC_VID3_CONV_COEF2,The register configures the color space conversion matrix coefficients for the video pipeline 3"
hexmask.long.word 0x08 16.--26. 1. "GCB,GCb Coefficient Encoded signed value (from -1024 to 1023)"
newline
hexmask.long.word 0x08 0.--10. 1. "GCR,GCr Coefficient Encoded signed value (from -1024 to 1023)"
line.long 0x0C "DISPC_VID3_CONV_COEF3,The register configures the color space conversion matrix coefficients for the video pipeline 3"
hexmask.long.word 0x0C 16.--26. 1. "BCR,BCr coefficient Encoded signed value (from -1024 to 1023)"
newline
hexmask.long.word 0x0C 0.--10. 1. "BY,BY coefficient Encoded signed value (from -1024 to 1023)"
line.long 0x10 "DISPC_VID3_CONV_COEF4,The register configures the color space conversion matrix coefficients for the video pipeline 3"
hexmask.long.word 0x10 0.--10. 1. "BCB,BCb Coefficient Encoded signed value (from -1024 to 1023)"
group.long 0x390++0x03
line.long 0x00 "DISPC_VID3_FIR,The register configures the resize factors for horizontal and vertical up/downsampling of the video window 3"
hexmask.long.word 0x00 16.--28. 1. "FIRVINC,Vertical increment of the up/downsampling filter Encoded value (from 1 to 4096)"
newline
hexmask.long.word 0x00 0.--12. 1. "FIRHINC,Horizontal increment of the up/downsampling filter Encoded value (from 1 to 4096)"
group.long 0x724++0x03
line.long 0x00 "DISPC_VID3_FIR2,The register configures the resize factors for horizontal and vertical up/downsampling of the video window 3"
hexmask.long.word 0x00 16.--28. 1. "FIRVINC,Vertical increment of the up/downsampling filter for Cb and Cr"
newline
hexmask.long.word 0x00 0.--12. 1. "FIRHINC,Horizontal increment of the up/downsampling filter for Cb and Cr"
group.long 0x394++0x17
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"
hexmask.long.word 0x00 16.--26. 1. "ORGSIZEY,Number of lines of the video picture Encoded value (from 1 to 2048) to specify the number of lines of the video picture in memory (program to value minus 1)"
newline
hexmask.long.word 0x00 0.--10. 1. "ORGSIZEX,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)"
line.long 0x04 "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"
hexmask.long.byte 0x04 0.--7. 1. "PIXELINC,Number of bytes to increment between two pixels"
line.long 0x08 "DISPC_VID3_POSITION,The register configures the position of the video window 3"
hexmask.long.word 0x08 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"
newline
hexmask.long.word 0x08 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"
line.long 0x0C "DISPC_VID3_PRELOAD,The register configures the DMA buffer of the video 3 pipeline"
hexmask.long.word 0x0C 0.--11. 1. "PRELOAD,DMA buffer preload value Number of 128-bit words defining the preload value"
line.long 0x10 "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"
line.long 0x14 "DISPC_VID3_SIZE,The register configures the size of the video window 3"
hexmask.long.word 0x14 16.--26. 1. "SIZEY,Number of lines of the video 3 Encoded value (from 1 to 2048) to specify the number of lines of the video window 3"
newline
hexmask.long.word 0x14 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"
group.long 0x570++0x03
line.long 0x00 "DISPC_WB_ATTRIBUTES,The register configures the attributes of the viwrite back pipeline"
bitfld.long 0x00 28.--31. "IDLENUMBER,Determines the number of idles between requests on the L3 interconnect" "IDLENUMBER_0,IDLENUMBER_1,IDLENUMBER_2,IDLENUMBER_3,IDLENUMBER_4,IDLENUMBER_5,IDLENUMBER_6,IDLENUMBER_7,IDLENUMBER_8,IDLENUMBER_9,IDLENUMBER_10,IDLENUMBER_11,IDLENUMBER_12,IDLENUMBER_13,IDLENUMBER_14,IDLENUMBER_15"
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bitfld.long 0x00 27. "IDLESIZE,Determines if the IDLENUMBER corresponds to a number of bursts or singles" "IDLESIZE_0,IDLESIZE_1"
newline
bitfld.long 0x00 24.--26. "CAPTUREMODE,Defines the frame rate capture" "CAPTUREMODE_0,CAPTUREMODE_1,CAPTUREMODE_2,CAPTUREMODE_3,CAPTUREMODE_4,CAPTUREMODE_5,CAPTUREMODE_6,CAPTUREMODE_7"
newline
bitfld.long 0x00 23. "ARBITRATION,Determines the priority of the write-back pipeline" "ARBITRATION_0,ARBITRATION_1"
newline
bitfld.long 0x00 22. "DOUBLESTRIDE,Determines if the stride for CbCr buffer is the 1x or 2x of the Y buffer stride" "DOUBLESTRIDE_0,DOUBLESTRIDE_1"
newline
bitfld.long 0x00 21. "VERTICALTAPS,Video Vertical Resize Tap Number" "VERTICALTAPS_0,VERTICALTAPS_1"
newline
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" "Capture mode (default mode),Memory-to-memory mode"
newline
bitfld.long 0x00 16.--18. "CHANNELIN,Video Channel In configuration wr: immediate" "CHANNELIN_0,CHANNELIN_1,CHANNELIN_2,CHANNELIN_3,CHANNELIN_4,CHANNELIN_5,CHANNELIN_6,?"
newline
bitfld.long 0x00 14.--15. "BURSTSIZE,Write-back DMA Burst Size" "BURSTSIZE_0,BURSTSIZE_1,BURSTSIZE_2,BURSTSIZE_3"
newline
bitfld.long 0x00 11. "FULLRANGE,Color Space Conversion full range setting" "FULLRANGE_0,FULLRANGE_1"
newline
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" "TRUNCATIONENABLE_0,TRUNCATIONENABLE_1"
newline
bitfld.long 0x00 9. "COLORCONVENABLE,Enable the color space conversion" "COLORCONVENABLE_0,COLORCONVENABLE_1"
newline
bitfld.long 0x00 8. "BURSTTYPE,The type of burst can be INCR (incremental) or BLCK (2D block)" "BURSTTYPE_0,BURSTTYPE_1"
newline
bitfld.long 0x00 7. "ALPHAENABLE,Premultiplied alpha enable" "The alpha value is not written back,The WB pipe copies back to memory the.."
newline
bitfld.long 0x00 5.--6. "RESIZEENABLE,Resize Enable" "RESIZEENABLE_0,RESIZEENABLE_1,RESIZEENABLE_2,RESIZEENABLE_3"
newline
bitfld.long 0x00 1.--4. "FORMAT,Write-back Format" "FORMAT_0,FORMAT_1,FORMAT_2,?,FORMAT_4,FORMAT_5,FORMAT_6,FORMAT_7,FORMAT_8,FORMAT_9,FORMAT_10,FORMAT_11,FORMAT_12,FORMAT_13,FORMAT_14,FORMAT_15"
newline
bitfld.long 0x00 0. "ENABLE,Write-back Enable" "ENABLE_0,ENABLE_1"
group.long 0x810++0x03
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"
hexmask.long.byte 0x00 0.--7. 1. "WBDELAYCOUNT,Delays the WB pipe flush after the end of the frame.delay = n x (1/F_clk) n = 0:255"
rgroup.long 0x588++0x07
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"
line.long 0x04 "DISPC_WB_BUF_THRESHOLD,The register configures the DMA buffer associated with the write-back pipeline"
hexmask.long.word 0x04 16.--31. 1. "BUFHIGHTHRESHOLD,DMA buffer High Threshold Number of 128-bits defining the threshold value"
newline
hexmask.long.word 0x04 0.--15. 1. "BUFLOWTHRESHOLD,DMA buffer High Threshold Number of 128-bits defining the threshold value"
group.long 0x574++0x13
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)"
newline
hexmask.long.word 0x00 0.--10. 1. "YR,YR Coefficient Encoded signed value (from -1024 to 1023)"
line.long 0x04 "DISPC_WB_CONV_COEF1,The register configures the color space conversion matrix coefficients for the write back pipeline"
hexmask.long.word 0x04 16.--26. 1. "CRR,CrR Coefficient Encoded signed value (from -1024 to 1023)"
newline
hexmask.long.word 0x04 0.--10. 1. "YB,YB Coefficient Encoded signed value (from -1024 to 1023)"
line.long 0x08 "DISPC_WB_CONV_COEF2,The register configures the color space conversion matrix coefficients for the write back pipeline"
hexmask.long.word 0x08 16.--26. 1. "CRB,CrB Coefficient Encoded signed value (from -1024 to 1023)"
newline
hexmask.long.word 0x08 0.--10. 1. "CRG,CrG Coefficient Encoded signed value (from -1024 to 1023)"
line.long 0x0C "DISPC_WB_CONV_COEF3,The register configures the color space conversion matrix coefficients for the write back pipeline"
hexmask.long.word 0x0C 16.--26. 1. "CBG,CbG coefficient Encoded signed value (from -1024 to 1023)"
newline
hexmask.long.word 0x0C 0.--10. 1. "CBR,CbR coefficient Encoded signed value (from -1024 to 1023)"
line.long 0x10 "DISPC_WB_CONV_COEF4,The register configures the color space conversion matrix coefficients for the write back pipeline"
hexmask.long.word 0x10 0.--10. 1. "CBB,CbB Coefficient Encoded signed value (from -1024 to 1023)"
group.long 0x590++0x03
line.long 0x00 "DISPC_WB_FIR,The register configures the resize factors for horizontal and vertical up/downsampling of the write back pipeline"
hexmask.long.word 0x00 16.--28. 1. "FIRVINC,Vertical increment of the up/downsampling filter Encoded value (from 1 to 4096)"
newline
hexmask.long.word 0x00 0.--12. 1. "FIRHINC,Horizontal increment of the up/downsampling filter Encoded value (from 1 to 4096)"
group.long 0x790++0x03
line.long 0x00 "DISPC_WB_FIR2,The register configures the resize factors for horizontal and vertical up/downsampling of the write-back pipeline"
hexmask.long.word 0x00 16.--28. 1. "FIRVINC,Vertical increment of the up/downsampling filter for Cb and Cr"
newline
hexmask.long.word 0x00 0.--12. 1. "FIRHINC,Horizontal increment of the up/downsampling filter for Cb and Cr"
group.long 0x594++0x07
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"
hexmask.long.word 0x00 16.--26. 1. "ORGSIZEY,Number of lines of the video picture Encoded value (from 1 to 2048) to specify the number of lines of the video picture in memory (program to value minus 1)"
newline
hexmask.long.word 0x00 0.--10. 1. "ORGSIZEX,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)"
line.long 0x04 "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"
hexmask.long.byte 0x04 0.--7. 1. "PIXELINC,Values other than 1 are invalid"
group.long 0x5A4++0x07
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"
line.long 0x04 "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"
hexmask.long.word 0x04 16.--26. 1. "SIZEY,Number of lines of the Write-back picture Encoded value (from 1 to 2048) to specify the number of lines of the write-back picture"
newline
hexmask.long.word 0x04 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"
tree.end
tree.end
tree "Display_Subsystem"
tree "DSS_L3"
base ansd:0x58000000
rgroup.long 0x00++0x03
line.long 0x00 "DSS_REVISION,This register contains the DSS revision number"
rgroup.long 0x14++0x03
line.long 0x00 "DSS_SYSSTATUS,This register provides status information about the module"
bitfld.long 0x00 0. "RESETDONE,Internal reset monitoring" "RESETDONE_0_r,RESETDONE_1_r"
group.long 0x40++0x03
line.long 0x00 "DSS_CTRL,This register contains the DSS control bits"
bitfld.long 0x00 17. "LCD2_TV_SEL,Selection between LCD2 and TV channel out on the LCD2 parallel output (multiplexer 13)" "Select LCD2 channel output (default selection),Select TV channel output"
bitfld.long 0x00 15. "VENC_HDMI_SWITCH,Selects HDMI sync and associated clock or VENC and its associated TV_CLK" "VENC_HDMI_SWITCH_0,VENC_HDMI_SWITCH_1"
newline
bitfld.long 0x00 14. "RFBI_SWITCH,Selects the video port from DISPC between video port 1 and video port 2 (multiplexer 11)" "RFBI_SWITCH_0_r,RFBI_SWITCH_1_r"
bitfld.long 0x00 13. "SYNC_SWITCH,Selects the sync generator for SD video (DSS VENC IP or component VENC IP connected at the top)" "SYNC_SWITCH_0_r,SYNC_SWITCH_1_r"
newline
bitfld.long 0x00 12. "LCD2_CLK_SWITCH,DSS_CLK/PLL2_CLK1 clock switch (multiplexer 3) Selects the clock source for the DISPC LCD2_CLK clock" "LCD2_CLK_SWITCH_0,LCD2_CLK_SWITCH_1"
bitfld.long 0x00 11. "TV_CLK_SWITCH,DSS_TV_CLK/PLL3_CLK clock switch Selects the clock source for the VENC/HDMI functional clock" "TV_CLK_SWITCH_0,TV_CLK_SWITCH_1"
newline
bitfld.long 0x00 10. "DSI2_CLK_SWITCH,DSS_CLK/PLL2_CLK2 clock switch Selects the clock source for the DSI2 functional clock DSI2_CLK" "DSI2_CLK_SWITCH_0,DSI2_CLK_SWITCH_1"
bitfld.long 0x00 8.--9. "FCK_CLK_SWITCH,Selects the clock source for the DISPC functional clock DISPC_FCLK" "FCK_CLK_SWITCH_0,FCK_CLK_SWITCH_1,FCK_CLK_SWITCH_2,FCK_CLK_SWITCH_3"
newline
bitfld.long 0x00 6. "VENC_OUT_SEL,VENC mode selection for VENC output multiplexer" "VENC_OUT_SEL_0,VENC_OUT_SEL_1"
bitfld.long 0x00 5. "DAC_POWERDN_BGZ,DAC Power-down band gap control" "DAC_POWERDN_BGZ_0,DAC_POWERDN_BGZ_1"
newline
bitfld.long 0x00 4. "DAC_DEMEN,DAC Dynamic Element Matching Enable" "DAC_DEMEN_0,DAC_DEMEN_1"
bitfld.long 0x00 3. "VENC_CLOCK_4X_ENABLE,VENC clock CLK4X enable This bit is used to control the CLK4X clock gating" "VENC_CLOCK_4X_ENABLE_0,VENC_CLOCK_4X_ENABLE_1"
newline
bitfld.long 0x00 2. "VENC_CLOCK_MODE,VENC clock mode" "VENC_CLOCK_MODE_0,VENC_CLOCK_MODE_1"
bitfld.long 0x00 1. "DSI1_CLK_SWITCH,DSS_CLK/PLL1_CLK2 clock switch Selects the clock source for the DSI1 functional clock DSI1_CLK" "DSI1_CLK_SWITCH_0,DSI1_CLK_SWITCH_1"
newline
bitfld.long 0x00 0. "LCD1_CLK_SWITCH,DSS_CLK/PLL1_CLK1 clock switch (multiplexer 2) Selects the clock source for the DISPC LCD1_CLK clock" "LCD1_CLK_SWITCH_0,LCD1_CLK_SWITCH_1"
rgroup.long 0x5C++0x03
line.long 0x00 "DSS_STATUS,This register contains the DSS status"
bitfld.long 0x00 21. "RFBI_STATUS,Video port selection status (multiplexer 11) Indicates if video port 1 or video 2 from DISPC is used to provide data to the RFBI" "RFBI_STATUS_0_r,RFBI_STATUS_1_r"
bitfld.long 0x00 19.--20. "SYNC_STATUS,Sync generator selection status (multiplexer 9) Indicates if DSS VENC IP or external component VENC IP is selected as syncs generator (master mode)" "SYNC_STATUS_0_r,SYNC_STATUS_1_r,SYNC_STATUS_2_r,?"
newline
bitfld.long 0x00 15.--18. "FCK_CLK_STATUS,DISPC_FCLK clock selection status (multiplexer 1) indicates which clock is used by the glitch-free multiplexer selecting the source of DISPC_FCLK" "FCK_CLK_STATUS_0_r,FCK_CLK_STATUS_1_r,FCK_CLK_STATUS_2_r,?,FCK_CLK_STATUS_4_r,?,?,?,FCK_CLK_STATUS_8_r,?,?,?,?,?,?,?"
bitfld.long 0x00 13.--14. "TV_CLK_STATUS,TV_CLK clock selection status (multiplexer 7) indicates which clock is used by the multiplexer selecting the source of TV_CLK" "?,TV_CLK_STATUS_1_r,TV_CLK_STATUS_2_r,?"
newline
bitfld.long 0x00 11.--12. "LCD2_CLK_STATUS,LCD2_CLK clock selection status (multiplexer 3) indicates which clock is used by the glitch-free multiplexer selecting the source of LCD2_CLK" "LCD2_CLK_STATUS_0_r,LCD2_CLK_STATUS_1_r,LCD2_CLK_STATUS_2_r,?"
bitfld.long 0x00 9.--10. "DSI2_CLK_STATUS,DSI2_CLK clock selection status (multiplexer 5) indicates which clock is used by the glitch-free multiplexer selecting the source of DSI2_CLK" "DSI2_CLK_STATUS_0_r,DSI2_CLK_STATUS_1_r,DSI2_CLK_STATUS_2_r,?"
newline
bitfld.long 0x00 7.--8. "DSI1_CLK_STATUS,DSI1_CLK clock selection status (multiplexer 4) indicates which clock is used by the glitch-free multiplexer selecting the source of DSI1_CLK" "DSI1_CLK_STATUS_0_r,DSI1_CLK_STATUS_1_r,DSI1_CLK_STATUS_2_r,?"
bitfld.long 0x00 5.--6. "TV_CLK_OUT_STATUS,TV_CLK_OUT selection status (multiplexer 12) indicates which clock is used by the multiplexer selecting the TV_CLK_OUT of the DISPC" "?,TV_CLK_OUT_STATUS_1_r,TV_CLK_OUT_STATUS_2_r,?"
newline
bitfld.long 0x00 0.--1. "LCD1_CLK_STATUS,LCD1_CLK clock selection status (multiplexer 2) indicates which clock is used by the glitch-free multiplexer selecting the source of LCD1_CLK" "LCD1_CLK_STATUS_0_r,LCD1_CLK_STATUS_1_r,LCD1_CLK_STATUS_2_r,?"
tree.end
tree "DSS_L4_PER"
base ansd:0x48040000
rgroup.long 0x00++0x03
line.long 0x00 "DSS_REVISION,This register contains the DSS revision number"
rgroup.long 0x14++0x03
line.long 0x00 "DSS_SYSSTATUS,This register provides status information about the module"
bitfld.long 0x00 0. "RESETDONE,Internal reset monitoring" "RESETDONE_0_r,RESETDONE_1_r"
group.long 0x40++0x03
line.long 0x00 "DSS_CTRL,This register contains the DSS control bits"
bitfld.long 0x00 17. "LCD2_TV_SEL,Selection between LCD2 and TV channel out on the LCD2 parallel output (multiplexer 13)" "Select LCD2 channel output (default selection),Select TV channel output"
bitfld.long 0x00 15. "VENC_HDMI_SWITCH,Selects HDMI sync and associated clock or VENC and its associated TV_CLK" "VENC_HDMI_SWITCH_0,VENC_HDMI_SWITCH_1"
newline
bitfld.long 0x00 14. "RFBI_SWITCH,Selects the video port from DISPC between video port 1 and video port 2 (multiplexer 11)" "RFBI_SWITCH_0_r,RFBI_SWITCH_1_r"
bitfld.long 0x00 13. "SYNC_SWITCH,Selects the sync generator for SD video (DSS VENC IP or component VENC IP connected at the top)" "SYNC_SWITCH_0_r,SYNC_SWITCH_1_r"
newline
bitfld.long 0x00 12. "LCD2_CLK_SWITCH,DSS_CLK/PLL2_CLK1 clock switch (multiplexer 3) Selects the clock source for the DISPC LCD2_CLK clock" "LCD2_CLK_SWITCH_0,LCD2_CLK_SWITCH_1"
bitfld.long 0x00 11. "TV_CLK_SWITCH,DSS_TV_CLK/PLL3_CLK clock switch Selects the clock source for the VENC/HDMI functional clock" "TV_CLK_SWITCH_0,TV_CLK_SWITCH_1"
newline
bitfld.long 0x00 10. "DSI2_CLK_SWITCH,DSS_CLK/PLL2_CLK2 clock switch Selects the clock source for the DSI2 functional clock DSI2_CLK" "DSI2_CLK_SWITCH_0,DSI2_CLK_SWITCH_1"
bitfld.long 0x00 8.--9. "FCK_CLK_SWITCH,Selects the clock source for the DISPC functional clock DISPC_FCLK" "FCK_CLK_SWITCH_0,FCK_CLK_SWITCH_1,FCK_CLK_SWITCH_2,FCK_CLK_SWITCH_3"
newline
bitfld.long 0x00 6. "VENC_OUT_SEL,VENC mode selection for VENC output multiplexer" "VENC_OUT_SEL_0,VENC_OUT_SEL_1"
bitfld.long 0x00 5. "DAC_POWERDN_BGZ,DAC Power-down band gap control" "DAC_POWERDN_BGZ_0,DAC_POWERDN_BGZ_1"
newline
bitfld.long 0x00 4. "DAC_DEMEN,DAC Dynamic Element Matching Enable" "DAC_DEMEN_0,DAC_DEMEN_1"
bitfld.long 0x00 3. "VENC_CLOCK_4X_ENABLE,VENC clock CLK4X enable This bit is used to control the CLK4X clock gating" "VENC_CLOCK_4X_ENABLE_0,VENC_CLOCK_4X_ENABLE_1"
newline
bitfld.long 0x00 2. "VENC_CLOCK_MODE,VENC clock mode" "VENC_CLOCK_MODE_0,VENC_CLOCK_MODE_1"
bitfld.long 0x00 1. "DSI1_CLK_SWITCH,DSS_CLK/PLL1_CLK2 clock switch Selects the clock source for the DSI1 functional clock DSI1_CLK" "DSI1_CLK_SWITCH_0,DSI1_CLK_SWITCH_1"
newline
bitfld.long 0x00 0. "LCD1_CLK_SWITCH,DSS_CLK/PLL1_CLK1 clock switch (multiplexer 2) Selects the clock source for the DISPC LCD1_CLK clock" "LCD1_CLK_SWITCH_0,LCD1_CLK_SWITCH_1"
rgroup.long 0x5C++0x03
line.long 0x00 "DSS_STATUS,This register contains the DSS status"
bitfld.long 0x00 21. "RFBI_STATUS,Video port selection status (multiplexer 11) Indicates if video port 1 or video 2 from DISPC is used to provide data to the RFBI" "RFBI_STATUS_0_r,RFBI_STATUS_1_r"
bitfld.long 0x00 19.--20. "SYNC_STATUS,Sync generator selection status (multiplexer 9) Indicates if DSS VENC IP or external component VENC IP is selected as syncs generator (master mode)" "SYNC_STATUS_0_r,SYNC_STATUS_1_r,SYNC_STATUS_2_r,?"
newline
bitfld.long 0x00 15.--18. "FCK_CLK_STATUS,DISPC_FCLK clock selection status (multiplexer 1) indicates which clock is used by the glitch-free multiplexer selecting the source of DISPC_FCLK" "FCK_CLK_STATUS_0_r,FCK_CLK_STATUS_1_r,FCK_CLK_STATUS_2_r,?,FCK_CLK_STATUS_4_r,?,?,?,FCK_CLK_STATUS_8_r,?,?,?,?,?,?,?"
bitfld.long 0x00 13.--14. "TV_CLK_STATUS,TV_CLK clock selection status (multiplexer 7) indicates which clock is used by the multiplexer selecting the source of TV_CLK" "?,TV_CLK_STATUS_1_r,TV_CLK_STATUS_2_r,?"
newline
bitfld.long 0x00 11.--12. "LCD2_CLK_STATUS,LCD2_CLK clock selection status (multiplexer 3) indicates which clock is used by the glitch-free multiplexer selecting the source of LCD2_CLK" "LCD2_CLK_STATUS_0_r,LCD2_CLK_STATUS_1_r,LCD2_CLK_STATUS_2_r,?"
bitfld.long 0x00 9.--10. "DSI2_CLK_STATUS,DSI2_CLK clock selection status (multiplexer 5) indicates which clock is used by the glitch-free multiplexer selecting the source of DSI2_CLK" "DSI2_CLK_STATUS_0_r,DSI2_CLK_STATUS_1_r,DSI2_CLK_STATUS_2_r,?"
newline
bitfld.long 0x00 7.--8. "DSI1_CLK_STATUS,DSI1_CLK clock selection status (multiplexer 4) indicates which clock is used by the glitch-free multiplexer selecting the source of DSI1_CLK" "DSI1_CLK_STATUS_0_r,DSI1_CLK_STATUS_1_r,DSI1_CLK_STATUS_2_r,?"
bitfld.long 0x00 5.--6. "TV_CLK_OUT_STATUS,TV_CLK_OUT selection status (multiplexer 12) indicates which clock is used by the multiplexer selecting the TV_CLK_OUT of the DISPC" "?,TV_CLK_OUT_STATUS_1_r,TV_CLK_OUT_STATUS_2_r,?"
newline
bitfld.long 0x00 0.--1. "LCD1_CLK_STATUS,LCD1_CLK clock selection status (multiplexer 2) indicates which clock is used by the glitch-free multiplexer selecting the source of LCD1_CLK" "LCD1_CLK_STATUS_0_r,LCD1_CLK_STATUS_1_r,LCD1_CLK_STATUS_2_r,?"
tree.end
tree.end
tree "Dual_Cortex_A9_MPU_Subsystem"
repeat 2. (list 0. 1. )(list ansd:0x48243400 ansd:0x48243800 )
tree "CORTEXA9_CPU$1"
base $2
group.long 0x00++0x0F
line.long 0x00 "PM_PDA_CPUi_PWRSTCTRL,This register controls the CPU domain power state to reach upon a domain sleep transition"
rbitfld.long 0x00 16.--17. "L1_BANK_ONSTATE,CPU_L1 memory state when domain is ON" "?,?,?,L1_BANK_ONSTATE_3_r"
rbitfld.long 0x00 8. "L1_BANK_RETSTATE,CPU L1 memory state when domain is RETENTION state" "?,L1_BANK_RETSTATE_1_r"
newline
bitfld.long 0x00 2. "LOGICRETSTATE,Logic state control when power domain is RETENTION" "LOGICRETSTATE_0,LOGICRETSTATE_1"
bitfld.long 0x00 0.--1. "POWERSTATE,Power state control" "POWERSTATE_0,POWERSTATE_1,POWERSTATE_2,POWERSTATE_3"
line.long 0x04 "PM_PDA_CPUi_PWRSTST,This register provides a status on the CPU domain current power state"
bitfld.long 0x04 24.--25. "LASTPOWERSTATEENTERED,Last low power state entered" "Power domain was previously in OFF,Power domain was previously in RETENTION,Power domain was previously INACTIVE,Power domain was previously ON"
rbitfld.long 0x04 20. "INTRANSITION,Domain transition status" "INTRANSITION_0_r,INTRANSITION_1_r"
newline
rbitfld.long 0x04 4.--5. "L1_BANK_STATEST,CPU_L1 memory state status" "L1_BANK_STATEST_0_r,L1_BANK_STATEST_1_r,L1_BANK_STATEST_2_r,L1_BANK_STATEST_3_r"
rbitfld.long 0x04 2. "LOGICSTATEST,Logic state status" "LOGICSTATEST_0_r,LOGICSTATEST_1_r"
newline
rbitfld.long 0x04 0.--1. "POWERSTATEST,Current power state status" "POWERSTATEST_0_r,POWERSTATEST_1_r,POWERSTATEST_2_r,POWERSTATEST_3_r"
line.long 0x08 "RM_PDA_CPUi_CONTEXT,This register contains dedicated CPU context statuses"
bitfld.long 0x08 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" "LOSTMEM_CPU_L1_0,LOSTMEM_CPU_L1_1"
bitfld.long 0x08 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
line.long 0x0C "RM_PDA_CPUi_RSTCTRL,This register controls the assertion/release of the CPU CORE reset"
bitfld.long 0x0C 0. "RST,CPU warm local reset control" "RST_0,RST_1"
rgroup.long 0x14++0x07
line.long 0x00 "CM_PDA_CPUi_CLKCTRL,This register manages the CPU clocks"
bitfld.long 0x00 0. "STBYST,Module standby status" "STBYST_0_r,STBYST_1_r"
line.long 0x04 "CM_PDA_CPUi_CLKSTCTRL,This register enables the CPU domain power state transition"
bitfld.long 0x04 0.--1. "CLKTRCTRL,Controls the full domain transition of the CPU domain" "CLKTRCTRL_0,CLKTRCTRL_1_r,CLKTRCTRL_2,CLKTRCTRL_3"
tree.end
repeat.end
tree "CORTEXA9_PRM"
base ansd:0x48243200
group.long 0x00++0x07
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"
bitfld.long 0x00 1. "GLOBAL_WARM_RST,Global warm reset event generated by Global PRCM" "GLOBAL_WARM_RST_0,GLOBAL_WARM_RST_1"
bitfld.long 0x00 0. "GLOBAL_COLD_RST,Power-on (cold) reset event generated by global PRCM" "GLOBAL_COLD_RST_0,GLOBAL_COLD_RST_1"
line.long 0x04 "PRM_PSCON_COUNT,Programmable Precharge count for L1Cache"
rbitfld.long 0x04 28.--31. "SPAREUSED,4 bits consumed for Last Power State Entered" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.tbyte 0x04 8.--27. 1. "SPARE,Spare programmable bits"
hexmask.long.byte 0x04 0.--7. 1. "PCHARGE_TIME,Programmable Precharge count during retention"
tree.end
tree "CORTEXA9_SOCKET_PRCM"
base ansd:0x48243000
rgroup.long 0x00++0x03
line.long 0x00 "CORTEXA9_PRCM_REVISION,IP Revision register"
tree.end
tree "CORTEXA9_WUGEN"
base ansd:0x48281000
rgroup.long 0x00++0x03
line.long 0x00 "WKG_CONTROL_0,Wake-up generator status register for CPU0"
bitfld.long 0x00 15. "DOMAIN_RST,MPU always-on power domain (PD_ALWON_MPU) reset status bit" "no reset occur,reset occur"
bitfld.long 0x00 14. "CORTEXA9_WARM_RST,This bit is set when the CORTEXA9_RSTN signal is asserted" "CORTEXA9_RSTN reset signal has not been asserted,CORTEXA9_RSTN reset request has been asserted"
newline
bitfld.long 0x00 13. "CORTEXA9_COLD_RST,This bit is set when the CORTEXA9_PWRON_RSTN signal is asserted" "CORTEXA9_PWRON_RSTN reset signal has not been..,CORTEXA9_PWRON_RSTN reset request has been.."
bitfld.long 0x00 12. "WDT_RST,This bit is set when the WD timer Reset Request signal from the SCU is asserted" "WDT reset request has not been asserted,WDT reset request has been asserted"
newline
bitfld.long 0x00 10. "EVENTO,EVENTO status bit" "Rising edge of EVENTO is not detected,Rising edge of EVENTO is detected"
bitfld.long 0x00 9. "STANDBYWFE,This bit gives software the visibility to track whether WFE mode have been entered" "WFE mode has not been entered,WFE mode has been entered"
newline
bitfld.long 0x00 8. "STANDBYWFI,This bit gives software the visibility to track whether WFI mode have been entered" "WFI mode has not been entered,WFI mode has been entered"
group.long 0x10++0x0F
line.long 0x00 "WKG_ENB_A_0,This register enables the interrupts (for CPU0) from MA_IRQ_0 to MA_IRQ_31"
bitfld.long 0x00 31. "WKG_ENB_FOR_INTR31," "0,1"
bitfld.long 0x00 30. "WKG_ENB_FOR_INTR30," "0,1"
newline
bitfld.long 0x00 29. "WKG_ENB_FOR_INTR29," "0,1"
bitfld.long 0x00 28. "WKG_ENB_FOR_INTR28," "0,1"
newline
bitfld.long 0x00 27. "WKG_ENB_FOR_INTR27," "0,1"
bitfld.long 0x00 26. "WKG_ENB_FOR_INTR26," "0,1"
newline
bitfld.long 0x00 25. "WKG_ENB_FOR_INTR25," "0,1"
bitfld.long 0x00 24. "WKG_ENB_FOR_INTR24," "0,1"
newline
bitfld.long 0x00 23. "WKG_ENB_FOR_INTR23," "0,1"
bitfld.long 0x00 22. "WKG_ENB_FOR_INTR22," "0,1"
newline
bitfld.long 0x00 21. "WKG_ENB_FOR_INTR21," "0,1"
bitfld.long 0x00 20. "WKG_ENB_FOR_INTR20," "0,1"
newline
bitfld.long 0x00 19. "WKG_ENB_FOR_INTR19," "0,1"
bitfld.long 0x00 18. "WKG_ENB_FOR_INTR18," "0,1"
newline
bitfld.long 0x00 17. "WKG_ENB_FOR_INTR17," "0,1"
bitfld.long 0x00 16. "WKG_ENB_FOR_INTR16," "0,1"
newline
bitfld.long 0x00 15. "WKG_ENB_FOR_INTR15," "0,1"
bitfld.long 0x00 14. "WKG_ENB_FOR_INTR14," "0,1"
newline
bitfld.long 0x00 13. "WKG_ENB_FOR_INTR13," "0,1"
bitfld.long 0x00 12. "WKG_ENB_FOR_INTR12," "0,1"
newline
bitfld.long 0x00 11. "WKG_ENB_FOR_INTR11," "0,1"
bitfld.long 0x00 10. "WKG_ENB_FOR_INTR10," "0,1"
newline
bitfld.long 0x00 9. "WKG_ENB_FOR_INTR9," "0,1"
bitfld.long 0x00 7. "WKG_ENB_FOR_INTR7," "0,1"
newline
bitfld.long 0x00 6. "WKG_ENB_FOR_INTR6," "0,1"
bitfld.long 0x00 4. "WKG_ENB_FOR_INTR4," "0,1"
newline
bitfld.long 0x00 2. "WKG_ENB_FOR_INTR2," "0,1"
bitfld.long 0x00 1. "WKG_ENB_FOR_INTR1," "0,1"
newline
bitfld.long 0x00 0. "WKG_ENB_FOR_INTR0," "0,1"
line.long 0x04 "WKG_ENB_B_0,This register enables the interrupts (for CPU0) from MA_IRQ_32 to MA_IRQ_63"
bitfld.long 0x04 30. "WKG_ENB_FOR_INTR62," "0,1"
bitfld.long 0x04 29. "WKG_ENB_FOR_INTR61," "0,1"
newline
bitfld.long 0x04 27. "WKG_ENB_FOR_INTR59," "0,1"
bitfld.long 0x04 26. "WKG_ENB_FOR_INTR58," "0,1"
newline
bitfld.long 0x04 25. "WKG_ENB_FOR_INTR57," "0,1"
bitfld.long 0x04 24. "WKG_ENB_FOR_INTR56," "0,1"
newline
bitfld.long 0x04 21. "WKG_ENB_FOR_INTR53," "0,1"
bitfld.long 0x04 16. "WKG_ENB_FOR_INTR48," "0,1"
newline
bitfld.long 0x04 15. "WKG_ENB_FOR_INTR47," "0,1"
bitfld.long 0x04 14. "WKG_ENB_FOR_INTR46," "0,1"
newline
bitfld.long 0x04 13. "WKG_ENB_FOR_INTR45," "0,1"
bitfld.long 0x04 12. "WKG_ENB_FOR_INTR44," "0,1"
newline
bitfld.long 0x04 11. "WKG_ENB_FOR_INTR43," "0,1"
bitfld.long 0x04 10. "WKG_ENB_FOR_INTR42," "0,1"
newline
bitfld.long 0x04 9. "WKG_ENB_FOR_INTR41," "0,1"
bitfld.long 0x04 8. "WKG_ENB_FOR_INTR40," "0,1"
newline
bitfld.long 0x04 7. "WKG_ENB_FOR_INTR39," "0,1"
bitfld.long 0x04 6. "WKG_ENB_FOR_INTR38," "0,1"
newline
bitfld.long 0x04 5. "WKG_ENB_FOR_INTR37," "0,1"
bitfld.long 0x04 4. "WKG_ENB_FOR_INTR36," "0,1"
newline
bitfld.long 0x04 2. "WKG_ENB_FOR_INTR34," "0,1"
bitfld.long 0x04 1. "WKG_ENB_FOR_INTR33," "0,1"
newline
bitfld.long 0x04 0. "WKG_ENB_FOR_INTR32," "0,1"
line.long 0x08 "WKG_ENB_C_0,This register enables the interrupts (for CPU0) from MA_IRQ_64 to MA_IRQ_95"
bitfld.long 0x08 30. "WKG_ENB_FOR_INTR94," "0,1"
bitfld.long 0x08 29. "WKG_ENB_FOR_INTR93," "0,1"
newline
bitfld.long 0x08 28. "WKG_ENB_FOR_INTR92," "0,1"
bitfld.long 0x08 27. "WKG_ENB_FOR_INTR91," "0,1"
newline
bitfld.long 0x08 26. "WKG_ENB_FOR_INTR90," "0,1"
bitfld.long 0x08 25. "WKG_ENB_FOR_INTR89," "0,1"
newline
bitfld.long 0x08 24. "WKG_ENB_FOR_INTR88," "0,1"
bitfld.long 0x08 23. "WKG_ENB_FOR_INTR87," "0,1"
newline
bitfld.long 0x08 22. "WKG_ENB_FOR_INTR86," "0,1"
bitfld.long 0x08 20. "WKG_ENB_FOR_INTR84," "0,1"
newline
bitfld.long 0x08 19. "WKG_ENB_FOR_INTR83," "0,1"
bitfld.long 0x08 16. "WKG_ENB_FOR_INTR80," "0,1"
newline
bitfld.long 0x08 14. "WKG_ENB_FOR_INTR78," "0,1"
bitfld.long 0x08 13. "WKG_ENB_FOR_INTR77," "0,1"
newline
bitfld.long 0x08 12. "WKG_ENB_FOR_INTR76," "0,1"
bitfld.long 0x08 11. "WKG_ENB_FOR_INTR75," "0,1"
newline
bitfld.long 0x08 10. "WKG_ENB_FOR_INTR74," "0,1"
bitfld.long 0x08 9. "WKG_ENB_FOR_INTR73," "0,1"
newline
bitfld.long 0x08 8. "WKG_ENB_FOR_INTR72," "0,1"
bitfld.long 0x08 7. "WKG_ENB_FOR_INTR71," "0,1"
newline
bitfld.long 0x08 6. "WKG_ENB_FOR_INTR70," "0,1"
bitfld.long 0x08 5. "WKG_ENB_FOR_INTR69," "0,1"
newline
bitfld.long 0x08 4. "WKG_ENB_FOR_INTR68," "0,1"
bitfld.long 0x08 3. "WKG_ENB_FOR_INTR67," "0,1"
newline
bitfld.long 0x08 2. "WKG_ENB_FOR_INTR66," "0,1"
bitfld.long 0x08 1. "WKG_ENB_FOR_INTR65," "0,1"
line.long 0x0C "WKG_ENB_D_0,This register enables the interrupts (for CPU0) from MA_IRQ_96 to MA_IRQ_127"
bitfld.long 0x0C 24. "WKG_ENB_FOR_INTR120," "0,1"
bitfld.long 0x0C 23. "WKG_ENB_FOR_INTR119," "0,1"
newline
bitfld.long 0x0C 18. "WKG_ENB_FOR_INTR114," "0,1"
bitfld.long 0x0C 17. "WKG_ENB_FOR_INTR113," "0,1"
newline
bitfld.long 0x0C 16. "WKG_ENB_FOR_INTR112," "0,1"
bitfld.long 0x0C 15. "WKG_ENB_FOR_INTR111," "0,1"
newline
bitfld.long 0x0C 14. "WKG_ENB_FOR_INTR110," "0,1"
bitfld.long 0x0C 13. "WKG_ENB_FOR_INTR109," "0,1"
newline
bitfld.long 0x0C 11. "WKG_ENB_FOR_INTR107," "0,1"
bitfld.long 0x0C 8. "WKG_ENB_FOR_INTR104," "0,1"
newline
bitfld.long 0x0C 7. "WKG_ENB_FOR_INTR103," "0,1"
bitfld.long 0x0C 6. "WKG_ENB_FOR_INTR102," "0,1"
newline
bitfld.long 0x0C 5. "WKG_ENB_FOR_INTR101," "0,1"
bitfld.long 0x0C 4. "WKG_ENB_FOR_INTR100," "0,1"
newline
bitfld.long 0x0C 3. "WKG_ENB_FOR_INTR99," "0,1"
bitfld.long 0x0C 2. "WKG_ENB_FOR_INTR98," "0,1"
newline
bitfld.long 0x0C 1. "WKG_ENB_FOR_INTR97," "0,1"
bitfld.long 0x0C 0. "WKG_ENB_FOR_INTR96," "0,1"
rgroup.long 0x400++0x03
line.long 0x00 "WKG_CONTROL_1,Wake-up generator status register for CPU1"
bitfld.long 0x00 15. "DOMAIN_RST,MPU always-on power domain (PD_ALWON_MPU) reset status bit" "no reset occur,reset occur"
bitfld.long 0x00 14. "CORTEXA9_WARM_RST,This bit is set when the CORTEXA9_RSTN signal is asserted" "CORTEXA9_RSTN reset signal has not been asserted,CORTEXA9_RSTN reset request has been asserted"
newline
bitfld.long 0x00 13. "CORTEXA9_COLD_RST,This bit is set when the CORTEXA9_PWRON_RSTN signal is asserted" "CORTEXA9_PWRON_RSTN reset signal has not been..,CORTEXA9_PWRON_RSTN reset request has been.."
bitfld.long 0x00 12. "WDT_RST,This bit is set when the WD timer Reset Request signal from the SCU is asserted" "WDT reset request has not been asserted,WDT reset request has been asserted"
newline
bitfld.long 0x00 10. "EVENTO,EVENTO status bit" "Rising edge of EVENTO is not detected,Rising edge of EVENTO is detected"
bitfld.long 0x00 9. "STANDBYWFE,This bit gives software the visibility to track whether WFE mode have been entered" "WFE mode has not been entered,WFE mode has been entered"
newline
bitfld.long 0x00 8. "STANDBYWFI,This bit gives software the visibility to track whether WFI mode have been entered" "WFI mode has not been entered,WFI mode has been entered"
group.long 0x410++0x0F
line.long 0x00 "WKG_ENB_A_1,This register enables the interrupts (for CPU1) from MA_IRQ_0 to MA_IRQ_31"
bitfld.long 0x00 31. "WKG_ENB_FOR_INTR31," "0,1"
bitfld.long 0x00 30. "WKG_ENB_FOR_INTR30," "0,1"
newline
bitfld.long 0x00 29. "WKG_ENB_FOR_INTR29," "0,1"
bitfld.long 0x00 28. "WKG_ENB_FOR_INTR28," "0,1"
newline
bitfld.long 0x00 27. "WKG_ENB_FOR_INTR27," "0,1"
bitfld.long 0x00 26. "WKG_ENB_FOR_INTR26," "0,1"
newline
bitfld.long 0x00 25. "WKG_ENB_FOR_INTR25," "0,1"
bitfld.long 0x00 24. "WKG_ENB_FOR_INTR24," "0,1"
newline
bitfld.long 0x00 23. "WKG_ENB_FOR_INTR23," "0,1"
bitfld.long 0x00 22. "WKG_ENB_FOR_INTR22," "0,1"
newline
bitfld.long 0x00 21. "WKG_ENB_FOR_INTR21," "0,1"
bitfld.long 0x00 20. "WKG_ENB_FOR_INTR20," "0,1"
newline
bitfld.long 0x00 19. "WKG_ENB_FOR_INTR19," "0,1"
bitfld.long 0x00 18. "WKG_ENB_FOR_INTR18," "0,1"
newline
bitfld.long 0x00 17. "WKG_ENB_FOR_INTR17," "0,1"
bitfld.long 0x00 16. "WKG_ENB_FOR_INTR16," "0,1"
newline
bitfld.long 0x00 15. "WKG_ENB_FOR_INTR15," "0,1"
bitfld.long 0x00 14. "WKG_ENB_FOR_INTR14," "0,1"
newline
bitfld.long 0x00 13. "WKG_ENB_FOR_INTR13," "0,1"
bitfld.long 0x00 12. "WKG_ENB_FOR_INTR12," "0,1"
newline
bitfld.long 0x00 11. "WKG_ENB_FOR_INTR11," "0,1"
bitfld.long 0x00 10. "WKG_ENB_FOR_INTR10," "0,1"
newline
bitfld.long 0x00 9. "WKG_ENB_FOR_INTR9," "0,1"
bitfld.long 0x00 7. "WKG_ENB_FOR_INTR7," "0,1"
newline
bitfld.long 0x00 6. "WKG_ENB_FOR_INTR6," "0,1"
bitfld.long 0x00 4. "WKG_ENB_FOR_INTR4," "0,1"
newline
bitfld.long 0x00 2. "WKG_ENB_FOR_INTR2," "0,1"
bitfld.long 0x00 1. "WKG_ENB_FOR_INTR1," "0,1"
newline
bitfld.long 0x00 0. "WKG_ENB_FOR_INTR0," "0,1"
line.long 0x04 "WKG_ENB_B_1,This register enables the interrupts (for CPU1) from MA_IRQ_32 to MA_IRQ_63"
bitfld.long 0x04 30. "WKG_ENB_FOR_INTR62," "0,1"
bitfld.long 0x04 29. "WKG_ENB_FOR_INTR61," "0,1"
newline
bitfld.long 0x04 27. "WKG_ENB_FOR_INTR59," "0,1"
bitfld.long 0x04 26. "WKG_ENB_FOR_INTR58," "0,1"
newline
bitfld.long 0x04 25. "WKG_ENB_FOR_INTR57," "0,1"
bitfld.long 0x04 24. "WKG_ENB_FOR_INTR56," "0,1"
newline
bitfld.long 0x04 21. "WKG_ENB_FOR_INTR53," "0,1"
bitfld.long 0x04 16. "WKG_ENB_FOR_INTR48," "0,1"
newline
bitfld.long 0x04 15. "WKG_ENB_FOR_INTR47," "0,1"
bitfld.long 0x04 14. "WKG_ENB_FOR_INTR46," "0,1"
newline
bitfld.long 0x04 13. "WKG_ENB_FOR_INTR45," "0,1"
bitfld.long 0x04 12. "WKG_ENB_FOR_INTR44," "0,1"
newline
bitfld.long 0x04 11. "WKG_ENB_FOR_INTR43," "0,1"
bitfld.long 0x04 10. "WKG_ENB_FOR_INTR42," "0,1"
newline
bitfld.long 0x04 9. "WKG_ENB_FOR_INTR41," "0,1"
bitfld.long 0x04 8. "WKG_ENB_FOR_INTR40," "0,1"
newline
bitfld.long 0x04 7. "WKG_ENB_FOR_INTR39," "0,1"
bitfld.long 0x04 6. "WKG_ENB_FOR_INTR38," "0,1"
newline
bitfld.long 0x04 5. "WKG_ENB_FOR_INTR37," "0,1"
bitfld.long 0x04 4. "WKG_ENB_FOR_INTR36," "0,1"
newline
bitfld.long 0x04 2. "WKG_ENB_FOR_INTR34," "0,1"
bitfld.long 0x04 1. "WKG_ENB_FOR_INTR33," "0,1"
newline
bitfld.long 0x04 0. "WKG_ENB_FOR_INTR32," "0,1"
line.long 0x08 "WKG_ENB_C_1,This register enables the interrupts (for CPU1) from MA_IRQ_64 to MA_IRQ_95"
bitfld.long 0x08 30. "WKG_ENB_FOR_INTR94," "0,1"
bitfld.long 0x08 29. "WKG_ENB_FOR_INTR93," "0,1"
newline
bitfld.long 0x08 28. "WKG_ENB_FOR_INTR92," "0,1"
bitfld.long 0x08 27. "WKG_ENB_FOR_INTR91," "0,1"
newline
bitfld.long 0x08 26. "WKG_ENB_FOR_INTR90," "0,1"
bitfld.long 0x08 25. "WKG_ENB_FOR_INTR89," "0,1"
newline
bitfld.long 0x08 24. "WKG_ENB_FOR_INTR88," "0,1"
bitfld.long 0x08 23. "WKG_ENB_FOR_INTR87," "0,1"
newline
bitfld.long 0x08 22. "WKG_ENB_FOR_INTR86," "0,1"
bitfld.long 0x08 20. "WKG_ENB_FOR_INTR84," "0,1"
newline
bitfld.long 0x08 19. "WKG_ENB_FOR_INTR83," "0,1"
bitfld.long 0x08 16. "WKG_ENB_FOR_INTR80," "0,1"
newline
bitfld.long 0x08 14. "WKG_ENB_FOR_INTR78," "0,1"
bitfld.long 0x08 13. "WKG_ENB_FOR_INTR77," "0,1"
newline
bitfld.long 0x08 12. "WKG_ENB_FOR_INTR76," "0,1"
bitfld.long 0x08 11. "WKG_ENB_FOR_INTR75," "0,1"
newline
bitfld.long 0x08 10. "WKG_ENB_FOR_INTR74," "0,1"
bitfld.long 0x08 9. "WKG_ENB_FOR_INTR73," "0,1"
newline
bitfld.long 0x08 8. "WKG_ENB_FOR_INTR72," "0,1"
bitfld.long 0x08 7. "WKG_ENB_FOR_INTR71," "0,1"
newline
bitfld.long 0x08 6. "WKG_ENB_FOR_INTR70," "0,1"
bitfld.long 0x08 5. "WKG_ENB_FOR_INTR69," "0,1"
newline
bitfld.long 0x08 4. "WKG_ENB_FOR_INTR68," "0,1"
bitfld.long 0x08 3. "WKG_ENB_FOR_INTR67," "0,1"
newline
bitfld.long 0x08 2. "WKG_ENB_FOR_INTR66," "0,1"
bitfld.long 0x08 1. "WKG_ENB_FOR_INTR65," "0,1"
line.long 0x0C "WKG_ENB_D_1,This register enables the interrupts (for CPU1) from MA_IRQ_96 to MA_IRQ_127"
bitfld.long 0x0C 24. "WKG_ENB_FOR_INTR120," "0,1"
bitfld.long 0x0C 23. "WKG_ENB_FOR_INTR119," "0,1"
newline
bitfld.long 0x0C 18. "WKG_ENB_FOR_INTR114," "0,1"
bitfld.long 0x0C 17. "WKG_ENB_FOR_INTR113," "0,1"
newline
bitfld.long 0x0C 16. "WKG_ENB_FOR_INTR112," "0,1"
bitfld.long 0x0C 15. "WKG_ENB_FOR_INTR111," "0,1"
newline
bitfld.long 0x0C 14. "WKG_ENB_FOR_INTR110," "0,1"
bitfld.long 0x0C 13. "WKG_ENB_FOR_INTR109," "0,1"
newline
bitfld.long 0x0C 11. "WKG_ENB_FOR_INTR107," "0,1"
bitfld.long 0x0C 8. "WKG_ENB_FOR_INTR104," "0,1"
newline
bitfld.long 0x0C 7. "WKG_ENB_FOR_INTR103," "0,1"
bitfld.long 0x0C 6. "WKG_ENB_FOR_INTR102," "0,1"
newline
bitfld.long 0x0C 5. "WKG_ENB_FOR_INTR101," "0,1"
bitfld.long 0x0C 4. "WKG_ENB_FOR_INTR100," "0,1"
newline
bitfld.long 0x0C 3. "WKG_ENB_FOR_INTR99," "0,1"
bitfld.long 0x0C 2. "WKG_ENB_FOR_INTR98," "0,1"
newline
bitfld.long 0x0C 1. "WKG_ENB_FOR_INTR97," "0,1"
bitfld.long 0x0C 0. "WKG_ENB_FOR_INTR96," "0,1"
group.long 0x800++0x07
line.long 0x00 "AUX_CORE_BOOT_0,This register is used by the ROM code and OS during SMP boot. it is intended to store execution start address of CPU1"
line.long 0x04 "AUX_CORE_BOOT_1,This register is used by the ROM code and OS during SMP boot. used to indicate boot status to either CPUs"
tree.end
tree.end
tree "Dual_Cortex_M3_MPU_Subsystem"
tree "CM3_RW_Table"
base ansd:0xE00FE000
repeat 2. (list 1. 2. )(list 0x00 0x04 )
group.long ($2+0x00)++0x03
line.long 0x00 "CORTEXM3_RW_PID$1,Peripheral Identification register - allows the user software to differentiate between the two ARM Cortex-M3 processors (two CPUs)"
repeat.end
tree.end
tree "CORTEXM3_WKUP"
base ansd:0x55081000
group.long 0x00++0x13
line.long 0x00 "CORTEXM3_CTRL_REG,The register is used by one CPU to interrupt the other. thus used as a handshake between the two CPUs"
bitfld.long 0x00 16. "INT_CORTEX_2,Interrupt to ARM Cortex-M3 CPU2" "0,1"
bitfld.long 0x00 0. "INT_CORTEX_1,Interrupt to ARM Cortex-M3 CPU1" "0,1"
line.long 0x04 "STANDBY_CORE_SYSCONFIG,Standby protocol"
bitfld.long 0x04 0.--1. "STANDBYMODE," "?,STANDBYMODE_1,STANDBYMODE_2,STANDBYMODE_3"
line.long 0x08 "IDLE_CORE_SYSCONFIG,Idle protocol"
bitfld.long 0x08 0.--1. "IDLEMODE," "?,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
line.long 0x0C "WUGEN_MEVT0,This register contains the interrupt mask (LSB) wake-up enable bit per interrupt request"
bitfld.long 0x0C 31. "MIRQ31,Interrupt Mask bit 31" "0,1"
bitfld.long 0x0C 29. "MIRQ29,Interrupt Mask bit 29" "0,1"
bitfld.long 0x0C 28. "MIRQ28,Interrupt Mask bit 28" "0,1"
bitfld.long 0x0C 27. "MIRQ27,Interrupt Mask bit 27" "0,1"
bitfld.long 0x0C 26. "MIRQ26,Interrupt Mask bit 26" "0,1"
bitfld.long 0x0C 25. "MIRQ25,Interrupt Mask bit 25" "0,1"
bitfld.long 0x0C 24. "MIRQ24,Interrupt Mask bit 24" "0,1"
newline
bitfld.long 0x0C 23. "MIRQ23,Interrupt Mask bit 23" "0,1"
bitfld.long 0x0C 22. "MIRQ22,Interrupt Mask bit 22" "0,1"
bitfld.long 0x0C 21. "MIRQ21,Interrupt Mask bit 21" "0,1"
bitfld.long 0x0C 20. "MIRQ20,Interrupt Mask bit 20" "0,1"
bitfld.long 0x0C 19. "MIRQ19,Interrupt Mask bit 19" "0,1"
bitfld.long 0x0C 18. "MIRQ18,Interrupt Mask bit 18" "0,1"
bitfld.long 0x0C 17. "MIRQ17,Interrupt Mask bit 17" "0,1"
newline
bitfld.long 0x0C 16. "MIRQ16,Interrupt Mask bit 16" "0,1"
bitfld.long 0x0C 15. "MIRQ15,Interrupt Mask bit 15" "0,1"
bitfld.long 0x0C 14. "MIRQ14,Interrupt Mask bit 14" "0,1"
bitfld.long 0x0C 13. "MIRQ13,Interrupt Mask bit 13" "0,1"
bitfld.long 0x0C 12. "MIRQ12,Interrupt Mask bit 12" "0,1"
bitfld.long 0x0C 11. "MIRQ11,Interrupt Mask bit 11" "0,1"
bitfld.long 0x0C 10. "MIRQ10,Interrupt Mask bit 10" "0,1"
newline
bitfld.long 0x0C 9. "MIRQ9,Interrupt Mask bit 9" "0,1"
bitfld.long 0x0C 8. "MIRQ8,Interrupt Mask bit 8" "0,1"
bitfld.long 0x0C 7. "MIRQ7,Interrupt Mask bit 7" "0,1"
line.long 0x10 "WUGEN_MEVT1,This register contains the interrupt mask (MSB) wake-up enable bit per interrupt request"
bitfld.long 0x10 31. "MIRQ63,Interrupt Mask bit 63" "0,1"
bitfld.long 0x10 30. "MIRQ62,Interrupt Mask bit 62" "0,1"
bitfld.long 0x10 29. "MIRQ61,Interrupt Mask bit 61" "0,1"
bitfld.long 0x10 28. "MIRQ60,Interrupt Mask bit 60" "0,1"
bitfld.long 0x10 27. "MIRQ59,Interrupt Mask bit 59" "0,1"
bitfld.long 0x10 26. "MIRQ58,Interrupt Mask bit 58" "0,1"
bitfld.long 0x10 25. "MIRQ57,Interrupt Mask bit 57" "0,1"
newline
bitfld.long 0x10 24. "MIRQ56,Interrupt Mask bit 56" "0,1"
bitfld.long 0x10 22. "MIRQ54,Interrupt Mask bit 54" "0,1"
bitfld.long 0x10 21. "MIRQ53,Interrupt Mask bit 53" "0,1"
bitfld.long 0x10 20. "MIRQ52,Interrupt Mask bit 52" "0,1"
bitfld.long 0x10 19. "MIRQ51,Interrupt Mask bit 51" "0,1"
bitfld.long 0x10 18. "MIRQ50,Interrupt Mask bit 50" "0,1"
bitfld.long 0x10 16. "MIRQ48,Interrupt Mask bit 48" "0,1"
newline
bitfld.long 0x10 15. "MIRQ47,Interrupt Mask bit 47" "0,1"
bitfld.long 0x10 14. "MIRQ46,Interrupt Mask bit 46" "0,1"
bitfld.long 0x10 10. "MIRQ42,Interrupt Mask bit 42" "0,1"
bitfld.long 0x10 9. "MIRQ41,Interrupt Mask bit 41" "0,1"
bitfld.long 0x10 8. "MIRQ40,Interrupt Mask bit 40" "0,1"
bitfld.long 0x10 7. "MIRQ39,Interrupt Mask bit 39" "0,1"
bitfld.long 0x10 6. "MIRQ38,Interrupt Mask bit 38" "0,1"
newline
bitfld.long 0x10 5. "MIRQ37,Interrupt Mask bit 37" "0,1"
bitfld.long 0x10 4. "MIRQ36,Interrupt Mask bit 36" "0,1"
bitfld.long 0x10 3. "MIRQ35,Interrupt Mask bit 35" "0,1"
bitfld.long 0x10 2. "MIRQ34,Interrupt Mask bit 34" "0,1"
bitfld.long 0x10 1. "MIRQ33,Interrupt Mask bit 33" "0,1"
tree.end
tree.end
tree "Dynamic_Memory_Manager"
tree "DMM"
base ansd:0x4E000000
tree "Channel_0"
group.long 0x40++0x03
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" "SYS_SIZE_0,SYS_SIZE_1,SYS_SIZE_2,SYS_SIZE_3,SYS_SIZE_4,SYS_SIZE_5,SYS_SIZE_6,SYS_SIZE_7"
newline
bitfld.long 0x00 18.--19. "SDRC_INTL,SDRAM controller interleaving mode" "No interleaving,128-byte interleaving,256-byte interleaving,512-byte interleaving The 128-/256-/512-byte.."
bitfld.long 0x00 16.--17. "SDRC_ADDRSPC,SDRAM controller address space for view mapping i" "0,1,2,3"
newline
bitfld.long 0x00 8.--9. "SDRC_MAP,SDRAM controller mapping for view mapping i" "Unmapped,Mapped on EMIF1 only (not interleaved),Mapped on EMIF2 only (not interleaved),Mapped on EMIF1 and EMIF2 (interleaved) To.."
hexmask.long.byte 0x00 0.--7. 1. "SDRC_ADDR,SDRAM controller address MSB for view mapping i"
group.long 0x504++0x0B
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.--30. 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"
newline
hexmask.long.byte 0x00 8.--14. 1. "Y0,Y-coordinate of the top-left corner of the PAT area for engine n"
hexmask.long.byte 0x00 0.--7. 1. "X0,X-coordinate of the top-left corner of the PAT area for engine n"
line.long 0x04 "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 0x04 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 0x04 16. "SYNC,DMM PAT table reload synchronization for engine n" "SYNC_0,SYNC_1"
newline
bitfld.long 0x04 4.--6. "DIRECTION,Direction of this PAT table refill for engine n" "0,1,2,3,4,5,6,7"
bitfld.long 0x04 0. "START,Starting a PAT table refill with engine n" "0,1"
line.long 0x08 "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 0x08 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++0x03
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"
hexmask.long 0x00 4.--31. 1. "ADDR,Physical address of the next table refill descriptor of engine n"
rgroup.long 0x4C0++0x03
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" "ERROR_0_r,ERROR_1_r,ERROR_2_r,?,ERROR_4_r,?,?,?,ERROR_8_r,?,?,?,?,?,?,?,ERROR_16_r,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,ERROR_32_r,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
bitfld.long 0x00 7. "BYPASSED,Engine n is bypassed" "0,1"
bitfld.long 0x00 4. "LINKED,Area reconfiguration link asserted for engine n" "0,1"
newline
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"
newline
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++0x03
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" "ACCESS_PAGE_0,ACCESS_PAGE_1"
bitfld.long 0x00 24.--27. "CONT_PAGE,Container for page mode in view mapping i" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 23. "ACCESS_32,Kind of access for this 32-bit mode container in view mapping i" "ACCESS_32_0,ACCESS_32_1"
bitfld.long 0x00 16.--19. "CONT_32,Container for 32-bit mode in view mapping i" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 15. "ACCESS_16,Kind of access for this 16-bit mode container in view mapping i" "ACCESS_16_0,ACCESS_16_1"
bitfld.long 0x00 8.--11. "CONT_16,Container for 16-bit mode in view mapping i" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 7. "ACCESS_8,Kind of access for this 8-bit mode container in view mapping i" "ACCESS_8_0,ACCESS_8_1"
bitfld.long 0x00 0.--3. "CONT_8,Container for 8-bit mode in view mapping i" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x620++0x03
line.long 0x00 "DMM_PEG_PRIO_k_0,DMM PEG Priority register"
bitfld.long 0x00 31. "W7,Write-enable for P7 bit field" "W7_0_w,W7_1_w"
bitfld.long 0x00 28.--30. "P7,Priority for initiator 8.k+7" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 27. "W6,Write-enable for P6 bit field" "W6_0_w,W6_1_w"
bitfld.long 0x00 24.--26. "P6,Priority for initiator 8.k+6" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 23. "W5,Write-enable for P5 bit field" "W5_0_w,W5_1_w"
bitfld.long 0x00 20.--22. "P5,Priority for initiator 8.k+5" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 19. "W4,Write-enable for P4 bit field" "W4_0_w,W4_1_w"
bitfld.long 0x00 16.--18. "P4,Priority for initiator 8.k+4" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 15. "W3,Write-enable for P3 bit field" "W3_0_w,W3_1_w"
bitfld.long 0x00 12.--14. "P3,Priority for initiator 8.k+3" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 11. "W2,Write-enable for P2 bit field" "W2_0_w,W2_1_w"
bitfld.long 0x00 8.--10. "P2,Priority for initiator 8.k+2" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 7. "W1,Write-enable for P1 bit field" "W1_0_w,W1_1_w"
bitfld.long 0x00 4.--6. "P1,Priority for initiator 8.k+1" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 3. "W0,Write-enable for P0 bit field" "W0_0_w,W0_1_w"
bitfld.long 0x00 0.--2. "P0,Priority for initiator 8.k" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
group.long 0x44++0x03
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" "SYS_SIZE_0,SYS_SIZE_1,SYS_SIZE_2,SYS_SIZE_3,SYS_SIZE_4,SYS_SIZE_5,SYS_SIZE_6,SYS_SIZE_7"
newline
bitfld.long 0x00 18.--19. "SDRC_INTL,SDRAM controller interleaving mode" "No interleaving,128-byte interleaving,256-byte interleaving,512-byte interleaving The 128-/256-/512-byte.."
bitfld.long 0x00 16.--17. "SDRC_ADDRSPC,SDRAM controller address space for view mapping i" "0,1,2,3"
newline
bitfld.long 0x00 8.--9. "SDRC_MAP,SDRAM controller mapping for view mapping i" "Unmapped,Mapped on EMIF1 only (not interleaved),Mapped on EMIF2 only (not interleaved),Mapped on EMIF1 and EMIF2 (interleaved) To.."
hexmask.long.byte 0x00 0.--7. 1. "SDRC_ADDR,SDRAM controller address MSB for view mapping i"
group.long 0x514++0x0B
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.--30. 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"
newline
hexmask.long.byte 0x00 8.--14. 1. "Y0,Y-coordinate of the top-left corner of the PAT area for engine n"
hexmask.long.byte 0x00 0.--7. 1. "X0,X-coordinate of the top-left corner of the PAT area for engine n"
line.long 0x04 "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 0x04 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 0x04 16. "SYNC,DMM PAT table reload synchronization for engine n" "SYNC_0,SYNC_1"
newline
bitfld.long 0x04 4.--6. "DIRECTION,Direction of this PAT table refill for engine n" "0,1,2,3,4,5,6,7"
bitfld.long 0x04 0. "START,Starting a PAT table refill with engine n" "0,1"
line.long 0x08 "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 0x08 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++0x03
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"
hexmask.long 0x00 4.--31. 1. "ADDR,Physical address of the next table refill descriptor of engine n"
rgroup.long 0x4C4++0x03
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" "ERROR_0_r,ERROR_1_r,ERROR_2_r,?,ERROR_4_r,?,?,?,ERROR_8_r,?,?,?,?,?,?,?,ERROR_16_r,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,ERROR_32_r,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
bitfld.long 0x00 7. "BYPASSED,Engine n is bypassed" "0,1"
bitfld.long 0x00 4. "LINKED,Area reconfiguration link asserted for engine n" "0,1"
newline
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"
newline
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++0x03
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" "ACCESS_PAGE_0,ACCESS_PAGE_1"
bitfld.long 0x00 24.--27. "CONT_PAGE,Container for page mode in view mapping i" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 23. "ACCESS_32,Kind of access for this 32-bit mode container in view mapping i" "ACCESS_32_0,ACCESS_32_1"
bitfld.long 0x00 16.--19. "CONT_32,Container for 32-bit mode in view mapping i" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 15. "ACCESS_16,Kind of access for this 16-bit mode container in view mapping i" "ACCESS_16_0,ACCESS_16_1"
bitfld.long 0x00 8.--11. "CONT_16,Container for 16-bit mode in view mapping i" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 7. "ACCESS_8,Kind of access for this 8-bit mode container in view mapping i" "ACCESS_8_0,ACCESS_8_1"
bitfld.long 0x00 0.--3. "CONT_8,Container for 8-bit mode in view mapping i" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x624++0x03
line.long 0x00 "DMM_PEG_PRIO_k_1,DMM PEG Priority register"
bitfld.long 0x00 31. "W7,Write-enable for P7 bit field" "W7_0_w,W7_1_w"
bitfld.long 0x00 28.--30. "P7,Priority for initiator 8.k+7" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 27. "W6,Write-enable for P6 bit field" "W6_0_w,W6_1_w"
bitfld.long 0x00 24.--26. "P6,Priority for initiator 8.k+6" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 23. "W5,Write-enable for P5 bit field" "W5_0_w,W5_1_w"
bitfld.long 0x00 20.--22. "P5,Priority for initiator 8.k+5" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 19. "W4,Write-enable for P4 bit field" "W4_0_w,W4_1_w"
bitfld.long 0x00 16.--18. "P4,Priority for initiator 8.k+4" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 15. "W3,Write-enable for P3 bit field" "W3_0_w,W3_1_w"
bitfld.long 0x00 12.--14. "P3,Priority for initiator 8.k+3" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 11. "W2,Write-enable for P2 bit field" "W2_0_w,W2_1_w"
bitfld.long 0x00 8.--10. "P2,Priority for initiator 8.k+2" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 7. "W1,Write-enable for P1 bit field" "W1_0_w,W1_1_w"
bitfld.long 0x00 4.--6. "P1,Priority for initiator 8.k+1" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 3. "W0,Write-enable for P0 bit field" "W0_0_w,W0_1_w"
bitfld.long 0x00 0.--2. "P0,Priority for initiator 8.k" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
group.long 0x48++0x03
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" "SYS_SIZE_0,SYS_SIZE_1,SYS_SIZE_2,SYS_SIZE_3,SYS_SIZE_4,SYS_SIZE_5,SYS_SIZE_6,SYS_SIZE_7"
newline
bitfld.long 0x00 18.--19. "SDRC_INTL,SDRAM controller interleaving mode" "No interleaving,128-byte interleaving,256-byte interleaving,512-byte interleaving The 128-/256-/512-byte.."
bitfld.long 0x00 16.--17. "SDRC_ADDRSPC,SDRAM controller address space for view mapping i" "0,1,2,3"
newline
bitfld.long 0x00 8.--9. "SDRC_MAP,SDRAM controller mapping for view mapping i" "Unmapped,Mapped on EMIF1 only (not interleaved),Mapped on EMIF2 only (not interleaved),Mapped on EMIF1 and EMIF2 (interleaved) To.."
hexmask.long.byte 0x00 0.--7. 1. "SDRC_ADDR,SDRAM controller address MSB for view mapping i"
group.long 0x524++0x0B
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.--30. 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"
newline
hexmask.long.byte 0x00 8.--14. 1. "Y0,Y-coordinate of the top-left corner of the PAT area for engine n"
hexmask.long.byte 0x00 0.--7. 1. "X0,X-coordinate of the top-left corner of the PAT area for engine n"
line.long 0x04 "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 0x04 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 0x04 16. "SYNC,DMM PAT table reload synchronization for engine n" "SYNC_0,SYNC_1"
newline
bitfld.long 0x04 4.--6. "DIRECTION,Direction of this PAT table refill for engine n" "0,1,2,3,4,5,6,7"
bitfld.long 0x04 0. "START,Starting a PAT table refill with engine n" "0,1"
line.long 0x08 "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 0x08 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++0x03
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"
hexmask.long 0x00 4.--31. 1. "ADDR,Physical address of the next table refill descriptor of engine n"
rgroup.long 0x4C8++0x03
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" "ERROR_0_r,ERROR_1_r,ERROR_2_r,?,ERROR_4_r,?,?,?,ERROR_8_r,?,?,?,?,?,?,?,ERROR_16_r,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,ERROR_32_r,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
bitfld.long 0x00 7. "BYPASSED,Engine n is bypassed" "0,1"
bitfld.long 0x00 4. "LINKED,Area reconfiguration link asserted for engine n" "0,1"
newline
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"
newline
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++0x03
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" "ACCESS_PAGE_0,ACCESS_PAGE_1"
bitfld.long 0x00 24.--27. "CONT_PAGE,Container for page mode in view mapping i" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 23. "ACCESS_32,Kind of access for this 32-bit mode container in view mapping i" "ACCESS_32_0,ACCESS_32_1"
bitfld.long 0x00 16.--19. "CONT_32,Container for 32-bit mode in view mapping i" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 15. "ACCESS_16,Kind of access for this 16-bit mode container in view mapping i" "ACCESS_16_0,ACCESS_16_1"
bitfld.long 0x00 8.--11. "CONT_16,Container for 16-bit mode in view mapping i" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 7. "ACCESS_8,Kind of access for this 8-bit mode container in view mapping i" "ACCESS_8_0,ACCESS_8_1"
bitfld.long 0x00 0.--3. "CONT_8,Container for 8-bit mode in view mapping i" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x628++0x03
line.long 0x00 "DMM_PEG_PRIO_k_2,DMM PEG Priority register"
bitfld.long 0x00 31. "W7,Write-enable for P7 bit field" "W7_0_w,W7_1_w"
bitfld.long 0x00 28.--30. "P7,Priority for initiator 8.k+7" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 27. "W6,Write-enable for P6 bit field" "W6_0_w,W6_1_w"
bitfld.long 0x00 24.--26. "P6,Priority for initiator 8.k+6" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 23. "W5,Write-enable for P5 bit field" "W5_0_w,W5_1_w"
bitfld.long 0x00 20.--22. "P5,Priority for initiator 8.k+5" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 19. "W4,Write-enable for P4 bit field" "W4_0_w,W4_1_w"
bitfld.long 0x00 16.--18. "P4,Priority for initiator 8.k+4" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 15. "W3,Write-enable for P3 bit field" "W3_0_w,W3_1_w"
bitfld.long 0x00 12.--14. "P3,Priority for initiator 8.k+3" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 11. "W2,Write-enable for P2 bit field" "W2_0_w,W2_1_w"
bitfld.long 0x00 8.--10. "P2,Priority for initiator 8.k+2" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 7. "W1,Write-enable for P1 bit field" "W1_0_w,W1_1_w"
bitfld.long 0x00 4.--6. "P1,Priority for initiator 8.k+1" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 3. "W0,Write-enable for P0 bit field" "W0_0_w,W0_1_w"
bitfld.long 0x00 0.--2. "P0,Priority for initiator 8.k" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
group.long 0x4C++0x03
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" "SYS_SIZE_0,SYS_SIZE_1,SYS_SIZE_2,SYS_SIZE_3,SYS_SIZE_4,SYS_SIZE_5,SYS_SIZE_6,SYS_SIZE_7"
newline
bitfld.long 0x00 18.--19. "SDRC_INTL,SDRAM controller interleaving mode" "No interleaving,128-byte interleaving,256-byte interleaving,512-byte interleaving The 128-/256-/512-byte.."
bitfld.long 0x00 16.--17. "SDRC_ADDRSPC,SDRAM controller address space for view mapping i" "0,1,2,3"
newline
bitfld.long 0x00 8.--9. "SDRC_MAP,SDRAM controller mapping for view mapping i" "Unmapped,Mapped on EMIF1 only (not interleaved),Mapped on EMIF2 only (not interleaved),Mapped on EMIF1 and EMIF2 (interleaved) To.."
hexmask.long.byte 0x00 0.--7. 1. "SDRC_ADDR,SDRAM controller address MSB for view mapping i"
group.long 0x534++0x0B
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.--30. 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"
newline
hexmask.long.byte 0x00 8.--14. 1. "Y0,Y-coordinate of the top-left corner of the PAT area for engine n"
hexmask.long.byte 0x00 0.--7. 1. "X0,X-coordinate of the top-left corner of the PAT area for engine n"
line.long 0x04 "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 0x04 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 0x04 16. "SYNC,DMM PAT table reload synchronization for engine n" "SYNC_0,SYNC_1"
newline
bitfld.long 0x04 4.--6. "DIRECTION,Direction of this PAT table refill for engine n" "0,1,2,3,4,5,6,7"
bitfld.long 0x04 0. "START,Starting a PAT table refill with engine n" "0,1"
line.long 0x08 "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 0x08 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++0x03
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"
hexmask.long 0x00 4.--31. 1. "ADDR,Physical address of the next table refill descriptor of engine n"
rgroup.long 0x4CC++0x03
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" "ERROR_0_r,ERROR_1_r,ERROR_2_r,?,ERROR_4_r,?,?,?,ERROR_8_r,?,?,?,?,?,?,?,ERROR_16_r,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,ERROR_32_r,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
bitfld.long 0x00 7. "BYPASSED,Engine n is bypassed" "0,1"
bitfld.long 0x00 4. "LINKED,Area reconfiguration link asserted for engine n" "0,1"
newline
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"
newline
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++0x03
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" "ACCESS_PAGE_0,ACCESS_PAGE_1"
bitfld.long 0x00 24.--27. "CONT_PAGE,Container for page mode in view mapping i" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 23. "ACCESS_32,Kind of access for this 32-bit mode container in view mapping i" "ACCESS_32_0,ACCESS_32_1"
bitfld.long 0x00 16.--19. "CONT_32,Container for 32-bit mode in view mapping i" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 15. "ACCESS_16,Kind of access for this 16-bit mode container in view mapping i" "ACCESS_16_0,ACCESS_16_1"
bitfld.long 0x00 8.--11. "CONT_16,Container for 16-bit mode in view mapping i" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 7. "ACCESS_8,Kind of access for this 8-bit mode container in view mapping i" "ACCESS_8_0,ACCESS_8_1"
bitfld.long 0x00 0.--3. "CONT_8,Container for 8-bit mode in view mapping i" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x62C++0x13
line.long 0x00 "DMM_PEG_PRIO_k_3,DMM PEG Priority register"
bitfld.long 0x00 31. "W7,Write-enable for P7 bit field" "W7_0_w,W7_1_w"
bitfld.long 0x00 28.--30. "P7,Priority for initiator 8.k+7" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 27. "W6,Write-enable for P6 bit field" "W6_0_w,W6_1_w"
bitfld.long 0x00 24.--26. "P6,Priority for initiator 8.k+6" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 23. "W5,Write-enable for P5 bit field" "W5_0_w,W5_1_w"
bitfld.long 0x00 20.--22. "P5,Priority for initiator 8.k+5" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 19. "W4,Write-enable for P4 bit field" "W4_0_w,W4_1_w"
bitfld.long 0x00 16.--18. "P4,Priority for initiator 8.k+4" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 15. "W3,Write-enable for P3 bit field" "W3_0_w,W3_1_w"
bitfld.long 0x00 12.--14. "P3,Priority for initiator 8.k+3" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 11. "W2,Write-enable for P2 bit field" "W2_0_w,W2_1_w"
bitfld.long 0x00 8.--10. "P2,Priority for initiator 8.k+2" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 7. "W1,Write-enable for P1 bit field" "W1_0_w,W1_1_w"
bitfld.long 0x00 4.--6. "P1,Priority for initiator 8.k+1" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 3. "W0,Write-enable for P0 bit field" "W0_0_w,W0_1_w"
bitfld.long 0x00 0.--2. "P0,Priority for initiator 8.k" "0,1,2,3,4,5,6,7"
line.long 0x04 "DMM_PEG_PRIO_k_4,DMM PEG Priority register"
bitfld.long 0x04 31. "W7,Write-enable for P7 bit field" "W7_0_w,W7_1_w"
bitfld.long 0x04 28.--30. "P7,Priority for initiator 8.k+7" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x04 27. "W6,Write-enable for P6 bit field" "W6_0_w,W6_1_w"
bitfld.long 0x04 24.--26. "P6,Priority for initiator 8.k+6" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x04 23. "W5,Write-enable for P5 bit field" "W5_0_w,W5_1_w"
bitfld.long 0x04 20.--22. "P5,Priority for initiator 8.k+5" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x04 19. "W4,Write-enable for P4 bit field" "W4_0_w,W4_1_w"
bitfld.long 0x04 16.--18. "P4,Priority for initiator 8.k+4" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x04 15. "W3,Write-enable for P3 bit field" "W3_0_w,W3_1_w"
bitfld.long 0x04 12.--14. "P3,Priority for initiator 8.k+3" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x04 11. "W2,Write-enable for P2 bit field" "W2_0_w,W2_1_w"
bitfld.long 0x04 8.--10. "P2,Priority for initiator 8.k+2" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x04 7. "W1,Write-enable for P1 bit field" "W1_0_w,W1_1_w"
bitfld.long 0x04 4.--6. "P1,Priority for initiator 8.k+1" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x04 3. "W0,Write-enable for P0 bit field" "W0_0_w,W0_1_w"
bitfld.long 0x04 0.--2. "P0,Priority for initiator 8.k" "0,1,2,3,4,5,6,7"
line.long 0x08 "DMM_PEG_PRIO_k_5,DMM PEG Priority register"
bitfld.long 0x08 31. "W7,Write-enable for P7 bit field" "W7_0_w,W7_1_w"
bitfld.long 0x08 28.--30. "P7,Priority for initiator 8.k+7" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x08 27. "W6,Write-enable for P6 bit field" "W6_0_w,W6_1_w"
bitfld.long 0x08 24.--26. "P6,Priority for initiator 8.k+6" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x08 23. "W5,Write-enable for P5 bit field" "W5_0_w,W5_1_w"
bitfld.long 0x08 20.--22. "P5,Priority for initiator 8.k+5" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x08 19. "W4,Write-enable for P4 bit field" "W4_0_w,W4_1_w"
bitfld.long 0x08 16.--18. "P4,Priority for initiator 8.k+4" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x08 15. "W3,Write-enable for P3 bit field" "W3_0_w,W3_1_w"
bitfld.long 0x08 12.--14. "P3,Priority for initiator 8.k+3" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x08 11. "W2,Write-enable for P2 bit field" "W2_0_w,W2_1_w"
bitfld.long 0x08 8.--10. "P2,Priority for initiator 8.k+2" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x08 7. "W1,Write-enable for P1 bit field" "W1_0_w,W1_1_w"
bitfld.long 0x08 4.--6. "P1,Priority for initiator 8.k+1" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x08 3. "W0,Write-enable for P0 bit field" "W0_0_w,W0_1_w"
bitfld.long 0x08 0.--2. "P0,Priority for initiator 8.k" "0,1,2,3,4,5,6,7"
line.long 0x0C "DMM_PEG_PRIO_k_6,DMM PEG Priority register"
bitfld.long 0x0C 31. "W7,Write-enable for P7 bit field" "W7_0_w,W7_1_w"
bitfld.long 0x0C 28.--30. "P7,Priority for initiator 8.k+7" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x0C 27. "W6,Write-enable for P6 bit field" "W6_0_w,W6_1_w"
bitfld.long 0x0C 24.--26. "P6,Priority for initiator 8.k+6" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x0C 23. "W5,Write-enable for P5 bit field" "W5_0_w,W5_1_w"
bitfld.long 0x0C 20.--22. "P5,Priority for initiator 8.k+5" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x0C 19. "W4,Write-enable for P4 bit field" "W4_0_w,W4_1_w"
bitfld.long 0x0C 16.--18. "P4,Priority for initiator 8.k+4" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x0C 15. "W3,Write-enable for P3 bit field" "W3_0_w,W3_1_w"
bitfld.long 0x0C 12.--14. "P3,Priority for initiator 8.k+3" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x0C 11. "W2,Write-enable for P2 bit field" "W2_0_w,W2_1_w"
bitfld.long 0x0C 8.--10. "P2,Priority for initiator 8.k+2" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x0C 7. "W1,Write-enable for P1 bit field" "W1_0_w,W1_1_w"
bitfld.long 0x0C 4.--6. "P1,Priority for initiator 8.k+1" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x0C 3. "W0,Write-enable for P0 bit field" "W0_0_w,W0_1_w"
bitfld.long 0x0C 0.--2. "P0,Priority for initiator 8.k" "0,1,2,3,4,5,6,7"
line.long 0x10 "DMM_PEG_PRIO_k_7,DMM PEG Priority register"
bitfld.long 0x10 31. "W7,Write-enable for P7 bit field" "W7_0_w,W7_1_w"
bitfld.long 0x10 28.--30. "P7,Priority for initiator 8.k+7" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x10 27. "W6,Write-enable for P6 bit field" "W6_0_w,W6_1_w"
bitfld.long 0x10 24.--26. "P6,Priority for initiator 8.k+6" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x10 23. "W5,Write-enable for P5 bit field" "W5_0_w,W5_1_w"
bitfld.long 0x10 20.--22. "P5,Priority for initiator 8.k+5" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x10 19. "W4,Write-enable for P4 bit field" "W4_0_w,W4_1_w"
bitfld.long 0x10 16.--18. "P4,Priority for initiator 8.k+4" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x10 15. "W3,Write-enable for P3 bit field" "W3_0_w,W3_1_w"
bitfld.long 0x10 12.--14. "P3,Priority for initiator 8.k+3" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x10 11. "W2,Write-enable for P2 bit field" "W2_0_w,W2_1_w"
bitfld.long 0x10 8.--10. "P2,Priority for initiator 8.k+2" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x10 7. "W1,Write-enable for P1 bit field" "W1_0_w,W1_1_w"
bitfld.long 0x10 4.--6. "P1,Priority for initiator 8.k+1" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x10 3. "W0,Write-enable for P0 bit field" "W0_0_w,W0_1_w"
bitfld.long 0x10 0.--2. "P0,Priority for initiator 8.k" "0,1,2,3,4,5,6,7"
tree.end
rgroup.long 0x04++0x07
line.long 0x00 "DMM_HWINFO,DMM hardware configuration"
bitfld.long 0x00 16.--19. "ROBIN_CNT,Number of ROBIN in the DMM" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "ELLA_CNT,Number of ELLA in the DMM" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "TILER_CNT,Number of TILER in the DMM" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x04 "DMM_LISA_HWINFO,DMM hardware configuration for LISA"
bitfld.long 0x04 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 0x04 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 0x1C++0x03
line.long 0x00 "DMM_LISA_LOCK,DMM memory mapping lock"
bitfld.long 0x00 0. "LOCK,DMM lock map" "LOCK_0_r,LOCK_1_w"
group.long 0x410++0x03
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" "MODE3_0,MODE3_1"
bitfld.long 0x00 2. "MODE2,Mode of refill engine" "MODE2_0,MODE2_1"
bitfld.long 0x00 1. "MODE1,Mode of refill engine" "MODE1_0,MODE1_1"
bitfld.long 0x00 0. "MODE0,Mode of refill engine" "MODE0_0,MODE0_1"
rgroup.long 0x40C++0x03
line.long 0x00 "DMM_PAT_GEOMETRY,PAT geometry-related settings"
bitfld.long 0x00 24.--26. "CONT_HGHT,Container height in pages" "?,CONT_HGHT_1_r,CONT_HGHT_2_r,?,CONT_HGHT_4_r,?,?,?"
bitfld.long 0x00 16.--19. "CONT_WDTH,Container width in pages" "?,?,CONT_WDTH_2_r,?,CONT_WDTH_4_r,?,?,?,CONT_WDTH_8_r,?,?,?,?,?,?,?"
bitfld.long 0x00 8.--13. "ADDR_RANGE,PAT output physical address range" "?,ADDR_RANGE_1_r,ADDR_RANGE_2_r,?,ADDR_RANGE_4_r,?,?,?,ADDR_RANGE_8_r,?,?,?,?,?,?,?,ADDR_RANGE_16_r,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,ADDR_RANGE_32_r,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 0.--4. "PAGE_SZ,Page size in 4-KB granularity" "?,PAGE_SZ_1_r,?,?,PAGE_SZ_4_r,?,?,?,?,?,?,?,?,?,?,?,PAGE_SZ_16_r,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
rgroup.long 0x408++0x03
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" "?,VIEW_MAP_CNT_1_r,VIEW_MAP_CNT_2_r,?,VIEW_MAP_CNT_4_r,?,?,?,VIEW_MAP_CNT_8_r,?,?,?,?,?,?,?"
hexmask.long.byte 0x00 0.--6. 1. "VIEW_CNT,Number of PAT view entries"
group.long 0x4B0++0x03
line.long 0x00 "DMM_PAT_IRQENABLE_CLR,Per-event interrupt enable bit vector"
bitfld.long 0x00 15. "ERR_LUT_MISS1,Unexpected access to a yet-to-be-refilled area interrupt source mask for area" "ERR_LUT_MISS1_0_r,ERR_LUT_MISS1_1_w"
bitfld.long 0x00 14. "ERR_UPD_DATA1,Unexpected data register update while refilling interrupt source mask for area" "ERR_UPD_DATA1_0_r,ERR_UPD_DATA1_1_w"
bitfld.long 0x00 13. "ERR_UPD_CTRL1,Unexpected control register update while refilling interrupt source mask for area" "ERR_UPD_CTRL1_0_r,ERR_UPD_CTRL1_1_w"
bitfld.long 0x00 12. "ERR_UPD_AREA1,Unexpected area register update while refilling interrupt source mask for area" "ERR_UPD_AREA1_0_r,ERR_UPD_AREA1_1_w"
newline
bitfld.long 0x00 11. "ERR_INV_DATA1,Invalid entry-table pointer interrupt source mask for area" "ERR_INV_DATA1_0_r,ERR_INV_DATA1_1_w"
bitfld.long 0x00 10. "ERR_INV_DSC1,Invalid descriptor pointer interrupt source mask for area" "ERR_INV_DSC1_0_r,ERR_INV_DSC1_1_w"
bitfld.long 0x00 9. "FILL_LST1,End of refill interrupt source mask for the last descriptor in area" "FILL_LST1_0_r,FILL_LST1_1_w"
bitfld.long 0x00 8. "FILL_DSC1,End of refill interrupt source mask for any descriptor in area" "FILL_DSC1_0_r,FILL_DSC1_1_w"
newline
bitfld.long 0x00 7. "ERR_LUT_MISS0,Unexpected access to a yet-to-be-refilled area interrupt source mask for area" "ERR_LUT_MISS0_0_r,ERR_LUT_MISS0_1_w"
bitfld.long 0x00 6. "ERR_UPD_DATA0,Unexpected data register update while refilling interrupt source mask for area" "ERR_UPD_DATA0_0_r,ERR_UPD_DATA0_1_w"
bitfld.long 0x00 5. "ERR_UPD_CTRL0,Unexpected control register update while refilling interrupt source mask for area" "ERR_UPD_CTRL0_0_r,ERR_UPD_CTRL0_1_w"
bitfld.long 0x00 4. "ERR_UPD_AREA0,Unexpected area register update while refilling interrupt source mask for area" "ERR_UPD_AREA0_0_r,ERR_UPD_AREA0_1_w"
newline
bitfld.long 0x00 3. "ERR_INV_DATA0,Invalid entry-table pointer interrupt source mask for area" "ERR_INV_DATA0_0_r,ERR_INV_DATA0_1_w"
bitfld.long 0x00 2. "ERR_INV_DSC0,Invalid descriptor pointer interrupt source mask for area" "ERR_INV_DSC0_0_r,ERR_INV_DSC0_1_w"
bitfld.long 0x00 1. "FILL_LST0,End of refill interrupt source mask for the last descriptor in area" "FILL_LST0_0_r,FILL_LST0_1_w"
bitfld.long 0x00 0. "FILL_DSC0,End of refill interrupt source mask for any descriptor in area" "FILL_DSC0_0_r,FILL_DSC0_1_w"
group.long 0x4A0++0x03
line.long 0x00 "DMM_PAT_IRQENABLE_SET,Per-event interrupt enable bit vector"
bitfld.long 0x00 15. "ERR_LUT_MISS1,Unexpected access to a yet-to-be-refilled area interrupt source mask for area" "ERR_LUT_MISS1_0_r,ERR_LUT_MISS1_1_w"
bitfld.long 0x00 14. "ERR_UPD_DATA1,Unexpected data register update while refilling interrupt source mask for area" "ERR_UPD_DATA1_0_r,ERR_UPD_DATA1_1_w"
bitfld.long 0x00 13. "ERR_UPD_CTRL1,Unexpected control register update while refilling interrupt source mask for area" "ERR_UPD_CTRL1_0_r,ERR_UPD_CTRL1_1_w"
bitfld.long 0x00 12. "ERR_UPD_AREA1,Unexpected area register update while refilling interrupt source mask for area" "ERR_UPD_AREA1_0_r,ERR_UPD_AREA1_1_w"
newline
bitfld.long 0x00 11. "ERR_INV_DATA1,Invalid entry-table pointer interrupt source mask for area" "ERR_INV_DATA1_0_r,ERR_INV_DATA1_1_w"
bitfld.long 0x00 10. "ERR_INV_DSC1,Invalid descriptor pointer interrupt source mask for area" "ERR_INV_DSC1_0_r,ERR_INV_DSC1_1_w"
bitfld.long 0x00 9. "FILL_LST1,End of refill interrupt source mask for the last descriptor in area" "FILL_LST1_0_r,FILL_LST1_1_w"
bitfld.long 0x00 8. "FILL_DSC1,End of refill interrupt source mask for any descriptor in area" "FILL_DSC1_0_r,FILL_DSC1_1_w"
newline
bitfld.long 0x00 7. "ERR_LUT_MISS0,Unexpected access to a yet-to-be-refilled area interrupt source mask for area" "ERR_LUT_MISS0_0_r,ERR_LUT_MISS0_1_w"
bitfld.long 0x00 6. "ERR_UPD_DATA0,Unexpected data register update while refilling interrupt source mask for area" "ERR_UPD_DATA0_0_r,ERR_UPD_DATA0_1_w"
bitfld.long 0x00 5. "ERR_UPD_CTRL0,Unexpected control register update while refilling interrupt source mask for area" "ERR_UPD_CTRL0_0_r,ERR_UPD_CTRL0_1_w"
bitfld.long 0x00 4. "ERR_UPD_AREA0,Unexpected area register update while refilling interrupt source mask for area" "ERR_UPD_AREA0_0_r,ERR_UPD_AREA0_1_w"
newline
bitfld.long 0x00 3. "ERR_INV_DATA0,Invalid entry-table pointer interrupt source mask for area" "ERR_INV_DATA0_0_r,ERR_INV_DATA0_1_w"
bitfld.long 0x00 2. "ERR_INV_DSC0,Invalid descriptor pointer interrupt source mask for area" "ERR_INV_DSC0_0_r,ERR_INV_DSC0_1_w"
bitfld.long 0x00 1. "FILL_LST0,End of refill interrupt source mask for the last descriptor in area" "FILL_LST0_0_r,FILL_LST0_1_w"
bitfld.long 0x00 0. "FILL_DSC0,End of refill interrupt source mask for any descriptor in area" "FILL_DSC0_0_r,FILL_DSC0_1_w"
group.long 0x490++0x03
line.long 0x00 "DMM_PAT_IRQSTATUS,Per-event 'enabled' interrupt status vector"
bitfld.long 0x00 15. "ERR_LUT_MISS1,Access to a yet-to-be-refilled area event in area" "ERR_LUT_MISS1_0_r,ERR_LUT_MISS1_1_w"
bitfld.long 0x00 14. "ERR_UPD_DATA1,Data register update while refilling error event in area" "ERR_UPD_DATA1_0_r,ERR_UPD_DATA1_1_w"
bitfld.long 0x00 13. "ERR_UPD_CTRL1,Control register update while refilling error event in area" "ERR_UPD_CTRL1_0_r,ERR_UPD_CTRL1_1_w"
bitfld.long 0x00 12. "ERR_UPD_AREA1,Area register update while refilling error event in area" "ERR_UPD_AREA1_0_r,ERR_UPD_AREA1_1_w"
newline
bitfld.long 0x00 11. "ERR_INV_DATA1,Invalid entry-table pointer error event in area" "ERR_INV_DATA1_0_r,ERR_INV_DATA1_1_w"
bitfld.long 0x00 10. "ERR_INV_DSC1,Invalid descriptor pointer error event in area" "ERR_INV_DSC1_0_r,ERR_INV_DSC1_1_w"
bitfld.long 0x00 9. "FILL_LST1,End of refill event for the last descriptor in area" "FILL_LST1_0_r,FILL_LST1_1_w"
bitfld.long 0x00 8. "FILL_DSC1,End of refill event for any descriptor in area" "FILL_DSC1_0_r,FILL_DSC1_1_w"
newline
bitfld.long 0x00 7. "ERR_LUT_MISS0,Access to a yet-to-be-refilled area event in area" "ERR_LUT_MISS0_0_r,ERR_LUT_MISS0_1_w"
bitfld.long 0x00 6. "ERR_UPD_DATA0,Data register update while refilling error event in area" "ERR_UPD_DATA0_0_r,ERR_UPD_DATA0_1_w"
bitfld.long 0x00 5. "ERR_UPD_CTRL0,Control register update while refilling error event in area" "ERR_UPD_CTRL0_0_r,ERR_UPD_CTRL0_1_w"
bitfld.long 0x00 4. "ERR_UPD_AREA0,Area register update while refilling error event in area" "ERR_UPD_AREA0_0_r,ERR_UPD_AREA0_1_w"
newline
bitfld.long 0x00 3. "ERR_INV_DATA0,Invalid entry-table pointer error event in area" "ERR_INV_DATA0_0_r,ERR_INV_DATA0_1_w"
bitfld.long 0x00 2. "ERR_INV_DSC0,Invalid descriptor pointer error event in area" "ERR_INV_DSC0_0_r,ERR_INV_DSC0_1_w"
bitfld.long 0x00 1. "FILL_LST0,End of refill event for the last descriptor in area" "FILL_LST0_0_r,FILL_LST0_1_w"
bitfld.long 0x00 0. "FILL_DSC0,End of refill event for any descriptor in area" "FILL_DSC0_0_r,FILL_DSC0_1_w"
group.long 0x480++0x03
line.long 0x00 "DMM_PAT_IRQSTATUS_RAW,Per-event raw interrupt status vector"
bitfld.long 0x00 15. "ERR_LUT_MISS1,Access to a yet-to-be-refilled area event in area" "ERR_LUT_MISS1_0_r,ERR_LUT_MISS1_1_w"
bitfld.long 0x00 14. "ERR_UPD_DATA1,Data register update while refilling error event in area" "ERR_UPD_DATA1_0_r,ERR_UPD_DATA1_1_w"
bitfld.long 0x00 13. "ERR_UPD_CTRL1,Control register update while refilling error event in area" "ERR_UPD_CTRL1_0_r,ERR_UPD_CTRL1_1_w"
bitfld.long 0x00 12. "ERR_UPD_AREA1,Area register update while refilling error event in area" "ERR_UPD_AREA1_0_r,ERR_UPD_AREA1_1_w"
newline
bitfld.long 0x00 11. "ERR_INV_DATA1,Invalid entry-table pointer error event in area" "ERR_INV_DATA1_0_r,ERR_INV_DATA1_1_w"
bitfld.long 0x00 10. "ERR_INV_DSC1,Invalid descriptor pointer error event in area" "ERR_INV_DSC1_0_r,ERR_INV_DSC1_1_w"
bitfld.long 0x00 9. "FILL_LST1,End of refill event for the last descriptor in area" "FILL_LST1_0_r,FILL_LST1_1_w"
bitfld.long 0x00 8. "FILL_DSC1,End of refill event for any descriptor in area" "FILL_DSC1_0_r,FILL_DSC1_1_w"
newline
bitfld.long 0x00 7. "ERR_LUT_MISS0,Access to a yet-to-be-refilled area event in area" "ERR_LUT_MISS0_0_r,ERR_LUT_MISS0_1_w"
bitfld.long 0x00 6. "ERR_UPD_DATA0,Data register update while refilling error event in area" "ERR_UPD_DATA0_0_r,ERR_UPD_DATA0_1_w"
bitfld.long 0x00 5. "ERR_UPD_CTRL0,Control register update while refilling error event in area" "ERR_UPD_CTRL0_0_r,ERR_UPD_CTRL0_1_w"
bitfld.long 0x00 4. "ERR_UPD_AREA0,Area register update while refilling error event in area" "ERR_UPD_AREA0_0_r,ERR_UPD_AREA0_1_w"
newline
bitfld.long 0x00 3. "ERR_INV_DATA0,Invalid entry-table pointer error event in area" "ERR_INV_DATA0_0_r,ERR_INV_DATA0_1_w"
bitfld.long 0x00 2. "ERR_INV_DSC0,Invalid descriptor pointer error event in area" "ERR_INV_DSC0_0_r,ERR_INV_DSC0_1_w"
bitfld.long 0x00 1. "FILL_LST0,End of refill event for the last descriptor in area" "FILL_LST0_0_r,FILL_LST0_1_w"
bitfld.long 0x00 0. "FILL_DSC0,End of refill event for any descriptor in area" "FILL_DSC0_0_r,FILL_DSC0_1_w"
group.long 0x420++0x07
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" "W7_0_w,W7_1_w"
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" "W6_0_w,W6_1_w"
bitfld.long 0x00 24.--25. "V6,PAT view for initiator 6" "0,1,2,3"
newline
bitfld.long 0x00 23. "W5,Write-enable for V5 bit field" "W5_0_w,W5_1_w"
bitfld.long 0x00 20.--21. "V5,PAT view for initiator 5" "0,1,2,3"
bitfld.long 0x00 19. "W4,Write-enable for V4 bit field" "W4_0_w,W4_1_w"
bitfld.long 0x00 16.--17. "V4,PAT view for initiator 4" "0,1,2,3"
newline
bitfld.long 0x00 15. "W3,Write-enable for V3 bit field" "W3_0_w,W3_1_w"
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" "W2_0_w,W2_1_w"
bitfld.long 0x00 8.--9. "V2,PAT view for initiator 2" "0,1,2,3"
newline
bitfld.long 0x00 7. "W1,Write-enable for V1 bit field" "W1_0_w,W1_1_w"
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" "W0_0_w,W0_1_w"
bitfld.long 0x00 0.--1. "V0,PAT view for initiator 0" "0,1,2,3"
line.long 0x04 "DMM_PAT_VIEW1,DMM PAT view register (initiators 8 to 15)"
bitfld.long 0x04 31. "W15,Write-enable for V15 bit field" "W15_0_w,W15_1_w"
bitfld.long 0x04 28.--29. "V15,PAT view for initiator 15" "0,1,2,3"
bitfld.long 0x04 27. "W14,Write-enable for V14 bit field" "W14_0_w,W14_1_w"
bitfld.long 0x04 24.--25. "V14,PAT view for initiator 14" "0,1,2,3"
newline
bitfld.long 0x04 23. "W13,Write-enable for V13 bit field" "W13_0_w,W13_1_w"
bitfld.long 0x04 20.--21. "V13,PAT view for initiator 13" "0,1,2,3"
bitfld.long 0x04 19. "W12,Write-enable for V12 bit field" "W12_0_w,W12_1_w"
bitfld.long 0x04 16.--17. "V12,PAT view for initiator 12" "0,1,2,3"
newline
bitfld.long 0x04 15. "W11,Write-enable for V11 bit field" "W11_0_w,W11_1_w"
bitfld.long 0x04 12.--13. "V11,PAT view for initiator 11" "0,1,2,3"
bitfld.long 0x04 11. "W10,Write-enable for V10 bit field" "W10_0_w,W10_1_w"
bitfld.long 0x04 8.--9. "V10,PAT view for initiator 10" "0,1,2,3"
newline
bitfld.long 0x04 7. "W9,Write-enable for V9 bit field" "W9_0_w,W9_1_w"
bitfld.long 0x04 4.--5. "V9,PAT view for initiator 9" "0,1,2,3"
bitfld.long 0x04 3. "W8,Write-enable for V8 bit field" "W8_0_w,W8_1_w"
bitfld.long 0x04 0.--1. "V8,PAT view for initiator 8" "0,1,2,3"
group.long 0x460++0x03
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"
rgroup.long 0x608++0x03
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"
group.long 0x640++0x03
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" "W_PAT_0_w,W_PAT_1_w"
bitfld.long 0x00 0.--2. "P_PAT,Priority for PAT engine" "0,1,2,3,4,5,6,7"
rgroup.long 0x00++0x03
line.long 0x00 "DMM_REVISION,DMM Revision Number"
group.long 0x10++0x03
line.long 0x00 "DMM_SYSCONFIG,DMM clock management configuration"
bitfld.long 0x00 2.--3. "IDLE_MODE,Configuration of the local target state management mode" "IDLE_MODE_0,IDLE_MODE_1,IDLE_MODE_2,IDLE_MODE_3"
rgroup.long 0x208++0x03
line.long 0x00 "DMM_TILER_HWINFO,DMM hardware configuration for TILER"
bitfld.long 0x00 0.--4. "OR_CNT,Number of TILER orientation entries" "?,OR_CNT_1_r,OR_CNT_2_r,?,OR_CNT_4_r,?,?,?,OR_CNT_8_r,?,?,?,?,?,?,?,OR_CNT_16_r,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
group.long 0x220++0x07
line.long 0x00 "DMM_TILER_OR0,DMM TILER orientation (initiators 0 to 7)"
bitfld.long 0x00 31. "W7,Write-enable for OR7 bit field" "W7_0_w,W7_1_w"
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" "W6_0_w,W6_1_w"
bitfld.long 0x00 24.--26. "OR6,Orientation for initiator 6" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 23. "W5,Write-enable for OR5 bit field" "W5_0_w,W5_1_w"
bitfld.long 0x00 20.--22. "OR5,Orientation for initiator 5" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 19. "W4,Write-enable for OR4 bit field" "W4_0_w,W4_1_w"
bitfld.long 0x00 16.--18. "OR4,Orientation for initiator 4" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 15. "W3,Write-enable for OR3 bit field" "W3_0_w,W3_1_w"
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" "W2_0_w,W2_1_w"
bitfld.long 0x00 8.--10. "OR2,Orientation for initiator 2" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 7. "W1,Write-enable for OR1 bit field" "W1_0_w,W1_1_w"
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" "W0_0_w,W0_1_w"
bitfld.long 0x00 0.--2. "OR0,Orientation for initiator 0" "0,1,2,3,4,5,6,7"
line.long 0x04 "DMM_TILER_OR1,DMM TILER orientation (initiators 8 to 15)"
bitfld.long 0x04 31. "W15,Write-enable for OR15 bit field" "W15_0_w,W15_1_w"
bitfld.long 0x04 28.--30. "OR15,Orientation for initiator 15" "0,1,2,3,4,5,6,7"
bitfld.long 0x04 27. "W14,Write-enable for OR14 bit field" "W14_0_w,W14_1_w"
bitfld.long 0x04 24.--26. "OR14,Orientation for initiator 14" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x04 23. "W13,Write-enable for OR13 bit field" "W13_0_w,W13_1_w"
bitfld.long 0x04 20.--22. "OR13,Orientation for initiator 13" "0,1,2,3,4,5,6,7"
bitfld.long 0x04 19. "W12,Write-enable for OR12 bit field" "W12_0_w,W12_1_w"
bitfld.long 0x04 16.--18. "OR12,Orientation for initiator 12" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x04 15. "W11,Write-enable for OR11 bit field" "W11_0_w,W11_1_w"
bitfld.long 0x04 12.--14. "OR11,Orientation for initiator 11" "0,1,2,3,4,5,6,7"
bitfld.long 0x04 11. "W10,Write-enable for OR10 bit field" "W10_0_w,W10_1_w"
bitfld.long 0x04 8.--10. "OR10,Orientation for initiator 10" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x04 7. "W9,Write-enable for OR9 bit field" "W9_0_w,W9_1_w"
bitfld.long 0x04 4.--6. "OR9,Orientation for initiator 9" "0,1,2,3,4,5,6,7"
bitfld.long 0x04 3. "W8,Write-enable for OR8 bit field" "W8_0_w,W8_1_w"
bitfld.long 0x04 0.--2. "OR8,Orientation for initiator 8" "0,1,2,3,4,5,6,7"
tree.end
tree.end
tree "EMIF_Controller"
repeat 2. (list 1. 2. )(list ansd:0x4C000000 ansd:0x4D000000 )
tree "EMIF$1"
base $2
hgroup.long 0x00++0x03
hide.long 0x00 "EMIF_MOD_ID_REV,Revision number register"
rgroup.long 0x04++0x3F
line.long 0x00 "EMIF_STATUS,SDRAM Status Register (STATUS)"
bitfld.long 0x00 31. "REG_BE,Big endian mode select for 8 and 16-bit devices set to 1 for big endian or 0 for little endian operation" "0,1"
bitfld.long 0x00 30. "REG_DUAL_CLK_MODE,Dual Clock mode" "0,1"
newline
bitfld.long 0x00 29. "REG_FAST_INIT,Fast Init" "0,1"
bitfld.long 0x00 2. "REG_PHY_DLL_READY,DDR PHY Ready" "0,1"
line.long 0x04 "EMIF_SDRAM_CONFIG,SDRAM Config Register"
bitfld.long 0x04 29.--31. "REG_SDRAM_TYPE,SDRAM Type selection" "0,1,2,3,4,5,6,7"
bitfld.long 0x04 27.--28. "REG_IBANK_POS,Internal bank position" "0,1,2,3"
newline
bitfld.long 0x04 23. "REG_DDR2_DDQS,DDR2 differential DQS enable" "0,1"
bitfld.long 0x04 20. "REG_DDR_DISABLE_DLL,Disable DLL select" "0,1"
newline
bitfld.long 0x04 14.--15. "REG_NARROW_MODE,SDRAM data bus width" "0,1,2,3"
bitfld.long 0x04 10.--13. "REG_CL,CAS Latency (referred to as read latency (RL) in some SDRAM specs)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x04 7.--9. "REG_ROWSIZE,Row Size" "0,1,2,3,4,5,6,7"
bitfld.long 0x04 4.--6. "REG_IBANK,Internal Bank setup" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x04 3. "REG_EBANK,External chip select setup" "0,1"
bitfld.long 0x04 0.--2. "REG_PAGESIZE,Page Size" "0,1,2,3,4,5,6,7"
line.long 0x08 "EMIF_SDRAM_CONFIG_2,"
bitfld.long 0x08 30. "REG_CS1NVMEN,CS1 LPDDR2-NVM enable" "0,1"
bitfld.long 0x08 27. "REG_EBANK_POS,External bank position" "0,1"
newline
bitfld.long 0x08 4.--5. "REG_RDBNUM,Row Buffer setup" "0,1,2,3"
bitfld.long 0x08 0.--2. "REG_RDBSIZE,Row Data Buffer Size" "0,1,2,3,4,5,6,7"
line.long 0x0C "EMIF_SDRAM_REF_CTRL,SDRAM Refresh Control Register"
bitfld.long 0x0C 31. "REG_INITREF_DIS,Initialization and Refresh disable" "0,1"
hexmask.long.word 0x0C 0.--15. 1. "REG_REFRESH_RATE,Refresh Rate"
line.long 0x10 "EMIF_SDRAM_REF_CTRL_SHDW,SDRAM Refresh Control Shadow Register"
hexmask.long.word 0x10 0.--15. 1. "REG_REFRESH_RATE_SHDW,Shadow field for REG_REFRESH_RATE"
line.long 0x14 "EMIF_SDRAM_TIM_1,SDRAM Timing 1 Register"
bitfld.long 0x14 25.--28. "REG_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 0x14 21.--24. "REG_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"
newline
bitfld.long 0x14 17.--20. "REG_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 0x14 12.--16. "REG_T_RAS,Minimum number of DDR clock cycles from Activate to Precharge 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"
newline
bitfld.long 0x14 6.--11. "REG_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"
bitfld.long 0x14 3.--5. "REG_T_RRD,Minimum number of DDR clock cycles from Activate to Activate for a different bank minus one" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x14 0.--2. "REG_T_WTR,Minimum number of DDR clock cycles from last Write to Read minus one" "0,1,2,3,4,5,6,7"
line.long 0x18 "EMIF_SDRAM_TIM_1_SHDW,SDRAM Timing 1 Shadow Register"
bitfld.long 0x18 25.--28. "REG_T_RP_SHDW,Shadow field for REG_T_RP" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x18 21.--24. "REG_T_RCD_SHDW,Shadow field for REG_T_RCD" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x18 17.--20. "REG_T_WR_SHDW,Shadow field for REG_T_WR" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x18 12.--16. "REG_T_RAS_SHDW,Shadow field for REG_T_RAS" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
newline
bitfld.long 0x18 6.--11. "REG_T_RC_SHDW,Shadow field for REG_T_RC" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x18 3.--5. "REG_T_RRD_SHDW,Shadow field for REG_T_RRD" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x18 0.--2. "REG_T_WTR_SHDW,Shadow field for REG_T_WTR" "0,1,2,3,4,5,6,7"
line.long 0x1C "EMIF_SDRAM_TIM_2,SDRAM Timing 2 Register"
bitfld.long 0x1C 28.--30. "REG_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 0x1C 16.--24. 1. "REG_T_XSNR,Minimum number of DDR clock cycles from Self-Refresh exit to any command other than a Read command minus one"
newline
hexmask.long.word 0x1C 6.--15. 1. "REG_T_XSRD,Minimum number of DDR clock cycles from Self-Refresh exit to a Read command minus one"
bitfld.long 0x1C 3.--5. "REG_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"
newline
bitfld.long 0x1C 0.--2. "REG_T_CKE,Minimum number of DDR clock cycles between pad_cke_o changes minus one" "0,1,2,3,4,5,6,7"
line.long 0x20 "EMIF_SDRAM_TIM_2_SHDW,SDRAM Timing 2 Shadow Register"
bitfld.long 0x20 28.--30. "REG_T_XP_SHDW,Shadow field for REG_T_XP" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x20 16.--24. 1. "REG_T_XSNR_SHDW,Shadow field for REG_T_XSNR"
newline
hexmask.long.word 0x20 6.--15. 1. "REG_T_XSRD_SHDW,Shadow field for REG_T_XSRD"
bitfld.long 0x20 3.--5. "REG_T_RTP_SHDW,Shadow field for REG_T_RTP" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x20 0.--2. "REG_T_CKE_SHDW,Shadow field for REG_T_CKE" "0,1,2,3,4,5,6,7"
line.long 0x24 "EMIF_SDRAM_TIM_3,SDRAM Timing 3 Register"
bitfld.long 0x24 21.--23. "REG_T_CKESR,Minimum number of DDR clock cycles for which LPDDR2 must remain in Self Refresh minus one" "0,1,2,3,4,5,6,7"
bitfld.long 0x24 15.--20. "REG_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"
newline
bitfld.long 0x24 13.--14. "REG_T_TDQSCKMAX,Number of DDR clock that satisfies tDQSCKmax for LPDDR2 minus one" "0,1,2,3"
hexmask.long.word 0x24 4.--12. 1. "REG_T_RFC,Minimum number of DDR clock cycles from Refresh or Load Mode to Refresh or Activate minus one"
newline
bitfld.long 0x24 0.--3. "REG_T_RAS_MAX,Maximum number of reg_refresh_rate intervals from Activate to Precharge command" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x28 "EMIF_SDRAM_TIM_3_SHDW,SDRAM Timing 3 Shadow Register"
bitfld.long 0x28 21.--23. "REG_T_CKESR_SHDW,Shadow field for reg_t_ckesr" "0,1,2,3,4,5,6,7"
bitfld.long 0x28 15.--20. "REG_ZQ_ZQCS_SHDW,Shadow field for reg_zq_zqcs" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x28 13.--14. "REG_T_TDQSCKMAX_SHDW,Shadow field for REG_T_TDQSCKMAX" "0,1,2,3"
hexmask.long.word 0x28 4.--12. 1. "REG_T_RFC_SHDW,Shadow field for REG_T_RFC"
newline
bitfld.long 0x28 0.--3. "REG_T_RAS_MAX_SHDW,Shadow field for REG_T_RAS_MAX" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x2C "EMIF_LPDDR2_NVM_TIM,LPDDR2-NVM Timing Register"
bitfld.long 0x2C 28.--30. "REG_NVM_T_XP,Minimum number of DDR clock cycles from power-down exit to any command minus one" "0,1,2,3,4,5,6,7"
bitfld.long 0x2C 24.--26. "REG_NVM_T_WTR,Minimum number of DDR clock cycles from last Write to Read minus one" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x2C 20.--23. "REG_NVM_T_RP,Minimum number of DDR clock cycles from Preactive to Activate minus one" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x2C 16.--19. "REG_NVM_T_WRA,Minimum number of DDR clock cycles from last Write transfer to Activate minus one" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
hexmask.long.byte 0x2C 8.--15. 1. "REG_NVM_T_RRD,Minimum number of DDR clock cycles from Activate to Activate for a different bank minus one"
hexmask.long.byte 0x2C 0.--7. 1. "REG_NVM_T_RCDMIN,Minimum number of DDR clock cycles from Activate to Read or Write minus one"
line.long 0x30 "EMIF_LPDDR2_NVM_TIM_SHDW,LPDDR2-NVM Timing Shadow Register"
bitfld.long 0x30 28.--30. "REG_NVM_T_XP_SHDW,Shadow field for REG_NVM_T_XP" "0,1,2,3,4,5,6,7"
bitfld.long 0x30 24.--26. "REG_NVM_T_WTR_SHDW,Shadow field for REG_NVM_T_WTR" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x30 20.--23. "REG_NVM_T_RP_SHDW,Shadow field for REG_NVM_T_RP" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x30 16.--19. "REG_NVM_T_WRA_SHDW,Shadow field for REG_NVM_T_WRA" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
hexmask.long.byte 0x30 8.--15. 1. "REG_NVM_T_RRD_SHDW,Shadow field for REG_NVM_T_RRD"
hexmask.long.byte 0x30 0.--7. 1. "REG_NVM_T_RCDMIN_SHDW,Shadow field for"
line.long 0x34 "EMIF_PWR_MGMT_CTRL,Power Management Control Register"
bitfld.long 0x34 12.--15. "REG_PD_TIM,Power Mangement timer for Power-Down" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x34 11. "REG_DPD_EN,Deep Power Down enable" "0,1"
newline
bitfld.long 0x34 8.--10. "REG_LP_MODE,Automatic Power Management enableSet to" "?,Reserved,Self-refresh mode,?,Power-down mode,?..."
bitfld.long 0x34 4.--7. "REG_SR_TIM,Power Mangement timer for Self Refresh" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x34 0.--3. "REG_CS_TIM,Power Mangement timer for Clock Stop" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x38 "EMIF_PWR_MGMT_CTRL_SHDW,Power Management Control Shadow Register"
bitfld.long 0x38 12.--15. "REG_PD_TIM_SHDW,Shadow field for reg_pd_tim" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x38 4.--7. "REG_SR_TIM_SHDW,Shadow field for reg_sr_tim" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x38 0.--3. "REG_CS_TIM_SHDW,Shadow field for reg_cs_tim" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x3C "EMIF_LPDDR2_MODE_REG_DATA,LPDDR2 Mode Reg Data Register A write to this register will cause a Mode Register write command to be sent to the LPDDR2 device with write data as specified in the REG_VALUE_0 field"
hexmask.long.byte 0x3C 0.--7. 1. "REG_VALUE_0,Mode register value"
group.long 0x50++0x0F
line.long 0x00 "EMIF_LPDDR2_MODE_REG_CFG,LPDDR2 Mode Reg Config Register"
bitfld.long 0x00 31. "REG_CS,Chip select to issue mode register command" "0,1"
bitfld.long 0x00 30. "REG_REFRESH_EN,Refresh Enable after MRW" "0,1"
newline
hexmask.long.byte 0x00 0.--7. 1. "REG_ADDRESS,Mode register address"
line.long 0x04 "EMIF_L3_CONFIG,Config Register"
bitfld.long 0x04 24.--27. "REG_SYS_THRESH_MAX,System L3 Threshold Maximum" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x04 20.--23. "REG_MPU_THRESH_MAX,MPU Interface Threshold Maximum" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x04 16.--19. "REG_LL_THRESH_MAX,Low-latency L3 Threshold Maximum" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x08 "EMIF_L3_CFG_VAL_1,Config Value 1 Register"
bitfld.long 0x08 30.--31. "REG_SYS_BUS_WIDTH,System L3 data bus width" "32-bit wide,64-bit wide,128-bit wide,Reserved"
bitfld.long 0x08 28.--29. "REG_LL_BUS_WIDTH,Low-latency L3 data bus width" "32-bit wide,64-bit wide,128-bit wide,Reserved"
newline
hexmask.long.byte 0x08 8.--15. 1. "REG_WR_FIFO_DEPTH,Write Data FIFO depth"
hexmask.long.byte 0x08 0.--7. 1. "REG_CMD_FIFO_DEPTH,Command FIFO depth"
line.long 0x0C "EMIF_L3_CFG_VAL_2,Config Value 2 Register"
hexmask.long.byte 0x0C 16.--23. 1. "REG_RREG_FIFO_DEPTH,Register Read Data FIFO depth"
hexmask.long.byte 0x0C 8.--15. 1. "REG_RSD_FIFO_DEPTH,SDRAM Read Data FIFO depth"
newline
hexmask.long.byte 0x0C 0.--7. 1. "REG_RCMD_FIFO_DEPTH,Read Command FIFO depth"
rgroup.long 0x80++0x13
line.long 0x00 "EMIF_PERF_CNT_1,Performance Counter 1 Register"
line.long 0x04 "EMIF_PERF_CNT_2,Performance Counter 2 Register"
line.long 0x08 "EMIF_PERF_CNT_CFG,Performance Counter Config Register"
bitfld.long 0x08 31. "REG_CNTR2_MCONNID_EN,MConnID filter enable for Performance Counter 2 register" "0,1"
bitfld.long 0x08 30. "REG_CNTR2_REGION_EN,Chip Select filter enable for Performance Counter 2 register" "0,1"
newline
bitfld.long 0x08 16.--19. "REG_CNTR2_CFG,Filter configuration for Performance Counter 2" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x08 15. "REG_CNTR1_MCONNID_EN,MConnID filter enable for Performance Counter 1 register" "0,1"
newline
bitfld.long 0x08 14. "REG_CNTR1_REGION_EN,Chip Select filter enable for Performance Counter 1 register" "0,1"
bitfld.long 0x08 0.--3. "REG_CNTR1_CFG,Filter configuration for Performance Counter 1" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x0C "EMIF_PERF_CNT_SEL,Performance Counter Master Region Select Register"
hexmask.long.byte 0x0C 24.--31. 1. "REG_MCONNID2,MConnID for Performance Counter 2 register"
bitfld.long 0x0C 16.--17. "REG_REGION_SEL2,MAddrSpace for Performance Counter 2 register" "0,1,2,3"
newline
hexmask.long.byte 0x0C 8.--15. 1. "REG_MCONNID1,MConnID for Performance Counter 1 register"
bitfld.long 0x0C 0.--1. "REG_REGION_SEL1,MAddrSpace for Performance Counter 1 register" "0,1,2,3"
line.long 0x10 "EMIF_PERF_CNT_TIM,Performance Counter Time Register"
group.long 0x98++0x07
line.long 0x00 "EMIF_READ_IDLE_CTRL,Read Idle Control Register"
bitfld.long 0x00 16.--19. "REG_READ_IDLE_LEN,The Read Idle Length field determines the minimum required size that a read idle window must be to be detected or generated" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 0.--8. 1. "REG_READ_IDLE_INTERVAL,The Read Idle Interval field determines the maximum interval between successive read idle events"
line.long 0x04 "EMIF_READ_IDLE_CTRL_SHDW,Read Idle Control Shadow Register"
bitfld.long 0x04 16.--19. "REG_READ_IDLE_LEN_SHDW,Shadow field for REG_READ_IDLE_LEN" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x04 0.--8. 1. "REG_READ_IDLE_INTERVAL_SHDW,Shadow field for REG_READ_IDLE_INTERVAL"
group.long 0xA4++0x1F
line.long 0x00 "EMIF_IRQSTATUS_RAW_SYS,System L3 Interrupt Raw Status Register"
bitfld.long 0x00 2. "REG_DNV_SYS,Raw status of system L3 interrupt for LPDDR2 NVM data not valid" "0,1"
bitfld.long 0x00 1. "REG_TA_SYS,Raw status of system L3 interrupt for SDRAM temperature alert" "0,1"
newline
bitfld.long 0x00 0. "REG_ERR_SYS,Raw status of system L3 interrupt for command or address error" "0,1"
line.long 0x04 "EMIF_IRQSTATUS_RAW_LL,Low-Latency L3 Interrupt Raw Status Register"
bitfld.long 0x04 2. "REG_DNV_LL,Raw status of low-latency L3 interrupt for LPDDR2 NVM data not valid" "0,1"
bitfld.long 0x04 1. "REG_TA_LL,Raw status of low-latency L3 interrupt or SDRAM temperature alert" "0,1"
newline
bitfld.long 0x04 0. "REG_ERR_LL,Raw status of low-latency L3 interrupt for command or address error" "0,1"
line.long 0x08 "EMIF_IRQSTATUS_SYS,System L3 Interrupt Status Register"
bitfld.long 0x08 2. "REG_DNV_SYS,Enabled status of system L3 interrupt for LPDDR2 NVM data not valid" "0,1"
bitfld.long 0x08 1. "REG_TA_SYS,Enabled status of system L3 interrupt for SDRAM temperature alert" "0,1"
newline
bitfld.long 0x08 0. "REG_ERR_SYS,Enabled status of system L3 interrupt interrupt for command or address error" "0,1"
line.long 0x0C "EMIF_IRQSTATUS_LL,Low-Latency L3 Interrupt Status Register"
bitfld.long 0x0C 2. "REG_DNV_LL,Enabled status of low-latency L3 interrupt for LPDDR2 NVM data not valid" "0,1"
bitfld.long 0x0C 1. "REG_TA_LL,Enabled status of low-latency L3 interrupt for SDRAM temperature alert" "0,1"
newline
bitfld.long 0x0C 0. "REG_ERR_LL,Enabled status of low-latency L3 interrupt for command or address error" "0,1"
line.long 0x10 "EMIF_IRQENABLE_SET_SYS,System L3 Interrupt Enable Set Register"
bitfld.long 0x10 2. "REG_EN_DNV_SYS,Enable set for system L3 interrupt for LPDDR2 NVM data not valid" "0,1"
bitfld.long 0x10 1. "REG_EN_TA_SYS,Enable set for system L3 interrupt for SDRAM temperature alert" "0,1"
newline
bitfld.long 0x10 0. "REG_EN_ERR_SYS,Enable set for system L3 interrupt for command or address error" "0,1"
line.long 0x14 "EMIF_IRQENABLE_SET_LL,Low-Latency L3 Interrupt Enable Set Register"
bitfld.long 0x14 2. "REG_EN_DNV_LL,Enable set for low-latency L3 interrupt for LPDDR2 NVM data not valid" "0,1"
bitfld.long 0x14 1. "REG_EN_TA_LL,Enable set for low-latency L3 interrupt for SDRAM temperature alert" "0,1"
newline
bitfld.long 0x14 0. "REG_EN_ERR_LL,Enable set for low-latency L3 interrupt for command or address error" "0,1"
line.long 0x18 "EMIF_IRQENABLE_CLR_SYS,System L3 Interrupt Enable Clear Register"
bitfld.long 0x18 2. "REG_EN_DNV_SYS,Enable clear for system OCP interrupt for LPDDR2 NVM data not valid" "0,1"
bitfld.long 0x18 1. "REG_EN_TA_SYS,Enable clear for system L3 interrupt for SDRAM temperature alert" "0,1"
newline
bitfld.long 0x18 0. "REG_EN_ERR_SYS,Enable clear for system L3 interrupt for command or address error" "0,1"
line.long 0x1C "EMIF_IRQENABLE_CLR_LL,Low-Latency L3 Interrupt Enable Clear Register"
bitfld.long 0x1C 2. "REG_EN_DNV_LL,Enable clear for low-latency OCP interrupt for LPDDR2 NVM data not valid" "0,1"
bitfld.long 0x1C 1. "REG_EN_TA_LL,Enable clear for low-latency L3 interrupt for SDRAM temperature alert" "0,1"
newline
bitfld.long 0x1C 0. "REG_EN_ERR_LL,Enable clear for low-latency L3 interrupt for command or address error" "0,1"
group.long 0xC8++0x0B
line.long 0x00 "EMIF_ZQ_CONFIG,SDRAM Output Impedance Calibration Config Register"
bitfld.long 0x00 31. "REG_ZQ_CS1EN,Writing a 1 enables ZQ calibration for CS1" "0,1"
bitfld.long 0x00 30. "REG_ZQ_CS0EN,Writing a 1 enables ZQ calibration for CS0" "0,1"
newline
bitfld.long 0x00 29. "REG_ZQ_DUALCALEN,ZQ Dual Calibration enable" "0,1"
bitfld.long 0x00 28. "REG_ZQ_SFEXITEN,ZQCL on Self-Refresh exit enable" "0,1"
newline
bitfld.long 0x00 18.--19. "REG_ZQ_ZQINIT_MULT,Indicates the number of ZQCL durations that make up a ZQINIT duration minus one" "0,1,2,3"
bitfld.long 0x00 16.--17. "REG_ZQ_ZQCL_MULT,Indicates the number of ZQCS intervals that make up a ZQCL duration minus one" "0,1,2,3"
newline
hexmask.long.word 0x00 0.--15. 1. "REG_ZQ_REFINTERVAL,Number of refresh periods between ZQCS commands"
line.long 0x04 "EMIF_TEMP_ALERT_CONFIG,Temperature Alert Config Register"
bitfld.long 0x04 31. "REG_TA_CS1EN,Writing a 1 enables temperature alert polling for CS1" "0,1"
bitfld.long 0x04 30. "REG_TA_CS0EN,Writing a 1 enables temperature alert polling for CS0" "0,1"
newline
bitfld.long 0x04 28. "REG_TA_SFEXITEN,Temperature Alert Poll on Self-Refresh Active Power-Down and Precharge Power-Down exit enable" "0,1"
bitfld.long 0x04 26.--27. "REG_TA_DEVWDT,This field indicates how wide a physical device is" "eight bit wide,sixteen bit wide,thirty two bit wide,?..."
newline
bitfld.long 0x04 24.--25. "REG_TA_DEVCNT,This field indicates which external byte lanes contain a device for temperature monitoring" "one device,two devices,four devices,?..."
hexmask.long.tbyte 0x04 0.--21. 1. "REG_TA_REFINTERVAL,Number of refresh periods between temperature alert polls"
line.long 0x08 "EMIF_L3_ERR_LOG,Error Log Register"
bitfld.long 0x08 14.--15. "REG_MADDRSPACE,Address space of the first errored transaction" "SDRAM,LPDDR2-NVM,reserved,internal registers"
bitfld.long 0x08 11.--13. "REG_MBURSTSEQ,Addressing mode of the first errored transaction" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x08 8.--10. "REG_MCMD,Command type of the first errored transaction" "0,1,2,3,4,5,6,7"
hexmask.long.byte 0x08 0.--7. 1. "REG_MCONNID,Connection ID of the first errored transaction"
group.long 0xE4++0x0B
line.long 0x00 "EMIF_DDR_PHY_CTRL_1,DDR PHY Control 1 Register"
bitfld.long 0x00 30.--31. "DLL_MASTER_SENSITIVITY,This field defines the level of sensitivity of the DLL master: the lower the value the more sensitive the DLL is to PVT variation" "0,1,2,3"
bitfld.long 0x00 26.--29. "REG_PHY_FREEZE_DELAY_CODE_POSTAMBLE,Postamble time respected by the DATA PHY freezing the DLL slave code after reads" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 22.--25. "REG_PHY_FREEZE_DELAY_CODE_PREAMBLE,Preamble time respected by the DATA PHY before freezing the DLL slave code during reads" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 12.--21. 1. "REG_DLL_MASTER_SW_CODE_CTRL,DLL delay code when in software override mode"
newline
hexmask.long.byte 0x00 4.--11. 1. "REG_DLL_SLAVE_DLY_CTRL,DLL slave delay ratio control"
bitfld.long 0x00 0.--3. "REG_READ_LATENCY,This field defines the read latency for the read data from SDRAM in number of DDR clock cycles" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x04 "EMIF_DDR_PHY_CTRL_1_SHDW,DDR PHY Control 1 Shadow Register"
bitfld.long 0x04 26.--29. "REG_PHY_FREEZE_DELAY_CODE_POSTAMBLE_SHDW,Shadow field for REG_PHY_FREEZE_DELAY_CODE_POSTAMBLE" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x04 22.--25. "REG_PHY_FREEZE_DELAY_CODE_PREAMBLE_SHDW,Shadow field for REG_PHY_FREEZE_DELAY_CODE_PREAMBLE" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
hexmask.long.word 0x04 12.--21. 1. "REG_DLL_MASTER_SW_CODE_CTRL_SHDW,Shadow field for REG_DLL_MASTER_SW_CODE_CTRL"
hexmask.long.byte 0x04 4.--11. 1. "REG_DLL_SLAVE_DLY_CTRL_SHDW,Shadow field for REG_DLL_SLAVE_DLY_CTRL"
newline
bitfld.long 0x04 0.--3. "REG_READ_LATENCY_SHDW,Shadow field for REG_READ_LATENCY" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x08 "EMIF_DDR_PHY_CTRL_2,DDR PHY Control 2 Register"
tree.end
repeat.end
tree.end
tree "Error_Location_Module"
tree "ELM"
base ansd:0x48078000
tree "Channel_0"
rgroup.long 0x880++0x03
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++0x17
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"
line.long 0x04 "ELM_ERROR_LOCATION_11_i_0,Error-location register"
hexmask.long.word 0x04 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x08 "ELM_ERROR_LOCATION_12_i_0,Error-location register"
hexmask.long.word 0x08 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x0C "ELM_ERROR_LOCATION_13_i_0,Error-location register"
hexmask.long.word 0x0C 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x10 "ELM_ERROR_LOCATION_14_i_0,Error-location register"
hexmask.long.word 0x10 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x14 "ELM_ERROR_LOCATION_15_i_0,Error-location register"
hexmask.long.word 0x14 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
rgroup.long 0x884++0x23
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"
line.long 0x04 "ELM_ERROR_LOCATION_2_i_0,Error-location register"
hexmask.long.word 0x04 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x08 "ELM_ERROR_LOCATION_3_i_0,Error-location register"
hexmask.long.word 0x08 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x0C "ELM_ERROR_LOCATION_4_i_0,Error-location register"
hexmask.long.word 0x0C 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x10 "ELM_ERROR_LOCATION_5_i_0,Error-location register"
hexmask.long.word 0x10 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x14 "ELM_ERROR_LOCATION_6_i_0,Error-location register"
hexmask.long.word 0x14 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x18 "ELM_ERROR_LOCATION_7_i_0,Error-location register"
hexmask.long.word 0x18 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x1C "ELM_ERROR_LOCATION_8_i_0,Error-location register"
hexmask.long.word 0x1C 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x20 "ELM_ERROR_LOCATION_9_i_0,Error-location register"
hexmask.long.word 0x20 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
rgroup.long 0x800++0x03
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 status0x0: ECC error-location process failed" "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++0x1B
line.long 0x00 "ELM_SYNDROME_FRAGMENT_0_i_0,Input syndrome polynomial bits 0 to 31"
line.long 0x04 "ELM_SYNDROME_FRAGMENT_1_i_0,Input syndrome polynomial bits 32 to 63"
line.long 0x08 "ELM_SYNDROME_FRAGMENT_2_i_0,Input syndrome polynomial bits 64 to 95"
line.long 0x0C "ELM_SYNDROME_FRAGMENT_3_i_0,Input syndrome polynomial bits 96 to 127"
line.long 0x10 "ELM_SYNDROME_FRAGMENT_4_i_0,Input syndrome polynomial bits 128 to 159"
line.long 0x14 "ELM_SYNDROME_FRAGMENT_5_i_0,Input syndrome polynomial bits 160 to 191"
line.long 0x18 "ELM_SYNDROME_FRAGMENT_6_i_0,Input syndrome polynomial bits 192 to 207"
bitfld.long 0x18 16. "SYNDROME_VALID,Syndrome valid" "0,1"
hexmask.long.word 0x18 0.--15. 1. "SYNDROME_6,Syndrome bits 192 to 207"
tree.end
tree "Channel_1"
rgroup.long 0x980++0x03
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++0x17
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"
line.long 0x04 "ELM_ERROR_LOCATION_11_i_1,Error-location register"
hexmask.long.word 0x04 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x08 "ELM_ERROR_LOCATION_12_i_1,Error-location register"
hexmask.long.word 0x08 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x0C "ELM_ERROR_LOCATION_13_i_1,Error-location register"
hexmask.long.word 0x0C 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x10 "ELM_ERROR_LOCATION_14_i_1,Error-location register"
hexmask.long.word 0x10 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x14 "ELM_ERROR_LOCATION_15_i_1,Error-location register"
hexmask.long.word 0x14 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
rgroup.long 0x984++0x23
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"
line.long 0x04 "ELM_ERROR_LOCATION_2_i_1,Error-location register"
hexmask.long.word 0x04 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x08 "ELM_ERROR_LOCATION_3_i_1,Error-location register"
hexmask.long.word 0x08 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x0C "ELM_ERROR_LOCATION_4_i_1,Error-location register"
hexmask.long.word 0x0C 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x10 "ELM_ERROR_LOCATION_5_i_1,Error-location register"
hexmask.long.word 0x10 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x14 "ELM_ERROR_LOCATION_6_i_1,Error-location register"
hexmask.long.word 0x14 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x18 "ELM_ERROR_LOCATION_7_i_1,Error-location register"
hexmask.long.word 0x18 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x1C "ELM_ERROR_LOCATION_8_i_1,Error-location register"
hexmask.long.word 0x1C 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x20 "ELM_ERROR_LOCATION_9_i_1,Error-location register"
hexmask.long.word 0x20 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
rgroup.long 0x900++0x03
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 status0x0: ECC error-location process failed" "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++0x1B
line.long 0x00 "ELM_SYNDROME_FRAGMENT_0_i_1,Input syndrome polynomial bits 0 to 31"
line.long 0x04 "ELM_SYNDROME_FRAGMENT_1_i_1,Input syndrome polynomial bits 32 to 63"
line.long 0x08 "ELM_SYNDROME_FRAGMENT_2_i_1,Input syndrome polynomial bits 64 to 95"
line.long 0x0C "ELM_SYNDROME_FRAGMENT_3_i_1,Input syndrome polynomial bits 96 to 127"
line.long 0x10 "ELM_SYNDROME_FRAGMENT_4_i_1,Input syndrome polynomial bits 128 to 159"
line.long 0x14 "ELM_SYNDROME_FRAGMENT_5_i_1,Input syndrome polynomial bits 160 to 191"
line.long 0x18 "ELM_SYNDROME_FRAGMENT_6_i_1,Input syndrome polynomial bits 192 to 207"
bitfld.long 0x18 16. "SYNDROME_VALID,Syndrome valid" "0,1"
hexmask.long.word 0x18 0.--15. 1. "SYNDROME_6,Syndrome bits 192 to 207"
tree.end
tree "Channel_2"
rgroup.long 0xA80++0x03
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++0x17
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"
line.long 0x04 "ELM_ERROR_LOCATION_11_i_2,Error-location register"
hexmask.long.word 0x04 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x08 "ELM_ERROR_LOCATION_12_i_2,Error-location register"
hexmask.long.word 0x08 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x0C "ELM_ERROR_LOCATION_13_i_2,Error-location register"
hexmask.long.word 0x0C 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x10 "ELM_ERROR_LOCATION_14_i_2,Error-location register"
hexmask.long.word 0x10 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x14 "ELM_ERROR_LOCATION_15_i_2,Error-location register"
hexmask.long.word 0x14 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
rgroup.long 0xA84++0x23
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"
line.long 0x04 "ELM_ERROR_LOCATION_2_i_2,Error-location register"
hexmask.long.word 0x04 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x08 "ELM_ERROR_LOCATION_3_i_2,Error-location register"
hexmask.long.word 0x08 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x0C "ELM_ERROR_LOCATION_4_i_2,Error-location register"
hexmask.long.word 0x0C 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x10 "ELM_ERROR_LOCATION_5_i_2,Error-location register"
hexmask.long.word 0x10 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x14 "ELM_ERROR_LOCATION_6_i_2,Error-location register"
hexmask.long.word 0x14 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x18 "ELM_ERROR_LOCATION_7_i_2,Error-location register"
hexmask.long.word 0x18 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x1C "ELM_ERROR_LOCATION_8_i_2,Error-location register"
hexmask.long.word 0x1C 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x20 "ELM_ERROR_LOCATION_9_i_2,Error-location register"
hexmask.long.word 0x20 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
rgroup.long 0xA00++0x03
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 status0x0: ECC error-location process failed" "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++0x1B
line.long 0x00 "ELM_SYNDROME_FRAGMENT_0_i_2,Input syndrome polynomial bits 0 to 31"
line.long 0x04 "ELM_SYNDROME_FRAGMENT_1_i_2,Input syndrome polynomial bits 32 to 63"
line.long 0x08 "ELM_SYNDROME_FRAGMENT_2_i_2,Input syndrome polynomial bits 64 to 95"
line.long 0x0C "ELM_SYNDROME_FRAGMENT_3_i_2,Input syndrome polynomial bits 96 to 127"
line.long 0x10 "ELM_SYNDROME_FRAGMENT_4_i_2,Input syndrome polynomial bits 128 to 159"
line.long 0x14 "ELM_SYNDROME_FRAGMENT_5_i_2,Input syndrome polynomial bits 160 to 191"
line.long 0x18 "ELM_SYNDROME_FRAGMENT_6_i_2,Input syndrome polynomial bits 192 to 207"
bitfld.long 0x18 16. "SYNDROME_VALID,Syndrome valid" "0,1"
hexmask.long.word 0x18 0.--15. 1. "SYNDROME_6,Syndrome bits 192 to 207"
tree.end
tree "Channel_3"
rgroup.long 0xB80++0x03
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++0x17
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"
line.long 0x04 "ELM_ERROR_LOCATION_11_i_3,Error-location register"
hexmask.long.word 0x04 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x08 "ELM_ERROR_LOCATION_12_i_3,Error-location register"
hexmask.long.word 0x08 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x0C "ELM_ERROR_LOCATION_13_i_3,Error-location register"
hexmask.long.word 0x0C 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x10 "ELM_ERROR_LOCATION_14_i_3,Error-location register"
hexmask.long.word 0x10 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x14 "ELM_ERROR_LOCATION_15_i_3,Error-location register"
hexmask.long.word 0x14 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
rgroup.long 0xB84++0x23
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"
line.long 0x04 "ELM_ERROR_LOCATION_2_i_3,Error-location register"
hexmask.long.word 0x04 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x08 "ELM_ERROR_LOCATION_3_i_3,Error-location register"
hexmask.long.word 0x08 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x0C "ELM_ERROR_LOCATION_4_i_3,Error-location register"
hexmask.long.word 0x0C 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x10 "ELM_ERROR_LOCATION_5_i_3,Error-location register"
hexmask.long.word 0x10 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x14 "ELM_ERROR_LOCATION_6_i_3,Error-location register"
hexmask.long.word 0x14 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x18 "ELM_ERROR_LOCATION_7_i_3,Error-location register"
hexmask.long.word 0x18 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x1C "ELM_ERROR_LOCATION_8_i_3,Error-location register"
hexmask.long.word 0x1C 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x20 "ELM_ERROR_LOCATION_9_i_3,Error-location register"
hexmask.long.word 0x20 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
rgroup.long 0xB00++0x03
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 status0x0: ECC error-location process failed" "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++0x1B
line.long 0x00 "ELM_SYNDROME_FRAGMENT_0_i_3,Input syndrome polynomial bits 0 to 31"
line.long 0x04 "ELM_SYNDROME_FRAGMENT_1_i_3,Input syndrome polynomial bits 32 to 63"
line.long 0x08 "ELM_SYNDROME_FRAGMENT_2_i_3,Input syndrome polynomial bits 64 to 95"
line.long 0x0C "ELM_SYNDROME_FRAGMENT_3_i_3,Input syndrome polynomial bits 96 to 127"
line.long 0x10 "ELM_SYNDROME_FRAGMENT_4_i_3,Input syndrome polynomial bits 128 to 159"
line.long 0x14 "ELM_SYNDROME_FRAGMENT_5_i_3,Input syndrome polynomial bits 160 to 191"
line.long 0x18 "ELM_SYNDROME_FRAGMENT_6_i_3,Input syndrome polynomial bits 192 to 207"
bitfld.long 0x18 16. "SYNDROME_VALID,Syndrome valid" "0,1"
hexmask.long.word 0x18 0.--15. 1. "SYNDROME_6,Syndrome bits 192 to 207"
tree.end
tree "Channel_4"
rgroup.long 0xC80++0x03
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++0x17
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"
line.long 0x04 "ELM_ERROR_LOCATION_11_i_4,Error-location register"
hexmask.long.word 0x04 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x08 "ELM_ERROR_LOCATION_12_i_4,Error-location register"
hexmask.long.word 0x08 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x0C "ELM_ERROR_LOCATION_13_i_4,Error-location register"
hexmask.long.word 0x0C 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x10 "ELM_ERROR_LOCATION_14_i_4,Error-location register"
hexmask.long.word 0x10 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x14 "ELM_ERROR_LOCATION_15_i_4,Error-location register"
hexmask.long.word 0x14 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
rgroup.long 0xC84++0x23
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"
line.long 0x04 "ELM_ERROR_LOCATION_2_i_4,Error-location register"
hexmask.long.word 0x04 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x08 "ELM_ERROR_LOCATION_3_i_4,Error-location register"
hexmask.long.word 0x08 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x0C "ELM_ERROR_LOCATION_4_i_4,Error-location register"
hexmask.long.word 0x0C 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x10 "ELM_ERROR_LOCATION_5_i_4,Error-location register"
hexmask.long.word 0x10 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x14 "ELM_ERROR_LOCATION_6_i_4,Error-location register"
hexmask.long.word 0x14 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x18 "ELM_ERROR_LOCATION_7_i_4,Error-location register"
hexmask.long.word 0x18 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x1C "ELM_ERROR_LOCATION_8_i_4,Error-location register"
hexmask.long.word 0x1C 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x20 "ELM_ERROR_LOCATION_9_i_4,Error-location register"
hexmask.long.word 0x20 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
rgroup.long 0xC00++0x03
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 status0x0: ECC error-location process failed" "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++0x1B
line.long 0x00 "ELM_SYNDROME_FRAGMENT_0_i_4,Input syndrome polynomial bits 0 to 31"
line.long 0x04 "ELM_SYNDROME_FRAGMENT_1_i_4,Input syndrome polynomial bits 32 to 63"
line.long 0x08 "ELM_SYNDROME_FRAGMENT_2_i_4,Input syndrome polynomial bits 64 to 95"
line.long 0x0C "ELM_SYNDROME_FRAGMENT_3_i_4,Input syndrome polynomial bits 96 to 127"
line.long 0x10 "ELM_SYNDROME_FRAGMENT_4_i_4,Input syndrome polynomial bits 128 to 159"
line.long 0x14 "ELM_SYNDROME_FRAGMENT_5_i_4,Input syndrome polynomial bits 160 to 191"
line.long 0x18 "ELM_SYNDROME_FRAGMENT_6_i_4,Input syndrome polynomial bits 192 to 207"
bitfld.long 0x18 16. "SYNDROME_VALID,Syndrome valid" "0,1"
hexmask.long.word 0x18 0.--15. 1. "SYNDROME_6,Syndrome bits 192 to 207"
tree.end
tree "Channel_5"
rgroup.long 0xD80++0x03
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++0x17
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"
line.long 0x04 "ELM_ERROR_LOCATION_11_i_5,Error-location register"
hexmask.long.word 0x04 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x08 "ELM_ERROR_LOCATION_12_i_5,Error-location register"
hexmask.long.word 0x08 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x0C "ELM_ERROR_LOCATION_13_i_5,Error-location register"
hexmask.long.word 0x0C 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x10 "ELM_ERROR_LOCATION_14_i_5,Error-location register"
hexmask.long.word 0x10 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x14 "ELM_ERROR_LOCATION_15_i_5,Error-location register"
hexmask.long.word 0x14 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
rgroup.long 0xD84++0x23
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"
line.long 0x04 "ELM_ERROR_LOCATION_2_i_5,Error-location register"
hexmask.long.word 0x04 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x08 "ELM_ERROR_LOCATION_3_i_5,Error-location register"
hexmask.long.word 0x08 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x0C "ELM_ERROR_LOCATION_4_i_5,Error-location register"
hexmask.long.word 0x0C 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x10 "ELM_ERROR_LOCATION_5_i_5,Error-location register"
hexmask.long.word 0x10 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x14 "ELM_ERROR_LOCATION_6_i_5,Error-location register"
hexmask.long.word 0x14 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x18 "ELM_ERROR_LOCATION_7_i_5,Error-location register"
hexmask.long.word 0x18 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x1C "ELM_ERROR_LOCATION_8_i_5,Error-location register"
hexmask.long.word 0x1C 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x20 "ELM_ERROR_LOCATION_9_i_5,Error-location register"
hexmask.long.word 0x20 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
rgroup.long 0xD00++0x03
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 status0x0: ECC error-location process failed" "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++0x1B
line.long 0x00 "ELM_SYNDROME_FRAGMENT_0_i_5,Input syndrome polynomial bits 0 to 31"
line.long 0x04 "ELM_SYNDROME_FRAGMENT_1_i_5,Input syndrome polynomial bits 32 to 63"
line.long 0x08 "ELM_SYNDROME_FRAGMENT_2_i_5,Input syndrome polynomial bits 64 to 95"
line.long 0x0C "ELM_SYNDROME_FRAGMENT_3_i_5,Input syndrome polynomial bits 96 to 127"
line.long 0x10 "ELM_SYNDROME_FRAGMENT_4_i_5,Input syndrome polynomial bits 128 to 159"
line.long 0x14 "ELM_SYNDROME_FRAGMENT_5_i_5,Input syndrome polynomial bits 160 to 191"
line.long 0x18 "ELM_SYNDROME_FRAGMENT_6_i_5,Input syndrome polynomial bits 192 to 207"
bitfld.long 0x18 16. "SYNDROME_VALID,Syndrome valid" "0,1"
hexmask.long.word 0x18 0.--15. 1. "SYNDROME_6,Syndrome bits 192 to 207"
tree.end
tree "Channel_6"
rgroup.long 0xE80++0x03
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++0x17
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"
line.long 0x04 "ELM_ERROR_LOCATION_11_i_6,Error-location register"
hexmask.long.word 0x04 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x08 "ELM_ERROR_LOCATION_12_i_6,Error-location register"
hexmask.long.word 0x08 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x0C "ELM_ERROR_LOCATION_13_i_6,Error-location register"
hexmask.long.word 0x0C 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x10 "ELM_ERROR_LOCATION_14_i_6,Error-location register"
hexmask.long.word 0x10 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x14 "ELM_ERROR_LOCATION_15_i_6,Error-location register"
hexmask.long.word 0x14 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
rgroup.long 0xE84++0x23
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"
line.long 0x04 "ELM_ERROR_LOCATION_2_i_6,Error-location register"
hexmask.long.word 0x04 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x08 "ELM_ERROR_LOCATION_3_i_6,Error-location register"
hexmask.long.word 0x08 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x0C "ELM_ERROR_LOCATION_4_i_6,Error-location register"
hexmask.long.word 0x0C 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x10 "ELM_ERROR_LOCATION_5_i_6,Error-location register"
hexmask.long.word 0x10 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x14 "ELM_ERROR_LOCATION_6_i_6,Error-location register"
hexmask.long.word 0x14 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x18 "ELM_ERROR_LOCATION_7_i_6,Error-location register"
hexmask.long.word 0x18 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x1C "ELM_ERROR_LOCATION_8_i_6,Error-location register"
hexmask.long.word 0x1C 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x20 "ELM_ERROR_LOCATION_9_i_6,Error-location register"
hexmask.long.word 0x20 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
rgroup.long 0xE00++0x03
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 status0x0: ECC error-location process failed" "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++0x1B
line.long 0x00 "ELM_SYNDROME_FRAGMENT_0_i_6,Input syndrome polynomial bits 0 to 31"
line.long 0x04 "ELM_SYNDROME_FRAGMENT_1_i_6,Input syndrome polynomial bits 32 to 63"
line.long 0x08 "ELM_SYNDROME_FRAGMENT_2_i_6,Input syndrome polynomial bits 64 to 95"
line.long 0x0C "ELM_SYNDROME_FRAGMENT_3_i_6,Input syndrome polynomial bits 96 to 127"
line.long 0x10 "ELM_SYNDROME_FRAGMENT_4_i_6,Input syndrome polynomial bits 128 to 159"
line.long 0x14 "ELM_SYNDROME_FRAGMENT_5_i_6,Input syndrome polynomial bits 160 to 191"
line.long 0x18 "ELM_SYNDROME_FRAGMENT_6_i_6,Input syndrome polynomial bits 192 to 207"
bitfld.long 0x18 16. "SYNDROME_VALID,Syndrome valid" "0,1"
hexmask.long.word 0x18 0.--15. 1. "SYNDROME_6,Syndrome bits 192 to 207"
tree.end
tree "Channel_7"
rgroup.long 0xF80++0x03
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++0x17
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"
line.long 0x04 "ELM_ERROR_LOCATION_11_i_7,Error-location register"
hexmask.long.word 0x04 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x08 "ELM_ERROR_LOCATION_12_i_7,Error-location register"
hexmask.long.word 0x08 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x0C "ELM_ERROR_LOCATION_13_i_7,Error-location register"
hexmask.long.word 0x0C 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x10 "ELM_ERROR_LOCATION_14_i_7,Error-location register"
hexmask.long.word 0x10 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x14 "ELM_ERROR_LOCATION_15_i_7,Error-location register"
hexmask.long.word 0x14 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
rgroup.long 0xF84++0x23
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"
line.long 0x04 "ELM_ERROR_LOCATION_2_i_7,Error-location register"
hexmask.long.word 0x04 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x08 "ELM_ERROR_LOCATION_3_i_7,Error-location register"
hexmask.long.word 0x08 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x0C "ELM_ERROR_LOCATION_4_i_7,Error-location register"
hexmask.long.word 0x0C 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x10 "ELM_ERROR_LOCATION_5_i_7,Error-location register"
hexmask.long.word 0x10 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x14 "ELM_ERROR_LOCATION_6_i_7,Error-location register"
hexmask.long.word 0x14 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x18 "ELM_ERROR_LOCATION_7_i_7,Error-location register"
hexmask.long.word 0x18 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x1C "ELM_ERROR_LOCATION_8_i_7,Error-location register"
hexmask.long.word 0x1C 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
line.long 0x20 "ELM_ERROR_LOCATION_9_i_7,Error-location register"
hexmask.long.word 0x20 0.--12. 1. "ECC_ERROR_LOCATION,Error-location bit address"
rgroup.long 0xF00++0x03
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 status0x0: ECC error-location process failed" "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++0x1B
line.long 0x00 "ELM_SYNDROME_FRAGMENT_0_i_7,Input syndrome polynomial bits 0 to 31"
line.long 0x04 "ELM_SYNDROME_FRAGMENT_1_i_7,Input syndrome polynomial bits 32 to 63"
line.long 0x08 "ELM_SYNDROME_FRAGMENT_2_i_7,Input syndrome polynomial bits 64 to 95"
line.long 0x0C "ELM_SYNDROME_FRAGMENT_3_i_7,Input syndrome polynomial bits 96 to 127"
line.long 0x10 "ELM_SYNDROME_FRAGMENT_4_i_7,Input syndrome polynomial bits 128 to 159"
line.long 0x14 "ELM_SYNDROME_FRAGMENT_5_i_7,Input syndrome polynomial bits 160 to 191"
line.long 0x18 "ELM_SYNDROME_FRAGMENT_6_i_7,Input syndrome polynomial bits 192 to 207"
bitfld.long 0x18 16. "SYNDROME_VALID,Syndrome valid" "0,1"
hexmask.long.word 0x18 0.--15. 1. "SYNDROME_6,Syndrome bits 192 to 207"
tree.end
group.long 0x1C++0x03
line.long 0x00 "ELM_IRQENABLE,Interrupt enable"
bitfld.long 0x00 8. "PAGE_MASK,Page interrupt mask bit0: Disable interrupt1: Enable interrupt" "PAGE_MASK_0,PAGE_MASK_1"
bitfld.long 0x00 7. "LOCATION_MASK_7,Error-location interrupt mask bit for syndrome polynomial 7" "LOCATION_MASK_7_0,LOCATION_MASK_7_1"
bitfld.long 0x00 6. "LOCATION_MASK_6,Error-location interrupt mask bit for syndrome polynomial 6" "LOCATION_MASK_6_0,LOCATION_MASK_6_1"
newline
bitfld.long 0x00 5. "LOCATION_MASK_5,Error-location interrupt mask bit for syndrome polynomial 5" "LOCATION_MASK_5_0,LOCATION_MASK_5_1"
bitfld.long 0x00 4. "LOCATION_MASK_4,Error-location interrupt mask bit for syndrome polynomial 4" "LOCATION_MASK_4_0,LOCATION_MASK_4_1"
bitfld.long 0x00 3. "LOCATION_MASK_3,Error-location interrupt mask bit for syndrome polynomial 3" "LOCATION_MASK_3_0,LOCATION_MASK_3_1"
newline
bitfld.long 0x00 2. "LOCATION_MASK_2,Error-location interrupt mask bit for syndrome polynomial 2" "LOCATION_MASK_2_0,LOCATION_MASK_2_1"
bitfld.long 0x00 1. "LOCATION_MASK_1,Error-location interrupt mask bit for syndrome polynomial 1" "LOCATION_MASK_1_0,LOCATION_MASK_1_1"
bitfld.long 0x00 0. "LOCATION_MASK_0,Error-location interrupt mask bit for syndrome polynomial" "LOCATION_MASK_0_0,LOCATION_MASK_0_1"
group.long 0x18++0x03
line.long 0x00 "ELM_IRQSTATUS,Interrupt status"
bitfld.long 0x00 8. "PAGE_VALID,Error-location status for a full page based on the mask definitionRead" "No effect,Clear interrupt"
bitfld.long 0x00 7. "LOC_VALID_7,Error-location status for syndrome polynomial 7Read" "No effect,Clear interrupt"
bitfld.long 0x00 6. "LOC_VALID_6,Error-location status for syndrome polynomial 6" "LOC_VALID_6_0,LOC_VALID_6_1"
newline
bitfld.long 0x00 5. "LOC_VALID_5,Error-location status for syndrome polynomial 5" "LOC_VALID_5_0,LOC_VALID_5_1"
bitfld.long 0x00 4. "LOC_VALID_4,Error-location status for syndrome polynomial 4" "LOC_VALID_4_0,LOC_VALID_4_1"
bitfld.long 0x00 3. "LOC_VALID_3,Error-location status for syndrome polynomial 3" "LOC_VALID_3_0,LOC_VALID_3_1"
newline
bitfld.long 0x00 2. "LOC_VALID_2,Error-location status for syndrome polynomial 2" "LOC_VALID_2_0,LOC_VALID_2_1"
bitfld.long 0x00 1. "LOC_VALID_1,Error-location status for syndrome polynomial 1" "LOC_VALID_1_0,LOC_VALID_1_1"
bitfld.long 0x00 0. "LOC_VALID_0,Error-location status for syndrome polynomial 0" "LOC_VALID_0_0,LOC_VALID_0_1"
group.long 0x20++0x03
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-bits entities)"
bitfld.long 0x00 0.--1. "ECC_BCH_LEVEL,Error correction level0x0: 4" "ECC_BCH_LEVEL_0,ECC_BCH_LEVEL_1,ECC_BCH_LEVEL_2,ECC_BCH_LEVEL_3"
group.long 0x80++0x03
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" "SECTOR_7_0,SECTOR_7_1"
bitfld.long 0x00 6. "SECTOR_6,Set to 1 if syndrome polynomial 6 is part of the page in page mode" "SECTOR_6_0,SECTOR_6_1"
bitfld.long 0x00 5. "SECTOR_5,Set to 1 if syndrome polynomial 5 is part of the page in page mode" "SECTOR_5_0,SECTOR_5_1"
newline
bitfld.long 0x00 4. "SECTOR_4,Set to 1 if syndrome polynomial 4 is part of the page in page mode" "SECTOR_4_0,SECTOR_4_1"
bitfld.long 0x00 3. "SECTOR_3,Set to 1 if syndrome polynomial 3 is part of the page in page mode" "SECTOR_3_0,SECTOR_3_1"
bitfld.long 0x00 2. "SECTOR_2,Set to 1 if syndrome polynomial 2 is part of the page in page mode" "SECTOR_2_0,SECTOR_2_1"
newline
bitfld.long 0x00 1. "SECTOR_1,Set to 1 if syndrome polynomial 1 is part of the page in page mode" "SECTOR_1_0,SECTOR_1_1"
bitfld.long 0x00 0. "SECTOR_0,Set to 1 if syndrome polynomial 0 is part of the page in page mode" "SECTOR_0_0,SECTOR_0_1"
rgroup.long 0x00++0x03
line.long 0x00 "ELM_REVISION,This register contains the IP revision code.(A write or reset of to this register has no effect.)"
group.long 0x10++0x07
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)" "CLOCKACTIVITYOCP_0,CLOCKACTIVITYOCP_1"
bitfld.long 0x00 3.--4. "SIDLEMODE,Slave interface power management (IDLE req/ack control)" "SIDLEMODE_0,SIDLEMODE_1,SIDLEMODE_2,SIDLEMODE_3"
bitfld.long 0x00 1. "SOFTRESET,Module software resetThis bit is automatically reset by hardware (During reads it always returns 0.)It has same effect as the OCP hardware reset" "SOFTRESET_0,SOFTRESET_1"
newline
bitfld.long 0x00 0. "AUTOGATING,Internal OCP clock gating strategy(no module visible impact other than saving power)" "AUTOGATING_0,AUTOGATING_1"
line.long 0x04 "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 0x04 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" "RESETDONE_0_r,RESETDONE_1_r"
tree.end
tree.end
tree "Face_Detect"
tree "FDIF"
base ansd:0x4A10A000
tree "Channel_10"
rgroup.long 0x20C++0x03
line.long 0x00 "FD_ANGLE_i_10,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x200++0x0B
line.long 0x00 "FD_CENTERX_i_10,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_10,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_10,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree "Channel_11"
rgroup.long 0x21C++0x03
line.long 0x00 "FD_ANGLE_i_11,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x210++0x0B
line.long 0x00 "FD_CENTERX_i_11,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_11,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_11,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree "Channel_12"
rgroup.long 0x22C++0x03
line.long 0x00 "FD_ANGLE_i_12,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x220++0x0B
line.long 0x00 "FD_CENTERX_i_12,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_12,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_12,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree "Channel_13"
rgroup.long 0x23C++0x03
line.long 0x00 "FD_ANGLE_i_13,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x230++0x0B
line.long 0x00 "FD_CENTERX_i_13,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_13,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_13,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree "Channel_14"
rgroup.long 0x24C++0x03
line.long 0x00 "FD_ANGLE_i_14,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x240++0x0B
line.long 0x00 "FD_CENTERX_i_14,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_14,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_14,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree "Channel_15"
rgroup.long 0x25C++0x03
line.long 0x00 "FD_ANGLE_i_15,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x250++0x0B
line.long 0x00 "FD_CENTERX_i_15,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_15,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_15,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree "Channel_16"
rgroup.long 0x26C++0x03
line.long 0x00 "FD_ANGLE_i_16,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x260++0x0B
line.long 0x00 "FD_CENTERX_i_16,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_16,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_16,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree "Channel_17"
rgroup.long 0x27C++0x03
line.long 0x00 "FD_ANGLE_i_17,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x270++0x0B
line.long 0x00 "FD_CENTERX_i_17,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_17,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_17,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree "Channel_18"
rgroup.long 0x28C++0x03
line.long 0x00 "FD_ANGLE_i_18,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x280++0x0B
line.long 0x00 "FD_CENTERX_i_18,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_18,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_18,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree "Channel_19"
rgroup.long 0x29C++0x03
line.long 0x00 "FD_ANGLE_i_19,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x290++0x0B
line.long 0x00 "FD_CENTERX_i_19,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_19,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_19,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree "Channel_20"
rgroup.long 0x2AC++0x03
line.long 0x00 "FD_ANGLE_i_20,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x2A0++0x0B
line.long 0x00 "FD_CENTERX_i_20,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_20,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_20,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree "Channel_21"
rgroup.long 0x2BC++0x03
line.long 0x00 "FD_ANGLE_i_21,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x2B0++0x0B
line.long 0x00 "FD_CENTERX_i_21,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_21,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_21,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree "Channel_22"
rgroup.long 0x2CC++0x03
line.long 0x00 "FD_ANGLE_i_22,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x2C0++0x0B
line.long 0x00 "FD_CENTERX_i_22,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_22,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_22,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree "Channel_23"
rgroup.long 0x2DC++0x03
line.long 0x00 "FD_ANGLE_i_23,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x2D0++0x0B
line.long 0x00 "FD_CENTERX_i_23,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_23,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_23,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree "Channel_24"
rgroup.long 0x2EC++0x03
line.long 0x00 "FD_ANGLE_i_24,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x2E0++0x0B
line.long 0x00 "FD_CENTERX_i_24,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_24,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_24,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree "Channel_25"
rgroup.long 0x2FC++0x03
line.long 0x00 "FD_ANGLE_i_25,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x2F0++0x0B
line.long 0x00 "FD_CENTERX_i_25,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_25,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_25,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree "Channel_26"
rgroup.long 0x30C++0x03
line.long 0x00 "FD_ANGLE_i_26,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x300++0x0B
line.long 0x00 "FD_CENTERX_i_26,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_26,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_26,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree "Channel_27"
rgroup.long 0x31C++0x03
line.long 0x00 "FD_ANGLE_i_27,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x310++0x0B
line.long 0x00 "FD_CENTERX_i_27,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_27,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_27,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree "Channel_28"
rgroup.long 0x32C++0x03
line.long 0x00 "FD_ANGLE_i_28,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x320++0x0B
line.long 0x00 "FD_CENTERX_i_28,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_28,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_28,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree "Channel_29"
rgroup.long 0x33C++0x03
line.long 0x00 "FD_ANGLE_i_29,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x330++0x0B
line.long 0x00 "FD_CENTERX_i_29,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_29,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_29,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree "Channel_3"
rgroup.long 0x19C++0x03
line.long 0x00 "FD_ANGLE_i_3,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x190++0x0B
line.long 0x00 "FD_CENTERX_i_3,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_3,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_3,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree "Channel_30"
rgroup.long 0x34C++0x03
line.long 0x00 "FD_ANGLE_i_30,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x340++0x0B
line.long 0x00 "FD_CENTERX_i_30,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_30,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_30,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree "Channel_31"
rgroup.long 0x35C++0x03
line.long 0x00 "FD_ANGLE_i_31,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x350++0x0B
line.long 0x00 "FD_CENTERX_i_31,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_31,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_31,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree "Channel_32"
rgroup.long 0x36C++0x03
line.long 0x00 "FD_ANGLE_i_32,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x360++0x0B
line.long 0x00 "FD_CENTERX_i_32,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_32,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_32,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree "Channel_33"
rgroup.long 0x37C++0x03
line.long 0x00 "FD_ANGLE_i_33,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x370++0x0B
line.long 0x00 "FD_CENTERX_i_33,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_33,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_33,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree "Channel_34"
rgroup.long 0x38C++0x03
line.long 0x00 "FD_ANGLE_i_34,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x380++0x0B
line.long 0x00 "FD_CENTERX_i_34,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_34,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_34,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree "Channel_4"
rgroup.long 0x1AC++0x03
line.long 0x00 "FD_ANGLE_i_4,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x1A0++0x0B
line.long 0x00 "FD_CENTERX_i_4,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_4,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_4,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree "Channel_5"
rgroup.long 0x1BC++0x03
line.long 0x00 "FD_ANGLE_i_5,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x1B0++0x0B
line.long 0x00 "FD_CENTERX_i_5,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_5,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_5,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree "Channel_6"
rgroup.long 0x1CC++0x03
line.long 0x00 "FD_ANGLE_i_6,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x1C0++0x0B
line.long 0x00 "FD_CENTERX_i_6,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_6,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_6,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree "Channel_7"
rgroup.long 0x1DC++0x03
line.long 0x00 "FD_ANGLE_i_7,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x1D0++0x0B
line.long 0x00 "FD_CENTERX_i_7,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_7,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_7,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree "Channel_8"
rgroup.long 0x1EC++0x03
line.long 0x00 "FD_ANGLE_i_8,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x1E0++0x0B
line.long 0x00 "FD_CENTERX_i_8,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_8,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_8,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree "Channel_9"
rgroup.long 0x1FC++0x03
line.long 0x00 "FD_ANGLE_i_9,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x1F0++0x0B
line.long 0x00 "FD_CENTERX_i_9,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_9,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_9,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
group.long 0x80++0x03
line.long 0x00 "FD_CTRL,Control register Don't set more than 2 bits to '1' at the same time"
bitfld.long 0x00 2. "FINISH,Process Completion Flag Clear" "FINISH_0,FINISH_1"
bitfld.long 0x00 1. "RUN,Process Start Request" "RUN_0,RUN_1"
bitfld.long 0x00 0. "SRST,Software Reset This bit shall not be used to reset the FDIF module" "SRST_0,SRST_1"
group.long 0x88++0x03
line.long 0x00 "FD_DCOND,Detection Condition Setting Register"
bitfld.long 0x00 2.--3. "DIR,Detection direction setting" "DIR_0,DIR_1,DIR_2,DIR_3"
bitfld.long 0x00 0.--1. "MIN,Reserved" "MIN_0,MIN_1,MIN_2,MIN_3"
rgroup.long 0x84++0x03
line.long 0x00 "FD_DNUM,Face Detection Result Count Register"
bitfld.long 0x00 0.--5. "DNUM,Face detection result count" "0 face detected,1 face detected,2 faces detected [...],?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,35 faces detected 0x24 to,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,unused"
group.long 0x9C++0x03
line.long 0x00 "FD_LHIT,Threshold Setting Register"
bitfld.long 0x00 0.--3. "LHIT,Threshold Permitted values are 0x0 to 0x9" "LHIT_0,LHIT_1,LHIT_2,LHIT_3,LHIT_4,LHIT_5,LHIT_6,LHIT_7,LHIT_8,LHIT_9,LHIT_10,LHIT_11,LHIT_12,LHIT_13,LHIT_14,LHIT_15"
group.long 0x94++0x07
line.long 0x00 "FD_SIZEX,Detection Area Setting Register: X Direction Size"
hexmask.long.word 0x00 0.--8. 1. "SIZEX,X Direction Size"
line.long 0x04 "FD_SIZEY,Detection Area Setting Register: Y Direction Size"
hexmask.long.byte 0x04 0.--7. 1. "SIZEY,Y Direction Size"
group.long 0x8C++0x07
line.long 0x00 "FD_STARTX,Detection Area Setting Register: X Start Coordinate"
hexmask.long.byte 0x00 0.--7. 1. "STARTX,Starting X coordinates Permitted values are"
line.long 0x04 "FD_STARTY,Detection Area Setting Register: Y Start Coordinate"
hexmask.long.byte 0x04 0.--6. 1. "STARTY,Starting Y coordinates Permitted values are"
group.long 0x64++0x03
line.long 0x00 "FDIF_CTRL,"
rbitfld.long 0x00 6. "MSTANDBY_HDSHK,MStandby / Wait power management handshaking status bit The power management framework of the FDIF module is based on the handshaking of the MSTANDBY and WAIT signals" "MSTANDBY_HDSHK_0_r,MSTANDBY_HDSHK_1_r"
bitfld.long 0x00 5. "MSTANDBY,MStandby signal generation" "MSTANDBY_0,MSTANDBY_1"
bitfld.long 0x00 1.--4. "MAX_TAGS,Max interconnect tags" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0. "WRNP,L3 port non-posted write control" "WRNP_0,WRNP_1"
rgroup.long 0x04++0x03
line.long 0x00 "FDIF_HWINFO,Information about the IP module's hardware configuration. that is. typically the module's HDL generics (if any)"
bitfld.long 0x00 0.--3. "FDIF_TAGS,Hardware design value" "1 tag supported,2 tags supported [...],?,?,?,?,?,?,?,?,?,?,?,?,?,16 tags supported"
group.long 0x60++0x03
line.long 0x00 "FDIF_PICADDR,Picture data store address"
hexmask.long 0x00 5.--31. 1. "ADDR,Picture data store address"
rgroup.long 0x00++0x03
line.long 0x00 "FDIF_REVISION,IP Revision Identifier (X.Y.R) Used by software to track features. bugs. and compatibility"
group.long 0x10++0x03
line.long 0x00 "FDIF_SYSCONFIG,Clock management configuration"
bitfld.long 0x00 4.--5. "STANDBYMODE,Configuration of the local initiator state management mode" "STANDBYMODE_0,STANDBYMODE_1,STANDBYMODE_2,STANDBYMODE_3"
bitfld.long 0x00 2.--3. "IDLEMODE,Configuration of the local target state management mode" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 0. "SOFTRESET,Software reset" "SOFTRESET_0_w,SOFTRESET_1_r"
group.long 0x68++0x03
line.long 0x00 "FDIF_WKADDR,"
hexmask.long 0x00 5.--31. 1. "ADDR,Work area address The 5 least significant bits are forced to 0"
tree "IRQ_Line_0"
group.long 0x30++0x03
line.long 0x00 "FDIF_IRQENABLE_CLR_j_0,Per-event interrupt enable bit vector. line #n"
bitfld.long 0x00 8. "FINISH_IRQ,Face detection processing done" "FINISH_IRQ_0_r,FINISH_IRQ_1_w"
bitfld.long 0x00 0. "ERR_IRQ,Error received by the L3 port" "ERR_IRQ_0_r,ERR_IRQ_1_w"
group.long 0x2C++0x03
line.long 0x00 "FDIF_IRQENABLE_SET_j_0,Per-event interrupt enable bit vector. line #n"
bitfld.long 0x00 8. "FINISH_IRQ,Face detection processing done" "FINISH_IRQ_0_r,FINISH_IRQ_1_w"
bitfld.long 0x00 0. "ERR_IRQ,Error received by the L3 port" "ERR_IRQ_0_r,ERR_IRQ_1_w"
group.long 0x24++0x07
line.long 0x00 "FDIF_IRQSTATUS_RAW_j_0,Per-event raw interrupt status vector. line #n"
bitfld.long 0x00 8. "FINISH_IRQ,Face detection processing done" "FINISH_IRQ_0_r,FINISH_IRQ_1_w"
bitfld.long 0x00 0. "ERR_IRQ,Error received by the L3 port" "ERR_IRQ_0_r,ERR_IRQ_1_w"
line.long 0x04 "FDIF_IRQSTATUS_j_0,Per-event 'enabled' interrupt status vector. line #n"
bitfld.long 0x04 8. "FINISH_IRQ,Face detection processing done" "FINISH_IRQ_0_r,FINISH_IRQ_1_w"
bitfld.long 0x04 0. "ERR_IRQ,Error received by the L3 port" "ERR_IRQ_0_r,ERR_IRQ_1_w"
rgroup.long 0x16C++0x03
line.long 0x00 "FD_ANGLE_i_0,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x160++0x0B
line.long 0x00 "FD_CENTERX_i_0,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_0,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_0,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree "IRQ_Line_1"
group.long 0x40++0x03
line.long 0x00 "FDIF_IRQENABLE_CLR_j_1,Per-event interrupt enable bit vector. line #n"
bitfld.long 0x00 8. "FINISH_IRQ,Face detection processing done" "FINISH_IRQ_0_r,FINISH_IRQ_1_w"
bitfld.long 0x00 0. "ERR_IRQ,Error received by the L3 port" "ERR_IRQ_0_r,ERR_IRQ_1_w"
group.long 0x3C++0x03
line.long 0x00 "FDIF_IRQENABLE_SET_j_1,Per-event interrupt enable bit vector. line #n"
bitfld.long 0x00 8. "FINISH_IRQ,Face detection processing done" "FINISH_IRQ_0_r,FINISH_IRQ_1_w"
bitfld.long 0x00 0. "ERR_IRQ,Error received by the L3 port" "ERR_IRQ_0_r,ERR_IRQ_1_w"
group.long 0x34++0x07
line.long 0x00 "FDIF_IRQSTATUS_RAW_j_1,Per-event raw interrupt status vector. line #n"
bitfld.long 0x00 8. "FINISH_IRQ,Face detection processing done" "FINISH_IRQ_0_r,FINISH_IRQ_1_w"
bitfld.long 0x00 0. "ERR_IRQ,Error received by the L3 port" "ERR_IRQ_0_r,ERR_IRQ_1_w"
line.long 0x04 "FDIF_IRQSTATUS_j_1,Per-event 'enabled' interrupt status vector. line #n"
bitfld.long 0x04 8. "FINISH_IRQ,Face detection processing done" "FINISH_IRQ_0_r,FINISH_IRQ_1_w"
bitfld.long 0x04 0. "ERR_IRQ,Error received by the L3 port" "ERR_IRQ_0_r,ERR_IRQ_1_w"
rgroup.long 0x17C++0x03
line.long 0x00 "FD_ANGLE_i_1,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x170++0x0B
line.long 0x00 "FD_CENTERX_i_1,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_1,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_1,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree "IRQ_Line_2"
group.long 0x50++0x03
line.long 0x00 "FDIF_IRQENABLE_CLR_j_2,Per-event interrupt enable bit vector. line #n"
bitfld.long 0x00 8. "FINISH_IRQ,Face detection processing done" "FINISH_IRQ_0_r,FINISH_IRQ_1_w"
bitfld.long 0x00 0. "ERR_IRQ,Error received by the L3 port" "ERR_IRQ_0_r,ERR_IRQ_1_w"
group.long 0x4C++0x03
line.long 0x00 "FDIF_IRQENABLE_SET_j_2,Per-event interrupt enable bit vector. line #n"
bitfld.long 0x00 8. "FINISH_IRQ,Face detection processing done" "FINISH_IRQ_0_r,FINISH_IRQ_1_w"
bitfld.long 0x00 0. "ERR_IRQ,Error received by the L3 port" "ERR_IRQ_0_r,ERR_IRQ_1_w"
group.long 0x44++0x07
line.long 0x00 "FDIF_IRQSTATUS_RAW_j_2,Per-event raw interrupt status vector. line #n"
bitfld.long 0x00 8. "FINISH_IRQ,Face detection processing done" "FINISH_IRQ_0_r,FINISH_IRQ_1_w"
bitfld.long 0x00 0. "ERR_IRQ,Error received by the L3 port" "ERR_IRQ_0_r,ERR_IRQ_1_w"
line.long 0x04 "FDIF_IRQSTATUS_j_2,Per-event 'enabled' interrupt status vector. line #n"
bitfld.long 0x04 8. "FINISH_IRQ,Face detection processing done" "FINISH_IRQ_0_r,FINISH_IRQ_1_w"
bitfld.long 0x04 0. "ERR_IRQ,Error received by the L3 port" "ERR_IRQ_0_r,ERR_IRQ_1_w"
rgroup.long 0x18C++0x03
line.long 0x00 "FD_ANGLE_i_2,Detection Result: Angle"
abitfld.long 0x00 0.--8. "ANGLE,Detection result face angle Permitted values: When DIR =" "0x000=0x0 (0 deg) to 0x1E (30 deg) and 0x14A..,0x001=0x03C (60 deg) to 0x078 (120 deg) When DIR =,0x002=0x0F0 (240 deg) to 0x12C (300 deg)"
rgroup.long 0x180++0x0B
line.long 0x00 "FD_CENTERX_i_2,Detection Result: X Coordinate"
hexmask.long.word 0x00 0.--8. 1. "CENTERX,Face position: center X coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x04 "FD_CENTERY_i_2,Detection Result: Y Coordinate"
hexmask.long.byte 0x04 0.--7. 1. "CENTERY,Face position: center Y coordinate The coordinates given by (FD_CENTERX_i FD_CENTERY_i) give the central coordinates of the face position"
line.long 0x08 "FD_CONFSIZE_i_2,Detection Result: Confidence Level and Size"
bitfld.long 0x08 8.--11. "CONF,Confidence level Permitted values are 0x0 (high) to 0x9 (low)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x08 0.--7. 1. "SIZE,Detection result face size Permitted values 0x14 to 0xF0"
tree.end
tree.end
tree.end
tree "Full_Speed_USB_Host_Controller"
tree "USBFSHOST"
base ansd:0x4A0A9000
hgroup.long 0x00++0x03
hide.long 0x00 "HCREVISION,OHCI revision number"
group.long 0x04++0x53
line.long 0x00 "HCCONTROL,HC operating mode register"
bitfld.long 0x00 10. "RWE,Remote wake-up enable" "RWE_0,RWE_1"
bitfld.long 0x00 9. "RWC,Remote wake up connected" "RWC_0,RWC_1"
newline
bitfld.long 0x00 8. "IR,Interrupt routing" "IR_0,IR_1"
bitfld.long 0x00 6.--7. "HCFS,Host controller functional state" "HCFS_0,HCFS_1,HCFS_2,HCFS_3"
newline
bitfld.long 0x00 5. "BLE,Bulk list processing enable" "BLE_0,BLE_1"
bitfld.long 0x00 4. "CLE,Control list processing enable" "CLE_0,CLE_1"
newline
bitfld.long 0x00 3. "IE,Isochronous ED processing enabled by host controller driver" "IE_0,IE_1"
bitfld.long 0x00 2. "PLE,Periodic list enable" "PLE_0,PLE_1"
newline
bitfld.long 0x00 0.--1. "CBSR,Control/bulk service ratio" "CBSR_0,CBSR_1,CBSR_2,CBSR_3"
line.long 0x04 "HCCOMMANDSTATUS,HC Command and status"
rbitfld.long 0x04 16.--17. "SOC,Scheduling overrun count" "SOC_0,SOC_1,SOC_2,SOC_3"
bitfld.long 0x04 3. "OCR,Ownership change request" "OCR_0,OCR_1"
newline
bitfld.long 0x04 2. "BLF,Bulk list filled" "BLF_0,BLF_1"
bitfld.long 0x04 1. "CLF,Control list filled" "CLF_0,CLF_1"
newline
bitfld.long 0x04 0. "HCR,Host controller reset (software reset)Set this bit to initiate a USB host controller reset" "HCR_0,HCR_1"
line.long 0x08 "HCINTERRUPTSTATUS,HC Interrupt status"
rbitfld.long 0x08 30. "OC,Ownership change" "OC_0,OC_1"
bitfld.long 0x08 6. "RHSC,Root hub status change" "No effect,Clears this bit"
newline
bitfld.long 0x08 5. "FNO,Frame number overflow" "No effect,Clears this bit"
bitfld.long 0x08 4. "UE,Unrecoverable error" "No effect,Clears this bit"
newline
bitfld.long 0x08 3. "RD,Resume detected" "No effect,Clears this bit"
bitfld.long 0x08 2. "SF,Start of frame" "No effect,Clears this bit"
newline
bitfld.long 0x08 1. "WDH,Write done head" "No effect,Clears this bit"
bitfld.long 0x08 0. "SO,Scheduling overrun" "No effect,Clears this bit"
line.long 0x0C "HCINTERRUPTENABLE,HC Interrupt Enable"
bitfld.long 0x0C 31. "MIE,Master interrupt enable" "No effect,Sets this bit"
bitfld.long 0x0C 30. "OC,Ownership change" "OC_0,OC_1"
newline
bitfld.long 0x0C 6. "RHSC,Root hub status changeWhen 0x1 and MIE is" "No effect,Sets this bit"
bitfld.long 0x0C 5. "FNO,Frame number overflow.When 0x1 and MIE is" "No effect,Sets this bit"
newline
bitfld.long 0x0C 4. "UE,Unrecoverable error.When 0x1 and MIE is" "No effect,Sets this bit"
bitfld.long 0x0C 3. "RD,Resume detected.When 0x1 and MIE is" "No effect,Sets this bit"
newline
bitfld.long 0x0C 2. "SF,Start of frameWhen 0x1 and MIE is" "No effect,Sets this bit"
bitfld.long 0x0C 1. "WDH,Write done headWhen 0x1 and MIE is" "No effect,Sets this bit"
newline
bitfld.long 0x0C 0. "SO,Scheduling overrun.When 0x1 and MIE is" "No effect,Sets this bit"
line.long 0x10 "HCINTERRUPTDISABLE,HC Interrupt disable"
bitfld.long 0x10 31. "MIE,Master interrupt enableAlways reads 0x0" "No effect,Clears the HCINTERRUPTENABLE MIE bit"
bitfld.long 0x10 30. "OC,Ownership change" "OC_0,OC_1"
newline
bitfld.long 0x10 6. "RHSC,Root hub status changeAlways reads 0x0" "No effect,Clears the HCINTERRUPTENABLE RHSC bit"
bitfld.long 0x10 5. "FNO,Frame number overflowAlways reads 0x0" "No effect,Clears the HCINTERRUPTENABLE FNO bit"
newline
bitfld.long 0x10 4. "UE,Unrecoverable errorAlways reads 0x0" "No effect,Clears the HCINTERRUPTENABLE UE bit"
bitfld.long 0x10 3. "RD,Resume detectedAlways reads 0x0" "No effect,Clears the HCINTERRUPTENABLE RD bit"
newline
bitfld.long 0x10 2. "SF,Start of frameAlways reads 0x0" "No effect,Clears the HCINTERRUPTENABLE SF bit"
bitfld.long 0x10 1. "WDH,Write done headAlways reads 0x0" "No effect,Clears the HCINTERRUPTENABLE WDH bit"
newline
bitfld.long 0x10 0. "SO,Scheduling overrunAlways reads 0x0" "No effect,Clears the HCINTERRUPTENABLE SO bit"
line.long 0x14 "HCHCCA,HC HCCA address register"
hexmask.long.tbyte 0x14 8.--31. 1. "HCCA,Physical address of the beginning of the HCCA"
line.long 0x18 "HCPERIODCURRENTED,HC Current periodic register"
hexmask.long 0x18 4.--31. 1. "PCED,Physical address of current ED on the periodic ED list"
line.long 0x1C "HCCONTROLHEADED,HC head control register"
hexmask.long 0x1C 4.--31. 1. "CHED,Physical address of head ED on the control ED list"
line.long 0x20 "HCCONTROLCURRENTED,HC current control register"
hexmask.long 0x20 4.--31. 1. "CCED,Physical address of current ED on the control ED list"
line.long 0x24 "HCBULKHEADED,HC head bulk register"
hexmask.long 0x24 4.--31. 1. "BHED,Physical address of head ED on the bulk ED list"
line.long 0x28 "HCBULKCURRENTED,HC current bulk register"
hexmask.long 0x28 4.--31. 1. "BCED,Physical address of current ED on the bulk ED list"
line.long 0x2C "HCDONEHEAD,HC head done register"
hexmask.long 0x2C 4.--31. 1. "DH,Physical address of last TD that was added to the done queue"
line.long 0x30 "HCFMINTERVAL,HC Frame Interval register"
bitfld.long 0x30 31. "FIT,Frame interval toggle" "FIT_0,FIT_1"
hexmask.long.word 0x30 16.--30. 1. "FSMPS,Largest data packet size for full-speed packets bit times"
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hexmask.long.word 0x30 0.--13. 1. "FI,Frame intervalNumber of 12-MHz clocks in the USB frame"
line.long 0x34 "HCFMREMAINING,HC Frame-remaining register"
bitfld.long 0x34 31. "FRT,Frame remaining toggle" "FRT_0,FRT_1"
hexmask.long.word 0x34 0.--13. 1. "FR,Frame remaining"
line.long 0x38 "HCFMNUMBER,HC Frame number register"
hexmask.long.word 0x38 0.--15. 1. "FN,Frame number"
line.long 0x3C "HCPERIODICSTART,HC Periodic start register"
hexmask.long.word 0x3C 0.--13. 1. "PS,Periodic startThe host controller driver must program this value to be about 10% less than the frame interval field value so that control and bulk EDs have priority for the first 10% of the frame; then periodic EDs have priority for the remaining 90%.."
line.long 0x40 "HCLSTHRESHOLD,HC low-speed threshold register"
hexmask.long.word 0x40 0.--11. 1. "LST,Low-speed threshold"
line.long 0x44 "HCRHDESCRIPTORA,HC root hub A register"
hexmask.long.byte 0x44 24.--31. 1. "POTPG,Power-on to power-good timeDefines the minimum length of time (2 ms * POTPG) between the USB host controller turning on power to a downstream port and when the USB host can access the downstream device"
bitfld.long 0x44 12. "NOCP,No overcurrent protection" "NOCP_0,NOCP_1"
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bitfld.long 0x44 11. "OCPM,Overcurrent protection mode" "OCPM_0,OCPM_1"
rbitfld.long 0x44 10. "DT,Device typeAlways reads" "DT_0,DT_1"
newline
bitfld.long 0x44 9. "NPS,No power switching" "NPS_0,NPS_1"
bitfld.long 0x44 8. "PSM,Power switching mode" "PSM_0,PSM_1"
newline
hexmask.long.byte 0x44 0.--7. 1. "NDP,Number of downstream ports"
line.long 0x48 "HCRHDESCRIPTORB,HC root hub B register"
bitfld.long 0x48 17. "PPCM,Port power control maskThis bit defines whether downstream port #1 has port power controlled by the global power control" "0,1"
bitfld.long 0x48 1. "DR,Device removableThis bit defines whether the downstream port has a removable device" "0,1"
line.long 0x4C "HCRHSTATUS,HC root hub status register"
bitfld.long 0x4C 31. "CRWE,Clear remote wake-up enable" "No effect,Clears the device remote wake-up enable.."
bitfld.long 0x4C 17. "OCIC,Overcurrent indication changeThis bit is automatically set when the overcurrent indicator bit changes" "No effect,Clears this bit"
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bitfld.long 0x4C 16. "LPSC,Local power status changeAlways reads" "No effect,Sets port power status bits for all.."
bitfld.long 0x4C 15. "DRWE,Device remote wake-up enableEnables a connect status change event as a resume event causing a USB suspend to USB resume state transition and sets the resume detected interrupt status bit.Read" "No effect,Sets the device remote wake-up enable bit"
newline
rbitfld.long 0x4C 1. "OCI,Overcurrent indicator" "OCI_0_r,OCI_1_r"
bitfld.long 0x4C 0. "LPS,Local power status.Always reads 0x0" "No effect,When in global power mode (power.."
line.long 0x50 "HCRHPORTSTATUS,HC Port 1 status and control register"
bitfld.long 0x50 20. "PRSC,Port 1 reset status changeThis bit is set when the Port 1 port reset status bit has changed" "No effect,Clears this bit"
bitfld.long 0x50 19. "OCIC,Port 1 overcurrent indicator changeThis bit is set when the Port 1 port overcurrent indicator has changed" "No effect,Clears this bit"
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bitfld.long 0x50 18. "PSSC,Port 1 suspend status changeThis bit is set when the Port1 port suspend status has changed" "No effect,Clears this bit"
bitfld.long 0x50 17. "PESC,Port 1 enable status changeThis bit is set when the Port1 port enable status has changed" "No effect,Clears this bit"
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bitfld.long 0x50 16. "CSC,Port 1 connect status changeThis bit is set when the Port1 port current connect status has changed due to a connect or disconnect event" "No effect,Clears this bit"
bitfld.long 0x50 9. "LSDA_CPP,Port 1 low-speed device attached/clear port power" "No effect,Clears the port 1 port power status"
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bitfld.long 0x50 8. "PPS_SPP,Port 1 port power status/set port power.Read" "No effect,Sets the port 1 port power status bit"
bitfld.long 0x50 4. "PRS_SPR,Port 1 port reset status/set port reset.Read" "No effect,Sets the port 1 port reset status bit.."
newline
bitfld.long 0x50 3. "POCI_CSS,Port 1 port overcurrent indicator/clear suspend statusRead" "No effect,When port 1 port suspend status is 1 it.."
bitfld.long 0x50 2. "PSS_SPS,Port 1 port suspend status/set port suspendThis bit is cleared automatically at the end of the USB resume sequence and also at the end of the USB reset sequence" "Port 1 is not in the USB suspend state.Read,If port 1 current connect status is 1 sets the.."
newline
bitfld.long 0x50 1. "PES_SPE,Port 1 port enable status/set port enableThis bit is automatically set at completion of port 1 USB reset if it was not already set before the USB reset completed and is automatically set at the end of a USB suspend if the port was not enabled.." "No effect,When port 1 current connect status is 1.."
bitfld.long 0x50 0. "CCS_CPE,Port 1 current connection status/clear port enableRead" "No effect,Clears the port 1 port enable bit"
rgroup.long 0x200++0x07
line.long 0x00 "HCOCPREV,"
line.long 0x04 "HCOCPHWI,Hardware information register. maintains the IP modules hardware configuration"
group.long 0x210++0x03
line.long 0x00 "HCOCPSYS,OCP system configuration register holds the OCP power down control fields that controls the clock management"
bitfld.long 0x00 9. "APPLICATIONSTARTCLOCK," "0,1"
bitfld.long 0x00 8. "SIMULATIONSCALEDOWN," "0,1"
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bitfld.long 0x00 4.--5. "STANDBY_MODE,Standby mode controls the way USBFSHOST handles the STANDBY protocol.The application can program this field in the following configurations" "Force standby,Not supported (No-Standby),Smart standby,Smart standby wake up"
bitfld.long 0x00 2.--3. "IDLE_MODE,The idle mode controls the way USBFSHOST handles the IDLE protocol.The application can program this field in the following configurations" "Force Idle,Not supported (No-Idle),Smart-Idle,Smart-Idle wake up"
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bitfld.long 0x00 1. "SOFT_RESET,Setting this bit to 1 resets the entire IP except for OCP-IDLE OCP-STANDBY and OCP-DISCONNECT logic.This bit remains set until the IP comes out of soft reset" "0,1"
tree.end
tree.end
tree "General_Purpose_Interface"
repeat 6. (list 2. 3. 4. 5. 6. 1. )(list ansd:0x48055000 ansd:0x48057000 ansd:0x48059000 ansd:0x4805B000 ansd:0x4805D000 ansd:0x4A310000 )
tree "GPIO$1"
base $2
rgroup.long 0x00++0x03
line.long 0x00 "GPIO_REVISION,IP revision identifier (X.Y.R)"
group.long 0x10++0x03
line.long 0x00 "GPIO_SYSCONFIG,System configuration register"
bitfld.long 0x00 3.--4. "IDLEMODE," "?,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 2. "ENAWAKEUP,Wake-up control" "ENAWAKEUP_0,ENAWAKEUP_1"
bitfld.long 0x00 1. "SOFTRESET,Software reset" "SOFTRESET_0,SOFTRESET_1"
bitfld.long 0x00 0. "AUTOIDLE,OCP clock gating control" "AUTOIDLE_0,AUTOIDLE_1"
group.long 0x24++0x27
line.long 0x00 "GPIO_IRQSTATUS_RAW_0,Per-event raw interrupt status vector (corresponding to first line of interrupt)"
line.long 0x04 "GPIO_IRQSTATUS_RAW_1,Per-event raw interrupt status vector (corresponding to second line of interrupt)"
line.long 0x08 "GPIO_IRQSTATUS_0,Per-event interrupt status vector (enabled) (corresponding to first line of interrupt)"
line.long 0x0C "GPIO_IRQSTATUS_1,Per-event enabled interrupt status vector (corresponding to second line of interrupt)"
line.long 0x10 "GPIO_IRQSTATUS_SET_0,Per-event interrupt enable set vector (corresponding to first line of interrupt)"
line.long 0x14 "GPIO_IRQSTATUS_SET_1,Per-event enable set interrupt vector (corresponding to second line of interrupt)"
line.long 0x18 "GPIO_IRQSTATUS_CLR_0,Per-event interrupt enable clear vector (corresponding to first line of interrupt)"
line.long 0x1C "GPIO_IRQSTATUS_CLR_1,Per-event enable clear interrupt vector (corresponding to second line of interrupt)"
line.long 0x20 "GPIO_IRQWAKEN_0,Per-event wake-up enable set vector (corresponding to first line of interrupt)"
line.long 0x24 "GPIO_IRQWAKEN_1,Per-event wake-up enable set vector (corresponding to second line of interrupt)"
rgroup.long 0x114++0x03
line.long 0x00 "GPIO_SYSSTATUS,System status register"
bitfld.long 0x00 0. "RESETDONE," "RESETDONE_0_r,RESETDONE_1_r"
group.long 0x120++0x03
line.long 0x00 "GPIO_WAKEUPENABLE,Wake-up enable register (legacy) for first line of interrupt"
group.long 0x130++0x27
line.long 0x00 "GPIO_CTRL,GPIO control register"
bitfld.long 0x00 1.--2. "GATINGRATIO,Clock gating ratio for event detection" "GATINGRATIO_0,GATINGRATIO_1,GATINGRATIO_2,GATINGRATIO_3"
bitfld.long 0x00 0. "DISABLEMODULE," "DISABLEMODULE_0,DISABLEMODULE_1"
line.long 0x04 "GPIO_OE,Output enable register"
line.long 0x08 "GPIO_DATAIN,Data input register (with sampled input data)"
line.long 0x0C "GPIO_DATAOUT,Data output register (data to set on output pins)"
line.long 0x10 "GPIO_LEVELDETECT0,Detect low-level register"
line.long 0x14 "GPIO_LEVELDETECT1,Detect high-level register"
line.long 0x18 "GPIO_RISINGDETECT,Detect rising edge register"
line.long 0x1C "GPIO_FALLINGDETECT,Detect falling edge register"
line.long 0x20 "GPIO_DEBOUNCENABLE,Debouncing enable register"
line.long 0x24 "GPIO_DEBOUNCINGTIME,Debouncing value register"
hexmask.long.byte 0x24 0.--7. 1. "DEBOUNCETIME,8-bit values specifying the debouncing time in 31 micros steps"
group.long 0x180++0x07
line.long 0x00 "GPIO_CLEARWKUPENA,Clear wake-up-enable register - legacy register"
line.long 0x04 "GPIO_SETWKUENA,Set wake-up-enable register - legacy register"
group.long 0x190++0x07
line.long 0x00 "GPIO_CLEARDATAOUT,Clear data output register"
line.long 0x04 "GPIO_SETDATAOUT,Set data output register"
tree.end
repeat.end
tree.end
tree "General_Purpose_Memory_Controller"
tree "GPMC"
base ansd:0x50000000
tree "Channel_0"
group.long 0x240++0x0F
line.long 0x00 "GPMC_BCH_RESULT0_i_0,BCH ECC result (bits 0 to 31)"
line.long 0x04 "GPMC_BCH_RESULT1_i_0,BCH ECC result (bits 32 to 63)"
line.long 0x08 "GPMC_BCH_RESULT2_i_0,BCH ECC result (bits 64 to 95)"
line.long 0x0C "GPMC_BCH_RESULT3_i_0,BCH ECC result (bits 96 to 127)"
group.long 0x300++0x0B
line.long 0x00 "GPMC_BCH_RESULT4_i_0,BCH ECC result (bits 128 to 159)"
line.long 0x04 "GPMC_BCH_RESULT5_i_0,BCH ECC result (bits 160 to 191)"
line.long 0x08 "GPMC_BCH_RESULT6_i_0,BCH ECC result (bits 192 to 207)"
hexmask.long.word 0x08 0.--15. 1. "BCH_RESULT_6,BCH ECC result (bits 192 to 207)"
group.long 0x60++0x1B
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" "WRAPBURST_0,WRAPBURST_1"
bitfld.long 0x00 30. "READMULTIPLE,Selects the read single or multiple access" "READMULTIPLE_0,READMULTIPLE_1"
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bitfld.long 0x00 29. "READTYPE,Selects the read mode operation" "READTYPE_0,READTYPE_1"
bitfld.long 0x00 28. "WRITEMULTIPLE,Selects the write single or multiple access" "WRITEMULTIPLE_0,WRITEMULTIPLE_1"
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bitfld.long 0x00 27. "WRITETYPE,Selects the write mode operation" "WRITETYPE_0,WRITETYPE_1"
bitfld.long 0x00 25.--26. "CLKACTIVATIONTIME,Output GPMC_CLK activation time" "CLKACTIVATIONTIME_0,CLKACTIVATIONTIME_1,CLKACTIVATIONTIME_2,CLKACTIVATIONTIME_3"
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bitfld.long 0x00 23.--24. "ATTACHEDDEVICEPAGE LENGTH,Specifies the attached device page (burst) length" "ATTACHEDDEVICEPAGE LENGTH_0,ATTACHEDDEVICEPAGE LENGTH_1,ATTACHEDDEVICEPAGE LENGTH_2,ATTACHEDDEVICEPAGE LENGTH_3"
bitfld.long 0x00 22. "WAITREADMONITORING,Selects the Wait monitoring configuration for Read accesses (Reset value is input pin sampled at IC reset)" "WAITREADMONITORING_0,WAITREADMONITORING_1"
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bitfld.long 0x00 21. "WAITWRITEMONITORING,Selects the Wait monitoring configuration for Write accesses" "WAITWRITEMONITORING_0,WAITWRITEMONITORING_1"
bitfld.long 0x00 18.--19. "WAITMONITORINGTIME,Selects input pin Wait monitoring time" "WAITMONITORINGTIME_0,WAITMONITORINGTIME_1,WAITMONITORINGTIME_2,WAITMONITORINGTIME_3"
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bitfld.long 0x00 16.--17. "WAITPINSELECT,Selects the input WAIT pin for this chip-select (Reset value is input pin sampled at IC reset for CS0 and 0 for CS1-7)" "WAITPINSELECT_0,WAITPINSELECT_1,WAITPINSELECT_2,WAITPINSELECT_3"
bitfld.long 0x00 12.--13. "DEVICESIZE,Selects the device size attached (Reset value is input pin sampled at IC reset for CS0 and 0x1 for CS1 to CS7)" "DEVICESIZE_0,DEVICESIZE_1,DEVICESIZE_2,DEVICESIZE_3"
newline
bitfld.long 0x00 10.--11. "DEVICETYPE,Selects the attached device type" "DEVICETYPE_0,DEVICETYPE_1,DEVICETYPE_2,DEVICETYPE_3"
bitfld.long 0x00 8.--9. "MUXADDDATA,Enables the address and data multiplexed protocol (Reset value is input pin sampled at IC reset for CS0 and 0 for CS1-CS7)" "MUXADDDATA_0,MUXADDDATA_1,MUXADDDATA_2,MUXADDDATA_3"
newline
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 TIMEOUTSTARTVALUE.." "TIMEPARAGRANULARITY_0,TIMEPARAGRANULARITY_1"
bitfld.long 0x00 0.--1. "GPMCFCLKDIVIDER,Divides the GPMC_FCLK clock" "GPMCFCLKDIVIDER_0,GPMCFCLKDIVIDER_1,GPMCFCLKDIVIDER_2,GPMCFCLKDIVIDER_3"
line.long 0x04 "GPMC_CONFIG2_i_0,CS signal timing parameter configuration"
bitfld.long 0x04 16.--20. "CSWROFFTIME,CS i de-assertion time from start cycle time for write accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x04 8.--12. "CSRDOFFTIME,CS i de-assertion time from start cycle time for read accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
newline
bitfld.long 0x04 7. "CSEXTRADELAY,CS i Add Extra Half GPMC_FCLK cycle" "CSEXTRADELAY_0,CSEXTRADELAY_1"
bitfld.long 0x04 0.--3. "CSONTIME,CS i assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
line.long 0x08 "GPMC_CONFIG3_i_0,nADV signal timing parameter configuration"
bitfld.long 0x08 28.--30. "ADVAADMUXWROFFTIME,nADV de-assertion for first address phase when using the AAD-mux protocol" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
bitfld.long 0x08 24.--26. "ADVAADMUXRDOFFTIME,nADV assertion for first address phase when using the AAD-mux protocol" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
newline
bitfld.long 0x08 16.--20. "ADVWROFFTIME,nADV de-assertion time from start cycle time for write accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x08 8.--12. "ADVRDOFFTIME,nADV de-assertion time from start cycle time for read accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
newline
bitfld.long 0x08 7. "ADVEXTRADELAY,nADV Add Extra Half GPMC_FCLK cycle" "ADVEXTRADELAY_0,ADVEXTRADELAY_1"
bitfld.long 0x08 4.--6. "ADVAADMUXONTIME,nADV assertion for first address phase when using the AAD-mux protocol" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
newline
bitfld.long 0x08 0.--3. "ADVONTIME,nADV assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
line.long 0x0C "GPMC_CONFIG4_i_0,nWE and nOE signals timing parameter configuration"
bitfld.long 0x0C 24.--28. "WEOFFTIME,nWE de-assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x0C 23. "WEEXTRADELAY,nWE Add Extra Half GPMC_FCLK cycle" "WEEXTRADELAY_0,WEEXTRADELAY_1"
newline
bitfld.long 0x0C 16.--19. "WEONTIME,nWE assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
bitfld.long 0x0C 13.--15. "OEAADMUX OFFTIME,nOE de-assertion time for the first address phase in an AAD-mux access" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
newline
bitfld.long 0x0C 8.--12. "OEOFFTIME,nOE de-assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x0C 7. "OEEXTRADELAY,nOE Add Extra Half GPMC_FCLK cycle" "OEEXTRADELAY_0,OEEXTRADELAY_1"
newline
bitfld.long 0x0C 4.--6. "OEAADMUX ONTIME,nOE assertion time for the first address phase in an AAD-mux access" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
bitfld.long 0x0C 0.--3. "OEONTIME,nOE assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
line.long 0x10 "GPMC_CONFIG5_i_0,RdAccessTime and CycleTime timing parameters configuration"
bitfld.long 0x10 24.--27. "PAGEBURSTACCESSTIME,Delay between successive words in a multiple access" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
bitfld.long 0x10 16.--20. "RDACCESSTIME,Delay between start cycle time and first data valid" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
newline
bitfld.long 0x10 8.--12. "WRCYCLETIME,Total write cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x10 0.--4. "RDCYCLETIME,Total read cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
line.long 0x14 "GPMC_CONFIG6_i_0,WrAccessTime. WrDataOnADmuxBus. Cycle2Cycle and BusTurnAround parameters configuration"
bitfld.long 0x14 24.--28. "WRACCESSTIME,Delay from start access time to the GPMC_FCLK rising edge corresponding the the GPMC_CLK rising edge used by the attached memory for the first data capture" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x14 16.--19. "WRDATAONADMUXBUS,Specifies on which GPMC_FCLK rising edge the first data of the synchronous burst 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"
newline
bitfld.long 0x14 8.--11. "CYCLE2CYCLEDELAY,Chip-select high pulse delay between successive accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
bitfld.long 0x14 7. "CYCLE2CYCLESAMECSEN,Add CYCLE2CYCLEDELAY between successive accesses to the same CS (any access type)" "CYCLE2CYCLESAMECSEN_0,CYCLE2CYCLESAMECSEN_1"
newline
bitfld.long 0x14 6. "CYCLE2CYCLEDIFFCSEN,Add CYCLE2CYCLEDELAY between successive accesses to a different CS (any access type)" "CYCLE2CYCLEDIFFCSEN_0,CYCLE2CYCLEDIFFCSEN_1"
bitfld.long 0x14 0.--3. "BUSTURNAROUND,Bus turn around latency between successive accesses to the same CS (read to write) or to a different CS (read to read and read to write)" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
line.long 0x18 "GPMC_CONFIG7_i_0,CS address mapping configuration"
bitfld.long 0x18 8.--11. "MASKADDRESS,CS mask address" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x18 6. "CSVALID,CS enable" "CSVALID_0,CSVALID_1"
newline
bitfld.long 0x18 0.--5. "BASEADDRESS,CSi base address where i = 0 to 7 (16M bytes minimum granularity) bits [5:0] corresponds to A29 A28 A27 A26 A25 and A24" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x200++0x03
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"
newline
bitfld.long 0x00 25. "P512o,Odd row parity bit 512" "0,1"
bitfld.long 0x00 24. "P256o,Odd row parity bit 256" "0,1"
newline
bitfld.long 0x00 23. "P128o,Odd row parity bit 128" "0,1"
bitfld.long 0x00 22. "P64o,Odd row parity bit 64" "0,1"
newline
bitfld.long 0x00 21. "P32o,Odd row parity bit 32" "0,1"
bitfld.long 0x00 20. "P16o,Odd row parity bit 16" "0,1"
newline
bitfld.long 0x00 19. "P8o,Odd row parity bit 8" "0,1"
bitfld.long 0x00 18. "P4o,Odd Column Parity bit 4" "0,1"
newline
bitfld.long 0x00 17. "P2o,Odd Column Parity bit 2" "0,1"
bitfld.long 0x00 16. "P1o,Odd Column Parity bit 1" "0,1"
newline
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"
newline
bitfld.long 0x00 9. "P512e,Even row parity bit 512" "0,1"
bitfld.long 0x00 8. "P256e,Even row parity bit 256" "0,1"
newline
bitfld.long 0x00 7. "P128e,Even row parity bit 128" "0,1"
bitfld.long 0x00 6. "P64e,Even row parity bit 64" "0,1"
newline
bitfld.long 0x00 5. "P32e,Even row parity bit 32" "0,1"
bitfld.long 0x00 4. "P16e,Even row parity bit 16" "0,1"
newline
bitfld.long 0x00 3. "P8e,Even row parity bit 8" "0,1"
bitfld.long 0x00 2. "P4e,Even column parity bit 4" "0,1"
newline
bitfld.long 0x00 1. "P2e,Even column parity bit 2" "0,1"
bitfld.long 0x00 0. "P1e,Even column parity bit 1" "0,1"
group.long 0x80++0x03
line.long 0x00 "GPMC_NAND_ADDRESS_i_0,This register is not a true register. just an address location"
group.long 0x7C++0x03
line.long 0x00 "GPMC_NAND_COMMAND_i_0,This register is not a true register. just an address location"
group.long 0x84++0x03
line.long 0x00 "GPMC_NAND_DATA_i_0,This register is not a true register. just an address location"
tree.end
tree "Channel_1"
group.long 0x250++0x0F
line.long 0x00 "GPMC_BCH_RESULT0_i_1,BCH ECC result (bits 0 to 31)"
line.long 0x04 "GPMC_BCH_RESULT1_i_1,BCH ECC result (bits 32 to 63)"
line.long 0x08 "GPMC_BCH_RESULT2_i_1,BCH ECC result (bits 64 to 95)"
line.long 0x0C "GPMC_BCH_RESULT3_i_1,BCH ECC result (bits 96 to 127)"
group.long 0x310++0x0B
line.long 0x00 "GPMC_BCH_RESULT4_i_1,BCH ECC result (bits 128 to 159)"
line.long 0x04 "GPMC_BCH_RESULT5_i_1,BCH ECC result (bits 160 to 191)"
line.long 0x08 "GPMC_BCH_RESULT6_i_1,BCH ECC result (bits 192 to 207)"
hexmask.long.word 0x08 0.--15. 1. "BCH_RESULT_6,BCH ECC result (bits 192 to 207)"
group.long 0x90++0x1B
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" "WRAPBURST_0,WRAPBURST_1"
bitfld.long 0x00 30. "READMULTIPLE,Selects the read single or multiple access" "READMULTIPLE_0,READMULTIPLE_1"
newline
bitfld.long 0x00 29. "READTYPE,Selects the read mode operation" "READTYPE_0,READTYPE_1"
bitfld.long 0x00 28. "WRITEMULTIPLE,Selects the write single or multiple access" "WRITEMULTIPLE_0,WRITEMULTIPLE_1"
newline
bitfld.long 0x00 27. "WRITETYPE,Selects the write mode operation" "WRITETYPE_0,WRITETYPE_1"
bitfld.long 0x00 25.--26. "CLKACTIVATIONTIME,Output GPMC_CLK activation time" "CLKACTIVATIONTIME_0,CLKACTIVATIONTIME_1,CLKACTIVATIONTIME_2,CLKACTIVATIONTIME_3"
newline
bitfld.long 0x00 23.--24. "ATTACHEDDEVICEPAGE LENGTH,Specifies the attached device page (burst) length" "ATTACHEDDEVICEPAGE LENGTH_0,ATTACHEDDEVICEPAGE LENGTH_1,ATTACHEDDEVICEPAGE LENGTH_2,ATTACHEDDEVICEPAGE LENGTH_3"
bitfld.long 0x00 22. "WAITREADMONITORING,Selects the Wait monitoring configuration for Read accesses (Reset value is input pin sampled at IC reset)" "WAITREADMONITORING_0,WAITREADMONITORING_1"
newline
bitfld.long 0x00 21. "WAITWRITEMONITORING,Selects the Wait monitoring configuration for Write accesses" "WAITWRITEMONITORING_0,WAITWRITEMONITORING_1"
bitfld.long 0x00 18.--19. "WAITMONITORINGTIME,Selects input pin Wait monitoring time" "WAITMONITORINGTIME_0,WAITMONITORINGTIME_1,WAITMONITORINGTIME_2,WAITMONITORINGTIME_3"
newline
bitfld.long 0x00 16.--17. "WAITPINSELECT,Selects the input WAIT pin for this chip-select (Reset value is input pin sampled at IC reset for CS0 and 0 for CS1-7)" "WAITPINSELECT_0,WAITPINSELECT_1,WAITPINSELECT_2,WAITPINSELECT_3"
bitfld.long 0x00 12.--13. "DEVICESIZE,Selects the device size attached (Reset value is input pin sampled at IC reset for CS0 and 0x1 for CS1 to CS7)" "DEVICESIZE_0,DEVICESIZE_1,DEVICESIZE_2,DEVICESIZE_3"
newline
bitfld.long 0x00 10.--11. "DEVICETYPE,Selects the attached device type" "DEVICETYPE_0,DEVICETYPE_1,DEVICETYPE_2,DEVICETYPE_3"
bitfld.long 0x00 8.--9. "MUXADDDATA,Enables the address and data multiplexed protocol (Reset value is input pin sampled at IC reset for CS0 and 0 for CS1-CS7)" "MUXADDDATA_0,MUXADDDATA_1,MUXADDDATA_2,MUXADDDATA_3"
newline
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 TIMEOUTSTARTVALUE.." "TIMEPARAGRANULARITY_0,TIMEPARAGRANULARITY_1"
bitfld.long 0x00 0.--1. "GPMCFCLKDIVIDER,Divides the GPMC_FCLK clock" "GPMCFCLKDIVIDER_0,GPMCFCLKDIVIDER_1,GPMCFCLKDIVIDER_2,GPMCFCLKDIVIDER_3"
line.long 0x04 "GPMC_CONFIG2_i_1,CS signal timing parameter configuration"
bitfld.long 0x04 16.--20. "CSWROFFTIME,CS i de-assertion time from start cycle time for write accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x04 8.--12. "CSRDOFFTIME,CS i de-assertion time from start cycle time for read accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
newline
bitfld.long 0x04 7. "CSEXTRADELAY,CS i Add Extra Half GPMC_FCLK cycle" "CSEXTRADELAY_0,CSEXTRADELAY_1"
bitfld.long 0x04 0.--3. "CSONTIME,CS i assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
line.long 0x08 "GPMC_CONFIG3_i_1,nADV signal timing parameter configuration"
bitfld.long 0x08 28.--30. "ADVAADMUXWROFFTIME,nADV de-assertion for first address phase when using the AAD-mux protocol" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
bitfld.long 0x08 24.--26. "ADVAADMUXRDOFFTIME,nADV assertion for first address phase when using the AAD-mux protocol" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
newline
bitfld.long 0x08 16.--20. "ADVWROFFTIME,nADV de-assertion time from start cycle time for write accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x08 8.--12. "ADVRDOFFTIME,nADV de-assertion time from start cycle time for read accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
newline
bitfld.long 0x08 7. "ADVEXTRADELAY,nADV Add Extra Half GPMC_FCLK cycle" "ADVEXTRADELAY_0,ADVEXTRADELAY_1"
bitfld.long 0x08 4.--6. "ADVAADMUXONTIME,nADV assertion for first address phase when using the AAD-mux protocol" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
newline
bitfld.long 0x08 0.--3. "ADVONTIME,nADV assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
line.long 0x0C "GPMC_CONFIG4_i_1,nWE and nOE signals timing parameter configuration"
bitfld.long 0x0C 24.--28. "WEOFFTIME,nWE de-assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x0C 23. "WEEXTRADELAY,nWE Add Extra Half GPMC_FCLK cycle" "WEEXTRADELAY_0,WEEXTRADELAY_1"
newline
bitfld.long 0x0C 16.--19. "WEONTIME,nWE assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
bitfld.long 0x0C 13.--15. "OEAADMUX OFFTIME,nOE de-assertion time for the first address phase in an AAD-mux access" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
newline
bitfld.long 0x0C 8.--12. "OEOFFTIME,nOE de-assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x0C 7. "OEEXTRADELAY,nOE Add Extra Half GPMC_FCLK cycle" "OEEXTRADELAY_0,OEEXTRADELAY_1"
newline
bitfld.long 0x0C 4.--6. "OEAADMUX ONTIME,nOE assertion time for the first address phase in an AAD-mux access" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
bitfld.long 0x0C 0.--3. "OEONTIME,nOE assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
line.long 0x10 "GPMC_CONFIG5_i_1,RdAccessTime and CycleTime timing parameters configuration"
bitfld.long 0x10 24.--27. "PAGEBURSTACCESSTIME,Delay between successive words in a multiple access" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
bitfld.long 0x10 16.--20. "RDACCESSTIME,Delay between start cycle time and first data valid" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
newline
bitfld.long 0x10 8.--12. "WRCYCLETIME,Total write cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x10 0.--4. "RDCYCLETIME,Total read cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
line.long 0x14 "GPMC_CONFIG6_i_1,WrAccessTime. WrDataOnADmuxBus. Cycle2Cycle and BusTurnAround parameters configuration"
bitfld.long 0x14 24.--28. "WRACCESSTIME,Delay from start access time to the GPMC_FCLK rising edge corresponding the the GPMC_CLK rising edge used by the attached memory for the first data capture" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x14 16.--19. "WRDATAONADMUXBUS,Specifies on which GPMC_FCLK rising edge the first data of the synchronous burst 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"
newline
bitfld.long 0x14 8.--11. "CYCLE2CYCLEDELAY,Chip-select high pulse delay between successive accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
bitfld.long 0x14 7. "CYCLE2CYCLESAMECSEN,Add CYCLE2CYCLEDELAY between successive accesses to the same CS (any access type)" "CYCLE2CYCLESAMECSEN_0,CYCLE2CYCLESAMECSEN_1"
newline
bitfld.long 0x14 6. "CYCLE2CYCLEDIFFCSEN,Add CYCLE2CYCLEDELAY between successive accesses to a different CS (any access type)" "CYCLE2CYCLEDIFFCSEN_0,CYCLE2CYCLEDIFFCSEN_1"
bitfld.long 0x14 0.--3. "BUSTURNAROUND,Bus turn around latency between successive accesses to the same CS (read to write) or to a different CS (read to read and read to write)" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
line.long 0x18 "GPMC_CONFIG7_i_1,CS address mapping configuration"
bitfld.long 0x18 8.--11. "MASKADDRESS,CS mask address" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x18 6. "CSVALID,CS enable" "CSVALID_0,CSVALID_1"
newline
bitfld.long 0x18 0.--5. "BASEADDRESS,CSi base address where i = 0 to 7 (16M bytes minimum granularity) bits [5:0] corresponds to A29 A28 A27 A26 A25 and A24" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x204++0x03
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"
newline
bitfld.long 0x00 25. "P512o,Odd row parity bit 512" "0,1"
bitfld.long 0x00 24. "P256o,Odd row parity bit 256" "0,1"
newline
bitfld.long 0x00 23. "P128o,Odd row parity bit 128" "0,1"
bitfld.long 0x00 22. "P64o,Odd row parity bit 64" "0,1"
newline
bitfld.long 0x00 21. "P32o,Odd row parity bit 32" "0,1"
bitfld.long 0x00 20. "P16o,Odd row parity bit 16" "0,1"
newline
bitfld.long 0x00 19. "P8o,Odd row parity bit 8" "0,1"
bitfld.long 0x00 18. "P4o,Odd Column Parity bit 4" "0,1"
newline
bitfld.long 0x00 17. "P2o,Odd Column Parity bit 2" "0,1"
bitfld.long 0x00 16. "P1o,Odd Column Parity bit 1" "0,1"
newline
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"
newline
bitfld.long 0x00 9. "P512e,Even row parity bit 512" "0,1"
bitfld.long 0x00 8. "P256e,Even row parity bit 256" "0,1"
newline
bitfld.long 0x00 7. "P128e,Even row parity bit 128" "0,1"
bitfld.long 0x00 6. "P64e,Even row parity bit 64" "0,1"
newline
bitfld.long 0x00 5. "P32e,Even row parity bit 32" "0,1"
bitfld.long 0x00 4. "P16e,Even row parity bit 16" "0,1"
newline
bitfld.long 0x00 3. "P8e,Even row parity bit 8" "0,1"
bitfld.long 0x00 2. "P4e,Even column parity bit 4" "0,1"
newline
bitfld.long 0x00 1. "P2e,Even column parity bit 2" "0,1"
bitfld.long 0x00 0. "P1e,Even column parity bit 1" "0,1"
group.long 0xB0++0x03
line.long 0x00 "GPMC_NAND_ADDRESS_i_1,This register is not a true register. just an address location"
group.long 0xAC++0x03
line.long 0x00 "GPMC_NAND_COMMAND_i_1,This register is not a true register. just an address location"
group.long 0xB4++0x03
line.long 0x00 "GPMC_NAND_DATA_i_1,This register is not a true register. just an address location"
tree.end
tree "Channel_2"
group.long 0x260++0x0F
line.long 0x00 "GPMC_BCH_RESULT0_i_2,BCH ECC result (bits 0 to 31)"
line.long 0x04 "GPMC_BCH_RESULT1_i_2,BCH ECC result (bits 32 to 63)"
line.long 0x08 "GPMC_BCH_RESULT2_i_2,BCH ECC result (bits 64 to 95)"
line.long 0x0C "GPMC_BCH_RESULT3_i_2,BCH ECC result (bits 96 to 127)"
group.long 0x320++0x0B
line.long 0x00 "GPMC_BCH_RESULT4_i_2,BCH ECC result (bits 128 to 159)"
line.long 0x04 "GPMC_BCH_RESULT5_i_2,BCH ECC result (bits 160 to 191)"
line.long 0x08 "GPMC_BCH_RESULT6_i_2,BCH ECC result (bits 192 to 207)"
hexmask.long.word 0x08 0.--15. 1. "BCH_RESULT_6,BCH ECC result (bits 192 to 207)"
group.long 0xC0++0x1B
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" "WRAPBURST_0,WRAPBURST_1"
bitfld.long 0x00 30. "READMULTIPLE,Selects the read single or multiple access" "READMULTIPLE_0,READMULTIPLE_1"
newline
bitfld.long 0x00 29. "READTYPE,Selects the read mode operation" "READTYPE_0,READTYPE_1"
bitfld.long 0x00 28. "WRITEMULTIPLE,Selects the write single or multiple access" "WRITEMULTIPLE_0,WRITEMULTIPLE_1"
newline
bitfld.long 0x00 27. "WRITETYPE,Selects the write mode operation" "WRITETYPE_0,WRITETYPE_1"
bitfld.long 0x00 25.--26. "CLKACTIVATIONTIME,Output GPMC_CLK activation time" "CLKACTIVATIONTIME_0,CLKACTIVATIONTIME_1,CLKACTIVATIONTIME_2,CLKACTIVATIONTIME_3"
newline
bitfld.long 0x00 23.--24. "ATTACHEDDEVICEPAGE LENGTH,Specifies the attached device page (burst) length" "ATTACHEDDEVICEPAGE LENGTH_0,ATTACHEDDEVICEPAGE LENGTH_1,ATTACHEDDEVICEPAGE LENGTH_2,ATTACHEDDEVICEPAGE LENGTH_3"
bitfld.long 0x00 22. "WAITREADMONITORING,Selects the Wait monitoring configuration for Read accesses (Reset value is input pin sampled at IC reset)" "WAITREADMONITORING_0,WAITREADMONITORING_1"
newline
bitfld.long 0x00 21. "WAITWRITEMONITORING,Selects the Wait monitoring configuration for Write accesses" "WAITWRITEMONITORING_0,WAITWRITEMONITORING_1"
bitfld.long 0x00 18.--19. "WAITMONITORINGTIME,Selects input pin Wait monitoring time" "WAITMONITORINGTIME_0,WAITMONITORINGTIME_1,WAITMONITORINGTIME_2,WAITMONITORINGTIME_3"
newline
bitfld.long 0x00 16.--17. "WAITPINSELECT,Selects the input WAIT pin for this chip-select (Reset value is input pin sampled at IC reset for CS0 and 0 for CS1-7)" "WAITPINSELECT_0,WAITPINSELECT_1,WAITPINSELECT_2,WAITPINSELECT_3"
bitfld.long 0x00 12.--13. "DEVICESIZE,Selects the device size attached (Reset value is input pin sampled at IC reset for CS0 and 0x1 for CS1 to CS7)" "DEVICESIZE_0,DEVICESIZE_1,DEVICESIZE_2,DEVICESIZE_3"
newline
bitfld.long 0x00 10.--11. "DEVICETYPE,Selects the attached device type" "DEVICETYPE_0,DEVICETYPE_1,DEVICETYPE_2,DEVICETYPE_3"
bitfld.long 0x00 8.--9. "MUXADDDATA,Enables the address and data multiplexed protocol (Reset value is input pin sampled at IC reset for CS0 and 0 for CS1-CS7)" "MUXADDDATA_0,MUXADDDATA_1,MUXADDDATA_2,MUXADDDATA_3"
newline
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 TIMEOUTSTARTVALUE.." "TIMEPARAGRANULARITY_0,TIMEPARAGRANULARITY_1"
bitfld.long 0x00 0.--1. "GPMCFCLKDIVIDER,Divides the GPMC_FCLK clock" "GPMCFCLKDIVIDER_0,GPMCFCLKDIVIDER_1,GPMCFCLKDIVIDER_2,GPMCFCLKDIVIDER_3"
line.long 0x04 "GPMC_CONFIG2_i_2,CS signal timing parameter configuration"
bitfld.long 0x04 16.--20. "CSWROFFTIME,CS i de-assertion time from start cycle time for write accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x04 8.--12. "CSRDOFFTIME,CS i de-assertion time from start cycle time for read accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
newline
bitfld.long 0x04 7. "CSEXTRADELAY,CS i Add Extra Half GPMC_FCLK cycle" "CSEXTRADELAY_0,CSEXTRADELAY_1"
bitfld.long 0x04 0.--3. "CSONTIME,CS i assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
line.long 0x08 "GPMC_CONFIG3_i_2,nADV signal timing parameter configuration"
bitfld.long 0x08 28.--30. "ADVAADMUXWROFFTIME,nADV de-assertion for first address phase when using the AAD-mux protocol" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
bitfld.long 0x08 24.--26. "ADVAADMUXRDOFFTIME,nADV assertion for first address phase when using the AAD-mux protocol" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
newline
bitfld.long 0x08 16.--20. "ADVWROFFTIME,nADV de-assertion time from start cycle time for write accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x08 8.--12. "ADVRDOFFTIME,nADV de-assertion time from start cycle time for read accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
newline
bitfld.long 0x08 7. "ADVEXTRADELAY,nADV Add Extra Half GPMC_FCLK cycle" "ADVEXTRADELAY_0,ADVEXTRADELAY_1"
bitfld.long 0x08 4.--6. "ADVAADMUXONTIME,nADV assertion for first address phase when using the AAD-mux protocol" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
newline
bitfld.long 0x08 0.--3. "ADVONTIME,nADV assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
line.long 0x0C "GPMC_CONFIG4_i_2,nWE and nOE signals timing parameter configuration"
bitfld.long 0x0C 24.--28. "WEOFFTIME,nWE de-assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x0C 23. "WEEXTRADELAY,nWE Add Extra Half GPMC_FCLK cycle" "WEEXTRADELAY_0,WEEXTRADELAY_1"
newline
bitfld.long 0x0C 16.--19. "WEONTIME,nWE assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
bitfld.long 0x0C 13.--15. "OEAADMUX OFFTIME,nOE de-assertion time for the first address phase in an AAD-mux access" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
newline
bitfld.long 0x0C 8.--12. "OEOFFTIME,nOE de-assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x0C 7. "OEEXTRADELAY,nOE Add Extra Half GPMC_FCLK cycle" "OEEXTRADELAY_0,OEEXTRADELAY_1"
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bitfld.long 0x0C 4.--6. "OEAADMUX ONTIME,nOE assertion time for the first address phase in an AAD-mux access" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
bitfld.long 0x0C 0.--3. "OEONTIME,nOE assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
line.long 0x10 "GPMC_CONFIG5_i_2,RdAccessTime and CycleTime timing parameters configuration"
bitfld.long 0x10 24.--27. "PAGEBURSTACCESSTIME,Delay between successive words in a multiple access" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
bitfld.long 0x10 16.--20. "RDACCESSTIME,Delay between start cycle time and first data valid" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
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bitfld.long 0x10 8.--12. "WRCYCLETIME,Total write cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x10 0.--4. "RDCYCLETIME,Total read cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
line.long 0x14 "GPMC_CONFIG6_i_2,WrAccessTime. WrDataOnADmuxBus. Cycle2Cycle and BusTurnAround parameters configuration"
bitfld.long 0x14 24.--28. "WRACCESSTIME,Delay from start access time to the GPMC_FCLK rising edge corresponding the the GPMC_CLK rising edge used by the attached memory for the first data capture" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x14 16.--19. "WRDATAONADMUXBUS,Specifies on which GPMC_FCLK rising edge the first data of the synchronous burst 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"
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bitfld.long 0x14 8.--11. "CYCLE2CYCLEDELAY,Chip-select high pulse delay between successive accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
bitfld.long 0x14 7. "CYCLE2CYCLESAMECSEN,Add CYCLE2CYCLEDELAY between successive accesses to the same CS (any access type)" "CYCLE2CYCLESAMECSEN_0,CYCLE2CYCLESAMECSEN_1"
newline
bitfld.long 0x14 6. "CYCLE2CYCLEDIFFCSEN,Add CYCLE2CYCLEDELAY between successive accesses to a different CS (any access type)" "CYCLE2CYCLEDIFFCSEN_0,CYCLE2CYCLEDIFFCSEN_1"
bitfld.long 0x14 0.--3. "BUSTURNAROUND,Bus turn around latency between successive accesses to the same CS (read to write) or to a different CS (read to read and read to write)" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
line.long 0x18 "GPMC_CONFIG7_i_2,CS address mapping configuration"
bitfld.long 0x18 8.--11. "MASKADDRESS,CS mask address" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x18 6. "CSVALID,CS enable" "CSVALID_0,CSVALID_1"
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bitfld.long 0x18 0.--5. "BASEADDRESS,CSi base address where i = 0 to 7 (16M bytes minimum granularity) bits [5:0] corresponds to A29 A28 A27 A26 A25 and A24" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x208++0x03
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"
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bitfld.long 0x00 25. "P512o,Odd row parity bit 512" "0,1"
bitfld.long 0x00 24. "P256o,Odd row parity bit 256" "0,1"
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bitfld.long 0x00 23. "P128o,Odd row parity bit 128" "0,1"
bitfld.long 0x00 22. "P64o,Odd row parity bit 64" "0,1"
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bitfld.long 0x00 21. "P32o,Odd row parity bit 32" "0,1"
bitfld.long 0x00 20. "P16o,Odd row parity bit 16" "0,1"
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bitfld.long 0x00 19. "P8o,Odd row parity bit 8" "0,1"
bitfld.long 0x00 18. "P4o,Odd Column Parity bit 4" "0,1"
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bitfld.long 0x00 17. "P2o,Odd Column Parity bit 2" "0,1"
bitfld.long 0x00 16. "P1o,Odd Column Parity bit 1" "0,1"
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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"
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bitfld.long 0x00 9. "P512e,Even row parity bit 512" "0,1"
bitfld.long 0x00 8. "P256e,Even row parity bit 256" "0,1"
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bitfld.long 0x00 7. "P128e,Even row parity bit 128" "0,1"
bitfld.long 0x00 6. "P64e,Even row parity bit 64" "0,1"
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bitfld.long 0x00 5. "P32e,Even row parity bit 32" "0,1"
bitfld.long 0x00 4. "P16e,Even row parity bit 16" "0,1"
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bitfld.long 0x00 3. "P8e,Even row parity bit 8" "0,1"
bitfld.long 0x00 2. "P4e,Even column parity bit 4" "0,1"
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bitfld.long 0x00 1. "P2e,Even column parity bit 2" "0,1"
bitfld.long 0x00 0. "P1e,Even column parity bit 1" "0,1"
group.long 0xE0++0x03
line.long 0x00 "GPMC_NAND_ADDRESS_i_2,This register is not a true register. just an address location"
group.long 0xDC++0x03
line.long 0x00 "GPMC_NAND_COMMAND_i_2,This register is not a true register. just an address location"
group.long 0xE4++0x03
line.long 0x00 "GPMC_NAND_DATA_i_2,This register is not a true register. just an address location"
tree.end
tree "Channel_3"
group.long 0x270++0x0F
line.long 0x00 "GPMC_BCH_RESULT0_i_3,BCH ECC result (bits 0 to 31)"
line.long 0x04 "GPMC_BCH_RESULT1_i_3,BCH ECC result (bits 32 to 63)"
line.long 0x08 "GPMC_BCH_RESULT2_i_3,BCH ECC result (bits 64 to 95)"
line.long 0x0C "GPMC_BCH_RESULT3_i_3,BCH ECC result (bits 96 to 127)"
group.long 0x330++0x0B
line.long 0x00 "GPMC_BCH_RESULT4_i_3,BCH ECC result (bits 128 to 159)"
line.long 0x04 "GPMC_BCH_RESULT5_i_3,BCH ECC result (bits 160 to 191)"
line.long 0x08 "GPMC_BCH_RESULT6_i_3,BCH ECC result (bits 192 to 207)"
hexmask.long.word 0x08 0.--15. 1. "BCH_RESULT_6,BCH ECC result (bits 192 to 207)"
group.long 0xF0++0x1B
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" "WRAPBURST_0,WRAPBURST_1"
bitfld.long 0x00 30. "READMULTIPLE,Selects the read single or multiple access" "READMULTIPLE_0,READMULTIPLE_1"
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bitfld.long 0x00 29. "READTYPE,Selects the read mode operation" "READTYPE_0,READTYPE_1"
bitfld.long 0x00 28. "WRITEMULTIPLE,Selects the write single or multiple access" "WRITEMULTIPLE_0,WRITEMULTIPLE_1"
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bitfld.long 0x00 27. "WRITETYPE,Selects the write mode operation" "WRITETYPE_0,WRITETYPE_1"
bitfld.long 0x00 25.--26. "CLKACTIVATIONTIME,Output GPMC_CLK activation time" "CLKACTIVATIONTIME_0,CLKACTIVATIONTIME_1,CLKACTIVATIONTIME_2,CLKACTIVATIONTIME_3"
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bitfld.long 0x00 23.--24. "ATTACHEDDEVICEPAGE LENGTH,Specifies the attached device page (burst) length" "ATTACHEDDEVICEPAGE LENGTH_0,ATTACHEDDEVICEPAGE LENGTH_1,ATTACHEDDEVICEPAGE LENGTH_2,ATTACHEDDEVICEPAGE LENGTH_3"
bitfld.long 0x00 22. "WAITREADMONITORING,Selects the Wait monitoring configuration for Read accesses (Reset value is input pin sampled at IC reset)" "WAITREADMONITORING_0,WAITREADMONITORING_1"
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bitfld.long 0x00 21. "WAITWRITEMONITORING,Selects the Wait monitoring configuration for Write accesses" "WAITWRITEMONITORING_0,WAITWRITEMONITORING_1"
bitfld.long 0x00 18.--19. "WAITMONITORINGTIME,Selects input pin Wait monitoring time" "WAITMONITORINGTIME_0,WAITMONITORINGTIME_1,WAITMONITORINGTIME_2,WAITMONITORINGTIME_3"
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bitfld.long 0x00 16.--17. "WAITPINSELECT,Selects the input WAIT pin for this chip-select (Reset value is input pin sampled at IC reset for CS0 and 0 for CS1-7)" "WAITPINSELECT_0,WAITPINSELECT_1,WAITPINSELECT_2,WAITPINSELECT_3"
bitfld.long 0x00 12.--13. "DEVICESIZE,Selects the device size attached (Reset value is input pin sampled at IC reset for CS0 and 0x1 for CS1 to CS7)" "DEVICESIZE_0,DEVICESIZE_1,DEVICESIZE_2,DEVICESIZE_3"
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bitfld.long 0x00 10.--11. "DEVICETYPE,Selects the attached device type" "DEVICETYPE_0,DEVICETYPE_1,DEVICETYPE_2,DEVICETYPE_3"
bitfld.long 0x00 8.--9. "MUXADDDATA,Enables the address and data multiplexed protocol (Reset value is input pin sampled at IC reset for CS0 and 0 for CS1-CS7)" "MUXADDDATA_0,MUXADDDATA_1,MUXADDDATA_2,MUXADDDATA_3"
newline
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 TIMEOUTSTARTVALUE.." "TIMEPARAGRANULARITY_0,TIMEPARAGRANULARITY_1"
bitfld.long 0x00 0.--1. "GPMCFCLKDIVIDER,Divides the GPMC_FCLK clock" "GPMCFCLKDIVIDER_0,GPMCFCLKDIVIDER_1,GPMCFCLKDIVIDER_2,GPMCFCLKDIVIDER_3"
line.long 0x04 "GPMC_CONFIG2_i_3,CS signal timing parameter configuration"
bitfld.long 0x04 16.--20. "CSWROFFTIME,CS i de-assertion time from start cycle time for write accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x04 8.--12. "CSRDOFFTIME,CS i de-assertion time from start cycle time for read accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
newline
bitfld.long 0x04 7. "CSEXTRADELAY,CS i Add Extra Half GPMC_FCLK cycle" "CSEXTRADELAY_0,CSEXTRADELAY_1"
bitfld.long 0x04 0.--3. "CSONTIME,CS i assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
line.long 0x08 "GPMC_CONFIG3_i_3,nADV signal timing parameter configuration"
bitfld.long 0x08 28.--30. "ADVAADMUXWROFFTIME,nADV de-assertion for first address phase when using the AAD-mux protocol" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
bitfld.long 0x08 24.--26. "ADVAADMUXRDOFFTIME,nADV assertion for first address phase when using the AAD-mux protocol" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
newline
bitfld.long 0x08 16.--20. "ADVWROFFTIME,nADV de-assertion time from start cycle time for write accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x08 8.--12. "ADVRDOFFTIME,nADV de-assertion time from start cycle time for read accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
newline
bitfld.long 0x08 7. "ADVEXTRADELAY,nADV Add Extra Half GPMC_FCLK cycle" "ADVEXTRADELAY_0,ADVEXTRADELAY_1"
bitfld.long 0x08 4.--6. "ADVAADMUXONTIME,nADV assertion for first address phase when using the AAD-mux protocol" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
newline
bitfld.long 0x08 0.--3. "ADVONTIME,nADV assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
line.long 0x0C "GPMC_CONFIG4_i_3,nWE and nOE signals timing parameter configuration"
bitfld.long 0x0C 24.--28. "WEOFFTIME,nWE de-assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x0C 23. "WEEXTRADELAY,nWE Add Extra Half GPMC_FCLK cycle" "WEEXTRADELAY_0,WEEXTRADELAY_1"
newline
bitfld.long 0x0C 16.--19. "WEONTIME,nWE assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
bitfld.long 0x0C 13.--15. "OEAADMUX OFFTIME,nOE de-assertion time for the first address phase in an AAD-mux access" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
newline
bitfld.long 0x0C 8.--12. "OEOFFTIME,nOE de-assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x0C 7. "OEEXTRADELAY,nOE Add Extra Half GPMC_FCLK cycle" "OEEXTRADELAY_0,OEEXTRADELAY_1"
newline
bitfld.long 0x0C 4.--6. "OEAADMUX ONTIME,nOE assertion time for the first address phase in an AAD-mux access" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
bitfld.long 0x0C 0.--3. "OEONTIME,nOE assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
line.long 0x10 "GPMC_CONFIG5_i_3,RdAccessTime and CycleTime timing parameters configuration"
bitfld.long 0x10 24.--27. "PAGEBURSTACCESSTIME,Delay between successive words in a multiple access" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
bitfld.long 0x10 16.--20. "RDACCESSTIME,Delay between start cycle time and first data valid" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
newline
bitfld.long 0x10 8.--12. "WRCYCLETIME,Total write cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x10 0.--4. "RDCYCLETIME,Total read cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
line.long 0x14 "GPMC_CONFIG6_i_3,WrAccessTime. WrDataOnADmuxBus. Cycle2Cycle and BusTurnAround parameters configuration"
bitfld.long 0x14 24.--28. "WRACCESSTIME,Delay from start access time to the GPMC_FCLK rising edge corresponding the the GPMC_CLK rising edge used by the attached memory for the first data capture" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x14 16.--19. "WRDATAONADMUXBUS,Specifies on which GPMC_FCLK rising edge the first data of the synchronous burst 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"
newline
bitfld.long 0x14 8.--11. "CYCLE2CYCLEDELAY,Chip-select high pulse delay between successive accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
bitfld.long 0x14 7. "CYCLE2CYCLESAMECSEN,Add CYCLE2CYCLEDELAY between successive accesses to the same CS (any access type)" "CYCLE2CYCLESAMECSEN_0,CYCLE2CYCLESAMECSEN_1"
newline
bitfld.long 0x14 6. "CYCLE2CYCLEDIFFCSEN,Add CYCLE2CYCLEDELAY between successive accesses to a different CS (any access type)" "CYCLE2CYCLEDIFFCSEN_0,CYCLE2CYCLEDIFFCSEN_1"
bitfld.long 0x14 0.--3. "BUSTURNAROUND,Bus turn around latency between successive accesses to the same CS (read to write) or to a different CS (read to read and read to write)" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
line.long 0x18 "GPMC_CONFIG7_i_3,CS address mapping configuration"
bitfld.long 0x18 8.--11. "MASKADDRESS,CS mask address" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x18 6. "CSVALID,CS enable" "CSVALID_0,CSVALID_1"
newline
bitfld.long 0x18 0.--5. "BASEADDRESS,CSi base address where i = 0 to 7 (16M bytes minimum granularity) bits [5:0] corresponds to A29 A28 A27 A26 A25 and A24" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x20C++0x03
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"
newline
bitfld.long 0x00 25. "P512o,Odd row parity bit 512" "0,1"
bitfld.long 0x00 24. "P256o,Odd row parity bit 256" "0,1"
newline
bitfld.long 0x00 23. "P128o,Odd row parity bit 128" "0,1"
bitfld.long 0x00 22. "P64o,Odd row parity bit 64" "0,1"
newline
bitfld.long 0x00 21. "P32o,Odd row parity bit 32" "0,1"
bitfld.long 0x00 20. "P16o,Odd row parity bit 16" "0,1"
newline
bitfld.long 0x00 19. "P8o,Odd row parity bit 8" "0,1"
bitfld.long 0x00 18. "P4o,Odd Column Parity bit 4" "0,1"
newline
bitfld.long 0x00 17. "P2o,Odd Column Parity bit 2" "0,1"
bitfld.long 0x00 16. "P1o,Odd Column Parity bit 1" "0,1"
newline
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"
newline
bitfld.long 0x00 9. "P512e,Even row parity bit 512" "0,1"
bitfld.long 0x00 8. "P256e,Even row parity bit 256" "0,1"
newline
bitfld.long 0x00 7. "P128e,Even row parity bit 128" "0,1"
bitfld.long 0x00 6. "P64e,Even row parity bit 64" "0,1"
newline
bitfld.long 0x00 5. "P32e,Even row parity bit 32" "0,1"
bitfld.long 0x00 4. "P16e,Even row parity bit 16" "0,1"
newline
bitfld.long 0x00 3. "P8e,Even row parity bit 8" "0,1"
bitfld.long 0x00 2. "P4e,Even column parity bit 4" "0,1"
newline
bitfld.long 0x00 1. "P2e,Even column parity bit 2" "0,1"
bitfld.long 0x00 0. "P1e,Even column parity bit 1" "0,1"
group.long 0x110++0x03
line.long 0x00 "GPMC_NAND_ADDRESS_i_3,This register is not a true register. just an address location"
group.long 0x10C++0x03
line.long 0x00 "GPMC_NAND_COMMAND_i_3,This register is not a true register. just an address location"
group.long 0x114++0x03
line.long 0x00 "GPMC_NAND_DATA_i_3,This register is not a true register. just an address location"
tree.end
tree "Channel_4"
group.long 0x280++0x0F
line.long 0x00 "GPMC_BCH_RESULT0_i_4,BCH ECC result (bits 0 to 31)"
line.long 0x04 "GPMC_BCH_RESULT1_i_4,BCH ECC result (bits 32 to 63)"
line.long 0x08 "GPMC_BCH_RESULT2_i_4,BCH ECC result (bits 64 to 95)"
line.long 0x0C "GPMC_BCH_RESULT3_i_4,BCH ECC result (bits 96 to 127)"
group.long 0x340++0x0B
line.long 0x00 "GPMC_BCH_RESULT4_i_4,BCH ECC result (bits 128 to 159)"
line.long 0x04 "GPMC_BCH_RESULT5_i_4,BCH ECC result (bits 160 to 191)"
line.long 0x08 "GPMC_BCH_RESULT6_i_4,BCH ECC result (bits 192 to 207)"
hexmask.long.word 0x08 0.--15. 1. "BCH_RESULT_6,BCH ECC result (bits 192 to 207)"
group.long 0x120++0x1B
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" "WRAPBURST_0,WRAPBURST_1"
bitfld.long 0x00 30. "READMULTIPLE,Selects the read single or multiple access" "READMULTIPLE_0,READMULTIPLE_1"
newline
bitfld.long 0x00 29. "READTYPE,Selects the read mode operation" "READTYPE_0,READTYPE_1"
bitfld.long 0x00 28. "WRITEMULTIPLE,Selects the write single or multiple access" "WRITEMULTIPLE_0,WRITEMULTIPLE_1"
newline
bitfld.long 0x00 27. "WRITETYPE,Selects the write mode operation" "WRITETYPE_0,WRITETYPE_1"
bitfld.long 0x00 25.--26. "CLKACTIVATIONTIME,Output GPMC_CLK activation time" "CLKACTIVATIONTIME_0,CLKACTIVATIONTIME_1,CLKACTIVATIONTIME_2,CLKACTIVATIONTIME_3"
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bitfld.long 0x00 23.--24. "ATTACHEDDEVICEPAGE LENGTH,Specifies the attached device page (burst) length" "ATTACHEDDEVICEPAGE LENGTH_0,ATTACHEDDEVICEPAGE LENGTH_1,ATTACHEDDEVICEPAGE LENGTH_2,ATTACHEDDEVICEPAGE LENGTH_3"
bitfld.long 0x00 22. "WAITREADMONITORING,Selects the Wait monitoring configuration for Read accesses (Reset value is input pin sampled at IC reset)" "WAITREADMONITORING_0,WAITREADMONITORING_1"
newline
bitfld.long 0x00 21. "WAITWRITEMONITORING,Selects the Wait monitoring configuration for Write accesses" "WAITWRITEMONITORING_0,WAITWRITEMONITORING_1"
bitfld.long 0x00 18.--19. "WAITMONITORINGTIME,Selects input pin Wait monitoring time" "WAITMONITORINGTIME_0,WAITMONITORINGTIME_1,WAITMONITORINGTIME_2,WAITMONITORINGTIME_3"
newline
bitfld.long 0x00 16.--17. "WAITPINSELECT,Selects the input WAIT pin for this chip-select (Reset value is input pin sampled at IC reset for CS0 and 0 for CS1-7)" "WAITPINSELECT_0,WAITPINSELECT_1,WAITPINSELECT_2,WAITPINSELECT_3"
bitfld.long 0x00 12.--13. "DEVICESIZE,Selects the device size attached (Reset value is input pin sampled at IC reset for CS0 and 0x1 for CS1 to CS7)" "DEVICESIZE_0,DEVICESIZE_1,DEVICESIZE_2,DEVICESIZE_3"
newline
bitfld.long 0x00 10.--11. "DEVICETYPE,Selects the attached device type" "DEVICETYPE_0,DEVICETYPE_1,DEVICETYPE_2,DEVICETYPE_3"
bitfld.long 0x00 8.--9. "MUXADDDATA,Enables the address and data multiplexed protocol (Reset value is input pin sampled at IC reset for CS0 and 0 for CS1-CS7)" "MUXADDDATA_0,MUXADDDATA_1,MUXADDDATA_2,MUXADDDATA_3"
newline
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 TIMEOUTSTARTVALUE.." "TIMEPARAGRANULARITY_0,TIMEPARAGRANULARITY_1"
bitfld.long 0x00 0.--1. "GPMCFCLKDIVIDER,Divides the GPMC_FCLK clock" "GPMCFCLKDIVIDER_0,GPMCFCLKDIVIDER_1,GPMCFCLKDIVIDER_2,GPMCFCLKDIVIDER_3"
line.long 0x04 "GPMC_CONFIG2_i_4,CS signal timing parameter configuration"
bitfld.long 0x04 16.--20. "CSWROFFTIME,CS i de-assertion time from start cycle time for write accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x04 8.--12. "CSRDOFFTIME,CS i de-assertion time from start cycle time for read accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
newline
bitfld.long 0x04 7. "CSEXTRADELAY,CS i Add Extra Half GPMC_FCLK cycle" "CSEXTRADELAY_0,CSEXTRADELAY_1"
bitfld.long 0x04 0.--3. "CSONTIME,CS i assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
line.long 0x08 "GPMC_CONFIG3_i_4,nADV signal timing parameter configuration"
bitfld.long 0x08 28.--30. "ADVAADMUXWROFFTIME,nADV de-assertion for first address phase when using the AAD-mux protocol" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
bitfld.long 0x08 24.--26. "ADVAADMUXRDOFFTIME,nADV assertion for first address phase when using the AAD-mux protocol" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
newline
bitfld.long 0x08 16.--20. "ADVWROFFTIME,nADV de-assertion time from start cycle time for write accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x08 8.--12. "ADVRDOFFTIME,nADV de-assertion time from start cycle time for read accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
newline
bitfld.long 0x08 7. "ADVEXTRADELAY,nADV Add Extra Half GPMC_FCLK cycle" "ADVEXTRADELAY_0,ADVEXTRADELAY_1"
bitfld.long 0x08 4.--6. "ADVAADMUXONTIME,nADV assertion for first address phase when using the AAD-mux protocol" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
newline
bitfld.long 0x08 0.--3. "ADVONTIME,nADV assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
line.long 0x0C "GPMC_CONFIG4_i_4,nWE and nOE signals timing parameter configuration"
bitfld.long 0x0C 24.--28. "WEOFFTIME,nWE de-assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x0C 23. "WEEXTRADELAY,nWE Add Extra Half GPMC_FCLK cycle" "WEEXTRADELAY_0,WEEXTRADELAY_1"
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bitfld.long 0x0C 16.--19. "WEONTIME,nWE assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
bitfld.long 0x0C 13.--15. "OEAADMUX OFFTIME,nOE de-assertion time for the first address phase in an AAD-mux access" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
newline
bitfld.long 0x0C 8.--12. "OEOFFTIME,nOE de-assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x0C 7. "OEEXTRADELAY,nOE Add Extra Half GPMC_FCLK cycle" "OEEXTRADELAY_0,OEEXTRADELAY_1"
newline
bitfld.long 0x0C 4.--6. "OEAADMUX ONTIME,nOE assertion time for the first address phase in an AAD-mux access" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
bitfld.long 0x0C 0.--3. "OEONTIME,nOE assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
line.long 0x10 "GPMC_CONFIG5_i_4,RdAccessTime and CycleTime timing parameters configuration"
bitfld.long 0x10 24.--27. "PAGEBURSTACCESSTIME,Delay between successive words in a multiple access" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
bitfld.long 0x10 16.--20. "RDACCESSTIME,Delay between start cycle time and first data valid" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
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bitfld.long 0x10 8.--12. "WRCYCLETIME,Total write cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x10 0.--4. "RDCYCLETIME,Total read cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
line.long 0x14 "GPMC_CONFIG6_i_4,WrAccessTime. WrDataOnADmuxBus. Cycle2Cycle and BusTurnAround parameters configuration"
bitfld.long 0x14 24.--28. "WRACCESSTIME,Delay from start access time to the GPMC_FCLK rising edge corresponding the the GPMC_CLK rising edge used by the attached memory for the first data capture" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x14 16.--19. "WRDATAONADMUXBUS,Specifies on which GPMC_FCLK rising edge the first data of the synchronous burst 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"
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bitfld.long 0x14 8.--11. "CYCLE2CYCLEDELAY,Chip-select high pulse delay between successive accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
bitfld.long 0x14 7. "CYCLE2CYCLESAMECSEN,Add CYCLE2CYCLEDELAY between successive accesses to the same CS (any access type)" "CYCLE2CYCLESAMECSEN_0,CYCLE2CYCLESAMECSEN_1"
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bitfld.long 0x14 6. "CYCLE2CYCLEDIFFCSEN,Add CYCLE2CYCLEDELAY between successive accesses to a different CS (any access type)" "CYCLE2CYCLEDIFFCSEN_0,CYCLE2CYCLEDIFFCSEN_1"
bitfld.long 0x14 0.--3. "BUSTURNAROUND,Bus turn around latency between successive accesses to the same CS (read to write) or to a different CS (read to read and read to write)" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
line.long 0x18 "GPMC_CONFIG7_i_4,CS address mapping configuration"
bitfld.long 0x18 8.--11. "MASKADDRESS,CS mask address" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x18 6. "CSVALID,CS enable" "CSVALID_0,CSVALID_1"
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bitfld.long 0x18 0.--5. "BASEADDRESS,CSi base address where i = 0 to 7 (16M bytes minimum granularity) bits [5:0] corresponds to A29 A28 A27 A26 A25 and A24" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x210++0x03
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"
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bitfld.long 0x00 25. "P512o,Odd row parity bit 512" "0,1"
bitfld.long 0x00 24. "P256o,Odd row parity bit 256" "0,1"
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bitfld.long 0x00 23. "P128o,Odd row parity bit 128" "0,1"
bitfld.long 0x00 22. "P64o,Odd row parity bit 64" "0,1"
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bitfld.long 0x00 21. "P32o,Odd row parity bit 32" "0,1"
bitfld.long 0x00 20. "P16o,Odd row parity bit 16" "0,1"
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bitfld.long 0x00 19. "P8o,Odd row parity bit 8" "0,1"
bitfld.long 0x00 18. "P4o,Odd Column Parity bit 4" "0,1"
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bitfld.long 0x00 17. "P2o,Odd Column Parity bit 2" "0,1"
bitfld.long 0x00 16. "P1o,Odd Column Parity bit 1" "0,1"
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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"
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bitfld.long 0x00 9. "P512e,Even row parity bit 512" "0,1"
bitfld.long 0x00 8. "P256e,Even row parity bit 256" "0,1"
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bitfld.long 0x00 7. "P128e,Even row parity bit 128" "0,1"
bitfld.long 0x00 6. "P64e,Even row parity bit 64" "0,1"
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bitfld.long 0x00 5. "P32e,Even row parity bit 32" "0,1"
bitfld.long 0x00 4. "P16e,Even row parity bit 16" "0,1"
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bitfld.long 0x00 3. "P8e,Even row parity bit 8" "0,1"
bitfld.long 0x00 2. "P4e,Even column parity bit 4" "0,1"
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bitfld.long 0x00 1. "P2e,Even column parity bit 2" "0,1"
bitfld.long 0x00 0. "P1e,Even column parity bit 1" "0,1"
group.long 0x140++0x03
line.long 0x00 "GPMC_NAND_ADDRESS_i_4,This register is not a true register. just an address location"
group.long 0x13C++0x03
line.long 0x00 "GPMC_NAND_COMMAND_i_4,This register is not a true register. just an address location"
group.long 0x144++0x03
line.long 0x00 "GPMC_NAND_DATA_i_4,This register is not a true register. just an address location"
tree.end
tree "Channel_5"
group.long 0x290++0x0F
line.long 0x00 "GPMC_BCH_RESULT0_i_5,BCH ECC result (bits 0 to 31)"
line.long 0x04 "GPMC_BCH_RESULT1_i_5,BCH ECC result (bits 32 to 63)"
line.long 0x08 "GPMC_BCH_RESULT2_i_5,BCH ECC result (bits 64 to 95)"
line.long 0x0C "GPMC_BCH_RESULT3_i_5,BCH ECC result (bits 96 to 127)"
group.long 0x350++0x0B
line.long 0x00 "GPMC_BCH_RESULT4_i_5,BCH ECC result (bits 128 to 159)"
line.long 0x04 "GPMC_BCH_RESULT5_i_5,BCH ECC result (bits 160 to 191)"
line.long 0x08 "GPMC_BCH_RESULT6_i_5,BCH ECC result (bits 192 to 207)"
hexmask.long.word 0x08 0.--15. 1. "BCH_RESULT_6,BCH ECC result (bits 192 to 207)"
group.long 0x150++0x1B
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" "WRAPBURST_0,WRAPBURST_1"
bitfld.long 0x00 30. "READMULTIPLE,Selects the read single or multiple access" "READMULTIPLE_0,READMULTIPLE_1"
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bitfld.long 0x00 29. "READTYPE,Selects the read mode operation" "READTYPE_0,READTYPE_1"
bitfld.long 0x00 28. "WRITEMULTIPLE,Selects the write single or multiple access" "WRITEMULTIPLE_0,WRITEMULTIPLE_1"
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bitfld.long 0x00 27. "WRITETYPE,Selects the write mode operation" "WRITETYPE_0,WRITETYPE_1"
bitfld.long 0x00 25.--26. "CLKACTIVATIONTIME,Output GPMC_CLK activation time" "CLKACTIVATIONTIME_0,CLKACTIVATIONTIME_1,CLKACTIVATIONTIME_2,CLKACTIVATIONTIME_3"
newline
bitfld.long 0x00 23.--24. "ATTACHEDDEVICEPAGE LENGTH,Specifies the attached device page (burst) length" "ATTACHEDDEVICEPAGE LENGTH_0,ATTACHEDDEVICEPAGE LENGTH_1,ATTACHEDDEVICEPAGE LENGTH_2,ATTACHEDDEVICEPAGE LENGTH_3"
bitfld.long 0x00 22. "WAITREADMONITORING,Selects the Wait monitoring configuration for Read accesses (Reset value is input pin sampled at IC reset)" "WAITREADMONITORING_0,WAITREADMONITORING_1"
newline
bitfld.long 0x00 21. "WAITWRITEMONITORING,Selects the Wait monitoring configuration for Write accesses" "WAITWRITEMONITORING_0,WAITWRITEMONITORING_1"
bitfld.long 0x00 18.--19. "WAITMONITORINGTIME,Selects input pin Wait monitoring time" "WAITMONITORINGTIME_0,WAITMONITORINGTIME_1,WAITMONITORINGTIME_2,WAITMONITORINGTIME_3"
newline
bitfld.long 0x00 16.--17. "WAITPINSELECT,Selects the input WAIT pin for this chip-select (Reset value is input pin sampled at IC reset for CS0 and 0 for CS1-7)" "WAITPINSELECT_0,WAITPINSELECT_1,WAITPINSELECT_2,WAITPINSELECT_3"
bitfld.long 0x00 12.--13. "DEVICESIZE,Selects the device size attached (Reset value is input pin sampled at IC reset for CS0 and 0x1 for CS1 to CS7)" "DEVICESIZE_0,DEVICESIZE_1,DEVICESIZE_2,DEVICESIZE_3"
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bitfld.long 0x00 10.--11. "DEVICETYPE,Selects the attached device type" "DEVICETYPE_0,DEVICETYPE_1,DEVICETYPE_2,DEVICETYPE_3"
bitfld.long 0x00 8.--9. "MUXADDDATA,Enables the address and data multiplexed protocol (Reset value is input pin sampled at IC reset for CS0 and 0 for CS1-CS7)" "MUXADDDATA_0,MUXADDDATA_1,MUXADDDATA_2,MUXADDDATA_3"
newline
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 TIMEOUTSTARTVALUE.." "TIMEPARAGRANULARITY_0,TIMEPARAGRANULARITY_1"
bitfld.long 0x00 0.--1. "GPMCFCLKDIVIDER,Divides the GPMC_FCLK clock" "GPMCFCLKDIVIDER_0,GPMCFCLKDIVIDER_1,GPMCFCLKDIVIDER_2,GPMCFCLKDIVIDER_3"
line.long 0x04 "GPMC_CONFIG2_i_5,CS signal timing parameter configuration"
bitfld.long 0x04 16.--20. "CSWROFFTIME,CS i de-assertion time from start cycle time for write accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x04 8.--12. "CSRDOFFTIME,CS i de-assertion time from start cycle time for read accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
newline
bitfld.long 0x04 7. "CSEXTRADELAY,CS i Add Extra Half GPMC_FCLK cycle" "CSEXTRADELAY_0,CSEXTRADELAY_1"
bitfld.long 0x04 0.--3. "CSONTIME,CS i assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
line.long 0x08 "GPMC_CONFIG3_i_5,nADV signal timing parameter configuration"
bitfld.long 0x08 28.--30. "ADVAADMUXWROFFTIME,nADV de-assertion for first address phase when using the AAD-mux protocol" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
bitfld.long 0x08 24.--26. "ADVAADMUXRDOFFTIME,nADV assertion for first address phase when using the AAD-mux protocol" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
newline
bitfld.long 0x08 16.--20. "ADVWROFFTIME,nADV de-assertion time from start cycle time for write accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x08 8.--12. "ADVRDOFFTIME,nADV de-assertion time from start cycle time for read accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
newline
bitfld.long 0x08 7. "ADVEXTRADELAY,nADV Add Extra Half GPMC_FCLK cycle" "ADVEXTRADELAY_0,ADVEXTRADELAY_1"
bitfld.long 0x08 4.--6. "ADVAADMUXONTIME,nADV assertion for first address phase when using the AAD-mux protocol" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
newline
bitfld.long 0x08 0.--3. "ADVONTIME,nADV assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
line.long 0x0C "GPMC_CONFIG4_i_5,nWE and nOE signals timing parameter configuration"
bitfld.long 0x0C 24.--28. "WEOFFTIME,nWE de-assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x0C 23. "WEEXTRADELAY,nWE Add Extra Half GPMC_FCLK cycle" "WEEXTRADELAY_0,WEEXTRADELAY_1"
newline
bitfld.long 0x0C 16.--19. "WEONTIME,nWE assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
bitfld.long 0x0C 13.--15. "OEAADMUX OFFTIME,nOE de-assertion time for the first address phase in an AAD-mux access" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
newline
bitfld.long 0x0C 8.--12. "OEOFFTIME,nOE de-assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x0C 7. "OEEXTRADELAY,nOE Add Extra Half GPMC_FCLK cycle" "OEEXTRADELAY_0,OEEXTRADELAY_1"
newline
bitfld.long 0x0C 4.--6. "OEAADMUX ONTIME,nOE assertion time for the first address phase in an AAD-mux access" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
bitfld.long 0x0C 0.--3. "OEONTIME,nOE assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
line.long 0x10 "GPMC_CONFIG5_i_5,RdAccessTime and CycleTime timing parameters configuration"
bitfld.long 0x10 24.--27. "PAGEBURSTACCESSTIME,Delay between successive words in a multiple access" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
bitfld.long 0x10 16.--20. "RDACCESSTIME,Delay between start cycle time and first data valid" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
newline
bitfld.long 0x10 8.--12. "WRCYCLETIME,Total write cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x10 0.--4. "RDCYCLETIME,Total read cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
line.long 0x14 "GPMC_CONFIG6_i_5,WrAccessTime. WrDataOnADmuxBus. Cycle2Cycle and BusTurnAround parameters configuration"
bitfld.long 0x14 24.--28. "WRACCESSTIME,Delay from start access time to the GPMC_FCLK rising edge corresponding the the GPMC_CLK rising edge used by the attached memory for the first data capture" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x14 16.--19. "WRDATAONADMUXBUS,Specifies on which GPMC_FCLK rising edge the first data of the synchronous burst 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"
newline
bitfld.long 0x14 8.--11. "CYCLE2CYCLEDELAY,Chip-select high pulse delay between successive accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
bitfld.long 0x14 7. "CYCLE2CYCLESAMECSEN,Add CYCLE2CYCLEDELAY between successive accesses to the same CS (any access type)" "CYCLE2CYCLESAMECSEN_0,CYCLE2CYCLESAMECSEN_1"
newline
bitfld.long 0x14 6. "CYCLE2CYCLEDIFFCSEN,Add CYCLE2CYCLEDELAY between successive accesses to a different CS (any access type)" "CYCLE2CYCLEDIFFCSEN_0,CYCLE2CYCLEDIFFCSEN_1"
bitfld.long 0x14 0.--3. "BUSTURNAROUND,Bus turn around latency between successive accesses to the same CS (read to write) or to a different CS (read to read and read to write)" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
line.long 0x18 "GPMC_CONFIG7_i_5,CS address mapping configuration"
bitfld.long 0x18 8.--11. "MASKADDRESS,CS mask address" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x18 6. "CSVALID,CS enable" "CSVALID_0,CSVALID_1"
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bitfld.long 0x18 0.--5. "BASEADDRESS,CSi base address where i = 0 to 7 (16M bytes minimum granularity) bits [5:0] corresponds to A29 A28 A27 A26 A25 and A24" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x214++0x03
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"
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bitfld.long 0x00 25. "P512o,Odd row parity bit 512" "0,1"
bitfld.long 0x00 24. "P256o,Odd row parity bit 256" "0,1"
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bitfld.long 0x00 23. "P128o,Odd row parity bit 128" "0,1"
bitfld.long 0x00 22. "P64o,Odd row parity bit 64" "0,1"
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bitfld.long 0x00 21. "P32o,Odd row parity bit 32" "0,1"
bitfld.long 0x00 20. "P16o,Odd row parity bit 16" "0,1"
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bitfld.long 0x00 19. "P8o,Odd row parity bit 8" "0,1"
bitfld.long 0x00 18. "P4o,Odd Column Parity bit 4" "0,1"
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bitfld.long 0x00 17. "P2o,Odd Column Parity bit 2" "0,1"
bitfld.long 0x00 16. "P1o,Odd Column Parity bit 1" "0,1"
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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"
newline
bitfld.long 0x00 9. "P512e,Even row parity bit 512" "0,1"
bitfld.long 0x00 8. "P256e,Even row parity bit 256" "0,1"
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bitfld.long 0x00 7. "P128e,Even row parity bit 128" "0,1"
bitfld.long 0x00 6. "P64e,Even row parity bit 64" "0,1"
newline
bitfld.long 0x00 5. "P32e,Even row parity bit 32" "0,1"
bitfld.long 0x00 4. "P16e,Even row parity bit 16" "0,1"
newline
bitfld.long 0x00 3. "P8e,Even row parity bit 8" "0,1"
bitfld.long 0x00 2. "P4e,Even column parity bit 4" "0,1"
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bitfld.long 0x00 1. "P2e,Even column parity bit 2" "0,1"
bitfld.long 0x00 0. "P1e,Even column parity bit 1" "0,1"
group.long 0x170++0x03
line.long 0x00 "GPMC_NAND_ADDRESS_i_5,This register is not a true register. just an address location"
group.long 0x16C++0x03
line.long 0x00 "GPMC_NAND_COMMAND_i_5,This register is not a true register. just an address location"
group.long 0x174++0x03
line.long 0x00 "GPMC_NAND_DATA_i_5,This register is not a true register. just an address location"
tree.end
tree "Channel_6"
group.long 0x2A0++0x0F
line.long 0x00 "GPMC_BCH_RESULT0_i_6,BCH ECC result (bits 0 to 31)"
line.long 0x04 "GPMC_BCH_RESULT1_i_6,BCH ECC result (bits 32 to 63)"
line.long 0x08 "GPMC_BCH_RESULT2_i_6,BCH ECC result (bits 64 to 95)"
line.long 0x0C "GPMC_BCH_RESULT3_i_6,BCH ECC result (bits 96 to 127)"
group.long 0x360++0x0B
line.long 0x00 "GPMC_BCH_RESULT4_i_6,BCH ECC result (bits 128 to 159)"
line.long 0x04 "GPMC_BCH_RESULT5_i_6,BCH ECC result (bits 160 to 191)"
line.long 0x08 "GPMC_BCH_RESULT6_i_6,BCH ECC result (bits 192 to 207)"
hexmask.long.word 0x08 0.--15. 1. "BCH_RESULT_6,BCH ECC result (bits 192 to 207)"
group.long 0x180++0x1B
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" "WRAPBURST_0,WRAPBURST_1"
bitfld.long 0x00 30. "READMULTIPLE,Selects the read single or multiple access" "READMULTIPLE_0,READMULTIPLE_1"
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bitfld.long 0x00 29. "READTYPE,Selects the read mode operation" "READTYPE_0,READTYPE_1"
bitfld.long 0x00 28. "WRITEMULTIPLE,Selects the write single or multiple access" "WRITEMULTIPLE_0,WRITEMULTIPLE_1"
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bitfld.long 0x00 27. "WRITETYPE,Selects the write mode operation" "WRITETYPE_0,WRITETYPE_1"
bitfld.long 0x00 25.--26. "CLKACTIVATIONTIME,Output GPMC_CLK activation time" "CLKACTIVATIONTIME_0,CLKACTIVATIONTIME_1,CLKACTIVATIONTIME_2,CLKACTIVATIONTIME_3"
newline
bitfld.long 0x00 23.--24. "ATTACHEDDEVICEPAGE LENGTH,Specifies the attached device page (burst) length" "ATTACHEDDEVICEPAGE LENGTH_0,ATTACHEDDEVICEPAGE LENGTH_1,ATTACHEDDEVICEPAGE LENGTH_2,ATTACHEDDEVICEPAGE LENGTH_3"
bitfld.long 0x00 22. "WAITREADMONITORING,Selects the Wait monitoring configuration for Read accesses (Reset value is input pin sampled at IC reset)" "WAITREADMONITORING_0,WAITREADMONITORING_1"
newline
bitfld.long 0x00 21. "WAITWRITEMONITORING,Selects the Wait monitoring configuration for Write accesses" "WAITWRITEMONITORING_0,WAITWRITEMONITORING_1"
bitfld.long 0x00 18.--19. "WAITMONITORINGTIME,Selects input pin Wait monitoring time" "WAITMONITORINGTIME_0,WAITMONITORINGTIME_1,WAITMONITORINGTIME_2,WAITMONITORINGTIME_3"
newline
bitfld.long 0x00 16.--17. "WAITPINSELECT,Selects the input WAIT pin for this chip-select (Reset value is input pin sampled at IC reset for CS0 and 0 for CS1-7)" "WAITPINSELECT_0,WAITPINSELECT_1,WAITPINSELECT_2,WAITPINSELECT_3"
bitfld.long 0x00 12.--13. "DEVICESIZE,Selects the device size attached (Reset value is input pin sampled at IC reset for CS0 and 0x1 for CS1 to CS7)" "DEVICESIZE_0,DEVICESIZE_1,DEVICESIZE_2,DEVICESIZE_3"
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bitfld.long 0x00 10.--11. "DEVICETYPE,Selects the attached device type" "DEVICETYPE_0,DEVICETYPE_1,DEVICETYPE_2,DEVICETYPE_3"
bitfld.long 0x00 8.--9. "MUXADDDATA,Enables the address and data multiplexed protocol (Reset value is input pin sampled at IC reset for CS0 and 0 for CS1-CS7)" "MUXADDDATA_0,MUXADDDATA_1,MUXADDDATA_2,MUXADDDATA_3"
newline
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 TIMEOUTSTARTVALUE.." "TIMEPARAGRANULARITY_0,TIMEPARAGRANULARITY_1"
bitfld.long 0x00 0.--1. "GPMCFCLKDIVIDER,Divides the GPMC_FCLK clock" "GPMCFCLKDIVIDER_0,GPMCFCLKDIVIDER_1,GPMCFCLKDIVIDER_2,GPMCFCLKDIVIDER_3"
line.long 0x04 "GPMC_CONFIG2_i_6,CS signal timing parameter configuration"
bitfld.long 0x04 16.--20. "CSWROFFTIME,CS i de-assertion time from start cycle time for write accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x04 8.--12. "CSRDOFFTIME,CS i de-assertion time from start cycle time for read accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
newline
bitfld.long 0x04 7. "CSEXTRADELAY,CS i Add Extra Half GPMC_FCLK cycle" "CSEXTRADELAY_0,CSEXTRADELAY_1"
bitfld.long 0x04 0.--3. "CSONTIME,CS i assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
line.long 0x08 "GPMC_CONFIG3_i_6,nADV signal timing parameter configuration"
bitfld.long 0x08 28.--30. "ADVAADMUXWROFFTIME,nADV de-assertion for first address phase when using the AAD-mux protocol" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
bitfld.long 0x08 24.--26. "ADVAADMUXRDOFFTIME,nADV assertion for first address phase when using the AAD-mux protocol" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
newline
bitfld.long 0x08 16.--20. "ADVWROFFTIME,nADV de-assertion time from start cycle time for write accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x08 8.--12. "ADVRDOFFTIME,nADV de-assertion time from start cycle time for read accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
newline
bitfld.long 0x08 7. "ADVEXTRADELAY,nADV Add Extra Half GPMC_FCLK cycle" "ADVEXTRADELAY_0,ADVEXTRADELAY_1"
bitfld.long 0x08 4.--6. "ADVAADMUXONTIME,nADV assertion for first address phase when using the AAD-mux protocol" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
newline
bitfld.long 0x08 0.--3. "ADVONTIME,nADV assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
line.long 0x0C "GPMC_CONFIG4_i_6,nWE and nOE signals timing parameter configuration"
bitfld.long 0x0C 24.--28. "WEOFFTIME,nWE de-assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x0C 23. "WEEXTRADELAY,nWE Add Extra Half GPMC_FCLK cycle" "WEEXTRADELAY_0,WEEXTRADELAY_1"
newline
bitfld.long 0x0C 16.--19. "WEONTIME,nWE assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
bitfld.long 0x0C 13.--15. "OEAADMUX OFFTIME,nOE de-assertion time for the first address phase in an AAD-mux access" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
newline
bitfld.long 0x0C 8.--12. "OEOFFTIME,nOE de-assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x0C 7. "OEEXTRADELAY,nOE Add Extra Half GPMC_FCLK cycle" "OEEXTRADELAY_0,OEEXTRADELAY_1"
newline
bitfld.long 0x0C 4.--6. "OEAADMUX ONTIME,nOE assertion time for the first address phase in an AAD-mux access" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
bitfld.long 0x0C 0.--3. "OEONTIME,nOE assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
line.long 0x10 "GPMC_CONFIG5_i_6,RdAccessTime and CycleTime timing parameters configuration"
bitfld.long 0x10 24.--27. "PAGEBURSTACCESSTIME,Delay between successive words in a multiple access" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
bitfld.long 0x10 16.--20. "RDACCESSTIME,Delay between start cycle time and first data valid" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
newline
bitfld.long 0x10 8.--12. "WRCYCLETIME,Total write cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x10 0.--4. "RDCYCLETIME,Total read cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
line.long 0x14 "GPMC_CONFIG6_i_6,WrAccessTime. WrDataOnADmuxBus. Cycle2Cycle and BusTurnAround parameters configuration"
bitfld.long 0x14 24.--28. "WRACCESSTIME,Delay from start access time to the GPMC_FCLK rising edge corresponding the the GPMC_CLK rising edge used by the attached memory for the first data capture" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x14 16.--19. "WRDATAONADMUXBUS,Specifies on which GPMC_FCLK rising edge the first data of the synchronous burst 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"
newline
bitfld.long 0x14 8.--11. "CYCLE2CYCLEDELAY,Chip-select high pulse delay between successive accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
bitfld.long 0x14 7. "CYCLE2CYCLESAMECSEN,Add CYCLE2CYCLEDELAY between successive accesses to the same CS (any access type)" "CYCLE2CYCLESAMECSEN_0,CYCLE2CYCLESAMECSEN_1"
newline
bitfld.long 0x14 6. "CYCLE2CYCLEDIFFCSEN,Add CYCLE2CYCLEDELAY between successive accesses to a different CS (any access type)" "CYCLE2CYCLEDIFFCSEN_0,CYCLE2CYCLEDIFFCSEN_1"
bitfld.long 0x14 0.--3. "BUSTURNAROUND,Bus turn around latency between successive accesses to the same CS (read to write) or to a different CS (read to read and read to write)" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
line.long 0x18 "GPMC_CONFIG7_i_6,CS address mapping configuration"
bitfld.long 0x18 8.--11. "MASKADDRESS,CS mask address" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x18 6. "CSVALID,CS enable" "CSVALID_0,CSVALID_1"
newline
bitfld.long 0x18 0.--5. "BASEADDRESS,CSi base address where i = 0 to 7 (16M bytes minimum granularity) bits [5:0] corresponds to A29 A28 A27 A26 A25 and A24" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x218++0x03
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"
newline
bitfld.long 0x00 25. "P512o,Odd row parity bit 512" "0,1"
bitfld.long 0x00 24. "P256o,Odd row parity bit 256" "0,1"
newline
bitfld.long 0x00 23. "P128o,Odd row parity bit 128" "0,1"
bitfld.long 0x00 22. "P64o,Odd row parity bit 64" "0,1"
newline
bitfld.long 0x00 21. "P32o,Odd row parity bit 32" "0,1"
bitfld.long 0x00 20. "P16o,Odd row parity bit 16" "0,1"
newline
bitfld.long 0x00 19. "P8o,Odd row parity bit 8" "0,1"
bitfld.long 0x00 18. "P4o,Odd Column Parity bit 4" "0,1"
newline
bitfld.long 0x00 17. "P2o,Odd Column Parity bit 2" "0,1"
bitfld.long 0x00 16. "P1o,Odd Column Parity bit 1" "0,1"
newline
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"
newline
bitfld.long 0x00 9. "P512e,Even row parity bit 512" "0,1"
bitfld.long 0x00 8. "P256e,Even row parity bit 256" "0,1"
newline
bitfld.long 0x00 7. "P128e,Even row parity bit 128" "0,1"
bitfld.long 0x00 6. "P64e,Even row parity bit 64" "0,1"
newline
bitfld.long 0x00 5. "P32e,Even row parity bit 32" "0,1"
bitfld.long 0x00 4. "P16e,Even row parity bit 16" "0,1"
newline
bitfld.long 0x00 3. "P8e,Even row parity bit 8" "0,1"
bitfld.long 0x00 2. "P4e,Even column parity bit 4" "0,1"
newline
bitfld.long 0x00 1. "P2e,Even column parity bit 2" "0,1"
bitfld.long 0x00 0. "P1e,Even column parity bit 1" "0,1"
group.long 0x1A0++0x03
line.long 0x00 "GPMC_NAND_ADDRESS_i_6,This register is not a true register. just an address location"
group.long 0x19C++0x03
line.long 0x00 "GPMC_NAND_COMMAND_i_6,This register is not a true register. just an address location"
group.long 0x1A4++0x03
line.long 0x00 "GPMC_NAND_DATA_i_6,This register is not a true register. just an address location"
tree.end
tree "Channel_7"
group.long 0x2B0++0x0F
line.long 0x00 "GPMC_BCH_RESULT0_i_7,BCH ECC result (bits 0 to 31)"
line.long 0x04 "GPMC_BCH_RESULT1_i_7,BCH ECC result (bits 32 to 63)"
line.long 0x08 "GPMC_BCH_RESULT2_i_7,BCH ECC result (bits 64 to 95)"
line.long 0x0C "GPMC_BCH_RESULT3_i_7,BCH ECC result (bits 96 to 127)"
group.long 0x370++0x0B
line.long 0x00 "GPMC_BCH_RESULT4_i_7,BCH ECC result (bits 128 to 159)"
line.long 0x04 "GPMC_BCH_RESULT5_i_7,BCH ECC result (bits 160 to 191)"
line.long 0x08 "GPMC_BCH_RESULT6_i_7,BCH ECC result (bits 192 to 207)"
hexmask.long.word 0x08 0.--15. 1. "BCH_RESULT_6,BCH ECC result (bits 192 to 207)"
group.long 0x1B0++0x1B
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" "WRAPBURST_0,WRAPBURST_1"
bitfld.long 0x00 30. "READMULTIPLE,Selects the read single or multiple access" "READMULTIPLE_0,READMULTIPLE_1"
newline
bitfld.long 0x00 29. "READTYPE,Selects the read mode operation" "READTYPE_0,READTYPE_1"
bitfld.long 0x00 28. "WRITEMULTIPLE,Selects the write single or multiple access" "WRITEMULTIPLE_0,WRITEMULTIPLE_1"
newline
bitfld.long 0x00 27. "WRITETYPE,Selects the write mode operation" "WRITETYPE_0,WRITETYPE_1"
bitfld.long 0x00 25.--26. "CLKACTIVATIONTIME,Output GPMC_CLK activation time" "CLKACTIVATIONTIME_0,CLKACTIVATIONTIME_1,CLKACTIVATIONTIME_2,CLKACTIVATIONTIME_3"
newline
bitfld.long 0x00 23.--24. "ATTACHEDDEVICEPAGE LENGTH,Specifies the attached device page (burst) length" "ATTACHEDDEVICEPAGE LENGTH_0,ATTACHEDDEVICEPAGE LENGTH_1,ATTACHEDDEVICEPAGE LENGTH_2,ATTACHEDDEVICEPAGE LENGTH_3"
bitfld.long 0x00 22. "WAITREADMONITORING,Selects the Wait monitoring configuration for Read accesses (Reset value is input pin sampled at IC reset)" "WAITREADMONITORING_0,WAITREADMONITORING_1"
newline
bitfld.long 0x00 21. "WAITWRITEMONITORING,Selects the Wait monitoring configuration for Write accesses" "WAITWRITEMONITORING_0,WAITWRITEMONITORING_1"
bitfld.long 0x00 18.--19. "WAITMONITORINGTIME,Selects input pin Wait monitoring time" "WAITMONITORINGTIME_0,WAITMONITORINGTIME_1,WAITMONITORINGTIME_2,WAITMONITORINGTIME_3"
newline
bitfld.long 0x00 16.--17. "WAITPINSELECT,Selects the input WAIT pin for this chip-select (Reset value is input pin sampled at IC reset for CS0 and 0 for CS1-7)" "WAITPINSELECT_0,WAITPINSELECT_1,WAITPINSELECT_2,WAITPINSELECT_3"
bitfld.long 0x00 12.--13. "DEVICESIZE,Selects the device size attached (Reset value is input pin sampled at IC reset for CS0 and 0x1 for CS1 to CS7)" "DEVICESIZE_0,DEVICESIZE_1,DEVICESIZE_2,DEVICESIZE_3"
newline
bitfld.long 0x00 10.--11. "DEVICETYPE,Selects the attached device type" "DEVICETYPE_0,DEVICETYPE_1,DEVICETYPE_2,DEVICETYPE_3"
bitfld.long 0x00 8.--9. "MUXADDDATA,Enables the address and data multiplexed protocol (Reset value is input pin sampled at IC reset for CS0 and 0 for CS1-CS7)" "MUXADDDATA_0,MUXADDDATA_1,MUXADDDATA_2,MUXADDDATA_3"
newline
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 TIMEOUTSTARTVALUE.." "TIMEPARAGRANULARITY_0,TIMEPARAGRANULARITY_1"
bitfld.long 0x00 0.--1. "GPMCFCLKDIVIDER,Divides the GPMC_FCLK clock" "GPMCFCLKDIVIDER_0,GPMCFCLKDIVIDER_1,GPMCFCLKDIVIDER_2,GPMCFCLKDIVIDER_3"
line.long 0x04 "GPMC_CONFIG2_i_7,CS signal timing parameter configuration"
bitfld.long 0x04 16.--20. "CSWROFFTIME,CS i de-assertion time from start cycle time for write accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x04 8.--12. "CSRDOFFTIME,CS i de-assertion time from start cycle time for read accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
newline
bitfld.long 0x04 7. "CSEXTRADELAY,CS i Add Extra Half GPMC_FCLK cycle" "CSEXTRADELAY_0,CSEXTRADELAY_1"
bitfld.long 0x04 0.--3. "CSONTIME,CS i assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
line.long 0x08 "GPMC_CONFIG3_i_7,nADV signal timing parameter configuration"
bitfld.long 0x08 28.--30. "ADVAADMUXWROFFTIME,nADV de-assertion for first address phase when using the AAD-mux protocol" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
bitfld.long 0x08 24.--26. "ADVAADMUXRDOFFTIME,nADV assertion for first address phase when using the AAD-mux protocol" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
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bitfld.long 0x08 16.--20. "ADVWROFFTIME,nADV de-assertion time from start cycle time for write accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x08 8.--12. "ADVRDOFFTIME,nADV de-assertion time from start cycle time for read accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
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bitfld.long 0x08 7. "ADVEXTRADELAY,nADV Add Extra Half GPMC_FCLK cycle" "ADVEXTRADELAY_0,ADVEXTRADELAY_1"
bitfld.long 0x08 4.--6. "ADVAADMUXONTIME,nADV assertion for first address phase when using the AAD-mux protocol" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
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bitfld.long 0x08 0.--3. "ADVONTIME,nADV assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
line.long 0x0C "GPMC_CONFIG4_i_7,nWE and nOE signals timing parameter configuration"
bitfld.long 0x0C 24.--28. "WEOFFTIME,nWE de-assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x0C 23. "WEEXTRADELAY,nWE Add Extra Half GPMC_FCLK cycle" "WEEXTRADELAY_0,WEEXTRADELAY_1"
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bitfld.long 0x0C 16.--19. "WEONTIME,nWE assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
bitfld.long 0x0C 13.--15. "OEAADMUX OFFTIME,nOE de-assertion time for the first address phase in an AAD-mux access" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
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bitfld.long 0x0C 8.--12. "OEOFFTIME,nOE de-assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x0C 7. "OEEXTRADELAY,nOE Add Extra Half GPMC_FCLK cycle" "OEEXTRADELAY_0,OEEXTRADELAY_1"
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bitfld.long 0x0C 4.--6. "OEAADMUX ONTIME,nOE assertion time for the first address phase in an AAD-mux access" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
bitfld.long 0x0C 0.--3. "OEONTIME,nOE assertion time from start cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
line.long 0x10 "GPMC_CONFIG5_i_7,RdAccessTime and CycleTime timing parameters configuration"
bitfld.long 0x10 24.--27. "PAGEBURSTACCESSTIME,Delay between successive words in a multiple access" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
bitfld.long 0x10 16.--20. "RDACCESSTIME,Delay between start cycle time and first data valid" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
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bitfld.long 0x10 8.--12. "WRCYCLETIME,Total write cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x10 0.--4. "RDCYCLETIME,Total read cycle time" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
line.long 0x14 "GPMC_CONFIG6_i_7,WrAccessTime. WrDataOnADmuxBus. Cycle2Cycle and BusTurnAround parameters configuration"
bitfld.long 0x14 24.--28. "WRACCESSTIME,Delay from start access time to the GPMC_FCLK rising edge corresponding the the GPMC_CLK rising edge used by the attached memory for the first data capture" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,31 GPMC_FCLK cycles"
bitfld.long 0x14 16.--19. "WRDATAONADMUXBUS,Specifies on which GPMC_FCLK rising edge the first data of the synchronous burst 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"
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bitfld.long 0x14 8.--11. "CYCLE2CYCLEDELAY,Chip-select high pulse delay between successive accesses" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
bitfld.long 0x14 7. "CYCLE2CYCLESAMECSEN,Add CYCLE2CYCLEDELAY between successive accesses to the same CS (any access type)" "CYCLE2CYCLESAMECSEN_0,CYCLE2CYCLESAMECSEN_1"
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bitfld.long 0x14 6. "CYCLE2CYCLEDIFFCSEN,Add CYCLE2CYCLEDELAY between successive accesses to a different CS (any access type)" "CYCLE2CYCLEDIFFCSEN_0,CYCLE2CYCLEDIFFCSEN_1"
bitfld.long 0x14 0.--3. "BUSTURNAROUND,Bus turn around latency between successive accesses to the same CS (read to write) or to a different CS (read to read and read to write)" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,?,?,?,?,?,?,?,?,15 GPMC_FCLK cycles"
line.long 0x18 "GPMC_CONFIG7_i_7,CS address mapping configuration"
bitfld.long 0x18 8.--11. "MASKADDRESS,CS mask address" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x18 6. "CSVALID,CS enable" "CSVALID_0,CSVALID_1"
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bitfld.long 0x18 0.--5. "BASEADDRESS,CSi base address where i = 0 to 7 (16M bytes minimum granularity) bits [5:0] corresponds to A29 A28 A27 A26 A25 and A24" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x21C++0x03
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"
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bitfld.long 0x00 25. "P512o,Odd row parity bit 512" "0,1"
bitfld.long 0x00 24. "P256o,Odd row parity bit 256" "0,1"
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bitfld.long 0x00 23. "P128o,Odd row parity bit 128" "0,1"
bitfld.long 0x00 22. "P64o,Odd row parity bit 64" "0,1"
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bitfld.long 0x00 21. "P32o,Odd row parity bit 32" "0,1"
bitfld.long 0x00 20. "P16o,Odd row parity bit 16" "0,1"
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bitfld.long 0x00 19. "P8o,Odd row parity bit 8" "0,1"
bitfld.long 0x00 18. "P4o,Odd Column Parity bit 4" "0,1"
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bitfld.long 0x00 17. "P2o,Odd Column Parity bit 2" "0,1"
bitfld.long 0x00 16. "P1o,Odd Column Parity bit 1" "0,1"
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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"
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bitfld.long 0x00 9. "P512e,Even row parity bit 512" "0,1"
bitfld.long 0x00 8. "P256e,Even row parity bit 256" "0,1"
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bitfld.long 0x00 7. "P128e,Even row parity bit 128" "0,1"
bitfld.long 0x00 6. "P64e,Even row parity bit 64" "0,1"
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bitfld.long 0x00 5. "P32e,Even row parity bit 32" "0,1"
bitfld.long 0x00 4. "P16e,Even row parity bit 16" "0,1"
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bitfld.long 0x00 3. "P8e,Even row parity bit 8" "0,1"
bitfld.long 0x00 2. "P4e,Even column parity bit 4" "0,1"
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bitfld.long 0x00 1. "P2e,Even column parity bit 2" "0,1"
bitfld.long 0x00 0. "P1e,Even column parity bit 1" "0,1"
group.long 0x1D0++0x03
line.long 0x00 "GPMC_NAND_ADDRESS_i_7,This register is not a true register. just an address location"
group.long 0x1CC++0x03
line.long 0x00 "GPMC_NAND_COMMAND_i_7,This register is not a true register. just an address location"
group.long 0x1D4++0x03
line.long 0x00 "GPMC_NAND_DATA_i_7,This register is not a true register. just an address location"
rgroup.long 0x220++0x03
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"
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bitfld.long 0x00 25. "P512o,Odd row parity bit 512" "0,1"
bitfld.long 0x00 24. "P256o,Odd row parity bit 256" "0,1"
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bitfld.long 0x00 23. "P128o,Odd row parity bit 128" "0,1"
bitfld.long 0x00 22. "P64o,Odd row parity bit 64" "0,1"
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bitfld.long 0x00 21. "P32o,Odd row parity bit 32" "0,1"
bitfld.long 0x00 20. "P16o,Odd row parity bit 16" "0,1"
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bitfld.long 0x00 19. "P8o,Odd row parity bit 8" "0,1"
bitfld.long 0x00 18. "P4o,Odd Column Parity bit 4" "0,1"
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bitfld.long 0x00 17. "P2o,Odd Column Parity bit 2" "0,1"
bitfld.long 0x00 16. "P1o,Odd Column Parity bit 1" "0,1"
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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"
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bitfld.long 0x00 9. "P512e,Even row parity bit 512" "0,1"
bitfld.long 0x00 8. "P256e,Even row parity bit 256" "0,1"
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bitfld.long 0x00 7. "P128e,Even row parity bit 128" "0,1"
bitfld.long 0x00 6. "P64e,Even row parity bit 64" "0,1"
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bitfld.long 0x00 5. "P32e,Even row parity bit 32" "0,1"
bitfld.long 0x00 4. "P16e,Even row parity bit 16" "0,1"
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bitfld.long 0x00 3. "P8e,Even row parity bit 8" "0,1"
bitfld.long 0x00 2. "P4e,Even column parity bit 4" "0,1"
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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
group.long 0x2D0++0x03
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"
group.long 0x50++0x03
line.long 0x00 "GPMC_CONFIG,The configuration register allows global configuration of the GPMC"
bitfld.long 0x00 10. "WAIT2PINPOLARITY,Selects the polarity of input pin WAIT2" "WAIT2PINPOLARITY_0,WAIT2PINPOLARITY_1"
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bitfld.long 0x00 9. "WAIT1PINPOLARITY,Selects the polarity of input pin WAIT1" "WAIT1PINPOLARITY_0,WAIT1PINPOLARITY_1"
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bitfld.long 0x00 8. "WAIT0PINPOLARITY,Selects the polarity of input pin WAIT0" "WAIT0PINPOLARITY_0,WAIT0PINPOLARITY_1"
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bitfld.long 0x00 4. "WRITEPROTECT,Controls the WP output pin level" "WRITEPROTECT_0,WRITEPROTECT_1"
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bitfld.long 0x00 1. "LIMITEDADDRESS,Limited Address device support" "LIMITEDADDRESS_0,LIMITEDADDRESS_1"
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bitfld.long 0x00 0. "NANDFORCEPOSTEDWRITE,Enables the Force Posted Write feature to NAND Cmd/Add/Data location" "NANDFORCEPOSTEDWRITE_0,NANDFORCEPOSTEDWRITE_1"
group.long 0x1F4++0x0B
line.long 0x00 "GPMC_ECC_CONFIG,ECC configuration"
bitfld.long 0x00 16. "ECCALGORITHM,ECC algorithm used" "ECCALGORITHM_0,ECCALGORITHM_1"
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bitfld.long 0x00 12.--13. "ECCBCHTSEL,Error correction capability used for BCH" "ECCBCHTSEL_0,ECCBCHTSEL_1,ECCBCHTSEL_2,ECCBCHTSEL_3"
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bitfld.long 0x00 8.--11. "ECCWRAPMODE,Spare area organization definition for the BCH algorithm" "ECCWRAPMODE_0,ECCWRAPMODE_1,ECCWRAPMODE_2,ECCWRAPMODE_3,ECCWRAPMODE_4,ECCWRAPMODE_5,ECCWRAPMODE_6,ECCWRAPMODE_7,ECCWRAPMODE_8,ECCWRAPMODE_9,ECCWRAPMODE_10,ECCWRAPMODE_11,ECCWRAPMODE_12,ECCWRAPMODE_13,ECCWRAPMODE_14,ECCWRAPMODE_15"
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bitfld.long 0x00 7. "ECC16B,Selects an ECC calculated on 16 columns" "ECC16B_0,ECC16B_1"
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bitfld.long 0x00 4.--6. "ECCTOPSECTOR,Number of sectors to process with the BCH algorithm" "1 sector (512kB page),2 sectors,?,4 sectors (2kB page),?,?,?,8 sectors (4kB page)"
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bitfld.long 0x00 1.--3. "ECCCS,Selects the CS where ECC is computed" "ECCCS_0,ECCCS_1,ECCCS_2,ECCCS_3,?,?,?,?"
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bitfld.long 0x00 0. "ECCENABLE,Enables the ECC feature" "ECCENABLE_0,ECCENABLE_1"
line.long 0x04 "GPMC_ECC_CONTROL,ECC control"
bitfld.long 0x04 8. "ECCCLEAR,Clear all ECC result registers Reads returns 0 Write 0x1 to this field clear all ECC result registers Write 0x0 is ignored" "ECCCLEAR_0,ECCCLEAR_1"
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bitfld.long 0x04 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: writing other values disables.." "ECCPOINTER_0,ECCPOINTER_1,ECCPOINTER_2,ECCPOINTER_3,ECCPOINTER_4,ECCPOINTER_5,ECCPOINTER_6,ECCPOINTER_7,ECCPOINTER_8,ECCPOINTER_9,?,?,?,?,?,?"
line.long 0x08 "GPMC_ECC_SIZE_CONFIG,ECC size"
abitfld.long 0x08 22.--29. "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.."
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abitfld.long 0x08 12.--19. "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.."
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bitfld.long 0x08 8. "ECC9RESULTSIZE,Selects ECC size for ECC 9 result register" "ECC9RESULTSIZE_0,ECC9RESULTSIZE_1"
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bitfld.long 0x08 7. "ECC8RESULTSIZE,Selects ECC size for ECC 8 result register" "ECC8RESULTSIZE_0,ECC8RESULTSIZE_1"
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bitfld.long 0x08 6. "ECC7RESULTSIZE,Selects ECC size for ECC 7 result register" "ECC7RESULTSIZE_0,ECC7RESULTSIZE_1"
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bitfld.long 0x08 5. "ECC6RESULTSIZE,Selects ECC size for ECC 6 result register" "ECC6RESULTSIZE_0,ECC6RESULTSIZE_1"
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bitfld.long 0x08 4. "ECC5RESULTSIZE,Selects ECC size for ECC 5 result register" "ECC5RESULTSIZE_0,ECC5RESULTSIZE_1"
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bitfld.long 0x08 3. "ECC4RESULTSIZE,Selects ECC size for ECC 4 result register" "ECC4RESULTSIZE_0,ECC4RESULTSIZE_1"
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bitfld.long 0x08 2. "ECC3RESULTSIZE,Selects ECC size for ECC 3 result register" "ECC3RESULTSIZE_0,ECC3RESULTSIZE_1"
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bitfld.long 0x08 1. "ECC2RESULTSIZE,Selects ECC size for ECC 2 result register" "ECC2RESULTSIZE_0,ECC2RESULTSIZE_1"
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bitfld.long 0x08 0. "ECC1RESULTSIZE,Selects ECC size for ECC 1 result register" "ECC1RESULTSIZE_0,ECC1RESULTSIZE_1"
rgroup.long 0x44++0x07
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 GBytes max"
line.long 0x04 "GPMC_ERR_TYPE,The register stores the type of error when an error occurs"
rbitfld.long 0x04 8.--10. "ILLEGALMCMD,System Command of the transaction that caused the error" "ILLEGALMCMD_0,ILLEGALMCMD_1,ILLEGALMCMD_2,ILLEGALMCMD_3,ILLEGALMCMD_4,ILLEGALMCMD_5,ILLEGALMCMD_6,ILLEGALMCMD_7"
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rbitfld.long 0x04 4. "ERRORNOTSUPPADD,Not supported Address error" "ERRORNOTSUPPADD_0,ERRORNOTSUPPADD_1"
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rbitfld.long 0x04 3. "ERRORNOTSUPPMCMD,Not supported Command error" "ERRORNOTSUPPMCMD_0,ERRORNOTSUPPMCMD_1"
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rbitfld.long 0x04 2. "ERRORTIMEOUT,Time-out error" "ERRORTIMEOUT_0,ERRORTIMEOUT_1"
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bitfld.long 0x04 0. "ERRORVALID,Error validity status - Must be explicitly cleared with a write 1 transaction" "ERRORVALID_0,ERRORVALID_1"
group.long 0x1C++0x03
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 10. "WAIT2EDGEDETECTION ENABLE,Enables the Wait2 Edge Detection interrupt" "WAIT2EDGEDETECTION ENABLE_0,WAIT2EDGEDETECTION ENABLE_1"
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bitfld.long 0x00 9. "WAIT1EDGEDETECTION ENABLE,Enables the Wait1 Edge Detection interrupt" "WAIT1EDGEDETECTION ENABLE_0,WAIT1EDGEDETECTION ENABLE_1"
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bitfld.long 0x00 8. "WAIT0EDGEDETECTION ENABLE,Enables the Wait0 Edge Detection interrupt" "WAIT0EDGEDETECTION ENABLE_0,WAIT0EDGEDETECTION ENABLE_1"
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bitfld.long 0x00 1. "TERMINALCOUNTEVENT ENABLE,Enables TerminalCountEvent interrupt issuing in prefetch or write-posting mode" "TERMINALCOUNTEVENT ENABLE_0,TERMINALCOUNTEVENT ENABLE_1"
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bitfld.long 0x00 0. "FIFOEVENTENABLE,Enables the FIFOEvent interrupt" "FIFOEVENTENABLE_0,FIFOEVENTENABLE_1"
group.long 0x18++0x03
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 10. "WAIT2EDGEDETECTION STATUS,Status of the Wait2 Edge Detection interrupt" "WAIT2EDGEDETECTION STATUS_0_w,WAIT2EDGEDETECTION STATUS_1_w"
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bitfld.long 0x00 9. "WAIT1EDGEDETECTION STATUS,Status of the Wait1 Edge Detection interrupt" "WAIT1EDGEDETECTION STATUS_0_w,WAIT1EDGEDETECTION STATUS_1_w"
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bitfld.long 0x00 8. "WAIT0EDGEDETECTION STATUS,Status of the Wait0 Edge Detection interrupt" "WAIT0EDGEDETECTION STATUS_0_w,WAIT0EDGEDETECTION STATUS_1_w"
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bitfld.long 0x00 1. "TERMINALCOUNTSTATUS,Status of the TerminalCountEvent interrupt" "TERMINALCOUNTSTATUS_0_w,TERMINALCOUNTSTATUS_1_w"
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bitfld.long 0x00 0. "FIFOEVENTSTATUS,Status of the FIFOEvent interrupt" "FIFOEVENTSTATUS_0_w,FIFOEVENTSTATUS_1_w"
group.long 0x1E0++0x07
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 ACCESSTIME CSRDOFFTIME CSWROFFTIME ADVRDOFFTIME ADVWROFFTIME OEOFFTIME WEOFFTIME" "0 GPMC_FCLK cycle,1 GPMC_FCLK cycle,?,?,?,?,?,7 GPMC_FCLK cycles"
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bitfld.long 0x00 27. "ENABLEOPTIMIZEDACCESS,Enables access cycle optimization" "ENABLEOPTIMIZEDACCESS_0,ENABLEOPTIMIZEDACCESS_1"
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bitfld.long 0x00 24.--26. "ENGINECSSELECTOR,Selects the CS where Prefetch Postwrite engine is active" "CS0,CS1,CS2,CS3,CS4,CS5,CS6,CS7"
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bitfld.long 0x00 23. "PFPWENROUNDROBIN,Enables the PFPW RoundRobin arbitration" "PFPWENROUNDROBIN_0,PFPWENROUNDROBIN_1"
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bitfld.long 0x00 16.--19. "PFPWWEIGHTEDPRIO,When an arbitration occurs between a DMA and a PFPW engine access the DMA is always serviced" "the next access is granted to the PFPW engine,the two next accesses are granted to the PFPW..,?,?,?,?,?,?,?,?,?,?,?,?,?,the 16 next accesses are granted to the PFPW.."
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abitfld.long 0x00 8.--14. "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"
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bitfld.long 0x00 7. "ENABLEENGINE,Enables the Prefetch Postwite engine" "ENABLEENGINE_0,ENABLEENGINE_1"
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bitfld.long 0x00 4.--5. "WAITPINSELECTOR,Select which wait pin edge detector should start the engine in synchronized mode" "WAITPINSELECTOR_0,WAITPINSELECTOR_1,WAITPINSELECTOR_2,WAITPINSELECTOR_3"
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bitfld.long 0x00 3. "SYNCHROMODE,Selects when the engine starts the access to CS" "SYNCHROMODE_0,SYNCHROMODE_1"
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bitfld.long 0x00 2. "DMAMODE,Selects interrupt synchronization or DMA request synchronization" "DMAMODE_0,DMAMODE_1"
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bitfld.long 0x00 0. "ACCESSMODE,Selects prefetch read or write-posting accesses" "ACCESSMODE_0,ACCESSMODE_1"
line.long 0x04 "GPMC_PREFETCH_CONFIG2,Prefetch engine configuration 2"
abitfld.long 0x04 0.--13. "TRANSFERCOUNT,Selects the number of bytes to be read or written by the engine to the selected CS" "0x0000=0 byte,0x0001=1 byte,0x2000=8 Kbytes"
group.long 0x1EC++0x07
line.long 0x00 "GPMC_PREFETCH_CONTROL,Prefetch engine control"
bitfld.long 0x00 0. "STARTENGINE,Resets the FIFO pointer and starts the engine" "STARTENGINE_0_r,STARTENGINE_1_r"
line.long 0x04 "GPMC_PREFETCH_STATUS,Prefetch engine status"
abitfld.long 0x04 24.--30. "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..,0x40=64 bytes available to be read or 64 empty.."
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bitfld.long 0x04 16. "FIFOTHRESHOLDSTATUS,Set when FIFOPointer exceeds FIFOThreshold value" "FIFOTHRESHOLDSTATUS_0,FIFOTHRESHOLDSTATUS_1"
newline
abitfld.long 0x04 0.--13. "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..,0x0001=1 byte remaining to be read or to be..,0x2000=8 Kbytes remaining to be read or to be.."
rgroup.long 0x00++0x03
line.long 0x00 "GPMC_REVISION,This register contains the IP revision code"
rgroup.long 0x54++0x03
line.long 0x00 "GPMC_STATUS,The status register provides global status bits of the GPMC"
bitfld.long 0x00 10. "WAIT2STATUS,Is a copy of input pin WAIT2" "WAIT2STATUS_0,WAIT2STATUS_1"
newline
bitfld.long 0x00 9. "WAIT1STATUS,Is a copy of input pin WAIT1" "WAIT1STATUS_0,WAIT1STATUS_1"
newline
bitfld.long 0x00 8. "WAIT0STATUS,Is a copy of input pin WAIT0" "WAIT0STATUS_0,WAIT0STATUS_1"
newline
bitfld.long 0x00 0. "EMPTYWRITEBUFFERSTATUS,Stores the empty status of the write buffer" "EMPTYWRITEBUFFERSTATUS_0,EMPTYWRITEBUFFERSTATUS_1"
group.long 0x10++0x07
line.long 0x00 "GPMC_SYSCONFIG,This register controls the various parameters of the Interconnect"
bitfld.long 0x00 3.--4. "SIDLEMODE," "?,SIDLEMODE_1,SIDLEMODE_2,SIDLEMODE_3"
newline
bitfld.long 0x00 1. "SOFTRESET,Software reset" "SOFTRESET_0,SOFTRESET_1"
newline
bitfld.long 0x00 0. "AUTOIDLE,Internal Interface clock gating strategy" "AUTOIDLE_0,AUTOIDLE_1"
line.long 0x04 "GPMC_SYSSTATUS,This register provides status information about the module. excluding the interrupt status information"
bitfld.long 0x04 0. "RESETDONE,Internal reset monitoring" "RESETDONE_0,RESETDONE_1"
group.long 0x40++0x03
line.long 0x00 "GPMC_TIMEOUT_CONTROL,The register allows the user to set the start value of the timeout counter"
abitfld.long 0x00 4.--12. "TIMEOUTSTARTVALUE,Start value of the time-out counter" "0x000=Zero GPMC_FCLK cycle,0x001=One GPMC_FCLK cycle,0x1FF=511 GPMC_FCLK cycles"
newline
bitfld.long 0x00 0. "TIMEOUTENABLE,Enable bit of the TimeOut feature" "TIMEOUTENABLE_0,TIMEOUTENABLE_1"
tree.end
tree.end
tree "General_Purpose_Timers"
tree "GPTIMER10_L4Interconnect"
base ansd:0x48086000
rgroup.long 0x00++0x03
line.long 0x00 "GPT_TIDR,This read-only register contains the revision number of the module"
group.long 0x10++0x4B
line.long 0x00 "GPT1MS_TIOCP_CFG,This register controls the various parameters of the OCP interface"
bitfld.long 0x00 8.--9. "CLOCKACTIVITY,Clock activity" "CLOCKACTIVITY_0,CLOCKACTIVITY_1,CLOCKACTIVITY_2,CLOCKACTIVITY_3"
bitfld.long 0x00 5. "EMUFREE,Emulation mode" "EMUFREE_0,EMUFREE_1"
bitfld.long 0x00 3.--4. "IDLEMODE,Power management req/ack control" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 2. "ENAWAKEUP,Wake-up feature global control" "ENAWAKEUP_0,ENAWAKEUP_1"
newline
bitfld.long 0x00 1. "SOFTRESET,Software reset" "SOFTRESET_0,SOFTRESET_1"
bitfld.long 0x00 0. "AUTOIDLE,Internal L4 clock gating strategy" "AUTOIDLE_0,AUTOIDLE_1"
line.long 0x04 "GPT_TISTAT,This register provides status information about the module. excluding interrupt status information"
bitfld.long 0x04 0. "RESETDONE,Internal reset monitoring" "RESETDONE_0_r,RESETDONE_1_r"
line.long 0x08 "GPT_TISR,The timer status register is used to determine which of the timer events requested an interrupt"
bitfld.long 0x08 2. "TCAR_IT_FLAG,Indicates when an external pulse transition of the correct polarity is detected on external pin GPTi_EVENT_CAPTURE" "TCAR_IT_FLAG_0,TCAR_IT_FLAG_1"
bitfld.long 0x08 1. "OVF_IT_FLAG,TCRR overflow" "OVF_IT_FLAG_0,OVF_IT_FLAG_1"
bitfld.long 0x08 0. "MAT_IT_FLAG,The compare result of TCRR and TMAR" "MAT_IT_FLAG_0,MAT_IT_FLAG_1"
line.long 0x0C "GPT_TIER,This register controls (enable/disable) the interrupt events"
bitfld.long 0x0C 2. "TCAR_IT_ENA,Capture interrupt enable" "TCAR_IT_ENA_0,TCAR_IT_ENA_1"
bitfld.long 0x0C 1. "OVF_IT_ENA,Overflow interrupt enable" "OVF_IT_ENA_0,OVF_IT_ENA_1"
bitfld.long 0x0C 0. "MAT_IT_ENA,Match interrupt enable" "MAT_IT_ENA_0,MAT_IT_ENA_1"
line.long 0x10 "GPT_TWER,This register controls (enable/disable) the wake-up feature on specific interrupt events"
bitfld.long 0x10 2. "TCAR_WUP_ENA,Capture wake-up enable" "TCAR_WUP_ENA_0,TCAR_WUP_ENA_1"
bitfld.long 0x10 1. "OVF_WUP_ENA,Overflow wake-up enable" "OVF_WUP_ENA_0,OVF_WUP_ENA_1"
bitfld.long 0x10 0. "MAT_WUP_ENA,Match wake-up enable" "MAT_WUP_ENA_0,MAT_WUP_ENA_1"
line.long 0x14 "GPT_TCLR,This register controls optional features specific to the timer functionality"
bitfld.long 0x14 14. "GPO_CFG,General-purpose output - this register directly drives the GPTi_PORGPOCFG output pin" "GPO_CFG_0,GPO_CFG_1"
bitfld.long 0x14 13. "CAPT_MODE,Capture mode select bit (first/second)" "CAPT_MODE_0,CAPT_MODE_1"
bitfld.long 0x14 12. "PT,Pulse or toggle mode on GPTi_PWM_out output pin" "PT_0,PT_1"
bitfld.long 0x14 10.--11. "TRG,Trigger output mode on GPTi_PWM_out output pin" "TRG_0,TRG_1,TRG_2,TRG_3"
newline
bitfld.long 0x14 8.--9. "TCM,Transition capture mode on GPTi_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.)" "TCM_0,TCM_1,TCM_2,TCM_3"
bitfld.long 0x14 7. "SCPWM,Pulse width modulation output pin default settingThis bit must be set or clear while the timer is stopped or the trigger is off" "SCPWM_0,SCPWM_1"
bitfld.long 0x14 6. "CE,Compare enable" "CE_0,CE_1"
bitfld.long 0x14 5. "PRE,Prescaler enable" "PRE_0,PRE_1"
newline
bitfld.long 0x14 2.--4. "PTV,Prescale clock timer valueThe timer counter is prescaled with the value 2" "0,1,2,3,4,5,6,7"
bitfld.long 0x14 1. "AR,Autoreload mode" "AR_0,AR_1"
bitfld.long 0x14 0. "ST,Start/stop timer control" "ST_0,ST_1"
line.long 0x18 "GPT_TCRR,This register holds the value of the internal counter"
line.long 0x1C "GPT_TLDR,This register holds the timer load value"
line.long 0x20 "GPT_TTGR,The read value of this register is always 0xFFFF FFFF"
line.long 0x24 "GPT_TWPS,This register contains the write posting bits for all writable functional registers"
bitfld.long 0x24 4. "W_PEND_TMAR,When equal to 1 a write is pending to theGPT_TMAR register" "0,1"
bitfld.long 0x24 3. "W_PEND_TTGR,When equal to 1 a write is pending to theGPT_TTGR register" "0,1"
bitfld.long 0x24 2. "W_PEND_TLDR,When equal to 1 a write is pending to theGPT_TLDR register" "0,1"
bitfld.long 0x24 1. "W_PEND_TCRR,When equal to 1 a write is pending to theGPT_TCRR register" "0,1"
newline
bitfld.long 0x24 0. "W_PEND_TCLR,When equal to 1 a write is pending to theGPT_TCLR register" "0,1"
line.long 0x28 "GPT_TMAR,The compare logic consists of a 32-bit-wide. read/write data TMAR register and logic to compare counter"
line.long 0x2C "GPT_TCAR1,This register holds the first captured value of the counter register"
line.long 0x30 "GPT_TSICR,Timer synchronous interface control register"
bitfld.long 0x30 2. "POSTED,Posted mode selection" "POSTED_0,POSTED_1"
bitfld.long 0x30 1. "SFT,This bit resets all the functional part of the module" "SFT_0,SFT_1"
line.long 0x34 "GPT_TCAR2,This register holds the second captured value of the counter register"
line.long 0x38 "GPT_TPIR,This register is used for 1-ms tick generation"
line.long 0x3C "GPT_TNIR,This register is used for 1-ms tick generation"
line.long 0x40 "GPT_TCVR,This register is used for 1-ms tick generation"
line.long 0x44 "GPT_TOCR,This register is used to mask the tick interrupt for a selected number of ticks"
hexmask.long.tbyte 0x44 0.--23. 1. "OVF_COUNTER_VALUE,Number of overflow events"
line.long 0x48 "GPT_TOWR,This register holds the number of masked overflow interrupts"
hexmask.long.tbyte 0x48 0.--23. 1. "OVF_WRAPPING_VALUE,Number of masked interrupts"
tree.end
tree "GPTIMER1_L4Interconnect"
base ansd:0x4A318000
rgroup.long 0x00++0x03
line.long 0x00 "GPT_TIDR,This read-only register contains the revision number of the module"
group.long 0x10++0x4B
line.long 0x00 "GPT1MS_TIOCP_CFG,This register controls the various parameters of the OCP interface"
bitfld.long 0x00 8.--9. "CLOCKACTIVITY,Clock activity" "CLOCKACTIVITY_0,CLOCKACTIVITY_1,CLOCKACTIVITY_2,CLOCKACTIVITY_3"
bitfld.long 0x00 5. "EMUFREE,Emulation mode" "EMUFREE_0,EMUFREE_1"
bitfld.long 0x00 3.--4. "IDLEMODE,Power management req/ack control" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 2. "ENAWAKEUP,Wake-up feature global control" "ENAWAKEUP_0,ENAWAKEUP_1"
newline
bitfld.long 0x00 1. "SOFTRESET,Software reset" "SOFTRESET_0,SOFTRESET_1"
bitfld.long 0x00 0. "AUTOIDLE,Internal L4 clock gating strategy" "AUTOIDLE_0,AUTOIDLE_1"
line.long 0x04 "GPT_TISTAT,This register provides status information about the module. excluding interrupt status information"
bitfld.long 0x04 0. "RESETDONE,Internal reset monitoring" "RESETDONE_0_r,RESETDONE_1_r"
line.long 0x08 "GPT_TISR,The timer status register is used to determine which of the timer events requested an interrupt"
bitfld.long 0x08 2. "TCAR_IT_FLAG,Indicates when an external pulse transition of the correct polarity is detected on external pin GPTi_EVENT_CAPTURE" "TCAR_IT_FLAG_0,TCAR_IT_FLAG_1"
bitfld.long 0x08 1. "OVF_IT_FLAG,TCRR overflow" "OVF_IT_FLAG_0,OVF_IT_FLAG_1"
bitfld.long 0x08 0. "MAT_IT_FLAG,The compare result of TCRR and TMAR" "MAT_IT_FLAG_0,MAT_IT_FLAG_1"
line.long 0x0C "GPT_TIER,This register controls (enable/disable) the interrupt events"
bitfld.long 0x0C 2. "TCAR_IT_ENA,Capture interrupt enable" "TCAR_IT_ENA_0,TCAR_IT_ENA_1"
bitfld.long 0x0C 1. "OVF_IT_ENA,Overflow interrupt enable" "OVF_IT_ENA_0,OVF_IT_ENA_1"
bitfld.long 0x0C 0. "MAT_IT_ENA,Match interrupt enable" "MAT_IT_ENA_0,MAT_IT_ENA_1"
line.long 0x10 "GPT_TWER,This register controls (enable/disable) the wake-up feature on specific interrupt events"
bitfld.long 0x10 2. "TCAR_WUP_ENA,Capture wake-up enable" "TCAR_WUP_ENA_0,TCAR_WUP_ENA_1"
bitfld.long 0x10 1. "OVF_WUP_ENA,Overflow wake-up enable" "OVF_WUP_ENA_0,OVF_WUP_ENA_1"
bitfld.long 0x10 0. "MAT_WUP_ENA,Match wake-up enable" "MAT_WUP_ENA_0,MAT_WUP_ENA_1"
line.long 0x14 "GPT_TCLR,This register controls optional features specific to the timer functionality"
bitfld.long 0x14 14. "GPO_CFG,General-purpose output - this register directly drives the GPTi_PORGPOCFG output pin" "GPO_CFG_0,GPO_CFG_1"
bitfld.long 0x14 13. "CAPT_MODE,Capture mode select bit (first/second)" "CAPT_MODE_0,CAPT_MODE_1"
bitfld.long 0x14 12. "PT,Pulse or toggle mode on GPTi_PWM_out output pin" "PT_0,PT_1"
bitfld.long 0x14 10.--11. "TRG,Trigger output mode on GPTi_PWM_out output pin" "TRG_0,TRG_1,TRG_2,TRG_3"
newline
bitfld.long 0x14 8.--9. "TCM,Transition capture mode on GPTi_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.)" "TCM_0,TCM_1,TCM_2,TCM_3"
bitfld.long 0x14 7. "SCPWM,Pulse width modulation output pin default settingThis bit must be set or clear while the timer is stopped or the trigger is off" "SCPWM_0,SCPWM_1"
bitfld.long 0x14 6. "CE,Compare enable" "CE_0,CE_1"
bitfld.long 0x14 5. "PRE,Prescaler enable" "PRE_0,PRE_1"
newline
bitfld.long 0x14 2.--4. "PTV,Prescale clock timer valueThe timer counter is prescaled with the value 2" "0,1,2,3,4,5,6,7"
bitfld.long 0x14 1. "AR,Autoreload mode" "AR_0,AR_1"
bitfld.long 0x14 0. "ST,Start/stop timer control" "ST_0,ST_1"
line.long 0x18 "GPT_TCRR,This register holds the value of the internal counter"
line.long 0x1C "GPT_TLDR,This register holds the timer load value"
line.long 0x20 "GPT_TTGR,The read value of this register is always 0xFFFF FFFF"
line.long 0x24 "GPT_TWPS,This register contains the write posting bits for all writable functional registers"
bitfld.long 0x24 4. "W_PEND_TMAR,When equal to 1 a write is pending to theGPT_TMAR register" "0,1"
bitfld.long 0x24 3. "W_PEND_TTGR,When equal to 1 a write is pending to theGPT_TTGR register" "0,1"
bitfld.long 0x24 2. "W_PEND_TLDR,When equal to 1 a write is pending to theGPT_TLDR register" "0,1"
bitfld.long 0x24 1. "W_PEND_TCRR,When equal to 1 a write is pending to theGPT_TCRR register" "0,1"
newline
bitfld.long 0x24 0. "W_PEND_TCLR,When equal to 1 a write is pending to theGPT_TCLR register" "0,1"
line.long 0x28 "GPT_TMAR,The compare logic consists of a 32-bit-wide. read/write data TMAR register and logic to compare counter"
line.long 0x2C "GPT_TCAR1,This register holds the first captured value of the counter register"
line.long 0x30 "GPT_TSICR,Timer synchronous interface control register"
bitfld.long 0x30 2. "POSTED,Posted mode selection" "POSTED_0,POSTED_1"
bitfld.long 0x30 1. "SFT,This bit resets all the functional part of the module" "SFT_0,SFT_1"
line.long 0x34 "GPT_TCAR2,This register holds the second captured value of the counter register"
line.long 0x38 "GPT_TPIR,This register is used for 1-ms tick generation"
line.long 0x3C "GPT_TNIR,This register is used for 1-ms tick generation"
line.long 0x40 "GPT_TCVR,This register is used for 1-ms tick generation"
line.long 0x44 "GPT_TOCR,This register is used to mask the tick interrupt for a selected number of ticks"
hexmask.long.tbyte 0x44 0.--23. 1. "OVF_COUNTER_VALUE,Number of overflow events"
line.long 0x48 "GPT_TOWR,This register holds the number of masked overflow interrupts"
hexmask.long.tbyte 0x48 0.--23. 1. "OVF_WRAPPING_VALUE,Number of masked interrupts"
tree.end
tree "GPTIMER2_L4Interconnect"
base ansd:0x48032000
rgroup.long 0x00++0x03
line.long 0x00 "GPT_TIDR,This read-only register contains the revision number of the module"
group.long 0x10++0x4B
line.long 0x00 "GPT1MS_TIOCP_CFG,This register controls the various parameters of the OCP interface"
bitfld.long 0x00 8.--9. "CLOCKACTIVITY,Clock activity" "CLOCKACTIVITY_0,CLOCKACTIVITY_1,CLOCKACTIVITY_2,CLOCKACTIVITY_3"
bitfld.long 0x00 5. "EMUFREE,Emulation mode" "EMUFREE_0,EMUFREE_1"
bitfld.long 0x00 3.--4. "IDLEMODE,Power management req/ack control" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 2. "ENAWAKEUP,Wake-up feature global control" "ENAWAKEUP_0,ENAWAKEUP_1"
newline
bitfld.long 0x00 1. "SOFTRESET,Software reset" "SOFTRESET_0,SOFTRESET_1"
bitfld.long 0x00 0. "AUTOIDLE,Internal L4 clock gating strategy" "AUTOIDLE_0,AUTOIDLE_1"
line.long 0x04 "GPT_TISTAT,This register provides status information about the module. excluding interrupt status information"
bitfld.long 0x04 0. "RESETDONE,Internal reset monitoring" "RESETDONE_0_r,RESETDONE_1_r"
line.long 0x08 "GPT_TISR,The timer status register is used to determine which of the timer events requested an interrupt"
bitfld.long 0x08 2. "TCAR_IT_FLAG,Indicates when an external pulse transition of the correct polarity is detected on external pin GPTi_EVENT_CAPTURE" "TCAR_IT_FLAG_0,TCAR_IT_FLAG_1"
bitfld.long 0x08 1. "OVF_IT_FLAG,TCRR overflow" "OVF_IT_FLAG_0,OVF_IT_FLAG_1"
bitfld.long 0x08 0. "MAT_IT_FLAG,The compare result of TCRR and TMAR" "MAT_IT_FLAG_0,MAT_IT_FLAG_1"
line.long 0x0C "GPT_TIER,This register controls (enable/disable) the interrupt events"
bitfld.long 0x0C 2. "TCAR_IT_ENA,Capture interrupt enable" "TCAR_IT_ENA_0,TCAR_IT_ENA_1"
bitfld.long 0x0C 1. "OVF_IT_ENA,Overflow interrupt enable" "OVF_IT_ENA_0,OVF_IT_ENA_1"
bitfld.long 0x0C 0. "MAT_IT_ENA,Match interrupt enable" "MAT_IT_ENA_0,MAT_IT_ENA_1"
line.long 0x10 "GPT_TWER,This register controls (enable/disable) the wake-up feature on specific interrupt events"
bitfld.long 0x10 2. "TCAR_WUP_ENA,Capture wake-up enable" "TCAR_WUP_ENA_0,TCAR_WUP_ENA_1"
bitfld.long 0x10 1. "OVF_WUP_ENA,Overflow wake-up enable" "OVF_WUP_ENA_0,OVF_WUP_ENA_1"
bitfld.long 0x10 0. "MAT_WUP_ENA,Match wake-up enable" "MAT_WUP_ENA_0,MAT_WUP_ENA_1"
line.long 0x14 "GPT_TCLR,This register controls optional features specific to the timer functionality"
bitfld.long 0x14 14. "GPO_CFG,General-purpose output - this register directly drives the GPTi_PORGPOCFG output pin" "GPO_CFG_0,GPO_CFG_1"
bitfld.long 0x14 13. "CAPT_MODE,Capture mode select bit (first/second)" "CAPT_MODE_0,CAPT_MODE_1"
bitfld.long 0x14 12. "PT,Pulse or toggle mode on GPTi_PWM_out output pin" "PT_0,PT_1"
bitfld.long 0x14 10.--11. "TRG,Trigger output mode on GPTi_PWM_out output pin" "TRG_0,TRG_1,TRG_2,TRG_3"
newline
bitfld.long 0x14 8.--9. "TCM,Transition capture mode on GPTi_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.)" "TCM_0,TCM_1,TCM_2,TCM_3"
bitfld.long 0x14 7. "SCPWM,Pulse width modulation output pin default settingThis bit must be set or clear while the timer is stopped or the trigger is off" "SCPWM_0,SCPWM_1"
bitfld.long 0x14 6. "CE,Compare enable" "CE_0,CE_1"
bitfld.long 0x14 5. "PRE,Prescaler enable" "PRE_0,PRE_1"
newline
bitfld.long 0x14 2.--4. "PTV,Prescale clock timer valueThe timer counter is prescaled with the value 2" "0,1,2,3,4,5,6,7"
bitfld.long 0x14 1. "AR,Autoreload mode" "AR_0,AR_1"
bitfld.long 0x14 0. "ST,Start/stop timer control" "ST_0,ST_1"
line.long 0x18 "GPT_TCRR,This register holds the value of the internal counter"
line.long 0x1C "GPT_TLDR,This register holds the timer load value"
line.long 0x20 "GPT_TTGR,The read value of this register is always 0xFFFF FFFF"
line.long 0x24 "GPT_TWPS,This register contains the write posting bits for all writable functional registers"
bitfld.long 0x24 4. "W_PEND_TMAR,When equal to 1 a write is pending to theGPT_TMAR register" "0,1"
bitfld.long 0x24 3. "W_PEND_TTGR,When equal to 1 a write is pending to theGPT_TTGR register" "0,1"
bitfld.long 0x24 2. "W_PEND_TLDR,When equal to 1 a write is pending to theGPT_TLDR register" "0,1"
bitfld.long 0x24 1. "W_PEND_TCRR,When equal to 1 a write is pending to theGPT_TCRR register" "0,1"
newline
bitfld.long 0x24 0. "W_PEND_TCLR,When equal to 1 a write is pending to theGPT_TCLR register" "0,1"
line.long 0x28 "GPT_TMAR,The compare logic consists of a 32-bit-wide. read/write data TMAR register and logic to compare counter"
line.long 0x2C "GPT_TCAR1,This register holds the first captured value of the counter register"
line.long 0x30 "GPT_TSICR,Timer synchronous interface control register"
bitfld.long 0x30 2. "POSTED,Posted mode selection" "POSTED_0,POSTED_1"
bitfld.long 0x30 1. "SFT,This bit resets all the functional part of the module" "SFT_0,SFT_1"
line.long 0x34 "GPT_TCAR2,This register holds the second captured value of the counter register"
line.long 0x38 "GPT_TPIR,This register is used for 1-ms tick generation"
line.long 0x3C "GPT_TNIR,This register is used for 1-ms tick generation"
line.long 0x40 "GPT_TCVR,This register is used for 1-ms tick generation"
line.long 0x44 "GPT_TOCR,This register is used to mask the tick interrupt for a selected number of ticks"
hexmask.long.tbyte 0x44 0.--23. 1. "OVF_COUNTER_VALUE,Number of overflow events"
line.long 0x48 "GPT_TOWR,This register holds the number of masked overflow interrupts"
hexmask.long.tbyte 0x48 0.--23. 1. "OVF_WRAPPING_VALUE,Number of masked interrupts"
tree.end
tree "GPTIMER11_L4Interconnect"
base ansd:0x48088000
rgroup.long 0x00++0x03
line.long 0x00 "GPT_TIDR,This read-only register contains the revision number of the module"
group.long 0x10++0x03
line.long 0x00 "GPT_TIOCP_CFG,This register controls the various parameters of the L4 interface"
bitfld.long 0x00 2.--3. "IDLEMODE,Power management req/ack control" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 1. "EMUFREE,Emulation mode" "EMUFREE_0,EMUFREE_1"
newline
bitfld.long 0x00 0. "SOFTRESET,Software reset" "SOFTRESET_0,SOFTRESET_1"
group.long 0x24++0x37
line.long 0x00 "GPT_IRQSTATUS_RAW,Component interrupt-request status"
bitfld.long 0x00 2. "TCAR_IT_FLAG,IRQ status for CaptureRead" "No action Read,Trigger IRQ event by software"
bitfld.long 0x00 1. "OVF_IT_FLAG,IRQ status for OverflowRead" "No action Read,Trigger IRQ event by software"
newline
bitfld.long 0x00 0. "MAT_IT_FLAG,IRQ status for MatchRead" "No action Read,Trigger IRQ event by software"
line.long 0x04 "GPT_IRQSTATUS,Component interrupt-request status"
bitfld.long 0x04 2. "TCAR_IT_FLAG,IRQ status for captureRead" "No action Read,Clear any pending event"
bitfld.long 0x04 1. "OVF_IT_FLAG,IRQ status for OverflowRead" "No action Read,Clear any pending event"
newline
bitfld.long 0x04 0. "MAT_IT_FLAG,IRQ status for MatchRead" "No action Read,Clear any pending event"
line.long 0x08 "GPT_IRQENABLE_SET,Component interrupt-request enable"
bitfld.long 0x08 2. "TCAR_EN_FLAG,IRQ enable for CompareRead" "No action Read,Set IRQ enable"
bitfld.long 0x08 1. "OVF_EN_FLAG,IRQ enable for OverflowRead" "No action Read,Set IRQ enable"
newline
bitfld.long 0x08 0. "MAT_EN_FLAG,IRQ enable for MatchRead" "No action Read,Set IRQ enable"
line.long 0x0C "GPT_IRQENABLE_CLR,Component interrupt-request enable"
bitfld.long 0x0C 2. "TCAR_EN_FLAG,IRQ enable for CompareRead" "No action Read,Clear IRQ enable"
bitfld.long 0x0C 1. "OVF_EN_FLAG,IRQ enable for OverflowRead" "No action Read,Clear IRQ enable"
newline
bitfld.long 0x0C 0. "MAT_EN_FLAG,IRQ enable for MatchRead" "No action Read,Clear IRQ enable"
line.long 0x10 "GPT_IRQWAKEEN,Wake-up-enabled events taking place when module is idle should generate an asynchronous wake-up"
bitfld.long 0x10 2. "TCAR_WUP_ENA,Wake-up generation for Compare" "TCAR_WUP_ENA_0,TCAR_WUP_ENA_1"
bitfld.long 0x10 1. "OVF_WUP_ENA,Wake-up generation for Overflow" "OVF_WUP_ENA_0,OVF_WUP_ENA_1"
newline
bitfld.long 0x10 0. "MAT_WUP_ENA,Wake-up generation for Match" "MAT_WUP_ENA_0,MAT_WUP_ENA_1"
line.long 0x14 "GPT_TCLR,This register controls optional features specific to the timer functionality"
bitfld.long 0x14 14. "GPO_CFG,General-purpose output - this register directly drives the GPTi_PORGPOCFG output pin" "GPO_CFG_0,GPO_CFG_1"
bitfld.long 0x14 13. "CAPT_MODE,Capture mode select bit (first/second)" "CAPT_MODE_0,CAPT_MODE_1"
newline
bitfld.long 0x14 12. "PT,Pulse or toggle mode on GPTi_PWM_out output pin" "PT_0,PT_1"
bitfld.long 0x14 10.--11. "TRG,Trigger output mode on GPTi_PWM_out output pin" "TRG_0,TRG_1,TRG_2,TRG_3"
newline
bitfld.long 0x14 8.--9. "TCM,Transition capture mode on GPTi_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.)" "TCM_0,TCM_1,TCM_2,TCM_3"
bitfld.long 0x14 7. "SCPWM,Pulse width modulation output pin default settingThis bit must be set or clear while the timer is stopped or the trigger is off" "SCPWM_0,SCPWM_1"
newline
bitfld.long 0x14 6. "CE,Compare enable" "CE_0,CE_1"
bitfld.long 0x14 5. "PRE,Prescaler enable" "PRE_0,PRE_1"
newline
bitfld.long 0x14 2.--4. "PTV,Prescale clock timer valueThe timer counter is prescaled with the value 2" "0,1,2,3,4,5,6,7"
bitfld.long 0x14 1. "AR,Autoreload mode" "AR_0,AR_1"
newline
bitfld.long 0x14 0. "ST,Start/stop timer control" "ST_0,ST_1"
line.long 0x18 "GPT_TCRR,This register holds the value of the internal counter"
line.long 0x1C "GPT_TLDR,This register holds the timer load value"
line.long 0x20 "GPT_TTGR,The read value of this register is always 0xFFFF FFFF"
line.long 0x24 "GPT_TWPS,This register contains the write posting bits for all writable functional registers"
bitfld.long 0x24 4. "W_PEND_TMAR,When equal to 1 a write is pending to theGPT_TMAR register" "0,1"
bitfld.long 0x24 3. "W_PEND_TTGR,When equal to 1 a write is pending to theGPT_TTGR register" "0,1"
newline
bitfld.long 0x24 2. "W_PEND_TLDR,When equal to 1 a write is pending to theGPT_TLDR register" "0,1"
bitfld.long 0x24 1. "W_PEND_TCRR,When equal to 1 a write is pending to theGPT_TCRR register" "0,1"
newline
bitfld.long 0x24 0. "W_PEND_TCLR,When equal to 1 a write is pending to theGPT_TCLR register" "0,1"
line.long 0x28 "GPT_TMAR,The compare logic consists of a 32-bit-wide. read/write data TMAR register and logic to compare counter"
line.long 0x2C "GPT_TCAR1,This register holds the first captured value of the counter register"
line.long 0x30 "GPT_TSICR,Timer synchronous interface control register"
bitfld.long 0x30 2. "POSTED,Posted mode selection" "POSTED_0,POSTED_1"
bitfld.long 0x30 1. "SFT,This bit resets all the functional part of the module" "SFT_0,SFT_1"
line.long 0x34 "GPT_TCAR2,This register holds the second captured value of the counter register"
tree.end
tree "GPTIMER3_L4Interconnect"
base ansd:0x48034000
rgroup.long 0x00++0x03
line.long 0x00 "GPT_TIDR,This read-only register contains the revision number of the module"
group.long 0x10++0x03
line.long 0x00 "GPT_TIOCP_CFG,This register controls the various parameters of the L4 interface"
bitfld.long 0x00 2.--3. "IDLEMODE,Power management req/ack control" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 1. "EMUFREE,Emulation mode" "EMUFREE_0,EMUFREE_1"
newline
bitfld.long 0x00 0. "SOFTRESET,Software reset" "SOFTRESET_0,SOFTRESET_1"
group.long 0x24++0x37
line.long 0x00 "GPT_IRQSTATUS_RAW,Component interrupt-request status"
bitfld.long 0x00 2. "TCAR_IT_FLAG,IRQ status for CaptureRead" "No action Read,Trigger IRQ event by software"
bitfld.long 0x00 1. "OVF_IT_FLAG,IRQ status for OverflowRead" "No action Read,Trigger IRQ event by software"
newline
bitfld.long 0x00 0. "MAT_IT_FLAG,IRQ status for MatchRead" "No action Read,Trigger IRQ event by software"
line.long 0x04 "GPT_IRQSTATUS,Component interrupt-request status"
bitfld.long 0x04 2. "TCAR_IT_FLAG,IRQ status for captureRead" "No action Read,Clear any pending event"
bitfld.long 0x04 1. "OVF_IT_FLAG,IRQ status for OverflowRead" "No action Read,Clear any pending event"
newline
bitfld.long 0x04 0. "MAT_IT_FLAG,IRQ status for MatchRead" "No action Read,Clear any pending event"
line.long 0x08 "GPT_IRQENABLE_SET,Component interrupt-request enable"
bitfld.long 0x08 2. "TCAR_EN_FLAG,IRQ enable for CompareRead" "No action Read,Set IRQ enable"
bitfld.long 0x08 1. "OVF_EN_FLAG,IRQ enable for OverflowRead" "No action Read,Set IRQ enable"
newline
bitfld.long 0x08 0. "MAT_EN_FLAG,IRQ enable for MatchRead" "No action Read,Set IRQ enable"
line.long 0x0C "GPT_IRQENABLE_CLR,Component interrupt-request enable"
bitfld.long 0x0C 2. "TCAR_EN_FLAG,IRQ enable for CompareRead" "No action Read,Clear IRQ enable"
bitfld.long 0x0C 1. "OVF_EN_FLAG,IRQ enable for OverflowRead" "No action Read,Clear IRQ enable"
newline
bitfld.long 0x0C 0. "MAT_EN_FLAG,IRQ enable for MatchRead" "No action Read,Clear IRQ enable"
line.long 0x10 "GPT_IRQWAKEEN,Wake-up-enabled events taking place when module is idle should generate an asynchronous wake-up"
bitfld.long 0x10 2. "TCAR_WUP_ENA,Wake-up generation for Compare" "TCAR_WUP_ENA_0,TCAR_WUP_ENA_1"
bitfld.long 0x10 1. "OVF_WUP_ENA,Wake-up generation for Overflow" "OVF_WUP_ENA_0,OVF_WUP_ENA_1"
newline
bitfld.long 0x10 0. "MAT_WUP_ENA,Wake-up generation for Match" "MAT_WUP_ENA_0,MAT_WUP_ENA_1"
line.long 0x14 "GPT_TCLR,This register controls optional features specific to the timer functionality"
bitfld.long 0x14 14. "GPO_CFG,General-purpose output - this register directly drives the GPTi_PORGPOCFG output pin" "GPO_CFG_0,GPO_CFG_1"
bitfld.long 0x14 13. "CAPT_MODE,Capture mode select bit (first/second)" "CAPT_MODE_0,CAPT_MODE_1"
newline
bitfld.long 0x14 12. "PT,Pulse or toggle mode on GPTi_PWM_out output pin" "PT_0,PT_1"
bitfld.long 0x14 10.--11. "TRG,Trigger output mode on GPTi_PWM_out output pin" "TRG_0,TRG_1,TRG_2,TRG_3"
newline
bitfld.long 0x14 8.--9. "TCM,Transition capture mode on GPTi_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.)" "TCM_0,TCM_1,TCM_2,TCM_3"
bitfld.long 0x14 7. "SCPWM,Pulse width modulation output pin default settingThis bit must be set or clear while the timer is stopped or the trigger is off" "SCPWM_0,SCPWM_1"
newline
bitfld.long 0x14 6. "CE,Compare enable" "CE_0,CE_1"
bitfld.long 0x14 5. "PRE,Prescaler enable" "PRE_0,PRE_1"
newline
bitfld.long 0x14 2.--4. "PTV,Prescale clock timer valueThe timer counter is prescaled with the value 2" "0,1,2,3,4,5,6,7"
bitfld.long 0x14 1. "AR,Autoreload mode" "AR_0,AR_1"
newline
bitfld.long 0x14 0. "ST,Start/stop timer control" "ST_0,ST_1"
line.long 0x18 "GPT_TCRR,This register holds the value of the internal counter"
line.long 0x1C "GPT_TLDR,This register holds the timer load value"
line.long 0x20 "GPT_TTGR,The read value of this register is always 0xFFFF FFFF"
line.long 0x24 "GPT_TWPS,This register contains the write posting bits for all writable functional registers"
bitfld.long 0x24 4. "W_PEND_TMAR,When equal to 1 a write is pending to theGPT_TMAR register" "0,1"
bitfld.long 0x24 3. "W_PEND_TTGR,When equal to 1 a write is pending to theGPT_TTGR register" "0,1"
newline
bitfld.long 0x24 2. "W_PEND_TLDR,When equal to 1 a write is pending to theGPT_TLDR register" "0,1"
bitfld.long 0x24 1. "W_PEND_TCRR,When equal to 1 a write is pending to theGPT_TCRR register" "0,1"
newline
bitfld.long 0x24 0. "W_PEND_TCLR,When equal to 1 a write is pending to theGPT_TCLR register" "0,1"
line.long 0x28 "GPT_TMAR,The compare logic consists of a 32-bit-wide. read/write data TMAR register and logic to compare counter"
line.long 0x2C "GPT_TCAR1,This register holds the first captured value of the counter register"
line.long 0x30 "GPT_TSICR,Timer synchronous interface control register"
bitfld.long 0x30 2. "POSTED,Posted mode selection" "POSTED_0,POSTED_1"
bitfld.long 0x30 1. "SFT,This bit resets all the functional part of the module" "SFT_0,SFT_1"
line.long 0x34 "GPT_TCAR2,This register holds the second captured value of the counter register"
tree.end
tree "GPTIMER4_L4Interconnect"
base ansd:0x48036000
rgroup.long 0x00++0x03
line.long 0x00 "GPT_TIDR,This read-only register contains the revision number of the module"
group.long 0x10++0x03
line.long 0x00 "GPT_TIOCP_CFG,This register controls the various parameters of the L4 interface"
bitfld.long 0x00 2.--3. "IDLEMODE,Power management req/ack control" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 1. "EMUFREE,Emulation mode" "EMUFREE_0,EMUFREE_1"
newline
bitfld.long 0x00 0. "SOFTRESET,Software reset" "SOFTRESET_0,SOFTRESET_1"
group.long 0x24++0x37
line.long 0x00 "GPT_IRQSTATUS_RAW,Component interrupt-request status"
bitfld.long 0x00 2. "TCAR_IT_FLAG,IRQ status for CaptureRead" "No action Read,Trigger IRQ event by software"
bitfld.long 0x00 1. "OVF_IT_FLAG,IRQ status for OverflowRead" "No action Read,Trigger IRQ event by software"
newline
bitfld.long 0x00 0. "MAT_IT_FLAG,IRQ status for MatchRead" "No action Read,Trigger IRQ event by software"
line.long 0x04 "GPT_IRQSTATUS,Component interrupt-request status"
bitfld.long 0x04 2. "TCAR_IT_FLAG,IRQ status for captureRead" "No action Read,Clear any pending event"
bitfld.long 0x04 1. "OVF_IT_FLAG,IRQ status for OverflowRead" "No action Read,Clear any pending event"
newline
bitfld.long 0x04 0. "MAT_IT_FLAG,IRQ status for MatchRead" "No action Read,Clear any pending event"
line.long 0x08 "GPT_IRQENABLE_SET,Component interrupt-request enable"
bitfld.long 0x08 2. "TCAR_EN_FLAG,IRQ enable for CompareRead" "No action Read,Set IRQ enable"
bitfld.long 0x08 1. "OVF_EN_FLAG,IRQ enable for OverflowRead" "No action Read,Set IRQ enable"
newline
bitfld.long 0x08 0. "MAT_EN_FLAG,IRQ enable for MatchRead" "No action Read,Set IRQ enable"
line.long 0x0C "GPT_IRQENABLE_CLR,Component interrupt-request enable"
bitfld.long 0x0C 2. "TCAR_EN_FLAG,IRQ enable for CompareRead" "No action Read,Clear IRQ enable"
bitfld.long 0x0C 1. "OVF_EN_FLAG,IRQ enable for OverflowRead" "No action Read,Clear IRQ enable"
newline
bitfld.long 0x0C 0. "MAT_EN_FLAG,IRQ enable for MatchRead" "No action Read,Clear IRQ enable"
line.long 0x10 "GPT_IRQWAKEEN,Wake-up-enabled events taking place when module is idle should generate an asynchronous wake-up"
bitfld.long 0x10 2. "TCAR_WUP_ENA,Wake-up generation for Compare" "TCAR_WUP_ENA_0,TCAR_WUP_ENA_1"
bitfld.long 0x10 1. "OVF_WUP_ENA,Wake-up generation for Overflow" "OVF_WUP_ENA_0,OVF_WUP_ENA_1"
newline
bitfld.long 0x10 0. "MAT_WUP_ENA,Wake-up generation for Match" "MAT_WUP_ENA_0,MAT_WUP_ENA_1"
line.long 0x14 "GPT_TCLR,This register controls optional features specific to the timer functionality"
bitfld.long 0x14 14. "GPO_CFG,General-purpose output - this register directly drives the GPTi_PORGPOCFG output pin" "GPO_CFG_0,GPO_CFG_1"
bitfld.long 0x14 13. "CAPT_MODE,Capture mode select bit (first/second)" "CAPT_MODE_0,CAPT_MODE_1"
newline
bitfld.long 0x14 12. "PT,Pulse or toggle mode on GPTi_PWM_out output pin" "PT_0,PT_1"
bitfld.long 0x14 10.--11. "TRG,Trigger output mode on GPTi_PWM_out output pin" "TRG_0,TRG_1,TRG_2,TRG_3"
newline
bitfld.long 0x14 8.--9. "TCM,Transition capture mode on GPTi_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.)" "TCM_0,TCM_1,TCM_2,TCM_3"
bitfld.long 0x14 7. "SCPWM,Pulse width modulation output pin default settingThis bit must be set or clear while the timer is stopped or the trigger is off" "SCPWM_0,SCPWM_1"
newline
bitfld.long 0x14 6. "CE,Compare enable" "CE_0,CE_1"
bitfld.long 0x14 5. "PRE,Prescaler enable" "PRE_0,PRE_1"
newline
bitfld.long 0x14 2.--4. "PTV,Prescale clock timer valueThe timer counter is prescaled with the value 2" "0,1,2,3,4,5,6,7"
bitfld.long 0x14 1. "AR,Autoreload mode" "AR_0,AR_1"
newline
bitfld.long 0x14 0. "ST,Start/stop timer control" "ST_0,ST_1"
line.long 0x18 "GPT_TCRR,This register holds the value of the internal counter"
line.long 0x1C "GPT_TLDR,This register holds the timer load value"
line.long 0x20 "GPT_TTGR,The read value of this register is always 0xFFFF FFFF"
line.long 0x24 "GPT_TWPS,This register contains the write posting bits for all writable functional registers"
bitfld.long 0x24 4. "W_PEND_TMAR,When equal to 1 a write is pending to theGPT_TMAR register" "0,1"
bitfld.long 0x24 3. "W_PEND_TTGR,When equal to 1 a write is pending to theGPT_TTGR register" "0,1"
newline
bitfld.long 0x24 2. "W_PEND_TLDR,When equal to 1 a write is pending to theGPT_TLDR register" "0,1"
bitfld.long 0x24 1. "W_PEND_TCRR,When equal to 1 a write is pending to theGPT_TCRR register" "0,1"
newline
bitfld.long 0x24 0. "W_PEND_TCLR,When equal to 1 a write is pending to theGPT_TCLR register" "0,1"
line.long 0x28 "GPT_TMAR,The compare logic consists of a 32-bit-wide. read/write data TMAR register and logic to compare counter"
line.long 0x2C "GPT_TCAR1,This register holds the first captured value of the counter register"
line.long 0x30 "GPT_TSICR,Timer synchronous interface control register"
bitfld.long 0x30 2. "POSTED,Posted mode selection" "POSTED_0,POSTED_1"
bitfld.long 0x30 1. "SFT,This bit resets all the functional part of the module" "SFT_0,SFT_1"
line.long 0x34 "GPT_TCAR2,This register holds the second captured value of the counter register"
tree.end
tree "GPTIMER5_Cortex_A9"
base ansd:0x40138000
rgroup.long 0x00++0x03
line.long 0x00 "GPT_TIDR,This read-only register contains the revision number of the module"
group.long 0x10++0x03
line.long 0x00 "GPT_TIOCP_CFG,This register controls the various parameters of the L4 interface"
bitfld.long 0x00 2.--3. "IDLEMODE,Power management req/ack control" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 1. "EMUFREE,Emulation mode" "EMUFREE_0,EMUFREE_1"
newline
bitfld.long 0x00 0. "SOFTRESET,Software reset" "SOFTRESET_0,SOFTRESET_1"
group.long 0x24++0x37
line.long 0x00 "GPT_IRQSTATUS_RAW,Component interrupt-request status"
bitfld.long 0x00 2. "TCAR_IT_FLAG,IRQ status for CaptureRead" "No action Read,Trigger IRQ event by software"
bitfld.long 0x00 1. "OVF_IT_FLAG,IRQ status for OverflowRead" "No action Read,Trigger IRQ event by software"
newline
bitfld.long 0x00 0. "MAT_IT_FLAG,IRQ status for MatchRead" "No action Read,Trigger IRQ event by software"
line.long 0x04 "GPT_IRQSTATUS,Component interrupt-request status"
bitfld.long 0x04 2. "TCAR_IT_FLAG,IRQ status for captureRead" "No action Read,Clear any pending event"
bitfld.long 0x04 1. "OVF_IT_FLAG,IRQ status for OverflowRead" "No action Read,Clear any pending event"
newline
bitfld.long 0x04 0. "MAT_IT_FLAG,IRQ status for MatchRead" "No action Read,Clear any pending event"
line.long 0x08 "GPT_IRQENABLE_SET,Component interrupt-request enable"
bitfld.long 0x08 2. "TCAR_EN_FLAG,IRQ enable for CompareRead" "No action Read,Set IRQ enable"
bitfld.long 0x08 1. "OVF_EN_FLAG,IRQ enable for OverflowRead" "No action Read,Set IRQ enable"
newline
bitfld.long 0x08 0. "MAT_EN_FLAG,IRQ enable for MatchRead" "No action Read,Set IRQ enable"
line.long 0x0C "GPT_IRQENABLE_CLR,Component interrupt-request enable"
bitfld.long 0x0C 2. "TCAR_EN_FLAG,IRQ enable for CompareRead" "No action Read,Clear IRQ enable"
bitfld.long 0x0C 1. "OVF_EN_FLAG,IRQ enable for OverflowRead" "No action Read,Clear IRQ enable"
newline
bitfld.long 0x0C 0. "MAT_EN_FLAG,IRQ enable for MatchRead" "No action Read,Clear IRQ enable"
line.long 0x10 "GPT_IRQWAKEEN,Wake-up-enabled events taking place when module is idle should generate an asynchronous wake-up"
bitfld.long 0x10 2. "TCAR_WUP_ENA,Wake-up generation for Compare" "TCAR_WUP_ENA_0,TCAR_WUP_ENA_1"
bitfld.long 0x10 1. "OVF_WUP_ENA,Wake-up generation for Overflow" "OVF_WUP_ENA_0,OVF_WUP_ENA_1"
newline
bitfld.long 0x10 0. "MAT_WUP_ENA,Wake-up generation for Match" "MAT_WUP_ENA_0,MAT_WUP_ENA_1"
line.long 0x14 "GPT_TCLR,This register controls optional features specific to the timer functionality"
bitfld.long 0x14 14. "GPO_CFG,General-purpose output - this register directly drives the GPTi_PORGPOCFG output pin" "GPO_CFG_0,GPO_CFG_1"
bitfld.long 0x14 13. "CAPT_MODE,Capture mode select bit (first/second)" "CAPT_MODE_0,CAPT_MODE_1"
newline
bitfld.long 0x14 12. "PT,Pulse or toggle mode on GPTi_PWM_out output pin" "PT_0,PT_1"
bitfld.long 0x14 10.--11. "TRG,Trigger output mode on GPTi_PWM_out output pin" "TRG_0,TRG_1,TRG_2,TRG_3"
newline
bitfld.long 0x14 8.--9. "TCM,Transition capture mode on GPTi_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.)" "TCM_0,TCM_1,TCM_2,TCM_3"
bitfld.long 0x14 7. "SCPWM,Pulse width modulation output pin default settingThis bit must be set or clear while the timer is stopped or the trigger is off" "SCPWM_0,SCPWM_1"
newline
bitfld.long 0x14 6. "CE,Compare enable" "CE_0,CE_1"
bitfld.long 0x14 5. "PRE,Prescaler enable" "PRE_0,PRE_1"
newline
bitfld.long 0x14 2.--4. "PTV,Prescale clock timer valueThe timer counter is prescaled with the value 2" "0,1,2,3,4,5,6,7"
bitfld.long 0x14 1. "AR,Autoreload mode" "AR_0,AR_1"
newline
bitfld.long 0x14 0. "ST,Start/stop timer control" "ST_0,ST_1"
line.long 0x18 "GPT_TCRR,This register holds the value of the internal counter"
line.long 0x1C "GPT_TLDR,This register holds the timer load value"
line.long 0x20 "GPT_TTGR,The read value of this register is always 0xFFFF FFFF"
line.long 0x24 "GPT_TWPS,This register contains the write posting bits for all writable functional registers"
bitfld.long 0x24 4. "W_PEND_TMAR,When equal to 1 a write is pending to theGPT_TMAR register" "0,1"
bitfld.long 0x24 3. "W_PEND_TTGR,When equal to 1 a write is pending to theGPT_TTGR register" "0,1"
newline
bitfld.long 0x24 2. "W_PEND_TLDR,When equal to 1 a write is pending to theGPT_TLDR register" "0,1"
bitfld.long 0x24 1. "W_PEND_TCRR,When equal to 1 a write is pending to theGPT_TCRR register" "0,1"
newline
bitfld.long 0x24 0. "W_PEND_TCLR,When equal to 1 a write is pending to theGPT_TCLR register" "0,1"
line.long 0x28 "GPT_TMAR,The compare logic consists of a 32-bit-wide. read/write data TMAR register and logic to compare counter"
line.long 0x2C "GPT_TCAR1,This register holds the first captured value of the counter register"
line.long 0x30 "GPT_TSICR,Timer synchronous interface control register"
bitfld.long 0x30 2. "POSTED,Posted mode selection" "POSTED_0,POSTED_1"
bitfld.long 0x30 1. "SFT,This bit resets all the functional part of the module" "SFT_0,SFT_1"
line.long 0x34 "GPT_TCAR2,This register holds the second captured value of the counter register"
tree.end
tree "GPTIMER5_L3Interconnect"
base ansd:0x49038000
rgroup.long 0x00++0x03
line.long 0x00 "GPT_TIDR,This read-only register contains the revision number of the module"
group.long 0x10++0x03
line.long 0x00 "GPT_TIOCP_CFG,This register controls the various parameters of the L4 interface"
bitfld.long 0x00 2.--3. "IDLEMODE,Power management req/ack control" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 1. "EMUFREE,Emulation mode" "EMUFREE_0,EMUFREE_1"
newline
bitfld.long 0x00 0. "SOFTRESET,Software reset" "SOFTRESET_0,SOFTRESET_1"
group.long 0x24++0x37
line.long 0x00 "GPT_IRQSTATUS_RAW,Component interrupt-request status"
bitfld.long 0x00 2. "TCAR_IT_FLAG,IRQ status for CaptureRead" "No action Read,Trigger IRQ event by software"
bitfld.long 0x00 1. "OVF_IT_FLAG,IRQ status for OverflowRead" "No action Read,Trigger IRQ event by software"
newline
bitfld.long 0x00 0. "MAT_IT_FLAG,IRQ status for MatchRead" "No action Read,Trigger IRQ event by software"
line.long 0x04 "GPT_IRQSTATUS,Component interrupt-request status"
bitfld.long 0x04 2. "TCAR_IT_FLAG,IRQ status for captureRead" "No action Read,Clear any pending event"
bitfld.long 0x04 1. "OVF_IT_FLAG,IRQ status for OverflowRead" "No action Read,Clear any pending event"
newline
bitfld.long 0x04 0. "MAT_IT_FLAG,IRQ status for MatchRead" "No action Read,Clear any pending event"
line.long 0x08 "GPT_IRQENABLE_SET,Component interrupt-request enable"
bitfld.long 0x08 2. "TCAR_EN_FLAG,IRQ enable for CompareRead" "No action Read,Set IRQ enable"
bitfld.long 0x08 1. "OVF_EN_FLAG,IRQ enable for OverflowRead" "No action Read,Set IRQ enable"
newline
bitfld.long 0x08 0. "MAT_EN_FLAG,IRQ enable for MatchRead" "No action Read,Set IRQ enable"
line.long 0x0C "GPT_IRQENABLE_CLR,Component interrupt-request enable"
bitfld.long 0x0C 2. "TCAR_EN_FLAG,IRQ enable for CompareRead" "No action Read,Clear IRQ enable"
bitfld.long 0x0C 1. "OVF_EN_FLAG,IRQ enable for OverflowRead" "No action Read,Clear IRQ enable"
newline
bitfld.long 0x0C 0. "MAT_EN_FLAG,IRQ enable for MatchRead" "No action Read,Clear IRQ enable"
line.long 0x10 "GPT_IRQWAKEEN,Wake-up-enabled events taking place when module is idle should generate an asynchronous wake-up"
bitfld.long 0x10 2. "TCAR_WUP_ENA,Wake-up generation for Compare" "TCAR_WUP_ENA_0,TCAR_WUP_ENA_1"
bitfld.long 0x10 1. "OVF_WUP_ENA,Wake-up generation for Overflow" "OVF_WUP_ENA_0,OVF_WUP_ENA_1"
newline
bitfld.long 0x10 0. "MAT_WUP_ENA,Wake-up generation for Match" "MAT_WUP_ENA_0,MAT_WUP_ENA_1"
line.long 0x14 "GPT_TCLR,This register controls optional features specific to the timer functionality"
bitfld.long 0x14 14. "GPO_CFG,General-purpose output - this register directly drives the GPTi_PORGPOCFG output pin" "GPO_CFG_0,GPO_CFG_1"
bitfld.long 0x14 13. "CAPT_MODE,Capture mode select bit (first/second)" "CAPT_MODE_0,CAPT_MODE_1"
newline
bitfld.long 0x14 12. "PT,Pulse or toggle mode on GPTi_PWM_out output pin" "PT_0,PT_1"
bitfld.long 0x14 10.--11. "TRG,Trigger output mode on GPTi_PWM_out output pin" "TRG_0,TRG_1,TRG_2,TRG_3"
newline
bitfld.long 0x14 8.--9. "TCM,Transition capture mode on GPTi_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.)" "TCM_0,TCM_1,TCM_2,TCM_3"
bitfld.long 0x14 7. "SCPWM,Pulse width modulation output pin default settingThis bit must be set or clear while the timer is stopped or the trigger is off" "SCPWM_0,SCPWM_1"
newline
bitfld.long 0x14 6. "CE,Compare enable" "CE_0,CE_1"
bitfld.long 0x14 5. "PRE,Prescaler enable" "PRE_0,PRE_1"
newline
bitfld.long 0x14 2.--4. "PTV,Prescale clock timer valueThe timer counter is prescaled with the value 2" "0,1,2,3,4,5,6,7"
bitfld.long 0x14 1. "AR,Autoreload mode" "AR_0,AR_1"
newline
bitfld.long 0x14 0. "ST,Start/stop timer control" "ST_0,ST_1"
line.long 0x18 "GPT_TCRR,This register holds the value of the internal counter"
line.long 0x1C "GPT_TLDR,This register holds the timer load value"
line.long 0x20 "GPT_TTGR,The read value of this register is always 0xFFFF FFFF"
line.long 0x24 "GPT_TWPS,This register contains the write posting bits for all writable functional registers"
bitfld.long 0x24 4. "W_PEND_TMAR,When equal to 1 a write is pending to theGPT_TMAR register" "0,1"
bitfld.long 0x24 3. "W_PEND_TTGR,When equal to 1 a write is pending to theGPT_TTGR register" "0,1"
newline
bitfld.long 0x24 2. "W_PEND_TLDR,When equal to 1 a write is pending to theGPT_TLDR register" "0,1"
bitfld.long 0x24 1. "W_PEND_TCRR,When equal to 1 a write is pending to theGPT_TCRR register" "0,1"
newline
bitfld.long 0x24 0. "W_PEND_TCLR,When equal to 1 a write is pending to theGPT_TCLR register" "0,1"
line.long 0x28 "GPT_TMAR,The compare logic consists of a 32-bit-wide. read/write data TMAR register and logic to compare counter"
line.long 0x2C "GPT_TCAR1,This register holds the first captured value of the counter register"
line.long 0x30 "GPT_TSICR,Timer synchronous interface control register"
bitfld.long 0x30 2. "POSTED,Posted mode selection" "POSTED_0,POSTED_1"
bitfld.long 0x30 1. "SFT,This bit resets all the functional part of the module" "SFT_0,SFT_1"
line.long 0x34 "GPT_TCAR2,This register holds the second captured value of the counter register"
tree.end
tree "GPTIMER6_Cortex_A9"
base ansd:0x4013A000
rgroup.long 0x00++0x03
line.long 0x00 "GPT_TIDR,This read-only register contains the revision number of the module"
group.long 0x10++0x03
line.long 0x00 "GPT_TIOCP_CFG,This register controls the various parameters of the L4 interface"
bitfld.long 0x00 2.--3. "IDLEMODE,Power management req/ack control" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 1. "EMUFREE,Emulation mode" "EMUFREE_0,EMUFREE_1"
newline
bitfld.long 0x00 0. "SOFTRESET,Software reset" "SOFTRESET_0,SOFTRESET_1"
group.long 0x24++0x37
line.long 0x00 "GPT_IRQSTATUS_RAW,Component interrupt-request status"
bitfld.long 0x00 2. "TCAR_IT_FLAG,IRQ status for CaptureRead" "No action Read,Trigger IRQ event by software"
bitfld.long 0x00 1. "OVF_IT_FLAG,IRQ status for OverflowRead" "No action Read,Trigger IRQ event by software"
newline
bitfld.long 0x00 0. "MAT_IT_FLAG,IRQ status for MatchRead" "No action Read,Trigger IRQ event by software"
line.long 0x04 "GPT_IRQSTATUS,Component interrupt-request status"
bitfld.long 0x04 2. "TCAR_IT_FLAG,IRQ status for captureRead" "No action Read,Clear any pending event"
bitfld.long 0x04 1. "OVF_IT_FLAG,IRQ status for OverflowRead" "No action Read,Clear any pending event"
newline
bitfld.long 0x04 0. "MAT_IT_FLAG,IRQ status for MatchRead" "No action Read,Clear any pending event"
line.long 0x08 "GPT_IRQENABLE_SET,Component interrupt-request enable"
bitfld.long 0x08 2. "TCAR_EN_FLAG,IRQ enable for CompareRead" "No action Read,Set IRQ enable"
bitfld.long 0x08 1. "OVF_EN_FLAG,IRQ enable for OverflowRead" "No action Read,Set IRQ enable"
newline
bitfld.long 0x08 0. "MAT_EN_FLAG,IRQ enable for MatchRead" "No action Read,Set IRQ enable"
line.long 0x0C "GPT_IRQENABLE_CLR,Component interrupt-request enable"
bitfld.long 0x0C 2. "TCAR_EN_FLAG,IRQ enable for CompareRead" "No action Read,Clear IRQ enable"
bitfld.long 0x0C 1. "OVF_EN_FLAG,IRQ enable for OverflowRead" "No action Read,Clear IRQ enable"
newline
bitfld.long 0x0C 0. "MAT_EN_FLAG,IRQ enable for MatchRead" "No action Read,Clear IRQ enable"
line.long 0x10 "GPT_IRQWAKEEN,Wake-up-enabled events taking place when module is idle should generate an asynchronous wake-up"
bitfld.long 0x10 2. "TCAR_WUP_ENA,Wake-up generation for Compare" "TCAR_WUP_ENA_0,TCAR_WUP_ENA_1"
bitfld.long 0x10 1. "OVF_WUP_ENA,Wake-up generation for Overflow" "OVF_WUP_ENA_0,OVF_WUP_ENA_1"
newline
bitfld.long 0x10 0. "MAT_WUP_ENA,Wake-up generation for Match" "MAT_WUP_ENA_0,MAT_WUP_ENA_1"
line.long 0x14 "GPT_TCLR,This register controls optional features specific to the timer functionality"
bitfld.long 0x14 14. "GPO_CFG,General-purpose output - this register directly drives the GPTi_PORGPOCFG output pin" "GPO_CFG_0,GPO_CFG_1"
bitfld.long 0x14 13. "CAPT_MODE,Capture mode select bit (first/second)" "CAPT_MODE_0,CAPT_MODE_1"
newline
bitfld.long 0x14 12. "PT,Pulse or toggle mode on GPTi_PWM_out output pin" "PT_0,PT_1"
bitfld.long 0x14 10.--11. "TRG,Trigger output mode on GPTi_PWM_out output pin" "TRG_0,TRG_1,TRG_2,TRG_3"
newline
bitfld.long 0x14 8.--9. "TCM,Transition capture mode on GPTi_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.)" "TCM_0,TCM_1,TCM_2,TCM_3"
bitfld.long 0x14 7. "SCPWM,Pulse width modulation output pin default settingThis bit must be set or clear while the timer is stopped or the trigger is off" "SCPWM_0,SCPWM_1"
newline
bitfld.long 0x14 6. "CE,Compare enable" "CE_0,CE_1"
bitfld.long 0x14 5. "PRE,Prescaler enable" "PRE_0,PRE_1"
newline
bitfld.long 0x14 2.--4. "PTV,Prescale clock timer valueThe timer counter is prescaled with the value 2" "0,1,2,3,4,5,6,7"
bitfld.long 0x14 1. "AR,Autoreload mode" "AR_0,AR_1"
newline
bitfld.long 0x14 0. "ST,Start/stop timer control" "ST_0,ST_1"
line.long 0x18 "GPT_TCRR,This register holds the value of the internal counter"
line.long 0x1C "GPT_TLDR,This register holds the timer load value"
line.long 0x20 "GPT_TTGR,The read value of this register is always 0xFFFF FFFF"
line.long 0x24 "GPT_TWPS,This register contains the write posting bits for all writable functional registers"
bitfld.long 0x24 4. "W_PEND_TMAR,When equal to 1 a write is pending to theGPT_TMAR register" "0,1"
bitfld.long 0x24 3. "W_PEND_TTGR,When equal to 1 a write is pending to theGPT_TTGR register" "0,1"
newline
bitfld.long 0x24 2. "W_PEND_TLDR,When equal to 1 a write is pending to theGPT_TLDR register" "0,1"
bitfld.long 0x24 1. "W_PEND_TCRR,When equal to 1 a write is pending to theGPT_TCRR register" "0,1"
newline
bitfld.long 0x24 0. "W_PEND_TCLR,When equal to 1 a write is pending to theGPT_TCLR register" "0,1"
line.long 0x28 "GPT_TMAR,The compare logic consists of a 32-bit-wide. read/write data TMAR register and logic to compare counter"
line.long 0x2C "GPT_TCAR1,This register holds the first captured value of the counter register"
line.long 0x30 "GPT_TSICR,Timer synchronous interface control register"
bitfld.long 0x30 2. "POSTED,Posted mode selection" "POSTED_0,POSTED_1"
bitfld.long 0x30 1. "SFT,This bit resets all the functional part of the module" "SFT_0,SFT_1"
line.long 0x34 "GPT_TCAR2,This register holds the second captured value of the counter register"
tree.end
tree "GPTIMER6_L3Interconnect"
base ansd:0x4903A000
rgroup.long 0x00++0x03
line.long 0x00 "GPT_TIDR,This read-only register contains the revision number of the module"
group.long 0x10++0x03
line.long 0x00 "GPT_TIOCP_CFG,This register controls the various parameters of the L4 interface"
bitfld.long 0x00 2.--3. "IDLEMODE,Power management req/ack control" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 1. "EMUFREE,Emulation mode" "EMUFREE_0,EMUFREE_1"
newline
bitfld.long 0x00 0. "SOFTRESET,Software reset" "SOFTRESET_0,SOFTRESET_1"
group.long 0x24++0x37
line.long 0x00 "GPT_IRQSTATUS_RAW,Component interrupt-request status"
bitfld.long 0x00 2. "TCAR_IT_FLAG,IRQ status for CaptureRead" "No action Read,Trigger IRQ event by software"
bitfld.long 0x00 1. "OVF_IT_FLAG,IRQ status for OverflowRead" "No action Read,Trigger IRQ event by software"
newline
bitfld.long 0x00 0. "MAT_IT_FLAG,IRQ status for MatchRead" "No action Read,Trigger IRQ event by software"
line.long 0x04 "GPT_IRQSTATUS,Component interrupt-request status"
bitfld.long 0x04 2. "TCAR_IT_FLAG,IRQ status for captureRead" "No action Read,Clear any pending event"
bitfld.long 0x04 1. "OVF_IT_FLAG,IRQ status for OverflowRead" "No action Read,Clear any pending event"
newline
bitfld.long 0x04 0. "MAT_IT_FLAG,IRQ status for MatchRead" "No action Read,Clear any pending event"
line.long 0x08 "GPT_IRQENABLE_SET,Component interrupt-request enable"
bitfld.long 0x08 2. "TCAR_EN_FLAG,IRQ enable for CompareRead" "No action Read,Set IRQ enable"
bitfld.long 0x08 1. "OVF_EN_FLAG,IRQ enable for OverflowRead" "No action Read,Set IRQ enable"
newline
bitfld.long 0x08 0. "MAT_EN_FLAG,IRQ enable for MatchRead" "No action Read,Set IRQ enable"
line.long 0x0C "GPT_IRQENABLE_CLR,Component interrupt-request enable"
bitfld.long 0x0C 2. "TCAR_EN_FLAG,IRQ enable for CompareRead" "No action Read,Clear IRQ enable"
bitfld.long 0x0C 1. "OVF_EN_FLAG,IRQ enable for OverflowRead" "No action Read,Clear IRQ enable"
newline
bitfld.long 0x0C 0. "MAT_EN_FLAG,IRQ enable for MatchRead" "No action Read,Clear IRQ enable"
line.long 0x10 "GPT_IRQWAKEEN,Wake-up-enabled events taking place when module is idle should generate an asynchronous wake-up"
bitfld.long 0x10 2. "TCAR_WUP_ENA,Wake-up generation for Compare" "TCAR_WUP_ENA_0,TCAR_WUP_ENA_1"
bitfld.long 0x10 1. "OVF_WUP_ENA,Wake-up generation for Overflow" "OVF_WUP_ENA_0,OVF_WUP_ENA_1"
newline
bitfld.long 0x10 0. "MAT_WUP_ENA,Wake-up generation for Match" "MAT_WUP_ENA_0,MAT_WUP_ENA_1"
line.long 0x14 "GPT_TCLR,This register controls optional features specific to the timer functionality"
bitfld.long 0x14 14. "GPO_CFG,General-purpose output - this register directly drives the GPTi_PORGPOCFG output pin" "GPO_CFG_0,GPO_CFG_1"
bitfld.long 0x14 13. "CAPT_MODE,Capture mode select bit (first/second)" "CAPT_MODE_0,CAPT_MODE_1"
newline
bitfld.long 0x14 12. "PT,Pulse or toggle mode on GPTi_PWM_out output pin" "PT_0,PT_1"
bitfld.long 0x14 10.--11. "TRG,Trigger output mode on GPTi_PWM_out output pin" "TRG_0,TRG_1,TRG_2,TRG_3"
newline
bitfld.long 0x14 8.--9. "TCM,Transition capture mode on GPTi_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.)" "TCM_0,TCM_1,TCM_2,TCM_3"
bitfld.long 0x14 7. "SCPWM,Pulse width modulation output pin default settingThis bit must be set or clear while the timer is stopped or the trigger is off" "SCPWM_0,SCPWM_1"
newline
bitfld.long 0x14 6. "CE,Compare enable" "CE_0,CE_1"
bitfld.long 0x14 5. "PRE,Prescaler enable" "PRE_0,PRE_1"
newline
bitfld.long 0x14 2.--4. "PTV,Prescale clock timer valueThe timer counter is prescaled with the value 2" "0,1,2,3,4,5,6,7"
bitfld.long 0x14 1. "AR,Autoreload mode" "AR_0,AR_1"
newline
bitfld.long 0x14 0. "ST,Start/stop timer control" "ST_0,ST_1"
line.long 0x18 "GPT_TCRR,This register holds the value of the internal counter"
line.long 0x1C "GPT_TLDR,This register holds the timer load value"
line.long 0x20 "GPT_TTGR,The read value of this register is always 0xFFFF FFFF"
line.long 0x24 "GPT_TWPS,This register contains the write posting bits for all writable functional registers"
bitfld.long 0x24 4. "W_PEND_TMAR,When equal to 1 a write is pending to theGPT_TMAR register" "0,1"
bitfld.long 0x24 3. "W_PEND_TTGR,When equal to 1 a write is pending to theGPT_TTGR register" "0,1"
newline
bitfld.long 0x24 2. "W_PEND_TLDR,When equal to 1 a write is pending to theGPT_TLDR register" "0,1"
bitfld.long 0x24 1. "W_PEND_TCRR,When equal to 1 a write is pending to theGPT_TCRR register" "0,1"
newline
bitfld.long 0x24 0. "W_PEND_TCLR,When equal to 1 a write is pending to theGPT_TCLR register" "0,1"
line.long 0x28 "GPT_TMAR,The compare logic consists of a 32-bit-wide. read/write data TMAR register and logic to compare counter"
line.long 0x2C "GPT_TCAR1,This register holds the first captured value of the counter register"
line.long 0x30 "GPT_TSICR,Timer synchronous interface control register"
bitfld.long 0x30 2. "POSTED,Posted mode selection" "POSTED_0,POSTED_1"
bitfld.long 0x30 1. "SFT,This bit resets all the functional part of the module" "SFT_0,SFT_1"
line.long 0x34 "GPT_TCAR2,This register holds the second captured value of the counter register"
tree.end
tree "GPTIMER7_Cortex_A9"
base ansd:0x4013C000
rgroup.long 0x00++0x03
line.long 0x00 "GPT_TIDR,This read-only register contains the revision number of the module"
group.long 0x10++0x03
line.long 0x00 "GPT_TIOCP_CFG,This register controls the various parameters of the L4 interface"
bitfld.long 0x00 2.--3. "IDLEMODE,Power management req/ack control" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 1. "EMUFREE,Emulation mode" "EMUFREE_0,EMUFREE_1"
newline
bitfld.long 0x00 0. "SOFTRESET,Software reset" "SOFTRESET_0,SOFTRESET_1"
group.long 0x24++0x37
line.long 0x00 "GPT_IRQSTATUS_RAW,Component interrupt-request status"
bitfld.long 0x00 2. "TCAR_IT_FLAG,IRQ status for CaptureRead" "No action Read,Trigger IRQ event by software"
bitfld.long 0x00 1. "OVF_IT_FLAG,IRQ status for OverflowRead" "No action Read,Trigger IRQ event by software"
newline
bitfld.long 0x00 0. "MAT_IT_FLAG,IRQ status for MatchRead" "No action Read,Trigger IRQ event by software"
line.long 0x04 "GPT_IRQSTATUS,Component interrupt-request status"
bitfld.long 0x04 2. "TCAR_IT_FLAG,IRQ status for captureRead" "No action Read,Clear any pending event"
bitfld.long 0x04 1. "OVF_IT_FLAG,IRQ status for OverflowRead" "No action Read,Clear any pending event"
newline
bitfld.long 0x04 0. "MAT_IT_FLAG,IRQ status for MatchRead" "No action Read,Clear any pending event"
line.long 0x08 "GPT_IRQENABLE_SET,Component interrupt-request enable"
bitfld.long 0x08 2. "TCAR_EN_FLAG,IRQ enable for CompareRead" "No action Read,Set IRQ enable"
bitfld.long 0x08 1. "OVF_EN_FLAG,IRQ enable for OverflowRead" "No action Read,Set IRQ enable"
newline
bitfld.long 0x08 0. "MAT_EN_FLAG,IRQ enable for MatchRead" "No action Read,Set IRQ enable"
line.long 0x0C "GPT_IRQENABLE_CLR,Component interrupt-request enable"
bitfld.long 0x0C 2. "TCAR_EN_FLAG,IRQ enable for CompareRead" "No action Read,Clear IRQ enable"
bitfld.long 0x0C 1. "OVF_EN_FLAG,IRQ enable for OverflowRead" "No action Read,Clear IRQ enable"
newline
bitfld.long 0x0C 0. "MAT_EN_FLAG,IRQ enable for MatchRead" "No action Read,Clear IRQ enable"
line.long 0x10 "GPT_IRQWAKEEN,Wake-up-enabled events taking place when module is idle should generate an asynchronous wake-up"
bitfld.long 0x10 2. "TCAR_WUP_ENA,Wake-up generation for Compare" "TCAR_WUP_ENA_0,TCAR_WUP_ENA_1"
bitfld.long 0x10 1. "OVF_WUP_ENA,Wake-up generation for Overflow" "OVF_WUP_ENA_0,OVF_WUP_ENA_1"
newline
bitfld.long 0x10 0. "MAT_WUP_ENA,Wake-up generation for Match" "MAT_WUP_ENA_0,MAT_WUP_ENA_1"
line.long 0x14 "GPT_TCLR,This register controls optional features specific to the timer functionality"
bitfld.long 0x14 14. "GPO_CFG,General-purpose output - this register directly drives the GPTi_PORGPOCFG output pin" "GPO_CFG_0,GPO_CFG_1"
bitfld.long 0x14 13. "CAPT_MODE,Capture mode select bit (first/second)" "CAPT_MODE_0,CAPT_MODE_1"
newline
bitfld.long 0x14 12. "PT,Pulse or toggle mode on GPTi_PWM_out output pin" "PT_0,PT_1"
bitfld.long 0x14 10.--11. "TRG,Trigger output mode on GPTi_PWM_out output pin" "TRG_0,TRG_1,TRG_2,TRG_3"
newline
bitfld.long 0x14 8.--9. "TCM,Transition capture mode on GPTi_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.)" "TCM_0,TCM_1,TCM_2,TCM_3"
bitfld.long 0x14 7. "SCPWM,Pulse width modulation output pin default settingThis bit must be set or clear while the timer is stopped or the trigger is off" "SCPWM_0,SCPWM_1"
newline
bitfld.long 0x14 6. "CE,Compare enable" "CE_0,CE_1"
bitfld.long 0x14 5. "PRE,Prescaler enable" "PRE_0,PRE_1"
newline
bitfld.long 0x14 2.--4. "PTV,Prescale clock timer valueThe timer counter is prescaled with the value 2" "0,1,2,3,4,5,6,7"
bitfld.long 0x14 1. "AR,Autoreload mode" "AR_0,AR_1"
newline
bitfld.long 0x14 0. "ST,Start/stop timer control" "ST_0,ST_1"
line.long 0x18 "GPT_TCRR,This register holds the value of the internal counter"
line.long 0x1C "GPT_TLDR,This register holds the timer load value"
line.long 0x20 "GPT_TTGR,The read value of this register is always 0xFFFF FFFF"
line.long 0x24 "GPT_TWPS,This register contains the write posting bits for all writable functional registers"
bitfld.long 0x24 4. "W_PEND_TMAR,When equal to 1 a write is pending to theGPT_TMAR register" "0,1"
bitfld.long 0x24 3. "W_PEND_TTGR,When equal to 1 a write is pending to theGPT_TTGR register" "0,1"
newline
bitfld.long 0x24 2. "W_PEND_TLDR,When equal to 1 a write is pending to theGPT_TLDR register" "0,1"
bitfld.long 0x24 1. "W_PEND_TCRR,When equal to 1 a write is pending to theGPT_TCRR register" "0,1"
newline
bitfld.long 0x24 0. "W_PEND_TCLR,When equal to 1 a write is pending to theGPT_TCLR register" "0,1"
line.long 0x28 "GPT_TMAR,The compare logic consists of a 32-bit-wide. read/write data TMAR register and logic to compare counter"
line.long 0x2C "GPT_TCAR1,This register holds the first captured value of the counter register"
line.long 0x30 "GPT_TSICR,Timer synchronous interface control register"
bitfld.long 0x30 2. "POSTED,Posted mode selection" "POSTED_0,POSTED_1"
bitfld.long 0x30 1. "SFT,This bit resets all the functional part of the module" "SFT_0,SFT_1"
line.long 0x34 "GPT_TCAR2,This register holds the second captured value of the counter register"
tree.end
tree "GPTIMER7_L3Interconnect"
base ansd:0x4903C000
rgroup.long 0x00++0x03
line.long 0x00 "GPT_TIDR,This read-only register contains the revision number of the module"
group.long 0x10++0x03
line.long 0x00 "GPT_TIOCP_CFG,This register controls the various parameters of the L4 interface"
bitfld.long 0x00 2.--3. "IDLEMODE,Power management req/ack control" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 1. "EMUFREE,Emulation mode" "EMUFREE_0,EMUFREE_1"
newline
bitfld.long 0x00 0. "SOFTRESET,Software reset" "SOFTRESET_0,SOFTRESET_1"
group.long 0x24++0x37
line.long 0x00 "GPT_IRQSTATUS_RAW,Component interrupt-request status"
bitfld.long 0x00 2. "TCAR_IT_FLAG,IRQ status for CaptureRead" "No action Read,Trigger IRQ event by software"
bitfld.long 0x00 1. "OVF_IT_FLAG,IRQ status for OverflowRead" "No action Read,Trigger IRQ event by software"
newline
bitfld.long 0x00 0. "MAT_IT_FLAG,IRQ status for MatchRead" "No action Read,Trigger IRQ event by software"
line.long 0x04 "GPT_IRQSTATUS,Component interrupt-request status"
bitfld.long 0x04 2. "TCAR_IT_FLAG,IRQ status for captureRead" "No action Read,Clear any pending event"
bitfld.long 0x04 1. "OVF_IT_FLAG,IRQ status for OverflowRead" "No action Read,Clear any pending event"
newline
bitfld.long 0x04 0. "MAT_IT_FLAG,IRQ status for MatchRead" "No action Read,Clear any pending event"
line.long 0x08 "GPT_IRQENABLE_SET,Component interrupt-request enable"
bitfld.long 0x08 2. "TCAR_EN_FLAG,IRQ enable for CompareRead" "No action Read,Set IRQ enable"
bitfld.long 0x08 1. "OVF_EN_FLAG,IRQ enable for OverflowRead" "No action Read,Set IRQ enable"
newline
bitfld.long 0x08 0. "MAT_EN_FLAG,IRQ enable for MatchRead" "No action Read,Set IRQ enable"
line.long 0x0C "GPT_IRQENABLE_CLR,Component interrupt-request enable"
bitfld.long 0x0C 2. "TCAR_EN_FLAG,IRQ enable for CompareRead" "No action Read,Clear IRQ enable"
bitfld.long 0x0C 1. "OVF_EN_FLAG,IRQ enable for OverflowRead" "No action Read,Clear IRQ enable"
newline
bitfld.long 0x0C 0. "MAT_EN_FLAG,IRQ enable for MatchRead" "No action Read,Clear IRQ enable"
line.long 0x10 "GPT_IRQWAKEEN,Wake-up-enabled events taking place when module is idle should generate an asynchronous wake-up"
bitfld.long 0x10 2. "TCAR_WUP_ENA,Wake-up generation for Compare" "TCAR_WUP_ENA_0,TCAR_WUP_ENA_1"
bitfld.long 0x10 1. "OVF_WUP_ENA,Wake-up generation for Overflow" "OVF_WUP_ENA_0,OVF_WUP_ENA_1"
newline
bitfld.long 0x10 0. "MAT_WUP_ENA,Wake-up generation for Match" "MAT_WUP_ENA_0,MAT_WUP_ENA_1"
line.long 0x14 "GPT_TCLR,This register controls optional features specific to the timer functionality"
bitfld.long 0x14 14. "GPO_CFG,General-purpose output - this register directly drives the GPTi_PORGPOCFG output pin" "GPO_CFG_0,GPO_CFG_1"
bitfld.long 0x14 13. "CAPT_MODE,Capture mode select bit (first/second)" "CAPT_MODE_0,CAPT_MODE_1"
newline
bitfld.long 0x14 12. "PT,Pulse or toggle mode on GPTi_PWM_out output pin" "PT_0,PT_1"
bitfld.long 0x14 10.--11. "TRG,Trigger output mode on GPTi_PWM_out output pin" "TRG_0,TRG_1,TRG_2,TRG_3"
newline
bitfld.long 0x14 8.--9. "TCM,Transition capture mode on GPTi_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.)" "TCM_0,TCM_1,TCM_2,TCM_3"
bitfld.long 0x14 7. "SCPWM,Pulse width modulation output pin default settingThis bit must be set or clear while the timer is stopped or the trigger is off" "SCPWM_0,SCPWM_1"
newline
bitfld.long 0x14 6. "CE,Compare enable" "CE_0,CE_1"
bitfld.long 0x14 5. "PRE,Prescaler enable" "PRE_0,PRE_1"
newline
bitfld.long 0x14 2.--4. "PTV,Prescale clock timer valueThe timer counter is prescaled with the value 2" "0,1,2,3,4,5,6,7"
bitfld.long 0x14 1. "AR,Autoreload mode" "AR_0,AR_1"
newline
bitfld.long 0x14 0. "ST,Start/stop timer control" "ST_0,ST_1"
line.long 0x18 "GPT_TCRR,This register holds the value of the internal counter"
line.long 0x1C "GPT_TLDR,This register holds the timer load value"
line.long 0x20 "GPT_TTGR,The read value of this register is always 0xFFFF FFFF"
line.long 0x24 "GPT_TWPS,This register contains the write posting bits for all writable functional registers"
bitfld.long 0x24 4. "W_PEND_TMAR,When equal to 1 a write is pending to theGPT_TMAR register" "0,1"
bitfld.long 0x24 3. "W_PEND_TTGR,When equal to 1 a write is pending to theGPT_TTGR register" "0,1"
newline
bitfld.long 0x24 2. "W_PEND_TLDR,When equal to 1 a write is pending to theGPT_TLDR register" "0,1"
bitfld.long 0x24 1. "W_PEND_TCRR,When equal to 1 a write is pending to theGPT_TCRR register" "0,1"
newline
bitfld.long 0x24 0. "W_PEND_TCLR,When equal to 1 a write is pending to theGPT_TCLR register" "0,1"
line.long 0x28 "GPT_TMAR,The compare logic consists of a 32-bit-wide. read/write data TMAR register and logic to compare counter"
line.long 0x2C "GPT_TCAR1,This register holds the first captured value of the counter register"
line.long 0x30 "GPT_TSICR,Timer synchronous interface control register"
bitfld.long 0x30 2. "POSTED,Posted mode selection" "POSTED_0,POSTED_1"
bitfld.long 0x30 1. "SFT,This bit resets all the functional part of the module" "SFT_0,SFT_1"
line.long 0x34 "GPT_TCAR2,This register holds the second captured value of the counter register"
tree.end
tree "GPTIMER8_Cortex_A9"
base ansd:0x4013E000
rgroup.long 0x00++0x03
line.long 0x00 "GPT_TIDR,This read-only register contains the revision number of the module"
group.long 0x10++0x03
line.long 0x00 "GPT_TIOCP_CFG,This register controls the various parameters of the L4 interface"
bitfld.long 0x00 2.--3. "IDLEMODE,Power management req/ack control" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 1. "EMUFREE,Emulation mode" "EMUFREE_0,EMUFREE_1"
newline
bitfld.long 0x00 0. "SOFTRESET,Software reset" "SOFTRESET_0,SOFTRESET_1"
group.long 0x24++0x37
line.long 0x00 "GPT_IRQSTATUS_RAW,Component interrupt-request status"
bitfld.long 0x00 2. "TCAR_IT_FLAG,IRQ status for CaptureRead" "No action Read,Trigger IRQ event by software"
bitfld.long 0x00 1. "OVF_IT_FLAG,IRQ status for OverflowRead" "No action Read,Trigger IRQ event by software"
newline
bitfld.long 0x00 0. "MAT_IT_FLAG,IRQ status for MatchRead" "No action Read,Trigger IRQ event by software"
line.long 0x04 "GPT_IRQSTATUS,Component interrupt-request status"
bitfld.long 0x04 2. "TCAR_IT_FLAG,IRQ status for captureRead" "No action Read,Clear any pending event"
bitfld.long 0x04 1. "OVF_IT_FLAG,IRQ status for OverflowRead" "No action Read,Clear any pending event"
newline
bitfld.long 0x04 0. "MAT_IT_FLAG,IRQ status for MatchRead" "No action Read,Clear any pending event"
line.long 0x08 "GPT_IRQENABLE_SET,Component interrupt-request enable"
bitfld.long 0x08 2. "TCAR_EN_FLAG,IRQ enable for CompareRead" "No action Read,Set IRQ enable"
bitfld.long 0x08 1. "OVF_EN_FLAG,IRQ enable for OverflowRead" "No action Read,Set IRQ enable"
newline
bitfld.long 0x08 0. "MAT_EN_FLAG,IRQ enable for MatchRead" "No action Read,Set IRQ enable"
line.long 0x0C "GPT_IRQENABLE_CLR,Component interrupt-request enable"
bitfld.long 0x0C 2. "TCAR_EN_FLAG,IRQ enable for CompareRead" "No action Read,Clear IRQ enable"
bitfld.long 0x0C 1. "OVF_EN_FLAG,IRQ enable for OverflowRead" "No action Read,Clear IRQ enable"
newline
bitfld.long 0x0C 0. "MAT_EN_FLAG,IRQ enable for MatchRead" "No action Read,Clear IRQ enable"
line.long 0x10 "GPT_IRQWAKEEN,Wake-up-enabled events taking place when module is idle should generate an asynchronous wake-up"
bitfld.long 0x10 2. "TCAR_WUP_ENA,Wake-up generation for Compare" "TCAR_WUP_ENA_0,TCAR_WUP_ENA_1"
bitfld.long 0x10 1. "OVF_WUP_ENA,Wake-up generation for Overflow" "OVF_WUP_ENA_0,OVF_WUP_ENA_1"
newline
bitfld.long 0x10 0. "MAT_WUP_ENA,Wake-up generation for Match" "MAT_WUP_ENA_0,MAT_WUP_ENA_1"
line.long 0x14 "GPT_TCLR,This register controls optional features specific to the timer functionality"
bitfld.long 0x14 14. "GPO_CFG,General-purpose output - this register directly drives the GPTi_PORGPOCFG output pin" "GPO_CFG_0,GPO_CFG_1"
bitfld.long 0x14 13. "CAPT_MODE,Capture mode select bit (first/second)" "CAPT_MODE_0,CAPT_MODE_1"
newline
bitfld.long 0x14 12. "PT,Pulse or toggle mode on GPTi_PWM_out output pin" "PT_0,PT_1"
bitfld.long 0x14 10.--11. "TRG,Trigger output mode on GPTi_PWM_out output pin" "TRG_0,TRG_1,TRG_2,TRG_3"
newline
bitfld.long 0x14 8.--9. "TCM,Transition capture mode on GPTi_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.)" "TCM_0,TCM_1,TCM_2,TCM_3"
bitfld.long 0x14 7. "SCPWM,Pulse width modulation output pin default settingThis bit must be set or clear while the timer is stopped or the trigger is off" "SCPWM_0,SCPWM_1"
newline
bitfld.long 0x14 6. "CE,Compare enable" "CE_0,CE_1"
bitfld.long 0x14 5. "PRE,Prescaler enable" "PRE_0,PRE_1"
newline
bitfld.long 0x14 2.--4. "PTV,Prescale clock timer valueThe timer counter is prescaled with the value 2" "0,1,2,3,4,5,6,7"
bitfld.long 0x14 1. "AR,Autoreload mode" "AR_0,AR_1"
newline
bitfld.long 0x14 0. "ST,Start/stop timer control" "ST_0,ST_1"
line.long 0x18 "GPT_TCRR,This register holds the value of the internal counter"
line.long 0x1C "GPT_TLDR,This register holds the timer load value"
line.long 0x20 "GPT_TTGR,The read value of this register is always 0xFFFF FFFF"
line.long 0x24 "GPT_TWPS,This register contains the write posting bits for all writable functional registers"
bitfld.long 0x24 4. "W_PEND_TMAR,When equal to 1 a write is pending to theGPT_TMAR register" "0,1"
bitfld.long 0x24 3. "W_PEND_TTGR,When equal to 1 a write is pending to theGPT_TTGR register" "0,1"
newline
bitfld.long 0x24 2. "W_PEND_TLDR,When equal to 1 a write is pending to theGPT_TLDR register" "0,1"
bitfld.long 0x24 1. "W_PEND_TCRR,When equal to 1 a write is pending to theGPT_TCRR register" "0,1"
newline
bitfld.long 0x24 0. "W_PEND_TCLR,When equal to 1 a write is pending to theGPT_TCLR register" "0,1"
line.long 0x28 "GPT_TMAR,The compare logic consists of a 32-bit-wide. read/write data TMAR register and logic to compare counter"
line.long 0x2C "GPT_TCAR1,This register holds the first captured value of the counter register"
line.long 0x30 "GPT_TSICR,Timer synchronous interface control register"
bitfld.long 0x30 2. "POSTED,Posted mode selection" "POSTED_0,POSTED_1"
bitfld.long 0x30 1. "SFT,This bit resets all the functional part of the module" "SFT_0,SFT_1"
line.long 0x34 "GPT_TCAR2,This register holds the second captured value of the counter register"
tree.end
tree "GPTIMER8_L3Interconnect"
base ansd:0x4903E000
rgroup.long 0x00++0x03
line.long 0x00 "GPT_TIDR,This read-only register contains the revision number of the module"
group.long 0x10++0x03
line.long 0x00 "GPT_TIOCP_CFG,This register controls the various parameters of the L4 interface"
bitfld.long 0x00 2.--3. "IDLEMODE,Power management req/ack control" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 1. "EMUFREE,Emulation mode" "EMUFREE_0,EMUFREE_1"
newline
bitfld.long 0x00 0. "SOFTRESET,Software reset" "SOFTRESET_0,SOFTRESET_1"
group.long 0x24++0x37
line.long 0x00 "GPT_IRQSTATUS_RAW,Component interrupt-request status"
bitfld.long 0x00 2. "TCAR_IT_FLAG,IRQ status for CaptureRead" "No action Read,Trigger IRQ event by software"
bitfld.long 0x00 1. "OVF_IT_FLAG,IRQ status for OverflowRead" "No action Read,Trigger IRQ event by software"
newline
bitfld.long 0x00 0. "MAT_IT_FLAG,IRQ status for MatchRead" "No action Read,Trigger IRQ event by software"
line.long 0x04 "GPT_IRQSTATUS,Component interrupt-request status"
bitfld.long 0x04 2. "TCAR_IT_FLAG,IRQ status for captureRead" "No action Read,Clear any pending event"
bitfld.long 0x04 1. "OVF_IT_FLAG,IRQ status for OverflowRead" "No action Read,Clear any pending event"
newline
bitfld.long 0x04 0. "MAT_IT_FLAG,IRQ status for MatchRead" "No action Read,Clear any pending event"
line.long 0x08 "GPT_IRQENABLE_SET,Component interrupt-request enable"
bitfld.long 0x08 2. "TCAR_EN_FLAG,IRQ enable for CompareRead" "No action Read,Set IRQ enable"
bitfld.long 0x08 1. "OVF_EN_FLAG,IRQ enable for OverflowRead" "No action Read,Set IRQ enable"
newline
bitfld.long 0x08 0. "MAT_EN_FLAG,IRQ enable for MatchRead" "No action Read,Set IRQ enable"
line.long 0x0C "GPT_IRQENABLE_CLR,Component interrupt-request enable"
bitfld.long 0x0C 2. "TCAR_EN_FLAG,IRQ enable for CompareRead" "No action Read,Clear IRQ enable"
bitfld.long 0x0C 1. "OVF_EN_FLAG,IRQ enable for OverflowRead" "No action Read,Clear IRQ enable"
newline
bitfld.long 0x0C 0. "MAT_EN_FLAG,IRQ enable for MatchRead" "No action Read,Clear IRQ enable"
line.long 0x10 "GPT_IRQWAKEEN,Wake-up-enabled events taking place when module is idle should generate an asynchronous wake-up"
bitfld.long 0x10 2. "TCAR_WUP_ENA,Wake-up generation for Compare" "TCAR_WUP_ENA_0,TCAR_WUP_ENA_1"
bitfld.long 0x10 1. "OVF_WUP_ENA,Wake-up generation for Overflow" "OVF_WUP_ENA_0,OVF_WUP_ENA_1"
newline
bitfld.long 0x10 0. "MAT_WUP_ENA,Wake-up generation for Match" "MAT_WUP_ENA_0,MAT_WUP_ENA_1"
line.long 0x14 "GPT_TCLR,This register controls optional features specific to the timer functionality"
bitfld.long 0x14 14. "GPO_CFG,General-purpose output - this register directly drives the GPTi_PORGPOCFG output pin" "GPO_CFG_0,GPO_CFG_1"
bitfld.long 0x14 13. "CAPT_MODE,Capture mode select bit (first/second)" "CAPT_MODE_0,CAPT_MODE_1"
newline
bitfld.long 0x14 12. "PT,Pulse or toggle mode on GPTi_PWM_out output pin" "PT_0,PT_1"
bitfld.long 0x14 10.--11. "TRG,Trigger output mode on GPTi_PWM_out output pin" "TRG_0,TRG_1,TRG_2,TRG_3"
newline
bitfld.long 0x14 8.--9. "TCM,Transition capture mode on GPTi_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.)" "TCM_0,TCM_1,TCM_2,TCM_3"
bitfld.long 0x14 7. "SCPWM,Pulse width modulation output pin default settingThis bit must be set or clear while the timer is stopped or the trigger is off" "SCPWM_0,SCPWM_1"
newline
bitfld.long 0x14 6. "CE,Compare enable" "CE_0,CE_1"
bitfld.long 0x14 5. "PRE,Prescaler enable" "PRE_0,PRE_1"
newline
bitfld.long 0x14 2.--4. "PTV,Prescale clock timer valueThe timer counter is prescaled with the value 2" "0,1,2,3,4,5,6,7"
bitfld.long 0x14 1. "AR,Autoreload mode" "AR_0,AR_1"
newline
bitfld.long 0x14 0. "ST,Start/stop timer control" "ST_0,ST_1"
line.long 0x18 "GPT_TCRR,This register holds the value of the internal counter"
line.long 0x1C "GPT_TLDR,This register holds the timer load value"
line.long 0x20 "GPT_TTGR,The read value of this register is always 0xFFFF FFFF"
line.long 0x24 "GPT_TWPS,This register contains the write posting bits for all writable functional registers"
bitfld.long 0x24 4. "W_PEND_TMAR,When equal to 1 a write is pending to theGPT_TMAR register" "0,1"
bitfld.long 0x24 3. "W_PEND_TTGR,When equal to 1 a write is pending to theGPT_TTGR register" "0,1"
newline
bitfld.long 0x24 2. "W_PEND_TLDR,When equal to 1 a write is pending to theGPT_TLDR register" "0,1"
bitfld.long 0x24 1. "W_PEND_TCRR,When equal to 1 a write is pending to theGPT_TCRR register" "0,1"
newline
bitfld.long 0x24 0. "W_PEND_TCLR,When equal to 1 a write is pending to theGPT_TCLR register" "0,1"
line.long 0x28 "GPT_TMAR,The compare logic consists of a 32-bit-wide. read/write data TMAR register and logic to compare counter"
line.long 0x2C "GPT_TCAR1,This register holds the first captured value of the counter register"
line.long 0x30 "GPT_TSICR,Timer synchronous interface control register"
bitfld.long 0x30 2. "POSTED,Posted mode selection" "POSTED_0,POSTED_1"
bitfld.long 0x30 1. "SFT,This bit resets all the functional part of the module" "SFT_0,SFT_1"
line.long 0x34 "GPT_TCAR2,This register holds the second captured value of the counter register"
tree.end
tree "GPTIMER9_L4Interconnect"
base ansd:0x4803E000
rgroup.long 0x00++0x03
line.long 0x00 "GPT_TIDR,This read-only register contains the revision number of the module"
group.long 0x10++0x03
line.long 0x00 "GPT_TIOCP_CFG,This register controls the various parameters of the L4 interface"
bitfld.long 0x00 2.--3. "IDLEMODE,Power management req/ack control" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 1. "EMUFREE,Emulation mode" "EMUFREE_0,EMUFREE_1"
newline
bitfld.long 0x00 0. "SOFTRESET,Software reset" "SOFTRESET_0,SOFTRESET_1"
group.long 0x24++0x37
line.long 0x00 "GPT_IRQSTATUS_RAW,Component interrupt-request status"
bitfld.long 0x00 2. "TCAR_IT_FLAG,IRQ status for CaptureRead" "No action Read,Trigger IRQ event by software"
bitfld.long 0x00 1. "OVF_IT_FLAG,IRQ status for OverflowRead" "No action Read,Trigger IRQ event by software"
newline
bitfld.long 0x00 0. "MAT_IT_FLAG,IRQ status for MatchRead" "No action Read,Trigger IRQ event by software"
line.long 0x04 "GPT_IRQSTATUS,Component interrupt-request status"
bitfld.long 0x04 2. "TCAR_IT_FLAG,IRQ status for captureRead" "No action Read,Clear any pending event"
bitfld.long 0x04 1. "OVF_IT_FLAG,IRQ status for OverflowRead" "No action Read,Clear any pending event"
newline
bitfld.long 0x04 0. "MAT_IT_FLAG,IRQ status for MatchRead" "No action Read,Clear any pending event"
line.long 0x08 "GPT_IRQENABLE_SET,Component interrupt-request enable"
bitfld.long 0x08 2. "TCAR_EN_FLAG,IRQ enable for CompareRead" "No action Read,Set IRQ enable"
bitfld.long 0x08 1. "OVF_EN_FLAG,IRQ enable for OverflowRead" "No action Read,Set IRQ enable"
newline
bitfld.long 0x08 0. "MAT_EN_FLAG,IRQ enable for MatchRead" "No action Read,Set IRQ enable"
line.long 0x0C "GPT_IRQENABLE_CLR,Component interrupt-request enable"
bitfld.long 0x0C 2. "TCAR_EN_FLAG,IRQ enable for CompareRead" "No action Read,Clear IRQ enable"
bitfld.long 0x0C 1. "OVF_EN_FLAG,IRQ enable for OverflowRead" "No action Read,Clear IRQ enable"
newline
bitfld.long 0x0C 0. "MAT_EN_FLAG,IRQ enable for MatchRead" "No action Read,Clear IRQ enable"
line.long 0x10 "GPT_IRQWAKEEN,Wake-up-enabled events taking place when module is idle should generate an asynchronous wake-up"
bitfld.long 0x10 2. "TCAR_WUP_ENA,Wake-up generation for Compare" "TCAR_WUP_ENA_0,TCAR_WUP_ENA_1"
bitfld.long 0x10 1. "OVF_WUP_ENA,Wake-up generation for Overflow" "OVF_WUP_ENA_0,OVF_WUP_ENA_1"
newline
bitfld.long 0x10 0. "MAT_WUP_ENA,Wake-up generation for Match" "MAT_WUP_ENA_0,MAT_WUP_ENA_1"
line.long 0x14 "GPT_TCLR,This register controls optional features specific to the timer functionality"
bitfld.long 0x14 14. "GPO_CFG,General-purpose output - this register directly drives the GPTi_PORGPOCFG output pin" "GPO_CFG_0,GPO_CFG_1"
bitfld.long 0x14 13. "CAPT_MODE,Capture mode select bit (first/second)" "CAPT_MODE_0,CAPT_MODE_1"
newline
bitfld.long 0x14 12. "PT,Pulse or toggle mode on GPTi_PWM_out output pin" "PT_0,PT_1"
bitfld.long 0x14 10.--11. "TRG,Trigger output mode on GPTi_PWM_out output pin" "TRG_0,TRG_1,TRG_2,TRG_3"
newline
bitfld.long 0x14 8.--9. "TCM,Transition capture mode on GPTi_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.)" "TCM_0,TCM_1,TCM_2,TCM_3"
bitfld.long 0x14 7. "SCPWM,Pulse width modulation output pin default settingThis bit must be set or clear while the timer is stopped or the trigger is off" "SCPWM_0,SCPWM_1"
newline
bitfld.long 0x14 6. "CE,Compare enable" "CE_0,CE_1"
bitfld.long 0x14 5. "PRE,Prescaler enable" "PRE_0,PRE_1"
newline
bitfld.long 0x14 2.--4. "PTV,Prescale clock timer valueThe timer counter is prescaled with the value 2" "0,1,2,3,4,5,6,7"
bitfld.long 0x14 1. "AR,Autoreload mode" "AR_0,AR_1"
newline
bitfld.long 0x14 0. "ST,Start/stop timer control" "ST_0,ST_1"
line.long 0x18 "GPT_TCRR,This register holds the value of the internal counter"
line.long 0x1C "GPT_TLDR,This register holds the timer load value"
line.long 0x20 "GPT_TTGR,The read value of this register is always 0xFFFF FFFF"
line.long 0x24 "GPT_TWPS,This register contains the write posting bits for all writable functional registers"
bitfld.long 0x24 4. "W_PEND_TMAR,When equal to 1 a write is pending to theGPT_TMAR register" "0,1"
bitfld.long 0x24 3. "W_PEND_TTGR,When equal to 1 a write is pending to theGPT_TTGR register" "0,1"
newline
bitfld.long 0x24 2. "W_PEND_TLDR,When equal to 1 a write is pending to theGPT_TLDR register" "0,1"
bitfld.long 0x24 1. "W_PEND_TCRR,When equal to 1 a write is pending to theGPT_TCRR register" "0,1"
newline
bitfld.long 0x24 0. "W_PEND_TCLR,When equal to 1 a write is pending to theGPT_TCLR register" "0,1"
line.long 0x28 "GPT_TMAR,The compare logic consists of a 32-bit-wide. read/write data TMAR register and logic to compare counter"
line.long 0x2C "GPT_TCAR1,This register holds the first captured value of the counter register"
line.long 0x30 "GPT_TSICR,Timer synchronous interface control register"
bitfld.long 0x30 2. "POSTED,Posted mode selection" "POSTED_0,POSTED_1"
bitfld.long 0x30 1. "SFT,This bit resets all the functional part of the module" "SFT_0,SFT_1"
line.long 0x34 "GPT_TCAR2,This register holds the second captured value of the counter register"
tree.end
tree.end
tree "HDQ_1_Wire"
tree "HDQ_1_Wire"
base ansd:0x480B2000
rgroup.long 0x00++0x1B
line.long 0x00 "HDQ_REVISION,This register contains the IP revision code"
line.long 0x04 "HDQ_TX_DATA,This register contains the data to be transmitted"
hexmask.long.byte 0x04 0.--7. 1. "TX_DATA,Transmit data (used in both HDQ and 1-Wire modes)"
line.long 0x08 "HDQ_RX_DATA,This register contains the data to be received"
hexmask.long.byte 0x08 0.--7. 1. "RX_DATA,Receive data (used in both HDQ and 1-Wire modes)"
line.long 0x0C "HDQ_CTRL_STATUS,This register provides status information about the module"
bitfld.long 0x0C 7. "ONE_WIRE_SINGLE_BIT,Single-bit mode for" "ONE_WIRE_SINGLE_BIT_0,ONE_WIRE_SINGLE_BIT_1"
bitfld.long 0x0C 6. "INTERRUPTMASK,Interrupt masking" "INTERRUPTMASK_0,INTERRUPTMASK_1"
bitfld.long 0x0C 5. "CLOCKENABLE,Power-down mode" "CLOCKENABLE_0,CLOCKENABLE_1"
newline
bitfld.long 0x0C 4. "GO,Go bit" "GO_0,GO_1"
rbitfld.long 0x0C 3. "PRESENCEDETECT,Slave presence indicator" "PRESENCEDETECT_0,PRESENCEDETECT_1"
bitfld.long 0x0C 2. "INITIALIZATION,Write 1 to send initialization pulse" "INITIALIZATION_0,INITIALIZATION_1"
newline
bitfld.long 0x0C 1. "DIR,DIR bit determines if next command is read or write0x0: Write" "DIR_0,DIR_1"
bitfld.long 0x0C 0. "MODE,Mode selection" "MODE_0,MODE_1"
line.long 0x10 "HDQ_INT_STATUS,This register controls interrupts status"
bitfld.long 0x10 2. "TXCOMPLETE,TX-complete interrupt flag.Set to 1 if cause of interrupt" "TXCOMPLETE_0,TXCOMPLETE_1"
bitfld.long 0x10 1. "RXCOMPLETE,Read-complete interrupt flag.Set to 1 if cause of interrupt" "RXCOMPLETE_0,RXCOMPLETE_1"
bitfld.long 0x10 0. "TIMEOUT,Presence detect/timeout interrupt flag.In 1-Wire mode set to 1 if slave's presence detected" "TIMEOUT_0,TIMEOUT_1"
line.long 0x14 "HDQ_SYSCONFIG,This register controls various bits"
bitfld.long 0x14 1. "SOFTRESET,Start soft reset sequence.0x0: Disabled" "SOFTRESET_0,SOFTRESET_1"
bitfld.long 0x14 0. "AUTOIDLE,Interconnect idle.0x0: Module clock is free-running" "AUTOIDLE_0,AUTOIDLE_1"
line.long 0x18 "HDQ_SYSSTATUS,This register monitors the reset sequence"
bitfld.long 0x18 0. "RESETDONE,Reset monitoring.0x0: The module is currently performing its reset" "RESETDONE_0,RESETDONE_1"
tree.end
tree.end
tree "High_Speed_Multiport_USB_Host_Subsystem"
tree "EHCI"
base ansd:0x4A064C00
group.long 0x28++0x03
line.long 0x00 "ASYNCLISTADDR,Next asynchronous list address"
hexmask.long 0x00 5.--31. 1. "LPL,Link pointer low - It contains the address of the next asynchronous queue head to be executed"
tree "Channel_0"
group.long 0x54++0x0B
line.long 0x00 "PORTSC_i_0,Port status/control"
hexmask.long.byte 0x00 25.--31. 1. "DEVICEADDRESS,The USB device address for the device attached to and immediately downstream from the associated root port"
rbitfld.long 0x00 23.--24. "SUSPENDSTATUS,Addition for LPM support.Indicates status of L1 suspend request" "SUSPENDSTATUS_0,SUSPENDSTATUS_1,SUSPENDSTATUS_2,SUSPENDSTATUS_3"
bitfld.long 0x00 21. "WDE,Wake on disconnect enable - This field is 0 if the PP bit is 0" "?,WDE_1_w"
bitfld.long 0x00 20. "WCE,Wake on connect enable - This field is 0 if the PP bit is 0" "?,WCE_1_w"
bitfld.long 0x00 16.--19. "PTC,Port test controlThe port is operating in specific test modes as indicated by the specific value" "PTC_0,PTC_1,PTC_2,PTC_3,PTC_4,PTC_5,?,?,?,?,?,?,?,?,?,?"
newline
rbitfld.long 0x00 14.--15. "PIC,Port indicator control (not implemented)" "0,1,2,3"
bitfld.long 0x00 13. "PO,Port owner - This bit unconditionally goes to 0x0 when the USBHOST.[0] CF bit makes a transition from 0 to 1" "?,PO_1"
bitfld.long 0x00 12. "PP,Port powerThe function of this bit depends on the value of the USBHOST.[4] PPC bit" "0,1"
rbitfld.long 0x00 10.--11. "LS,Line statusThese bits reflect the current logical levels of the D+ (bit 11) and D- (bit 10) signal lines" "0,1,2,3"
bitfld.long 0x00 9. "SUSPENDL1,When this bit is set to 1 an LPM token is generated" "SUSPENDL1_0,SUSPENDL1_1"
newline
bitfld.long 0x00 8. "PR,Port reset - This field is 0 if the PP bit is 0" "PR_0_w,PR_1"
bitfld.long 0x00 7. "SUS,Suspend - This field is 0 if the PP bit is 0" "SUS_0,?"
bitfld.long 0x00 6. "FPR,Force port resume - This field is 0 if the PP bit is 0" "FPR_0,FPR_1"
bitfld.long 0x00 3. "PEDC,Port enabled/disabled" "PEDC_0_r,PEDC_1_w"
bitfld.long 0x00 2. "PED,Port enabled/disabled - Software cannot enable a port by setting this bit to 1" "PED_0,PED_1"
newline
bitfld.long 0x00 1. "CSC,Connect status" "CSC_0_r,CSC_1_w"
rbitfld.long 0x00 0. "CCS,Current connect status - This value reflects the current state of the port and may not correspond directly to the event that caused the CSC bit to be set" "CCS_0,CCS_1"
line.long 0x04 "PORTSC_i_1,Port status/control"
hexmask.long.byte 0x04 25.--31. 1. "DEVICEADDRESS,The USB device address for the device attached to and immediately downstream from the associated root port"
rbitfld.long 0x04 23.--24. "SUSPENDSTATUS,Addition for LPM support.Indicates status of L1 suspend request" "SUSPENDSTATUS_0,SUSPENDSTATUS_1,SUSPENDSTATUS_2,SUSPENDSTATUS_3"
bitfld.long 0x04 21. "WDE,Wake on disconnect enable - This field is 0 if the PP bit is 0" "?,WDE_1_w"
bitfld.long 0x04 20. "WCE,Wake on connect enable - This field is 0 if the PP bit is 0" "?,WCE_1_w"
bitfld.long 0x04 16.--19. "PTC,Port test controlThe port is operating in specific test modes as indicated by the specific value" "PTC_0,PTC_1,PTC_2,PTC_3,PTC_4,PTC_5,?,?,?,?,?,?,?,?,?,?"
newline
rbitfld.long 0x04 14.--15. "PIC,Port indicator control (not implemented)" "0,1,2,3"
bitfld.long 0x04 13. "PO,Port owner - This bit unconditionally goes to 0x0 when the USBHOST.[0] CF bit makes a transition from 0 to 1" "?,PO_1"
bitfld.long 0x04 12. "PP,Port powerThe function of this bit depends on the value of the USBHOST.[4] PPC bit" "0,1"
rbitfld.long 0x04 10.--11. "LS,Line statusThese bits reflect the current logical levels of the D+ (bit 11) and D- (bit 10) signal lines" "0,1,2,3"
bitfld.long 0x04 9. "SUSPENDL1,When this bit is set to 1 an LPM token is generated" "SUSPENDL1_0,SUSPENDL1_1"
newline
bitfld.long 0x04 8. "PR,Port reset - This field is 0 if the PP bit is 0" "PR_0_w,PR_1"
bitfld.long 0x04 7. "SUS,Suspend - This field is 0 if the PP bit is 0" "SUS_0,?"
bitfld.long 0x04 6. "FPR,Force port resume - This field is 0 if the PP bit is 0" "FPR_0,FPR_1"
bitfld.long 0x04 3. "PEDC,Port enabled/disabled" "PEDC_0_r,PEDC_1_w"
bitfld.long 0x04 2. "PED,Port enabled/disabled - Software cannot enable a port by setting this bit to 1" "PED_0,PED_1"
newline
bitfld.long 0x04 1. "CSC,Connect status" "CSC_0_r,CSC_1_w"
rbitfld.long 0x04 0. "CCS,Current connect status - This value reflects the current state of the port and may not correspond directly to the event that caused the CSC bit to be set" "CCS_0,CCS_1"
line.long 0x08 "PORTSC_i_2,Port status/control"
hexmask.long.byte 0x08 25.--31. 1. "DEVICEADDRESS,The USB device address for the device attached to and immediately downstream from the associated root port"
rbitfld.long 0x08 23.--24. "SUSPENDSTATUS,Addition for LPM support.Indicates status of L1 suspend request" "SUSPENDSTATUS_0,SUSPENDSTATUS_1,SUSPENDSTATUS_2,SUSPENDSTATUS_3"
bitfld.long 0x08 21. "WDE,Wake on disconnect enable - This field is 0 if the PP bit is 0" "?,WDE_1_w"
bitfld.long 0x08 20. "WCE,Wake on connect enable - This field is 0 if the PP bit is 0" "?,WCE_1_w"
bitfld.long 0x08 16.--19. "PTC,Port test controlThe port is operating in specific test modes as indicated by the specific value" "PTC_0,PTC_1,PTC_2,PTC_3,PTC_4,PTC_5,?,?,?,?,?,?,?,?,?,?"
newline
rbitfld.long 0x08 14.--15. "PIC,Port indicator control (not implemented)" "0,1,2,3"
bitfld.long 0x08 13. "PO,Port owner - This bit unconditionally goes to 0x0 when the USBHOST.[0] CF bit makes a transition from 0 to 1" "?,PO_1"
bitfld.long 0x08 12. "PP,Port powerThe function of this bit depends on the value of the USBHOST.[4] PPC bit" "0,1"
rbitfld.long 0x08 10.--11. "LS,Line statusThese bits reflect the current logical levels of the D+ (bit 11) and D- (bit 10) signal lines" "0,1,2,3"
bitfld.long 0x08 9. "SUSPENDL1,When this bit is set to 1 an LPM token is generated" "SUSPENDL1_0,SUSPENDL1_1"
newline
bitfld.long 0x08 8. "PR,Port reset - This field is 0 if the PP bit is 0" "PR_0_w,PR_1"
bitfld.long 0x08 7. "SUS,Suspend - This field is 0 if the PP bit is 0" "SUS_0,?"
bitfld.long 0x08 6. "FPR,Force port resume - This field is 0 if the PP bit is 0" "FPR_0,FPR_1"
bitfld.long 0x08 3. "PEDC,Port enabled/disabled" "PEDC_0_r,PEDC_1_w"
bitfld.long 0x08 2. "PED,Port enabled/disabled - Software cannot enable a port by setting this bit to 1" "PED_0,PED_1"
newline
bitfld.long 0x08 1. "CSC,Connect status" "CSC_0_r,CSC_1_w"
rbitfld.long 0x08 0. "CCS,Current connect status - This value reflects the current state of the port and may not correspond directly to the event that caused the CSC bit to be set" "CCS_0,CCS_1"
tree.end
group.long 0x50++0x03
line.long 0x00 "CONFIGFLAG,Configured flag register"
bitfld.long 0x00 0. "CF,Configure flag - This bit controls the default port-routing control logic" "CF_0,CF_1"
rgroup.long 0x20++0x03
line.long 0x00 "CTRLDSSEGMENT,4G segment selector"
group.long 0x1C++0x03
line.long 0x00 "FRINDEX,USB frame index"
hexmask.long.word 0x00 0.--13. 1. "FI,Frame index - The value in this register is incremented at the end of each time frame"
rgroup.long 0x00++0x03
line.long 0x00 "HCCAPBASE,Host controller capability register"
hexmask.long.word 0x00 16.--31. 1. "HCIVERSION,Interface version number"
hexmask.long.byte 0x00 0.--7. 1. "CAPLENGTH,Capability register length"
rgroup.long 0x08++0x03
line.long 0x00 "HCCPARAMS,Host controller capability parameters"
bitfld.long 0x00 17. "LPM,Link power management capability" "LPM_0,LPM_1"
hexmask.long.byte 0x00 8.--15. 1. "EECP,EHCI extended capabilities pointer - This field indicates the existence of a capabilities list"
bitfld.long 0x00 4.--7. "IST,Isochronous scheduling threshold - This field indicates where software can reliably update the isochronous schedule in relation to the current position of the executing host controller" "IST_0,IST_1,IST_2,IST_3,IST_4,IST_5,IST_6,IST_7,IST_8,IST_9,IST_10,IST_11,IST_12,IST_13,IST_14,IST_15"
bitfld.long 0x00 2. "ASPC,Asynchronous schedule park capability" "?,ASPC_1"
newline
bitfld.long 0x00 1. "PFLF,Programmable frame list flag" "PFLF_0,PFLF_1"
bitfld.long 0x00 0. "BIT64AC,64-bit addressing capability - This field documents the addressing range capability of this implementation" "BIT64AC_0,BIT64AC_1"
rgroup.long 0x04++0x03
line.long 0x00 "HCSPARAMS,Host controller structural parameters"
bitfld.long 0x00 16. "P_INDICATOR,Port indicator support indication - This bit indicates whether the ports support port indicator control" "?,P_INDICATOR_1"
bitfld.long 0x00 12.--15. "N_CC,Number of companion controllers - This field indicates the number of companion controllers associated with this USB 2.0 host controller" "N_CC_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 8.--11. "N_PCC,Number of ports per companion controller - This field indicates the number of ports supported per companion host controller" "N_PCC_0,N_PCC_1,N_PCC_2,N_PCC_3,N_PCC_4,N_PCC_5,N_PCC_6,N_PCC_7,N_PCC_8,N_PCC_9,N_PCC_10,N_PCC_11,N_PCC_12,N_PCC_13,N_PCC_14,N_PCC_15"
bitfld.long 0x00 7. "PRR,Port routing rules - The first N_PCC ports are routed to the lowest-numbered function companion host controller the next N_PCC ports are routed to the next lowest-function companion controller and so on" "PRR_0,PRR_1"
newline
bitfld.long 0x00 4. "PPC,Port power control - This field indicates whether the host controller implementation includes port power control" "PPC_0,PPC_1"
bitfld.long 0x00 0.--3. "N_PORTS,Number of downstream ports - This field specifies the number of physical downstream ports implemented on this host controller" "N_PORTS_0,N_PORTS_1,N_PORTS_2,N_PORTS_3,N_PORTS_4,N_PORTS_5,N_PORTS_6,N_PORTS_7,N_PORTS_8,N_PORTS_9,N_PORTS_10,N_PORTS_11,N_PORTS_12,N_PORTS_13,N_PORTS_14,N_PORTS_15"
group.long 0x90++0x17
line.long 0x00 "INSNREG00,Implementation-specific register 0"
hexmask.long.word 0x00 1.--13. 1. "UFRAME_CNT,1-microframe length value to reduce simulation time"
bitfld.long 0x00 0. "EN,Enable of this register" "EN_0,EN_1"
line.long 0x04 "INSNREG01,Implementation-specific register 1"
hexmask.long.word 0x04 16.--31. 1. "OUT_THRESHOLD,Programmable output packet buffer threshold in 32-bit words"
hexmask.long.word 0x04 0.--15. 1. "IN_THRESHOLD,Programmable input packet buffer threshold in 32-bit words"
line.long 0x08 "INSNREG02,Implementation-specific register 2"
hexmask.long.word 0x08 0.--11. 1. "BUF_DEPTH,Programmable packet buffer depth in 32-bit words"
line.long 0x0C "INSNREG03,Implementation-specific register 3"
bitfld.long 0x0C 0. "BRK_MEM_TRSF,Break memory transfer in conjunction withINSNREG01" "BRK_MEM_TRSF_0,BRK_MEM_TRSF_1"
line.long 0x10 "INSNREG04,Implementation-specific register 4"
bitfld.long 0x10 4. "NAK_FIX_DIS,Disable NAK fix (don't touch)" "NAK_FIX_DIS_0,NAK_FIX_DIS_1"
bitfld.long 0x10 2. "SHORT_PORT_ENUM,Scale down port enumeration time (debug)" "SHORT_PORT_ENUM_0,SHORT_PORT_ENUM_1"
bitfld.long 0x10 1. "HCCPARAMS_WRE,Make read-onlyHCCPARAMS register writable (debug)" "HCCPARAMS_WRE_0,HCCPARAMS_WRE_1"
bitfld.long 0x10 0. "HCSPARAMS_WRE,Make read-onlyHCSPARAMS register writable (debug)" "HCSPARAMS_WRE_0,HCSPARAMS_WRE_1"
line.long 0x14 "INSNREG05_ULPI,Implementation-specific register 5"
bitfld.long 0x14 31. "CONTROL,Control/status of the ULPI register access" "CONTROL_0,CONTROL_1"
bitfld.long 0x14 24.--27. "PORTSEL," "?,PORTSEL_1,PORTSEL_2,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x14 22.--23. "OPSEL," "?,?,OPSEL_2,OPSEL_3"
bitfld.long 0x14 16.--21. "REGADD,ULPI direct register address for any value different than 0x2F" "?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,REGADD_47,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
hexmask.long.byte 0x14 8.--15. 1. "EXTREGADD,Address for extended register accesses"
hexmask.long.byte 0x14 0.--7. 1. "RDWRDATA,Read/write data of (resp. read/write) register access"
group.long 0xA4++0x0F
line.long 0x00 "INSNREG05_UTMI,Implementation-specific register 5"
rbitfld.long 0x00 17. "VBUSY," "VBUSY_0_r,VBUSY_1_r"
bitfld.long 0x00 13.--16. "VPORT,Vendor interface port selection" "?,VPORT_1,VPORT_2,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 12. "VCONTROLLOADM,UTMI VcontrolLoadM output (active-low)" "VCONTROLLOADM_0,VCONTROLLOADM_1"
bitfld.long 0x00 8.--11. "VCONTROL,UTMI Vcontrol output to be loaded into the PHY" "VCONTROL_0,VCONTROL_1,VCONTROL_2,VCONTROL_3,VCONTROL_4,VCONTROL_5,VCONTROL_6,VCONTROL_7,VCONTROL_8,VCONTROL_9,VCONTROL_10,VCONTROL_11,VCONTROL_12,VCONTROL_13,VCONTROL_14,VCONTROL_15"
newline
hexmask.long.byte 0x00 0.--7. 1. "VSTATUS,UTMI Vstatus input image from PHY"
line.long 0x04 "INSNREG06,AHB error status"
bitfld.long 0x04 31. "ERRORCAP,Indicator that an AHB error was encountered and values were captured" "ERRORCAP_0_w,ERRORCAP_1_r"
rbitfld.long 0x04 9.--11. "HBURST,HBURST Value of the control phase at which the AHB error occurred" "HBURST_0,HBURST_1,HBURST_2,HBURST_3,HBURST_4,HBURST_5,HBURST_6,HBURST_7"
rbitfld.long 0x04 4.--8. "BEATSEXP,Number of beats expected in the burst at which the AHB error occurred" "BEATSEXP_0,BEATSEXP_1,BEATSEXP_2,BEATSEXP_3,BEATSEXP_4,BEATSEXP_5,BEATSEXP_6,BEATSEXP_7,BEATSEXP_8,BEATSEXP_9,BEATSEXP_10,BEATSEXP_11,BEATSEXP_12,BEATSEXP_13,BEATSEXP_14,BEATSEXP_15,BEATSEXP_16,BEATSEXP_17,BEATSEXP_18,BEATSEXP_19,BEATSEXP_20,BEATSEXP_21,BEATSEXP_22,BEATSEXP_23,BEATSEXP_24,BEATSEXP_25,BEATSEXP_26,BEATSEXP_27,BEATSEXP_28,BEATSEXP_29,BEATSEXP_30,BEATSEXP_31"
rbitfld.long 0x04 0.--3. "BEATSCOMP,Number of successfully completed beats in the current burst before the AHB error occurred" "BEATSCOMP_0,BEATSCOMP_1,BEATSCOMP_2,BEATSCOMP_3,BEATSCOMP_4,BEATSCOMP_5,BEATSCOMP_6,BEATSCOMP_7,BEATSCOMP_8,BEATSCOMP_9,BEATSCOMP_10,BEATSCOMP_11,BEATSCOMP_12,BEATSCOMP_13,BEATSCOMP_14,BEATSCOMP_15"
line.long 0x08 "INSNREG07,AHB master error address"
line.long 0x0C "INSNREG08,"
hexmask.long.word 0x0C 0.--15. 1. "NEWBITFIELD1,"
group.long 0x24++0x03
line.long 0x00 "PERIODICLISTBASE,Frame list base address"
hexmask.long.tbyte 0x00 12.--31. 1. "BAL,Base address (low) - These bits correspond to memory address signals"
group.long 0x10++0x03
line.long 0x00 "USBCMD,USB command"
bitfld.long 0x00 24.--27. "HIRD,Host-initiated resume duration" "HIRD_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
hexmask.long.byte 0x00 16.--23. 1. "ITC,Interrupt threshold control - This field is used by the system software to select the maximum rate at which the host controller issues interrupts"
bitfld.long 0x00 11. "ASPME,Asynchronous schedule park mode enable" "ASPME_0,ASPME_1"
bitfld.long 0x00 8.--9. "ASPMC,Asynchronous schedule park mode count - It contains a count of the number of successive transactions the host controller is allowed to execute from a high-speed queue head on the asynchronous schedule before continuing traversal of the.." "ASPMC_0,ASPMC_1,ASPMC_2,ASPMC_3"
newline
bitfld.long 0x00 7. "LHCR,Light host controller reset - It allows the driver to reset the EHCI controller without affecting the state of the ports or the relationship to the companion host controllers" "LHCR_0_r,LHCR_1_r"
bitfld.long 0x00 6. "IAAD,Interrupt on async advance doorbell - This bit is used as a doorbell by software to tell the host controller to issue an interrupt the next time it advances asynchronous schedule" "?,IAAD_1_w"
bitfld.long 0x00 5. "ASE,Asynchronous schedule enable - This bit controls whether the host controller skips processing the asynchronous schedule" "ASE_0,ASE_1"
bitfld.long 0x00 4. "PSE,Periodic schedule enable - This bit controls whether the host controller skips processing the periodic schedule" "PSE_0,PSE_1"
newline
bitfld.long 0x00 2.--3. "FLS,Frame list size - This field specifies the size of the frame list" "FLS_0,FLS_1,FLS_2,FLS_3"
bitfld.long 0x00 1. "HCR,Host controller reset - This control bit is used by software to reset the host controller" "?,HCR_1"
bitfld.long 0x00 0. "RS,Run/stop" "RS_0,RS_1"
group.long 0x18++0x03
line.long 0x00 "USBINTR,USB interrupt enable"
bitfld.long 0x00 5. "IAAE,Interrupt on async advance enable" "?,IAAE_1"
bitfld.long 0x00 4. "HSEE,Host system error enable" "?,HSEE_1"
bitfld.long 0x00 3. "FLRE,Frame list rollover enable" "?,FLRE_1"
bitfld.long 0x00 2. "PCIE,Port change interrupt enable" "?,PCIE_1"
newline
bitfld.long 0x00 1. "USBEIE,USB error interrupt enable" "?,USBEIE_1"
bitfld.long 0x00 0. "USBIE,USB interrupt enable" "?,USBIE_1"
group.long 0x14++0x03
line.long 0x00 "USBSTS,USB status"
rbitfld.long 0x00 15. "ASS,Asynchronous schedule status - The bit reports the current real status of the asynchronous schedule" "ASS_0,ASS_1"
rbitfld.long 0x00 14. "PSS,Periodic schedule status - The bit reports the current real status of the periodic schedule" "PSS_0,PSS_1"
rbitfld.long 0x00 13. "REC,Reclamation - It is used to detect an empty asynchronous schedule" "REC_0,REC_1"
rbitfld.long 0x00 12. "HCH,Host controller halted - This bit is a 0 whenever the USBHOST.[0] RS bit is a 1" "HCH_0,HCH_1"
newline
bitfld.long 0x00 5. "IAA,Interrupt on async advance - System software can force the host controller to issue an interrupt the next time the host controller advances the asynchronous schedule by setting the USBHOST.[6] IAAD bit to 1" "IAA_0,IAA_1"
bitfld.long 0x00 4. "HSE,Host system error - The host controller sets this bit to 1 when a serious error occurs during a host system access involving the host controller module" "HSE_0,HSE_1"
bitfld.long 0x00 3. "FLR,Frame list rollover - The host controller sets this bit to 1 when the USBHOST" "FLR_0,FLR_1"
bitfld.long 0x00 2. "PCD,Port change detect - The host controller sets this bit to 1 when any port for which the USBHOST.[13] PO bit is set to 0 has a change bit transition from 0 to 1 or a USBHOST.[6] FPR bit transition from 0 to 1" "PCD_0,PCD_1"
newline
bitfld.long 0x00 1. "USBEI,USB error interrupt - The host controller sets this bit to 1 when completion of a USB transaction results in an error condition" "USBEI_0,USBEI_1"
bitfld.long 0x00 0. "USBI,USB interrupt - The host controller sets this bit to 1 on completion of a USB transaction which results in the retirement of a transfer descriptor that had its IOC bit set" "USBI_0,USBI_1"
tree.end
tree "HSUSBHOST"
base ansd:0x4A064000
tree "Channel_0"
group.long 0x100++0x5FF
line.long 0x00 "UHH_SAR_CNTX_i_0,Save and restore context array"
line.long 0x04 "UHH_SAR_CNTX_i_1,Save and restore context array"
line.long 0x08 "UHH_SAR_CNTX_i_2,Save and restore context array"
line.long 0x0C "UHH_SAR_CNTX_i_3,Save and restore context array"
line.long 0x10 "UHH_SAR_CNTX_i_4,Save and restore context array"
line.long 0x14 "UHH_SAR_CNTX_i_5,Save and restore context array"
line.long 0x18 "UHH_SAR_CNTX_i_6,Save and restore context array"
line.long 0x1C "UHH_SAR_CNTX_i_7,Save and restore context array"
line.long 0x20 "UHH_SAR_CNTX_i_8,Save and restore context array"
line.long 0x24 "UHH_SAR_CNTX_i_9,Save and restore context array"
line.long 0x28 "UHH_SAR_CNTX_i_10,Save and restore context array"
line.long 0x2C "UHH_SAR_CNTX_i_11,Save and restore context array"
line.long 0x30 "UHH_SAR_CNTX_i_12,Save and restore context array"
line.long 0x34 "UHH_SAR_CNTX_i_13,Save and restore context array"
line.long 0x38 "UHH_SAR_CNTX_i_14,Save and restore context array"
line.long 0x3C "UHH_SAR_CNTX_i_15,Save and restore context array"
line.long 0x40 "UHH_SAR_CNTX_i_16,Save and restore context array"
line.long 0x44 "UHH_SAR_CNTX_i_17,Save and restore context array"
line.long 0x48 "UHH_SAR_CNTX_i_18,Save and restore context array"
line.long 0x4C "UHH_SAR_CNTX_i_19,Save and restore context array"
line.long 0x50 "UHH_SAR_CNTX_i_20,Save and restore context array"
line.long 0x54 "UHH_SAR_CNTX_i_21,Save and restore context array"
line.long 0x58 "UHH_SAR_CNTX_i_22,Save and restore context array"
line.long 0x5C "UHH_SAR_CNTX_i_23,Save and restore context array"
line.long 0x60 "UHH_SAR_CNTX_i_24,Save and restore context array"
line.long 0x64 "UHH_SAR_CNTX_i_25,Save and restore context array"
line.long 0x68 "UHH_SAR_CNTX_i_26,Save and restore context array"
line.long 0x6C "UHH_SAR_CNTX_i_27,Save and restore context array"
line.long 0x70 "UHH_SAR_CNTX_i_28,Save and restore context array"
line.long 0x74 "UHH_SAR_CNTX_i_29,Save and restore context array"
line.long 0x78 "UHH_SAR_CNTX_i_30,Save and restore context array"
line.long 0x7C "UHH_SAR_CNTX_i_31,Save and restore context array"
line.long 0x80 "UHH_SAR_CNTX_i_32,Save and restore context array"
line.long 0x84 "UHH_SAR_CNTX_i_33,Save and restore context array"
line.long 0x88 "UHH_SAR_CNTX_i_34,Save and restore context array"
line.long 0x8C "UHH_SAR_CNTX_i_35,Save and restore context array"
line.long 0x90 "UHH_SAR_CNTX_i_36,Save and restore context array"
line.long 0x94 "UHH_SAR_CNTX_i_37,Save and restore context array"
line.long 0x98 "UHH_SAR_CNTX_i_38,Save and restore context array"
line.long 0x9C "UHH_SAR_CNTX_i_39,Save and restore context array"
line.long 0xA0 "UHH_SAR_CNTX_i_40,Save and restore context array"
line.long 0xA4 "UHH_SAR_CNTX_i_41,Save and restore context array"
line.long 0xA8 "UHH_SAR_CNTX_i_42,Save and restore context array"
line.long 0xAC "UHH_SAR_CNTX_i_43,Save and restore context array"
line.long 0xB0 "UHH_SAR_CNTX_i_44,Save and restore context array"
line.long 0xB4 "UHH_SAR_CNTX_i_45,Save and restore context array"
line.long 0xB8 "UHH_SAR_CNTX_i_46,Save and restore context array"
line.long 0xBC "UHH_SAR_CNTX_i_47,Save and restore context array"
line.long 0xC0 "UHH_SAR_CNTX_i_48,Save and restore context array"
line.long 0xC4 "UHH_SAR_CNTX_i_49,Save and restore context array"
line.long 0xC8 "UHH_SAR_CNTX_i_50,Save and restore context array"
line.long 0xCC "UHH_SAR_CNTX_i_51,Save and restore context array"
line.long 0xD0 "UHH_SAR_CNTX_i_52,Save and restore context array"
line.long 0xD4 "UHH_SAR_CNTX_i_53,Save and restore context array"
line.long 0xD8 "UHH_SAR_CNTX_i_54,Save and restore context array"
line.long 0xDC "UHH_SAR_CNTX_i_55,Save and restore context array"
line.long 0xE0 "UHH_SAR_CNTX_i_56,Save and restore context array"
line.long 0xE4 "UHH_SAR_CNTX_i_57,Save and restore context array"
line.long 0xE8 "UHH_SAR_CNTX_i_58,Save and restore context array"
line.long 0xEC "UHH_SAR_CNTX_i_59,Save and restore context array"
line.long 0xF0 "UHH_SAR_CNTX_i_60,Save and restore context array"
line.long 0xF4 "UHH_SAR_CNTX_i_61,Save and restore context array"
line.long 0xF8 "UHH_SAR_CNTX_i_62,Save and restore context array"
line.long 0xFC "UHH_SAR_CNTX_i_63,Save and restore context array"
line.long 0x100 "UHH_SAR_CNTX_i_64,Save and restore context array"
line.long 0x104 "UHH_SAR_CNTX_i_65,Save and restore context array"
line.long 0x108 "UHH_SAR_CNTX_i_66,Save and restore context array"
line.long 0x10C "UHH_SAR_CNTX_i_67,Save and restore context array"
line.long 0x110 "UHH_SAR_CNTX_i_68,Save and restore context array"
line.long 0x114 "UHH_SAR_CNTX_i_69,Save and restore context array"
line.long 0x118 "UHH_SAR_CNTX_i_70,Save and restore context array"
line.long 0x11C "UHH_SAR_CNTX_i_71,Save and restore context array"
line.long 0x120 "UHH_SAR_CNTX_i_72,Save and restore context array"
line.long 0x124 "UHH_SAR_CNTX_i_73,Save and restore context array"
line.long 0x128 "UHH_SAR_CNTX_i_74,Save and restore context array"
line.long 0x12C "UHH_SAR_CNTX_i_75,Save and restore context array"
line.long 0x130 "UHH_SAR_CNTX_i_76,Save and restore context array"
line.long 0x134 "UHH_SAR_CNTX_i_77,Save and restore context array"
line.long 0x138 "UHH_SAR_CNTX_i_78,Save and restore context array"
line.long 0x13C "UHH_SAR_CNTX_i_79,Save and restore context array"
line.long 0x140 "UHH_SAR_CNTX_i_80,Save and restore context array"
line.long 0x144 "UHH_SAR_CNTX_i_81,Save and restore context array"
line.long 0x148 "UHH_SAR_CNTX_i_82,Save and restore context array"
line.long 0x14C "UHH_SAR_CNTX_i_83,Save and restore context array"
line.long 0x150 "UHH_SAR_CNTX_i_84,Save and restore context array"
line.long 0x154 "UHH_SAR_CNTX_i_85,Save and restore context array"
line.long 0x158 "UHH_SAR_CNTX_i_86,Save and restore context array"
line.long 0x15C "UHH_SAR_CNTX_i_87,Save and restore context array"
line.long 0x160 "UHH_SAR_CNTX_i_88,Save and restore context array"
line.long 0x164 "UHH_SAR_CNTX_i_89,Save and restore context array"
line.long 0x168 "UHH_SAR_CNTX_i_90,Save and restore context array"
line.long 0x16C "UHH_SAR_CNTX_i_91,Save and restore context array"
line.long 0x170 "UHH_SAR_CNTX_i_92,Save and restore context array"
line.long 0x174 "UHH_SAR_CNTX_i_93,Save and restore context array"
line.long 0x178 "UHH_SAR_CNTX_i_94,Save and restore context array"
line.long 0x17C "UHH_SAR_CNTX_i_95,Save and restore context array"
line.long 0x180 "UHH_SAR_CNTX_i_96,Save and restore context array"
line.long 0x184 "UHH_SAR_CNTX_i_97,Save and restore context array"
line.long 0x188 "UHH_SAR_CNTX_i_98,Save and restore context array"
line.long 0x18C "UHH_SAR_CNTX_i_99,Save and restore context array"
line.long 0x190 "UHH_SAR_CNTX_i_100,Save and restore context array"
line.long 0x194 "UHH_SAR_CNTX_i_101,Save and restore context array"
line.long 0x198 "UHH_SAR_CNTX_i_102,Save and restore context array"
line.long 0x19C "UHH_SAR_CNTX_i_103,Save and restore context array"
line.long 0x1A0 "UHH_SAR_CNTX_i_104,Save and restore context array"
line.long 0x1A4 "UHH_SAR_CNTX_i_105,Save and restore context array"
line.long 0x1A8 "UHH_SAR_CNTX_i_106,Save and restore context array"
line.long 0x1AC "UHH_SAR_CNTX_i_107,Save and restore context array"
line.long 0x1B0 "UHH_SAR_CNTX_i_108,Save and restore context array"
line.long 0x1B4 "UHH_SAR_CNTX_i_109,Save and restore context array"
line.long 0x1B8 "UHH_SAR_CNTX_i_110,Save and restore context array"
line.long 0x1BC "UHH_SAR_CNTX_i_111,Save and restore context array"
line.long 0x1C0 "UHH_SAR_CNTX_i_112,Save and restore context array"
line.long 0x1C4 "UHH_SAR_CNTX_i_113,Save and restore context array"
line.long 0x1C8 "UHH_SAR_CNTX_i_114,Save and restore context array"
line.long 0x1CC "UHH_SAR_CNTX_i_115,Save and restore context array"
line.long 0x1D0 "UHH_SAR_CNTX_i_116,Save and restore context array"
line.long 0x1D4 "UHH_SAR_CNTX_i_117,Save and restore context array"
line.long 0x1D8 "UHH_SAR_CNTX_i_118,Save and restore context array"
line.long 0x1DC "UHH_SAR_CNTX_i_119,Save and restore context array"
line.long 0x1E0 "UHH_SAR_CNTX_i_120,Save and restore context array"
line.long 0x1E4 "UHH_SAR_CNTX_i_121,Save and restore context array"
line.long 0x1E8 "UHH_SAR_CNTX_i_122,Save and restore context array"
line.long 0x1EC "UHH_SAR_CNTX_i_123,Save and restore context array"
line.long 0x1F0 "UHH_SAR_CNTX_i_124,Save and restore context array"
line.long 0x1F4 "UHH_SAR_CNTX_i_125,Save and restore context array"
line.long 0x1F8 "UHH_SAR_CNTX_i_126,Save and restore context array"
line.long 0x1FC "UHH_SAR_CNTX_i_127,Save and restore context array"
line.long 0x200 "UHH_SAR_CNTX_i_128,Save and restore context array"
line.long 0x204 "UHH_SAR_CNTX_i_129,Save and restore context array"
line.long 0x208 "UHH_SAR_CNTX_i_130,Save and restore context array"
line.long 0x20C "UHH_SAR_CNTX_i_131,Save and restore context array"
line.long 0x210 "UHH_SAR_CNTX_i_132,Save and restore context array"
line.long 0x214 "UHH_SAR_CNTX_i_133,Save and restore context array"
line.long 0x218 "UHH_SAR_CNTX_i_134,Save and restore context array"
line.long 0x21C "UHH_SAR_CNTX_i_135,Save and restore context array"
line.long 0x220 "UHH_SAR_CNTX_i_136,Save and restore context array"
line.long 0x224 "UHH_SAR_CNTX_i_137,Save and restore context array"
line.long 0x228 "UHH_SAR_CNTX_i_138,Save and restore context array"
line.long 0x22C "UHH_SAR_CNTX_i_139,Save and restore context array"
line.long 0x230 "UHH_SAR_CNTX_i_140,Save and restore context array"
line.long 0x234 "UHH_SAR_CNTX_i_141,Save and restore context array"
line.long 0x238 "UHH_SAR_CNTX_i_142,Save and restore context array"
line.long 0x23C "UHH_SAR_CNTX_i_143,Save and restore context array"
line.long 0x240 "UHH_SAR_CNTX_i_144,Save and restore context array"
line.long 0x244 "UHH_SAR_CNTX_i_145,Save and restore context array"
line.long 0x248 "UHH_SAR_CNTX_i_146,Save and restore context array"
line.long 0x24C "UHH_SAR_CNTX_i_147,Save and restore context array"
line.long 0x250 "UHH_SAR_CNTX_i_148,Save and restore context array"
line.long 0x254 "UHH_SAR_CNTX_i_149,Save and restore context array"
line.long 0x258 "UHH_SAR_CNTX_i_150,Save and restore context array"
line.long 0x25C "UHH_SAR_CNTX_i_151,Save and restore context array"
line.long 0x260 "UHH_SAR_CNTX_i_152,Save and restore context array"
line.long 0x264 "UHH_SAR_CNTX_i_153,Save and restore context array"
line.long 0x268 "UHH_SAR_CNTX_i_154,Save and restore context array"
line.long 0x26C "UHH_SAR_CNTX_i_155,Save and restore context array"
line.long 0x270 "UHH_SAR_CNTX_i_156,Save and restore context array"
line.long 0x274 "UHH_SAR_CNTX_i_157,Save and restore context array"
line.long 0x278 "UHH_SAR_CNTX_i_158,Save and restore context array"
line.long 0x27C "UHH_SAR_CNTX_i_159,Save and restore context array"
line.long 0x280 "UHH_SAR_CNTX_i_160,Save and restore context array"
line.long 0x284 "UHH_SAR_CNTX_i_161,Save and restore context array"
line.long 0x288 "UHH_SAR_CNTX_i_162,Save and restore context array"
line.long 0x28C "UHH_SAR_CNTX_i_163,Save and restore context array"
line.long 0x290 "UHH_SAR_CNTX_i_164,Save and restore context array"
line.long 0x294 "UHH_SAR_CNTX_i_165,Save and restore context array"
line.long 0x298 "UHH_SAR_CNTX_i_166,Save and restore context array"
line.long 0x29C "UHH_SAR_CNTX_i_167,Save and restore context array"
line.long 0x2A0 "UHH_SAR_CNTX_i_168,Save and restore context array"
line.long 0x2A4 "UHH_SAR_CNTX_i_169,Save and restore context array"
line.long 0x2A8 "UHH_SAR_CNTX_i_170,Save and restore context array"
line.long 0x2AC "UHH_SAR_CNTX_i_171,Save and restore context array"
line.long 0x2B0 "UHH_SAR_CNTX_i_172,Save and restore context array"
line.long 0x2B4 "UHH_SAR_CNTX_i_173,Save and restore context array"
line.long 0x2B8 "UHH_SAR_CNTX_i_174,Save and restore context array"
line.long 0x2BC "UHH_SAR_CNTX_i_175,Save and restore context array"
line.long 0x2C0 "UHH_SAR_CNTX_i_176,Save and restore context array"
line.long 0x2C4 "UHH_SAR_CNTX_i_177,Save and restore context array"
line.long 0x2C8 "UHH_SAR_CNTX_i_178,Save and restore context array"
line.long 0x2CC "UHH_SAR_CNTX_i_179,Save and restore context array"
line.long 0x2D0 "UHH_SAR_CNTX_i_180,Save and restore context array"
line.long 0x2D4 "UHH_SAR_CNTX_i_181,Save and restore context array"
line.long 0x2D8 "UHH_SAR_CNTX_i_182,Save and restore context array"
line.long 0x2DC "UHH_SAR_CNTX_i_183,Save and restore context array"
line.long 0x2E0 "UHH_SAR_CNTX_i_184,Save and restore context array"
line.long 0x2E4 "UHH_SAR_CNTX_i_185,Save and restore context array"
line.long 0x2E8 "UHH_SAR_CNTX_i_186,Save and restore context array"
line.long 0x2EC "UHH_SAR_CNTX_i_187,Save and restore context array"
line.long 0x2F0 "UHH_SAR_CNTX_i_188,Save and restore context array"
line.long 0x2F4 "UHH_SAR_CNTX_i_189,Save and restore context array"
line.long 0x2F8 "UHH_SAR_CNTX_i_190,Save and restore context array"
line.long 0x2FC "UHH_SAR_CNTX_i_191,Save and restore context array"
line.long 0x300 "UHH_SAR_CNTX_i_192,Save and restore context array"
line.long 0x304 "UHH_SAR_CNTX_i_193,Save and restore context array"
line.long 0x308 "UHH_SAR_CNTX_i_194,Save and restore context array"
line.long 0x30C "UHH_SAR_CNTX_i_195,Save and restore context array"
line.long 0x310 "UHH_SAR_CNTX_i_196,Save and restore context array"
line.long 0x314 "UHH_SAR_CNTX_i_197,Save and restore context array"
line.long 0x318 "UHH_SAR_CNTX_i_198,Save and restore context array"
line.long 0x31C "UHH_SAR_CNTX_i_199,Save and restore context array"
line.long 0x320 "UHH_SAR_CNTX_i_200,Save and restore context array"
line.long 0x324 "UHH_SAR_CNTX_i_201,Save and restore context array"
line.long 0x328 "UHH_SAR_CNTX_i_202,Save and restore context array"
line.long 0x32C "UHH_SAR_CNTX_i_203,Save and restore context array"
line.long 0x330 "UHH_SAR_CNTX_i_204,Save and restore context array"
line.long 0x334 "UHH_SAR_CNTX_i_205,Save and restore context array"
line.long 0x338 "UHH_SAR_CNTX_i_206,Save and restore context array"
line.long 0x33C "UHH_SAR_CNTX_i_207,Save and restore context array"
line.long 0x340 "UHH_SAR_CNTX_i_208,Save and restore context array"
line.long 0x344 "UHH_SAR_CNTX_i_209,Save and restore context array"
line.long 0x348 "UHH_SAR_CNTX_i_210,Save and restore context array"
line.long 0x34C "UHH_SAR_CNTX_i_211,Save and restore context array"
line.long 0x350 "UHH_SAR_CNTX_i_212,Save and restore context array"
line.long 0x354 "UHH_SAR_CNTX_i_213,Save and restore context array"
line.long 0x358 "UHH_SAR_CNTX_i_214,Save and restore context array"
line.long 0x35C "UHH_SAR_CNTX_i_215,Save and restore context array"
line.long 0x360 "UHH_SAR_CNTX_i_216,Save and restore context array"
line.long 0x364 "UHH_SAR_CNTX_i_217,Save and restore context array"
line.long 0x368 "UHH_SAR_CNTX_i_218,Save and restore context array"
line.long 0x36C "UHH_SAR_CNTX_i_219,Save and restore context array"
line.long 0x370 "UHH_SAR_CNTX_i_220,Save and restore context array"
line.long 0x374 "UHH_SAR_CNTX_i_221,Save and restore context array"
line.long 0x378 "UHH_SAR_CNTX_i_222,Save and restore context array"
line.long 0x37C "UHH_SAR_CNTX_i_223,Save and restore context array"
line.long 0x380 "UHH_SAR_CNTX_i_224,Save and restore context array"
line.long 0x384 "UHH_SAR_CNTX_i_225,Save and restore context array"
line.long 0x388 "UHH_SAR_CNTX_i_226,Save and restore context array"
line.long 0x38C "UHH_SAR_CNTX_i_227,Save and restore context array"
line.long 0x390 "UHH_SAR_CNTX_i_228,Save and restore context array"
line.long 0x394 "UHH_SAR_CNTX_i_229,Save and restore context array"
line.long 0x398 "UHH_SAR_CNTX_i_230,Save and restore context array"
line.long 0x39C "UHH_SAR_CNTX_i_231,Save and restore context array"
line.long 0x3A0 "UHH_SAR_CNTX_i_232,Save and restore context array"
line.long 0x3A4 "UHH_SAR_CNTX_i_233,Save and restore context array"
line.long 0x3A8 "UHH_SAR_CNTX_i_234,Save and restore context array"
line.long 0x3AC "UHH_SAR_CNTX_i_235,Save and restore context array"
line.long 0x3B0 "UHH_SAR_CNTX_i_236,Save and restore context array"
line.long 0x3B4 "UHH_SAR_CNTX_i_237,Save and restore context array"
line.long 0x3B8 "UHH_SAR_CNTX_i_238,Save and restore context array"
line.long 0x3BC "UHH_SAR_CNTX_i_239,Save and restore context array"
line.long 0x3C0 "UHH_SAR_CNTX_i_240,Save and restore context array"
line.long 0x3C4 "UHH_SAR_CNTX_i_241,Save and restore context array"
line.long 0x3C8 "UHH_SAR_CNTX_i_242,Save and restore context array"
line.long 0x3CC "UHH_SAR_CNTX_i_243,Save and restore context array"
line.long 0x3D0 "UHH_SAR_CNTX_i_244,Save and restore context array"
line.long 0x3D4 "UHH_SAR_CNTX_i_245,Save and restore context array"
line.long 0x3D8 "UHH_SAR_CNTX_i_246,Save and restore context array"
line.long 0x3DC "UHH_SAR_CNTX_i_247,Save and restore context array"
line.long 0x3E0 "UHH_SAR_CNTX_i_248,Save and restore context array"
line.long 0x3E4 "UHH_SAR_CNTX_i_249,Save and restore context array"
line.long 0x3E8 "UHH_SAR_CNTX_i_250,Save and restore context array"
line.long 0x3EC "UHH_SAR_CNTX_i_251,Save and restore context array"
line.long 0x3F0 "UHH_SAR_CNTX_i_252,Save and restore context array"
line.long 0x3F4 "UHH_SAR_CNTX_i_253,Save and restore context array"
line.long 0x3F8 "UHH_SAR_CNTX_i_254,Save and restore context array"
line.long 0x3FC "UHH_SAR_CNTX_i_255,Save and restore context array"
line.long 0x400 "UHH_SAR_CNTX_i_256,Save and restore context array"
line.long 0x404 "UHH_SAR_CNTX_i_257,Save and restore context array"
line.long 0x408 "UHH_SAR_CNTX_i_258,Save and restore context array"
line.long 0x40C "UHH_SAR_CNTX_i_259,Save and restore context array"
line.long 0x410 "UHH_SAR_CNTX_i_260,Save and restore context array"
line.long 0x414 "UHH_SAR_CNTX_i_261,Save and restore context array"
line.long 0x418 "UHH_SAR_CNTX_i_262,Save and restore context array"
line.long 0x41C "UHH_SAR_CNTX_i_263,Save and restore context array"
line.long 0x420 "UHH_SAR_CNTX_i_264,Save and restore context array"
line.long 0x424 "UHH_SAR_CNTX_i_265,Save and restore context array"
line.long 0x428 "UHH_SAR_CNTX_i_266,Save and restore context array"
line.long 0x42C "UHH_SAR_CNTX_i_267,Save and restore context array"
line.long 0x430 "UHH_SAR_CNTX_i_268,Save and restore context array"
line.long 0x434 "UHH_SAR_CNTX_i_269,Save and restore context array"
line.long 0x438 "UHH_SAR_CNTX_i_270,Save and restore context array"
line.long 0x43C "UHH_SAR_CNTX_i_271,Save and restore context array"
line.long 0x440 "UHH_SAR_CNTX_i_272,Save and restore context array"
line.long 0x444 "UHH_SAR_CNTX_i_273,Save and restore context array"
line.long 0x448 "UHH_SAR_CNTX_i_274,Save and restore context array"
line.long 0x44C "UHH_SAR_CNTX_i_275,Save and restore context array"
line.long 0x450 "UHH_SAR_CNTX_i_276,Save and restore context array"
line.long 0x454 "UHH_SAR_CNTX_i_277,Save and restore context array"
line.long 0x458 "UHH_SAR_CNTX_i_278,Save and restore context array"
line.long 0x45C "UHH_SAR_CNTX_i_279,Save and restore context array"
line.long 0x460 "UHH_SAR_CNTX_i_280,Save and restore context array"
line.long 0x464 "UHH_SAR_CNTX_i_281,Save and restore context array"
line.long 0x468 "UHH_SAR_CNTX_i_282,Save and restore context array"
line.long 0x46C "UHH_SAR_CNTX_i_283,Save and restore context array"
line.long 0x470 "UHH_SAR_CNTX_i_284,Save and restore context array"
line.long 0x474 "UHH_SAR_CNTX_i_285,Save and restore context array"
line.long 0x478 "UHH_SAR_CNTX_i_286,Save and restore context array"
line.long 0x47C "UHH_SAR_CNTX_i_287,Save and restore context array"
line.long 0x480 "UHH_SAR_CNTX_i_288,Save and restore context array"
line.long 0x484 "UHH_SAR_CNTX_i_289,Save and restore context array"
line.long 0x488 "UHH_SAR_CNTX_i_290,Save and restore context array"
line.long 0x48C "UHH_SAR_CNTX_i_291,Save and restore context array"
line.long 0x490 "UHH_SAR_CNTX_i_292,Save and restore context array"
line.long 0x494 "UHH_SAR_CNTX_i_293,Save and restore context array"
line.long 0x498 "UHH_SAR_CNTX_i_294,Save and restore context array"
line.long 0x49C "UHH_SAR_CNTX_i_295,Save and restore context array"
line.long 0x4A0 "UHH_SAR_CNTX_i_296,Save and restore context array"
line.long 0x4A4 "UHH_SAR_CNTX_i_297,Save and restore context array"
line.long 0x4A8 "UHH_SAR_CNTX_i_298,Save and restore context array"
line.long 0x4AC "UHH_SAR_CNTX_i_299,Save and restore context array"
line.long 0x4B0 "UHH_SAR_CNTX_i_300,Save and restore context array"
line.long 0x4B4 "UHH_SAR_CNTX_i_301,Save and restore context array"
line.long 0x4B8 "UHH_SAR_CNTX_i_302,Save and restore context array"
line.long 0x4BC "UHH_SAR_CNTX_i_303,Save and restore context array"
line.long 0x4C0 "UHH_SAR_CNTX_i_304,Save and restore context array"
line.long 0x4C4 "UHH_SAR_CNTX_i_305,Save and restore context array"
line.long 0x4C8 "UHH_SAR_CNTX_i_306,Save and restore context array"
line.long 0x4CC "UHH_SAR_CNTX_i_307,Save and restore context array"
line.long 0x4D0 "UHH_SAR_CNTX_i_308,Save and restore context array"
line.long 0x4D4 "UHH_SAR_CNTX_i_309,Save and restore context array"
line.long 0x4D8 "UHH_SAR_CNTX_i_310,Save and restore context array"
line.long 0x4DC "UHH_SAR_CNTX_i_311,Save and restore context array"
line.long 0x4E0 "UHH_SAR_CNTX_i_312,Save and restore context array"
line.long 0x4E4 "UHH_SAR_CNTX_i_313,Save and restore context array"
line.long 0x4E8 "UHH_SAR_CNTX_i_314,Save and restore context array"
line.long 0x4EC "UHH_SAR_CNTX_i_315,Save and restore context array"
line.long 0x4F0 "UHH_SAR_CNTX_i_316,Save and restore context array"
line.long 0x4F4 "UHH_SAR_CNTX_i_317,Save and restore context array"
line.long 0x4F8 "UHH_SAR_CNTX_i_318,Save and restore context array"
line.long 0x4FC "UHH_SAR_CNTX_i_319,Save and restore context array"
line.long 0x500 "UHH_SAR_CNTX_i_320,Save and restore context array"
line.long 0x504 "UHH_SAR_CNTX_i_321,Save and restore context array"
line.long 0x508 "UHH_SAR_CNTX_i_322,Save and restore context array"
line.long 0x50C "UHH_SAR_CNTX_i_323,Save and restore context array"
line.long 0x510 "UHH_SAR_CNTX_i_324,Save and restore context array"
line.long 0x514 "UHH_SAR_CNTX_i_325,Save and restore context array"
line.long 0x518 "UHH_SAR_CNTX_i_326,Save and restore context array"
line.long 0x51C "UHH_SAR_CNTX_i_327,Save and restore context array"
line.long 0x520 "UHH_SAR_CNTX_i_328,Save and restore context array"
line.long 0x524 "UHH_SAR_CNTX_i_329,Save and restore context array"
line.long 0x528 "UHH_SAR_CNTX_i_330,Save and restore context array"
line.long 0x52C "UHH_SAR_CNTX_i_331,Save and restore context array"
line.long 0x530 "UHH_SAR_CNTX_i_332,Save and restore context array"
line.long 0x534 "UHH_SAR_CNTX_i_333,Save and restore context array"
line.long 0x538 "UHH_SAR_CNTX_i_334,Save and restore context array"
line.long 0x53C "UHH_SAR_CNTX_i_335,Save and restore context array"
line.long 0x540 "UHH_SAR_CNTX_i_336,Save and restore context array"
line.long 0x544 "UHH_SAR_CNTX_i_337,Save and restore context array"
line.long 0x548 "UHH_SAR_CNTX_i_338,Save and restore context array"
line.long 0x54C "UHH_SAR_CNTX_i_339,Save and restore context array"
line.long 0x550 "UHH_SAR_CNTX_i_340,Save and restore context array"
line.long 0x554 "UHH_SAR_CNTX_i_341,Save and restore context array"
line.long 0x558 "UHH_SAR_CNTX_i_342,Save and restore context array"
line.long 0x55C "UHH_SAR_CNTX_i_343,Save and restore context array"
line.long 0x560 "UHH_SAR_CNTX_i_344,Save and restore context array"
line.long 0x564 "UHH_SAR_CNTX_i_345,Save and restore context array"
line.long 0x568 "UHH_SAR_CNTX_i_346,Save and restore context array"
line.long 0x56C "UHH_SAR_CNTX_i_347,Save and restore context array"
line.long 0x570 "UHH_SAR_CNTX_i_348,Save and restore context array"
line.long 0x574 "UHH_SAR_CNTX_i_349,Save and restore context array"
line.long 0x578 "UHH_SAR_CNTX_i_350,Save and restore context array"
line.long 0x57C "UHH_SAR_CNTX_i_351,Save and restore context array"
line.long 0x580 "UHH_SAR_CNTX_i_352,Save and restore context array"
line.long 0x584 "UHH_SAR_CNTX_i_353,Save and restore context array"
line.long 0x588 "UHH_SAR_CNTX_i_354,Save and restore context array"
line.long 0x58C "UHH_SAR_CNTX_i_355,Save and restore context array"
line.long 0x590 "UHH_SAR_CNTX_i_356,Save and restore context array"
line.long 0x594 "UHH_SAR_CNTX_i_357,Save and restore context array"
line.long 0x598 "UHH_SAR_CNTX_i_358,Save and restore context array"
line.long 0x59C "UHH_SAR_CNTX_i_359,Save and restore context array"
line.long 0x5A0 "UHH_SAR_CNTX_i_360,Save and restore context array"
line.long 0x5A4 "UHH_SAR_CNTX_i_361,Save and restore context array"
line.long 0x5A8 "UHH_SAR_CNTX_i_362,Save and restore context array"
line.long 0x5AC "UHH_SAR_CNTX_i_363,Save and restore context array"
line.long 0x5B0 "UHH_SAR_CNTX_i_364,Save and restore context array"
line.long 0x5B4 "UHH_SAR_CNTX_i_365,Save and restore context array"
line.long 0x5B8 "UHH_SAR_CNTX_i_366,Save and restore context array"
line.long 0x5BC "UHH_SAR_CNTX_i_367,Save and restore context array"
line.long 0x5C0 "UHH_SAR_CNTX_i_368,Save and restore context array"
line.long 0x5C4 "UHH_SAR_CNTX_i_369,Save and restore context array"
line.long 0x5C8 "UHH_SAR_CNTX_i_370,Save and restore context array"
line.long 0x5CC "UHH_SAR_CNTX_i_371,Save and restore context array"
line.long 0x5D0 "UHH_SAR_CNTX_i_372,Save and restore context array"
line.long 0x5D4 "UHH_SAR_CNTX_i_373,Save and restore context array"
line.long 0x5D8 "UHH_SAR_CNTX_i_374,Save and restore context array"
line.long 0x5DC "UHH_SAR_CNTX_i_375,Save and restore context array"
line.long 0x5E0 "UHH_SAR_CNTX_i_376,Save and restore context array"
line.long 0x5E4 "UHH_SAR_CNTX_i_377,Save and restore context array"
line.long 0x5E8 "UHH_SAR_CNTX_i_378,Save and restore context array"
line.long 0x5EC "UHH_SAR_CNTX_i_379,Save and restore context array"
line.long 0x5F0 "UHH_SAR_CNTX_i_380,Save and restore context array"
line.long 0x5F4 "UHH_SAR_CNTX_i_381,Save and restore context array"
line.long 0x5F8 "UHH_SAR_CNTX_i_382,Save and restore context array"
line.long 0x5FC "UHH_SAR_CNTX_i_383,Save and restore context array"
tree.end
group.long 0x44++0x03
line.long 0x00 "UHH_DEBUG_CSR,Debug control and status for the EHCI. OHCI hosts"
rbitfld.long 0x00 18. "OHCI_CCS_2,Current connect status of port" "OHCI_CCS_2_0_r,OHCI_CCS_2_1_r"
rbitfld.long 0x00 17. "OHCI_CCS_1,Current connect status of port" "OHCI_CCS_1_0_r,OHCI_CCS_1_1_r"
rbitfld.long 0x00 16. "OHCI_GLOBALSUSPEND,OHCI global suspend status asserted 5 ms after the suspend order" "OHCI_GLOBALSUSPEND_0_r,OHCI_GLOBALSUSPEND_1_r"
newline
bitfld.long 0x00 7. "OCHI_CNTSEL,Selection of a shorter '1 ms' counter in OHCI host to speed up long USB phases such as reset resume etc" "OCHI_CNTSEL_0,OCHI_CNTSEL_1"
bitfld.long 0x00 6. "EHCI_SIMULATION_MODE,Sets the PHY to nondriving mode (used only for simulation)" "EHCI_SIMULATION_MODE_0,EHCI_SIMULATION_MODE_1"
bitfld.long 0x00 0.--5. "EHCI_FLADJ,EHCI host frame length adjust" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x40++0x03
line.long 0x00 "UHH_HOSTCONFIG,Static configuration of the USB HS host"
bitfld.long 0x00 31. "APP_START_CLK,When the OHCI clocks are suspended the system must assert this signal to start the clocks (12 and 48 MHz)" "0,1"
bitfld.long 0x00 18.--19. "P2_MODE,Port 2 interface configuration" "ulpi_bypass Bit,hsic_en,?..."
bitfld.long 0x00 16.--17. "P1_MODE,Port 1 interface configuration" "ulpi_bypass Bit,hsic_en,?..."
newline
rbitfld.long 0x00 9. "P2_CONNECT_STATUS,Connection status for port" "P2_CONNECT_STATUS_0_r,P2_CONNECT_STATUS_1_r"
rbitfld.long 0x00 8. "P1_CONNECT_STATUS,Connection status for port" "P1_CONNECT_STATUS_0_r,P1_CONNECT_STATUS_1_r"
bitfld.long 0x00 5. "ENA_INCR_ALIGN,Force alignment of bursts to the respective burst-size boundaries" "ENA_INCR_ALIGN_0,ENA_INCR_ALIGN_1"
newline
bitfld.long 0x00 4. "ENA_INCR16,Control the use of INCR16-type bursts (in AHB sense)" "ENA_INCR16_0,ENA_INCR16_1"
bitfld.long 0x00 3. "ENA_INCR8,Control the use of INCR8-type bursts (in AHB sense)" "ENA_INCR8_0,ENA_INCR8_1"
bitfld.long 0x00 2. "ENA_INCR4,Control the use of INCR4-type bursts (in AHB sense)" "ENA_INCR4_0,ENA_INCR4_1"
newline
bitfld.long 0x00 1. "AUTOPPD_ON_OVERCUR_EN,Configure reaction upon port overcurrent condition" "AUTOPPD_ON_OVERCUR_EN_0,AUTOPPD_ON_OVERCUR_EN_1"
rgroup.long 0x04++0x03
line.long 0x00 "UHH_HWINFO,Information on host hardware configuration"
hexmask.long.word 0x00 0.--9. 1. "SAR_CNTX_SIZE,Save-and-restore context size in 32-bit words; that is number of 32-bit registers with significant context information mapped from offset 0x100 upward"
rgroup.long 0x00++0x03
line.long 0x00 "UHH_REVISION,USB high-speed host (UHH) revision identifier (X.Y.R) Used by software to track features. bugs. and compatibility"
group.long 0x10++0x07
line.long 0x00 "UHH_SYSCONFIG,OCP standard system configuration register"
bitfld.long 0x00 4.--5. "STANDBYMODE,Mstandby/Mwait/[Mwakeup] initiator power-management interface configuration" "STANDBYMODE_0,STANDBYMODE_1,STANDBYMODE_2,STANDBYMODE_3"
bitfld.long 0x00 2.--3. "IDLEMODE,Sidlereq/Sidleack(1:0)/[Swakeup] target power management interface configuration" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 0. "SOFTRESET,Module software reset" "SOFTRESET_0_w,SOFTRESET_1_r"
line.long 0x04 "UHH_SYSSTATUS,Module-specific system status"
bitfld.long 0x04 2. "EHCI_RESETDONE,Indicates when the EHCI HS host is out of reset" "EHCI_RESETDONE_0_r,EHCI_RESETDONE_1_r"
bitfld.long 0x04 1. "OHCI_RESETDONE,Indicates when the OHCI FS/LS host is out of reset" "OHCI_RESETDONE_0_r,OHCI_RESETDONE_1_r"
tree.end
tree "OHCI"
base ansd:0x4A064800
rgroup.long 0x00++0x5B
line.long 0x00 "HCREVISION,OHCI revision number"
hexmask.long.byte 0x00 0.--7. 1. "REV,OHCI specification revision the OHCI revision number upon which the USB host controller is based"
line.long 0x04 "HCCONTROL,HC operating mode register"
bitfld.long 0x04 10. "RWE,Remote wake-up enable - This bit is used to enable or disable the remote wakeup feature upon detection of upstream resume signaling" "RWE_0,RWE_1"
bitfld.long 0x04 9. "RWC,Remote wake-up connected" "RWC_0,RWC_1"
newline
bitfld.long 0x04 8. "IR,Interrupt routing - This bit determines the routing of interrupts generated by events registered in" "IR_0,IR_1"
bitfld.long 0x04 6.--7. "HCFS,Host controller functional state" "HCFS_0,HCFS_1,HCFS_2,HCFS_3"
newline
bitfld.long 0x04 5. "BLE,Bulk list processing enable" "BLE_0,BLE_1"
bitfld.long 0x04 4. "CLE,Control list processing enable" "CLE_0,CLE_1"
newline
bitfld.long 0x04 3. "IE,Isochronous ED processing enabled by host controller driver" "IE_0,IE_1"
bitfld.long 0x04 2. "PLE,Periodic list enable" "PLE_0,PLE_1"
newline
bitfld.long 0x04 0.--1. "CBSR,Control/bulk service ratio" "CBSR_0,CBSR_1,CBSR_2,CBSR_3"
line.long 0x08 "HCCOMMANDSTATUS,HC command and status"
rbitfld.long 0x08 16.--17. "SOC,Scheduling overrun count - This is used to monitor any persistent scheduling problems" "SOC_0,SOC_1,SOC_2,SOC_3"
bitfld.long 0x08 3. "OCR,Ownership change request" "OCR_0,OCR_1"
newline
bitfld.long 0x08 2. "BLF,Bulk list filled - This bit is used to indicate whether there are any TDs on the bulk list" "BLF_0,BLF_1"
bitfld.long 0x08 1. "CLF,Control list filled - This bit is used to indicate whether there are any TDs on the control list" "CLF_0,CLF_1"
newline
bitfld.long 0x08 0. "HCR,Host controller reset (software reset)" "HCR_0,HCR_1"
line.long 0x0C "HCINTERRUPTSTATUS,HC interrupt status"
rbitfld.long 0x0C 30. "OC,Ownership" "OC_0_w,OC_1_w"
bitfld.long 0x0C 6. "RHSC,Root hub status change" "No effect,Clears this bit"
newline
bitfld.long 0x0C 5. "FNO,Frame number overflow" "No effect,Clears this bit"
bitfld.long 0x0C 4. "UE,Unrecoverable error" "No effect,Clears this bit"
newline
bitfld.long 0x0C 3. "RD,Resume detected" "No effect,Clears this bit"
bitfld.long 0x0C 2. "SF,Start of frame" "No effect,Clears this bit"
newline
bitfld.long 0x0C 1. "WDH,Write done head" "No effect,Clears this bit"
bitfld.long 0x0C 0. "SO,Scheduling overrun" "No effect,Clears this bit"
line.long 0x10 "HCINTERRUPTENABLE,HC interrupt enable"
bitfld.long 0x10 31. "MIE,Master interrupt enable" "No effect,Sets this bit"
bitfld.long 0x10 30. "OC,Ownership" "OC_0_w,OC_1_w"
newline
bitfld.long 0x10 6. "RHSC,Root hub status change When 0x1 and MIE is" "No effect,Sets this bit"
bitfld.long 0x10 5. "FNO,Frame number overflow When 0x1 and MIE is" "No effect,Sets this bit"
newline
bitfld.long 0x10 4. "UE,Unrecoverable error When 0x1 and MIE is" "No effect,Sets this bit"
bitfld.long 0x10 3. "RD,Resume detected When 0x1 and MIE is" "No effect,Sets this bit"
newline
bitfld.long 0x10 2. "SF,Start of frame When 0x1 and MIE is" "No effect,Sets this bit"
bitfld.long 0x10 1. "WDH,Write done head When 0x1 and MIE is" "No effect,Sets this bit"
newline
bitfld.long 0x10 0. "SO,Scheduling overrun When 0x1 and MIE is" "No effect,Sets this bit"
line.long 0x14 "HCINTERRUPTDISABLE,HC interrupt disable"
bitfld.long 0x14 31. "MIE,Master interrupt enable Always reads 0x0" "No effect,Clears the HCINTERRUPTENABLE MIE bit"
bitfld.long 0x14 30. "OC,Ownership change" "OC_0_w,OC_1_w"
newline
bitfld.long 0x14 6. "RHSC,Root hub status change Always reads 0x0" "No effect,Clears the HCINTERRUPTENABLE RHSC bit"
bitfld.long 0x14 5. "FNO,Frame number overflow Always reads 0x0" "No effect,Clears the HCINTERRUPTENABLE FNO bit"
newline
bitfld.long 0x14 4. "UE,Unrecoverable error Always reads 0x0" "No effect,Clears the HCINTERRUPTENABLE UE bit"
bitfld.long 0x14 3. "RD,Resume detected Always reads 0x0" "No effect,Clears the HCINTERRUPTENABLE RD bit"
newline
bitfld.long 0x14 2. "SF,Start of frame Always reads 0x0" "No effect,Clears the HCINTERRUPTENABLE SF bit"
bitfld.long 0x14 1. "WDH,Write done head Always reads 0x0" "No effect,Clears the HCINTERRUPTENABLE WDH bit"
newline
bitfld.long 0x14 0. "SO,Scheduling overrun Always reads 0x0" "No effect,Clears the HCINTERRUPTENABLE SO bit"
line.long 0x18 "HCHCCA,HC HCCA address register"
hexmask.long.tbyte 0x18 8.--31. 1. "HCCA,Physical address of the beginning of the HCCA"
line.long 0x1C "HCPERIODCURRENTED,HC current periodic register"
hexmask.long 0x1C 4.--31. 1. "PCED,Physical address of current ED on the periodic ED list"
line.long 0x20 "HCCONTROLHEADED,HC head control register"
hexmask.long 0x20 4.--31. 1. "CHED,Physical address of head ED on the control ED list"
line.long 0x24 "HCCONTROLCURRENTED,HC current control register"
hexmask.long 0x24 4.--31. 1. "CCED,Physical address of current ED on the control ED list"
line.long 0x28 "HCBULKHEADED,HC head bulk register"
hexmask.long 0x28 4.--31. 1. "BHED,Physical address of head ED on the bulk ED list"
line.long 0x2C "HCBULKCURRENTED,HC current bulk register"
hexmask.long 0x2C 4.--31. 1. "BCED,Physical address of current ED on the bulk ED list"
line.long 0x30 "HCDONEHEAD,HC head done register"
hexmask.long 0x30 4.--31. 1. "DH,Physical address of last TD that was added to the Done queue"
line.long 0x34 "HCFMINTERVAL,HC frame interval register"
bitfld.long 0x34 31. "FIT,Frame interval toggle - This bit is toggled whenever it loads a new value to FI" "FIT_0,FIT_1"
hexmask.long.word 0x34 16.--30. 1. "FSMPS,Largest data packet size for full-speed packets bit times - This field specifies a value which is loaded into the largest data packet counter at the beginning of each frame"
newline
hexmask.long.word 0x34 0.--13. 1. "FI,Frame interval"
line.long 0x38 "HCFMREMAINING,HC frame remaining register"
bitfld.long 0x38 31. "FRT,Frame remaining toggleThis bit is used for the synchronization between[13:0] FI and FR" "FRT_0,FRT_1"
hexmask.long.word 0x38 0.--13. 1. "FR,Frame remainingThis counter is decremented at each bit time"
line.long 0x3C "HCFMNUMBER,HC frame number register"
hexmask.long.word 0x3C 0.--15. 1. "FN,Frame number - This is incremented when is reloaded"
line.long 0x40 "HCPERIODICSTART,HC periodic start register"
hexmask.long.word 0x40 0.--13. 1. "PS,Periodic start"
line.long 0x44 "HCLSTHRESHOLD,HC low-speed threshold register"
hexmask.long.word 0x44 0.--11. 1. "LST,Low-speed threshold"
line.long 0x48 "HCRHDESCRIPTORA,HC root hub A register"
hexmask.long.byte 0x48 24.--31. 1. "POTPG,Power-on to power-good time"
bitfld.long 0x48 12. "NOCP,No overcurrent protection" "NOCP_0,NOCP_1"
newline
bitfld.long 0x48 11. "OCPM,Overcurrent protection mode" "OCPM_0,OCPM_1"
rbitfld.long 0x48 10. "DT,Device type Always reads" "DT_0,DT_1"
newline
bitfld.long 0x48 9. "NPS,No power switching" "NPS_0,NPS_1"
bitfld.long 0x48 8. "PSM,Power switching mode" "PSM_0,PSM_1"
newline
hexmask.long.byte 0x48 0.--7. 1. "NDP,Number of downstream ports These bits specify the number of downstream ports supported by the root hub"
line.long 0x4C "HCRHDESCRIPTORB,HC root hub B register"
abitfld.long 0x4C 16.--31. "PPCM,Port power control mask" "0x0000=Reserved bit,0x0001=Ganged-power mask on port 1,0x000F=Ganged-power mask on port 15"
abitfld.long 0x4C 0.--15. "DR,Device removable" "0x0000=Reserved bit,0x0001=Device attached to port 1,0x000F=Device attached to port 15"
line.long 0x50 "HCRHSTATUS,HC root hub status register"
bitfld.long 0x50 31. "CRWE,Clear remote wakeup enable" "No effect,Clears the device remote wake-up enable bit"
bitfld.long 0x50 16. "LPSC,Local power status change Always reads" "No effect,Sets port power status bits for all ports.."
newline
bitfld.long 0x50 15. "DRWE,Device remote wake-up enable" "No effect,Sets the device remote wake-up enable bit"
bitfld.long 0x50 0. "LPS,Local power status Always reads 0x0" "No effect,When in global power mode (power switching.."
line.long 0x54 "HCRHPORTSTATUS_1,HC port 1 status and control register"
bitfld.long 0x54 20. "PRSC,Port 1 reset status change" "No effect,Clears this bit"
bitfld.long 0x54 18. "PSSC,Port 1 suspends status change" "PSSC_0_r,PSSC_1_w"
newline
bitfld.long 0x54 17. "PESC,Port 1 enable status change" "No effect,Clears this bit"
bitfld.long 0x54 16. "CSC,Port 1 connect status change" "No effect,Clears this bit If the HCRHDESCRIPTORB[1].."
newline
bitfld.long 0x54 9. "LSDA_CPP,Port 1 low-speed device attached/clear port power" "No effect,Clears the port 1 port power status"
bitfld.long 0x54 8. "PPS_SPP,Port 1 port power status/set port power" "No effect,Sets the port 1 port power status bit"
newline
bitfld.long 0x54 4. "PRS_SPR,Port 1 port reset status/set port reset" "No effect,Sets the port 1 port reset status bit and.."
bitfld.long 0x54 2. "PSS_SPS,Port 1 port suspend status/set port suspend" "Port 1 is not in the USB suspend state,If port 1 current connect status is 1 sets the.."
newline
bitfld.long 0x54 1. "PES_SPE,Port 1 port enable status/set port enable" "No effect,When port 1 current connect status is 1.."
bitfld.long 0x54 0. "CCS_CPE,Port 1 current connection status/clear port enable" "No effect,Clears the port 1 port enable bit"
line.long 0x58 "HCRHPORTSTATUS_2,HC port 2 status and control register"
bitfld.long 0x58 20. "PRSC,Port 2 reset status change" "No effect,Clears this bit"
bitfld.long 0x58 18. "PSSC,Port 2 suspend status change" "PSSC_0_r,PSSC_1_w"
newline
bitfld.long 0x58 17. "PESC,Port 2 enable status change" "No effect,Clears this bit"
bitfld.long 0x58 16. "CSC,Port 2 connect status change" "No effect,Clears this bit If the HCRHDESCRIPTORB[1].."
newline
bitfld.long 0x58 9. "LSDA_CPP,Port 2 low-speed device attached/clear port power" "No effect,Clears the port 2 port power status"
bitfld.long 0x58 8. "PPS_SPP,Port 2 port power status/set port power" "No effect,Sets the port 2 port power status bit"
newline
bitfld.long 0x58 4. "PRS_SPR,Port 2 port reset status/set port reset" "No effect,Sets the port 2 port reset status bit and.."
bitfld.long 0x58 2. "PSS_SPS,Port 2 port suspend status/set port suspend" "Port 2 is not in the USB suspend state,If port 2 current connect status is 1 sets the.."
newline
bitfld.long 0x58 1. "PES_SPE,Port 2 port enable status/set port enable" "No effect,When port 2 current connect status is 1.."
bitfld.long 0x58 0. "CCS_CPE,Port 2 current connection status/clear port enable" "No effect,Clears the port 2 port enable bit This bit.."
tree.end
tree "USBTLLHS_config"
base ansd:0x4A062000
tree "Channel_0"
group.long 0x40++0x03
line.long 0x00 "TLL_CHANNEL_CONF_i_0,Control and Status register for channel i"
rbitfld.long 0x00 28.--29. "FSLSLINESTATE,Line state for Full/low speed serial modes Bit" "FSLSLINESTATE_0_r,FSLSLINESTATE_1_r,FSLSLINESTATE_2_r,FSLSLINESTATE_3_r"
bitfld.long 0x00 24.--27. "FSLSMODE,Multiple-mode serial interface's mode select" "FSLSMODE_0,FSLSMODE_1,FSLSMODE_2,FSLSMODE_3,FSLSMODE_4,FSLSMODE_5,FSLSMODE_6,FSLSMODE_7,?,?,FSLSMODE_10,FSLSMODE_11,?,?,?,?"
bitfld.long 0x00 20. "TESTTXSE0,Force-Se0 transmit override value for serial mode test Don't care if TestEn = 0 (functional mode) or = TestTxen = 1 (TX = hiz)" "TESTTXSE0_0,TESTTXSE0_1"
bitfld.long 0x00 19. "TESTTXDAT,Differential data transmit override value for serial mode test Don't care if TestEn = 0 (functional mode) or = TestTxen = 1 (TX = hiz) or TestSe0 = 1 (TX = se0)" "TESTTXDAT_0,TESTTXDAT_1"
newline
bitfld.long 0x00 18. "TESTTXEN,Differential data transmit override value for serial mode test Don't care if TestEn = 0 (functional mode)" "TESTTXEN_0,TESTTXEN_1"
bitfld.long 0x00 17. "TESTEN,Enable manual test override for serial mode TX path (from local controller UTMI port)" "TESTEN_0,TESTEN_1"
bitfld.long 0x00 16. "DRVVBUS,VBUS-drive for" "DRVVBUS_0,DRVVBUS_1"
bitfld.long 0x00 15. "CHRGVBUS,VBUS-drive for" "CHRGVBUS_0,CHRGVBUS_1"
newline
bitfld.long 0x00 11. "ULPINOBITSTUFF,Disable bitstuff emulation in ULPI TLL for ULPI" "ULPINOBITSTUFF_0,ULPINOBITSTUFF_1"
bitfld.long 0x00 10. "ULPIAUTOIDLE,For" "ULPIAUTOIDLE_0,ULPIAUTOIDLE_1"
bitfld.long 0x00 9. "UTMIAUTOIDLE,For" "UTMIAUTOIDLE_0,UTMIAUTOIDLE_1"
bitfld.long 0x00 7. "ULPIOUTCLKMODE,ULPI clocking mode select for ULPI TLL ChanMode" "?,ULPIOUTCLKMODE_1_r"
newline
bitfld.long 0x00 6. "TLLFULLSPEED,Sets PHY speed emulation in TLL (full/slow) which determines the line to pull up upon connect" "TLLFULLSPEED_0,TLLFULLSPEED_1"
bitfld.long 0x00 5. "TLLCONNECT,Emulation of Full/Low-Speed connect (that is D+ resp D- pullup) for serial TLL modes" "TLLCONNECT_0,TLLCONNECT_1"
bitfld.long 0x00 4. "TLLATTACH,Emulates cable attach/detach for all serial TLL modes: *" "TLLATTACH_0,TLLATTACH_1"
bitfld.long 0x00 3. "UTMIISADEV,Select the cable end 'seen' by UTMI side of TLL i.e" "UTMIISADEV_0,UTMIISADEV_1"
newline
bitfld.long 0x00 1.--2. "CHANMODE,Main channel mode selection" "CHANMODE_0,CHANMODE_1,CHANMODE_2,CHANMODE_3"
bitfld.long 0x00 0. "CHANEN,Active-high channel enable" "CHANEN_0,CHANEN_1"
group.long 0x400++0x03
line.long 0x00 "USBTLL_SAR_CNTX_j_0,Save and Restore context array"
tree.end
tree "Channel_1"
group.long 0x44++0x03
line.long 0x00 "TLL_CHANNEL_CONF_i_1,Control and Status register for channel i"
rbitfld.long 0x00 28.--29. "FSLSLINESTATE,Line state for Full/low speed serial modes Bit" "FSLSLINESTATE_0_r,FSLSLINESTATE_1_r,FSLSLINESTATE_2_r,FSLSLINESTATE_3_r"
bitfld.long 0x00 24.--27. "FSLSMODE,Multiple-mode serial interface's mode select" "FSLSMODE_0,FSLSMODE_1,FSLSMODE_2,FSLSMODE_3,FSLSMODE_4,FSLSMODE_5,FSLSMODE_6,FSLSMODE_7,?,?,FSLSMODE_10,FSLSMODE_11,?,?,?,?"
bitfld.long 0x00 20. "TESTTXSE0,Force-Se0 transmit override value for serial mode test Don't care if TestEn = 0 (functional mode) or = TestTxen = 1 (TX = hiz)" "TESTTXSE0_0,TESTTXSE0_1"
bitfld.long 0x00 19. "TESTTXDAT,Differential data transmit override value for serial mode test Don't care if TestEn = 0 (functional mode) or = TestTxen = 1 (TX = hiz) or TestSe0 = 1 (TX = se0)" "TESTTXDAT_0,TESTTXDAT_1"
newline
bitfld.long 0x00 18. "TESTTXEN,Differential data transmit override value for serial mode test Don't care if TestEn = 0 (functional mode)" "TESTTXEN_0,TESTTXEN_1"
bitfld.long 0x00 17. "TESTEN,Enable manual test override for serial mode TX path (from local controller UTMI port)" "TESTEN_0,TESTEN_1"
bitfld.long 0x00 16. "DRVVBUS,VBUS-drive for" "DRVVBUS_0,DRVVBUS_1"
bitfld.long 0x00 15. "CHRGVBUS,VBUS-drive for" "CHRGVBUS_0,CHRGVBUS_1"
newline
bitfld.long 0x00 11. "ULPINOBITSTUFF,Disable bitstuff emulation in ULPI TLL for ULPI" "ULPINOBITSTUFF_0,ULPINOBITSTUFF_1"
bitfld.long 0x00 10. "ULPIAUTOIDLE,For" "ULPIAUTOIDLE_0,ULPIAUTOIDLE_1"
bitfld.long 0x00 9. "UTMIAUTOIDLE,For" "UTMIAUTOIDLE_0,UTMIAUTOIDLE_1"
bitfld.long 0x00 7. "ULPIOUTCLKMODE,ULPI clocking mode select for ULPI TLL ChanMode" "?,ULPIOUTCLKMODE_1_r"
newline
bitfld.long 0x00 6. "TLLFULLSPEED,Sets PHY speed emulation in TLL (full/slow) which determines the line to pull up upon connect" "TLLFULLSPEED_0,TLLFULLSPEED_1"
bitfld.long 0x00 5. "TLLCONNECT,Emulation of Full/Low-Speed connect (that is D+ resp D- pullup) for serial TLL modes" "TLLCONNECT_0,TLLCONNECT_1"
bitfld.long 0x00 4. "TLLATTACH,Emulates cable attach/detach for all serial TLL modes: *" "TLLATTACH_0,TLLATTACH_1"
bitfld.long 0x00 3. "UTMIISADEV,Select the cable end 'seen' by UTMI side of TLL i.e" "UTMIISADEV_0,UTMIISADEV_1"
newline
bitfld.long 0x00 1.--2. "CHANMODE,Main channel mode selection" "CHANMODE_0,CHANMODE_1,CHANMODE_2,CHANMODE_3"
bitfld.long 0x00 0. "CHANEN,Active-high channel enable" "CHANEN_0,CHANEN_1"
group.long 0x404++0x17
line.long 0x00 "USBTLL_SAR_CNTX_j_1,Save and Restore context array"
line.long 0x04 "USBTLL_SAR_CNTX_j_2,Save and Restore context array"
line.long 0x08 "USBTLL_SAR_CNTX_j_3,Save and Restore context array"
line.long 0x0C "USBTLL_SAR_CNTX_j_4,Save and Restore context array"
line.long 0x10 "USBTLL_SAR_CNTX_j_5,Save and Restore context array"
line.long 0x14 "USBTLL_SAR_CNTX_j_6,Save and Restore context array"
tree.end
group.long 0x30++0x03
line.long 0x00 "TLL_SHARED_CONF,Common control register for all TLL channels"
rbitfld.long 0x00 1. "FCLK_REQ,Functional clock request ORed from all channels depending on their respective USB bus state" "FCLK_REQ_0,FCLK_REQ_1"
bitfld.long 0x00 0. "FCLK_IS_ON,Status of the functional clock input provided by the system to the TLL module" "FCLK_IS_ON_0,FCLK_IS_ON_1"
rgroup.long 0x04++0x03
line.long 0x00 "USBTLL_HWINFO,Information on hardware configuration of host"
hexmask.long.byte 0x00 0.--7. 1. "SAR_CNTX_SIZE,Save-and-Restore context size in 32-bit words i.e"
group.long 0x1C++0x03
line.long 0x00 "USBTLL_IRQENABLE,OCP standard IRQ enable vector"
bitfld.long 0x00 2. "ACCESS_ERROR_EN,Enable IRQ generation upon access error to ULPI register over L3 interconnect" "ACCESS_ERROR_EN_0,ACCESS_ERROR_EN_1"
bitfld.long 0x00 1. "FCLK_END_EN,IRQ event mask for FCLK_END interrupt (seeUSBTLL_IRQSTATUS[1])" "FCLK_END_EN_0,FCLK_END_EN_1"
bitfld.long 0x00 0. "FCLK_START_EN,IRQ event mask for FCLK_START interrupt (seeUSBTLL_IRQSTATUS[0])" "FCLK_START_EN_0,FCLK_START_EN_1"
group.long 0x18++0x03
line.long 0x00 "USBTLL_IRQSTATUS,OCP standard IRQ status vector"
bitfld.long 0x00 2. "ACCESS_ERROR,Access error to ULPI register over OCP: USB clock must run for that type of access to succeed" "ACCESS_ERROR_0,ACCESS_ERROR_1"
bitfld.long 0x00 1. "FCLK_END,Functional clock is no longer requested for USB clocking" "FCLK_END_0,FCLK_END_1"
bitfld.long 0x00 0. "FCLK_START,Functional clock is requested for USB clocking" "FCLK_START_0,FCLK_START_1"
rgroup.long 0x00++0x03
line.long 0x00 "USBTLL_REVISION,OCP standard revision number. BCD encoded"
group.long 0x10++0x07
line.long 0x00 "USBTLL_SYSCONFIG,OCP standard system configuration register"
bitfld.long 0x00 8. "CLOCKACTIVITY,Enable autogating of OCP-derived internal clocks while module is idle" "CLOCKACTIVITY_0,CLOCKACTIVITY_1"
bitfld.long 0x00 3.--4. "SIDLEMODE,Slave interface power management control" "SIDLEMODE_0,SIDLEMODE_1,SIDLEMODE_2,?"
bitfld.long 0x00 2. "ENAWAKEUP,Asynchronous wake-up generation control (Swakeup)" "ENAWAKEUP_0,ENAWAKEUP_1"
bitfld.long 0x00 1. "SOFTRESET,Module software reset" "SOFTRESET_0_w,SOFTRESET_1_w"
newline
bitfld.long 0x00 0. "AUTOIDLE,Internal autogating control" "AUTOIDLE_0,AUTOIDLE_1"
line.long 0x04 "USBTLL_SYSSTATUS,OCP standard system status register"
bitfld.long 0x04 0. "RESETDONE,Indicates when the module has entirely come out of reset" "RESETDONE_0_r,RESETDONE_1_r"
tree.end
tree.end
tree "High_Speed_USB_OTG_Controller"
tree "HSUSBOTG"
base ansd:0x4A0AB000
hgroup.long 0x400++0x03
hide.long 0x00 "OTG_REVISION,OCP standard USB OTG HS core revision number"
group.long 0x404++0x17
line.long 0x00 "OTG_SYSCONFIG,OCP standard configuration"
bitfld.long 0x00 12.--13. "MIDLEMODE,Master interface power management control" "MIDLEMODE_0,MIDLEMODE_1,MIDLEMODE_2,?"
bitfld.long 0x00 3.--4. "SIDLEMODE,Slave interface power management control" "SIDLEMODE_0,SIDLEMODE_1,SIDLEMODE_2,SIDLEMODE_3"
bitfld.long 0x00 2. "ENABLEWAKEUP,Enable wakeup capability" "ENABLEWAKEUP_0,ENABLEWAKEUP_1"
bitfld.long 0x00 1. "SOFTRESET,Software reset bit" "?,SOFTRESET_1"
bitfld.long 0x00 0. "AUTOIDLE,Autoidle bit" "AUTOIDLE_0,AUTOIDLE_1"
line.long 0x04 "OTG_SYSSTATUS,OCP standard status"
bitfld.long 0x04 0. "RESETDONE,Reset done" "RESETDONE_0_r,RESETDONE_1_r"
line.long 0x08 "OTG_INTERFSEL,USB OTG HS interface selection"
bitfld.long 0x08 0.--2. "PHYSEL,PHY interface selection" "PHYSEL_0,PHYSEL_1,PHYSEL_2,?,?,?,?,?"
line.long 0x0C "OTG_SIMENABLE,Enable simulation acceleration features"
bitfld.long 0x0C 0. "TM1,Test Mode 1 enabling (timer shortcuts)" "0,1"
line.long 0x10 "OTG_FORCESTDBY,Enabling MSTANDBY in FORCESTANDBY mode"
bitfld.long 0x10 0. "ENABLEFORCE,Enabling MSTANDBY to go high" "0,1"
line.long 0x14 "OTG_BIGENDIAN,Enable BIG ENDIANESS for OCP MASTER"
bitfld.long 0x14 0. "BIG_ENDIAN,Enable BIG ENDIAN in OCP MASTER" "0,1"
tree.end
tree "OCP2SCP"
base ansd:0x4A0AD000
rgroup.long 0x00++0x03
line.long 0x00 "OCP2SCP_REVISION,IP revision identifier"
group.long 0x10++0x0B
line.long 0x00 "OCP2SCP_SYSCONFIG,System configuration register"
bitfld.long 0x00 3.--4. "IDLEMODE,Module power management control" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 1. "SOFTRESET,Software reset" "SOFTRESET_0,SOFTRESET_1"
bitfld.long 0x00 0. "AUTOIDLE,OCP clock-gating control" "AUTOIDLE_0,AUTOIDLE_1"
line.long 0x04 "OCP2SCP_SYSSTATUS,System status register"
bitfld.long 0x04 0. "RESETDONE," "?,RESETDONE_1"
line.long 0x08 "OCP2SCP_TIMING,Timing configuration register"
bitfld.long 0x08 7.--9. "DIVISIONRATIO,Division ratio of the SCP clock in relation to the OCP input clock" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 4.--6. "SYNC1,Number of SCP clock cycles defining SYNC1 delay" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0.--3. "SYNC2,Number of SCP clock cycles defining the SYNC2 delay" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "USBPHY"
base ansd:0x4A0AD080
group.long 0x00++0x57
line.long 0x00 "USBPHY_TERMINATION_CONTROL,Contains bits related to control of terminations in USBPHY"
bitfld.long 0x00 29. "ALWAYS_UPDATE,When set to 1 the calibration code is updated immediately after a code computation without waiting for idle periods" "0,1"
rbitfld.long 0x00 28. "RTERM_CAL_DONE,Rterm calibration is done" "0,1"
newline
bitfld.long 0x00 24.--27. "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. "USE_RTERM_RMX_REG,Override termination resistor trim code with RTERM_RMX from this register" "0,1"
newline
hexmask.long.byte 0x00 14.--20. 1. "RTERM_RMX,When read this field returns the current Termination resistor trim code"
bitfld.long 0x00 11.--13. "HS_CODE_SEL,HS Code selection control" "0,1,2,3,4,5,6,7"
newline
rbitfld.long 0x00 10. "RTERM_COMP_OUT,Master loop comparator output" "0,1"
bitfld.long 0x00 9. "RESTART_RTERM_CAL,Restart the rterm calibration" "0,1"
newline
bitfld.long 0x00 8. "DISABLE_TEMP_TRACK,Disables the temperature tracking function of the termination calibration" "0,1"
bitfld.long 0x00 7. "USE_RTERM_CAL_REG,When 1 the rterm cal code is overridden by values in RTERM_CAL" "0,1"
newline
hexmask.long.byte 0x00 0.--6. 1. "RTERM_CAL,When read this field returns the current rterm calibration code"
line.long 0x04 "USBPHY_RX_CALIB,Contains bits related to RX calibration"
bitfld.long 0x04 31. "RESTART_HSRX_CAL,Restart the HSRX calibration state machine when this bit goes from 0 to 1" "0,1"
bitfld.long 0x04 30. "USE_HS_OFF_REG,Override HS offset correction with HS_OFF_CODE when set to 1" "0,1"
newline
bitfld.long 0x04 24.--29. "HS_OFF_CODE,HS offset code this code is forced when bit 30 is 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"
rbitfld.long 0x04 23. "HSRX_COMP_OUT,The output of the HSRX comparator" "0,1"
newline
rbitfld.long 0x04 22. "HSRX_CAL_DONE,Signal that indicates that the HSRX calibration is done" "0,1"
bitfld.long 0x04 21. "USE_SQ_OFF_DAC1,Override Squelch offset DAC1 code when '1'" "0,1"
newline
bitfld.long 0x04 15.--20. "SQ_OFF_CODE_DAC1,When read returns current Sq offset code for DAC1 if VDDLDO is on" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x04 14. "USE_SQ_OFF_DAC2,Override Squelch offset DAC2 code when '1'" "0,1"
newline
bitfld.long 0x04 9.--13. "SQ_OFF_CODE_DAC2,When read returns current Sq offset code for DAC2 if VDDLDO is on" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x04 8. "USE_SQ_OFF_DAC3,Override Squelch offset DAC3 code when 1" "0,1"
newline
bitfld.long 0x04 3.--7. "SQ_OFF_CODE_DAC3,When read returns current Sq offset code for DAC3 if VDDLDO is on" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x04 2. "SQ_COMP_OUT,Sq comp output.Read value is valid only if VDDLDO is on" "0,1"
newline
rbitfld.long 0x04 1. "SQ_CAL_DONE,Sq calibration is done when this bit = 1" "0,1"
bitfld.long 0x04 0. "RESTART_SQ_CAL,The squelch calibration continuously goes through restart cycles when this bit is 1" "0,1"
line.long 0x08 "USBPHY_DLLHS_2,Second DLLHS control register"
hexmask.long.byte 0x08 24.--31. 1. "DLLHS_CNTRL_LDO,"
hexmask.long.byte 0x08 16.--23. 1. "DLLHS_STATUS_LDO,"
newline
bitfld.long 0x08 4. "LINESTATE_DEBOUNCE_EN,Enables the linestate debounce filter" "0,1"
bitfld.long 0x08 0.--3. "LINESTATE_DEBOUNCE_CNTL,Used for control of the linestate debounce filter when going from syncronous to async linestate" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x0C "USBPHY_RX_TEST_2,Second receiver test register"
bitfld.long 0x0C 31. "HSOSREVERSAL,Swaps the dataout from HSOS" "0,1"
bitfld.long 0x0C 30. "HSOSBITINVERSION,Inverts the HSOS bits" "0,1"
newline
bitfld.long 0x0C 29. "PHYCLKOUTINVERSION,This inverts the phase for the PHYCLKOUT" "0,1"
rbitfld.long 0x0C 28. "RXPIDERR,Flags if the RX data packet has PID error" "0,1"
newline
bitfld.long 0x0C 27. "USEINTDATAOUT,This will bypass the analog and will send data packet to controller incase of receiver (Faking the receive data)" "0,1"
hexmask.long.word 0x0C 11.--26. 1. "INTDATAOUTREG,This register will be loaded through OCP and this data will be given to the controller if USEINTDATAOUT is set to 1"
newline
hexmask.long.byte 0x0C 0.--7. 1. "CDR_TESTOUT,CDR debug bits"
line.long 0x10 "USBPHY_TX_TEST_CHRG_DET,TX test register and also charger detect register"
rbitfld.long 0x10 31. "TXSYNCERR,Sync error on TX data" "0,1"
hexmask.long.word 0x10 15.--30. 1. "UTMIDATATX,Stores Last 2 byte of transmit data coming from the controller"
newline
rbitfld.long 0x10 13. "TXPIDERR,Flags if the TX packet has PID error" "0,1"
bitfld.long 0x10 12. "USE_CHGDET_DPDMSW,Use bits 11:8 as override bits" "0,1"
newline
bitfld.long 0x10 11. "CHGDET_DPSW0EN,Overrides the same named A/D interface signal for the charger detect block" "0,1"
bitfld.long 0x10 10. "CHGDET_DPSW1EN,Overrides the same named A/D interface signal for the charger detect block" "0,1"
newline
bitfld.long 0x10 9. "CHGDET_DMSW0EN,Overrides the same named A/D interface signal for the charger detect block" "0,1"
bitfld.long 0x10 8. "CHGDET_DMSW1EN,Overrides the same named A/D interface signal for the charger detect block..Read value is valid only if VCHGLDO is on" "0,1"
newline
bitfld.long 0x10 6. "RDPPDCHGDETEN,When set to 1 connects a 15K (+/- 30%) pulldown resistor on DP" "0,1"
bitfld.long 0x10 5. "RDMPDCHGDETEN,When set to 1 connects a 15K (+/- 30%) pulldown resistor on DM" "0,1"
newline
bitfld.long 0x10 4. "RDPPUCHGDETEN,When set to 1 connects a 150K (+/- 30%) pullup resistor on DP" "0,1"
bitfld.long 0x10 3. "RDMPUCHGDETEN,When set to 1 connects a 150K (+/- 30%) pullup resistor on DM" "0,1"
newline
bitfld.long 0x10 2. "USE_CHG_DET_PU_REG,Use bits 4:3 from this register" "0,1"
bitfld.long 0x10 1. "USE_CHG_DET_PD_REG,Use bits 6:5 from this register" "0,1"
line.long 0x14 "USBPHY_CHRG_DET,This is the charger detect register"
bitfld.long 0x14 29. "USE_CHG_DET_REG,Use bits 28:24 and 18:17 from this register" "0,1"
bitfld.long 0x14 28. "DIS_CHG_DET,When read returns current value of charger detect input" "0,1"
newline
bitfld.long 0x14 27. "SRC_ON_DM,When read returns current value of charger detect input" "0,1"
bitfld.long 0x14 26. "SINK_ON_DP,When read returns current value of charger detect input" "0,1"
newline
bitfld.long 0x14 25. "CHG_DET_EXT_CTL,When read returns current value of charger detect input" "0,1"
bitfld.long 0x14 24. "RESTART_CHG_DET,Restart the charger detection protocol when this goes from 0 to 1" "0,1"
newline
rbitfld.long 0x14 23. "CHG_DET_DONE,Charger detect protocol has completed" "0,1"
rbitfld.long 0x14 22. "CHG_DETECTED,Same signal as CE pin" "0,1"
newline
rbitfld.long 0x14 21. "DATA_DET,Output of the data det comparator" "0,1"
bitfld.long 0x14 18. "CHG_ISINK_EN,When read returns current value of charger detect input" "0,1"
newline
bitfld.long 0x14 17. "CHG_VSRC_EN,When read returns current value of charger detect input" "0,1"
rbitfld.long 0x14 16. "COMP_DP,Comparator on the DP line value" "0,1"
newline
rbitfld.long 0x14 15. "COMP_DM,Comparator on the DM line value" "0,1"
bitfld.long 0x14 13.--14. "CHG_DET_OSC_CNTRL,Charger detect osc control" "0,1,2,3"
newline
bitfld.long 0x14 7.--12. "CHG_DET_TIMER,Charger detect timer control" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x14 3.--4. "CHG_DET_ICTRL,Charger detect current control" "0,1,2,3"
newline
bitfld.long 0x14 1.--2. "CHG_DET_VCTRL,Charger detect voltage buffer control" "0,1,2,3"
bitfld.long 0x14 0. "FOR_CE,Force CE = 1 when this bit is set" "0,1"
line.long 0x18 "USBPHY_PWR_CNTL,Includes all the power control bits"
rbitfld.long 0x18 31. "RESETDONETCLK,Goes high when the RESET is synchronized to TCLK" "0,1"
rbitfld.long 0x18 30. "RESET_DONE_VMAIN,Goes high when LDO domain is up PLL LOCK is available and utmi_reset is deasserted" "0,1"
newline
rbitfld.long 0x18 29. "VMAIN_GLOBAL_RESET_DONE,Goes high when LDO domain is up and PLL LOCK is available" "0,1"
rbitfld.long 0x18 28. "RESETDONEMCLK,Goes high when the RESET is synchronized to MCLK" "0,1"
newline
rbitfld.long 0x18 27. "RESETDONE_CHGDET,Goes high when the RESET is synchronized to charger detect oscillator clock domain" "0,1"
hexmask.long.word 0x18 12.--26. 1. "LDOPWRCOUNTER,This is the value of the counter used for LDO power up"
newline
bitfld.long 0x18 11. "FORCEPLLSLOWCLK,Forces the PLL to the slow clk mode" "0,1"
bitfld.long 0x18 10. "FORCELDOON,Forces the LDO to be ON" "0,1"
newline
bitfld.long 0x18 9. "FORCEPLLON,Forces the PLL to be ON" "0,1"
rbitfld.long 0x18 6. "PLLLOCK,Lock signal from the PLL" "0,1"
newline
bitfld.long 0x18 5. "USEPLLLOCK,This signal is used to indicate to the Phy not to do any clock related activity until PLLLOCK = 1.This is not the default option" "do not use PLLLOCK,use PLLLOCK as a clock gate"
bitfld.long 0x18 4. "USE_DATAPOLARITYN_REG," "0,1"
newline
bitfld.long 0x18 3. "DATAPOLARITYN,Override value of datapolarityn" "0,1"
bitfld.long 0x18 2. "USE_PD_REG,Use bit 1 from this register as PD override when set to 1" "0,1"
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bitfld.long 0x18 1. "PD,Override value for PD" "0,1"
line.long 0x1C "USBPHY_UTMI_INTERFACE_CNTL_1,register to override UTMI interface control pins"
bitfld.long 0x1C 31. "USEUTMIDATAREG,Use datain from UTMI interface register" "0,1"
hexmask.long.word 0x1C 15.--30. 1. "UTMIDATAIN,Override value for the UTMIDATAIN"
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bitfld.long 0x1C 13. "USEDATABUSREG,When set to 1 use bit 12 from register instead of interface" "0,1"
bitfld.long 0x1C 12. "DATABUS16OR8,Override value for UTMI signal DATABUS16OR8" "0,1"
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bitfld.long 0x1C 11. "USEOPMODEREG,When set to 1 use bits 10:9 from register instead of interface" "0,1"
bitfld.long 0x1C 9.--10. "OPMODE,Override value for UTMI signal OPMODE[1:0]" "0,1,2,3"
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bitfld.long 0x1C 8. "OVERRIDESUSRESET,Override the suspend and reset values" "0,1"
bitfld.long 0x1C 7. "SUSPENDM,Override value for UTMI signal SUSPENDM" "0,1"
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bitfld.long 0x1C 6. "UTMIRESET,Override value for UTMI signal UTMIRESET" "0,1"
bitfld.long 0x1C 5. "OVERRIDEXCVRSEL,When set to 1 use bits 4:3 from register instead of interface" "0,1"
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bitfld.long 0x1C 3.--4. "XCVRSEL,Override value for UTMI signal XCVRSEL[1:0]" "0,1,2,3"
bitfld.long 0x1C 2. "USETXVALIDREG,When set to 1 use bits 1:0 from register instead of interface" "0,1"
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bitfld.long 0x1C 1. "TXVALID,Override value for UTMI signal TXVALID" "0,1"
bitfld.long 0x1C 0. "TXVALIDH,Override value for UTMI signal TXVALIDH" "0,1"
line.long 0x20 "USBPHY_UTMI_INTERFACE_CNTL_2,UTMI interface override and observe register 2"
rbitfld.long 0x20 31. "RXRCV,Read for UTMI signal" "0,1"
rbitfld.long 0x20 30. "RXDP,Read for UTMI signal" "0,1"
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rbitfld.long 0x20 29. "RXDM,Read for UTMI signal" "0,1"
rbitfld.long 0x20 28. "HOSTDISCONNECT,Read for UTMI signal" "0,1"
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rbitfld.long 0x20 26.--27. "LINESTATE,Read for UTMI signal" "0,1,2,3"
rbitfld.long 0x20 25. "RXVALID,Read for UTMI signal" "0,1"
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rbitfld.long 0x20 24. "RXVALIDH,Read for UTMI signal" "0,1"
rbitfld.long 0x20 23. "RXACTIVE,Read for UTMI signal" "0,1"
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rbitfld.long 0x20 22. "RXERROR,Read for UTMI signal" "0,1"
rbitfld.long 0x20 21. "TXREADY,Read for UTMI signal" "0,1"
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rbitfld.long 0x20 20. "UTMIRESETDONE,Read for UTMIRESETDONE signal" "0,1"
bitfld.long 0x20 19. "USEBITSTUFFREG,When set to 1 use bits 18-17 from register instead of interface" "0,1"
newline
bitfld.long 0x20 18. "TXBITSTUFFENABLE,Override value for signal TXBITSTUFFENABLE" "0,1"
bitfld.long 0x20 17. "TXBITSTUFFENABLEH,Override value for pin TXBITSTUFFENABLE" "0,1"
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bitfld.long 0x20 16. "USETERMCONTROLREG,When set to 1 bits 15:13 from register are used instead of interface" "0,1"
bitfld.long 0x20 15. "TERMSEL,Override value for signal TERMSEL" "0,1"
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bitfld.long 0x20 14. "DPPULLDOWN,Override value for signal DPPULLDOWN" "0,1"
bitfld.long 0x20 13. "DMPULLDOWN,Override value for signal DMPULLDOWN" "0,1"
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bitfld.long 0x20 9. "USEREGSERIALMODE,When set to 1 use bits 8:5 from register instead of interface" "0,1"
bitfld.long 0x20 8. "TXSE0,Override value for signal TXSE0" "0,1"
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bitfld.long 0x20 7. "TXDAT,Override value for signal TXDAT" "0,1"
bitfld.long 0x20 6. "FSLSSERIALMODE,Override value for signal FSLSSERIALMODE" "0,1"
newline
bitfld.long 0x20 5. "TXENABLEN,Override value for signal TXENABLEN" "0,1"
bitfld.long 0x20 0. "SIG_BYPASS_SUSPENDMPULSE_INCR,If the suspend signal is asserted for a short time it is pulse-extended so that the sampling logic samples it reliably" "SIG_BYPASS_SUSPENDMPULSE_INCR_0,SIG_BYPASS_SUSPENDMPULSE_INCR_1"
line.long 0x24 "USBPHY_BIST,COntains bits related to the built in self test of the phy"
bitfld.long 0x24 31. "BIST_START,When set to 1 the BIST mode is started" "0,1"
bitfld.long 0x24 30. "REDUCED_SWING,When 1 the TX swing is reduced in BIST mode" "0,1"
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bitfld.long 0x24 29. "BIST_CRC_CALC_EN,Enables CRC calculation during BIST when set to 1" "0,1"
hexmask.long.word 0x24 20.--28. 1. "BIST_PKT_LENGTH,Address for which BIST to select"
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bitfld.long 0x24 19. "LOOPBACK_EN,Enables the loopback mode" "0,1"
bitfld.long 0x24 16.--18. "BIST_OP_PHASE_SEL,Selects which phase to use for data transmission during BIST" "0,1,2,3,4,5,6,7"
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bitfld.long 0x24 15. "SWEEP_EN,Enables freq sweep on CDR" "0,1"
bitfld.long 0x24 12.--14. "SWEEP_MODE,Selects the freq sweep mode" "0,1,2,3,4,5,6,7"
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rbitfld.long 0x24 11. "BIST_PASS,Indicates that the BIST has passed" "0,1"
rbitfld.long 0x24 10. "BIST_BUSY,Indicates that BIST is running" "0,1"
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bitfld.long 0x24 5.--6. "OP_CODE," "0,1,2,3"
bitfld.long 0x24 4. "RX_TEST_MODE," "0,1"
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bitfld.long 0x24 2. "INTER_PKT_DELAY_TEST," "0,1"
bitfld.long 0x24 1. "HS_ALL_ONES_TEST," "0,1"
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bitfld.long 0x24 0. "USE_BIST_TX_PHASES,When set to 1 bits 18:16 are activated for choosing the transmitting phase" "0,1"
line.long 0x28 "USBPHY_BIST_CRC,CRC code for BIST test"
line.long 0x2C "USBPHY_CDR_BIST2,clock data recovery register and BIST register 2"
bitfld.long 0x2C 31. "CDR_EXE_EN,CDR debug bits" "0,1"
bitfld.long 0x2C 28.--30. "CDR_EXE_MODE,CDR debug bits" "0,1,2,3,4,5,6,7"
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bitfld.long 0x2C 25.--27. "NUM_DECISIONS,CDR debug bits" "0,1,2,3,4,5,6,7"
bitfld.long 0x2C 6.--11. "BIST_START_ADDR," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x2C 0.--5. "BIST_END_ADDR," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
line.long 0x30 "USBPHY_GPIO,GPIO mode configurations and reads"
bitfld.long 0x30 31. "USEGPIOMODEREG,When set to 1 use bits 31:24 from this register instead of primary inputs" "0,1"
bitfld.long 0x30 30. "GPIOMODE,Overrides the corresponding primary input" "0,1"
newline
bitfld.long 0x30 29. "DPGPIOGZ,Overrides the corresponding primary input" "0,1"
bitfld.long 0x30 28. "DMGPIOGZ,Overrides the corresponding primary input" "0,1"
newline
bitfld.long 0x30 27. "DPGPIOA,Overrides the corresponding primary input" "0,1"
bitfld.long 0x30 26. "DMGPIOA,Overrides the corresponding primary input" "0,1"
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rbitfld.long 0x30 25. "DPGPIOY,The GPIO Y output is stored here" "0,1"
rbitfld.long 0x30 24. "DMGPIOY,The GPIO Y output is stored here" "0,1"
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bitfld.long 0x30 23. "GPIO1P8VCONFIG,Overrides the corresponding primary input" "0,1"
bitfld.long 0x30 20.--22. "GPIOCONFIG,Used for configuring the GPIOs" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x30 19. "DMGPIOPIPD,GPIO mode DM pull-down enabled" "0,1"
bitfld.long 0x30 18. "DPGPIOPIPD,GPIO mode DP pull-down enabled" "0,1"
line.long 0x34 "USBPHY_DLLHS,Bits for control and debug of the DLL inside the USBPHY"
rbitfld.long 0x34 28. "DLLHS_LOCK,Read the AFE output by this name" "0,1"
rbitfld.long 0x34 22.--27. "DLLHS_GENERATED_CODE,Read the AFE output by this name.Read value is valid only if VDDLDO is on" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x34 21. "DLL_SEL_CODE_PHS,Connect to DLLHS_TEST_LDO[0] on AFE interface" "0,1"
bitfld.long 0x34 19.--20. "DLL_LOCKCHK,Connect to DLLHS_TEST_LDO[2:1] on AFE interface" "0,1,2,3"
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bitfld.long 0x34 16.--18. "DLL_SEL_COD,Connect to DLLHS_TEST_LDO[5:3] on AFE interface" "0,1,2,3,4,5,6,7"
bitfld.long 0x34 15. "DLL_PHS0_8,Connect to DLLHS_TEST_LDO[6] on AFE interface" "0,1"
newline
bitfld.long 0x34 9.--14. "DLL_FORCED_CODE,Connect to the pin of this name on AFE interface" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x34 8. "FORCE_DLL_CODE,Connect to DLLHS_TEST_LDO[11] on AFE interface" "0,1"
newline
bitfld.long 0x34 6.--7. "DLL_RATE,Connect to DLLHS_TEST_LDO[8:7] on AFE interface" "0,1,2,3"
bitfld.long 0x34 4.--5. "DLL_FILT,Connect to DLLHS_TEST_LDO[10:9] on AFE interface" "0,1,2,3"
newline
bitfld.long 0x34 3. "DLL_CDR_MODE,Connect to the pin of this name on AFE interface" "0,1"
bitfld.long 0x34 2. "DLL_IDLE,Connect to DLLHS_TEST_LDO[12] on AFE interface" "0,1"
newline
bitfld.long 0x34 1. "DLL_FREEZE,Connect to DLLHS_TEST_LDO[13] on AFE interface" "0,1"
line.long 0x38 "USBPHY_USB2PHYCM_TRIM,Contains trim bit overrides for the USBPHYCM"
bitfld.long 0x38 31. "USEBGTRIM,When set to 1 bits 30:16 are used as the trim value for the USBPHYCM bandgap" "0,1"
hexmask.long.word 0x38 16.--30. 1. "BGTRIM,Override value for the BGTRIM value"
newline
bitfld.long 0x38 15. "USE_SW_TRIM,Use bits 14:8 to override the switch cap trim value" "0,1"
hexmask.long.byte 0x38 8.--14. 1. "SWTRIM,Override value for the switch cap trim value"
newline
bitfld.long 0x38 7. "USE_NWELLTRIM_REG,Override NWELL resistor trim using NWELLTRIM_CODE" "0,1"
bitfld.long 0x38 4.--6. "NWELLTRIM_CODE,NWELL resistor trim code" "0,1,2,3,4,5,6,7"
line.long 0x3C "USBPHY_USB2PHYCM_CONFIG,Configuration and status register for the USBPHYCM and LDO"
hexmask.long.byte 0x3C 24.--31. 1. "CONFIGURECM,Connects to the CONFIGURECM pins"
rbitfld.long 0x3C 18.--23. "CMSTATUS,Reads the CMSTATUS 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"
newline
hexmask.long.word 0x3C 2.--17. 1. "LDOCONFIG,The LDOCONFIG bit settings"
rbitfld.long 0x3C 0.--1. "LDOSTATUS,Reads the LDOSTATUS bits" "0,1,2,3"
line.long 0x40 "USBPHY_USBOTG,"
hexmask.long.word 0x40 16.--31. 1. "TESTOTGCONFIG,Used to control the OTG module if used"
hexmask.long.word 0x40 6.--15. 1. "TESTOTGSTATUS,The OTG status bits (if OTG macro is used)"
line.long 0x44 "USBPHY_AD_INTERFACE_REG1,All bits (unless defined) are bypass bits for internal analog to digital interface pins with the same name"
bitfld.long 0x44 31. "USE_AD_DATA_REG,Override for bits 30:29" "0,1"
bitfld.long 0x44 30. "HS_TX_DATA," "0,1"
newline
bitfld.long 0x44 29. "FS_TX_DATA," "0,1"
bitfld.long 0x44 28. "TEST_PRE_EN_CNTRL,Override for bits 27:25" "0,1"
newline
bitfld.long 0x44 27. "SQ_PRE_EN," "0,1"
bitfld.long 0x44 26. "HS_TX_PRE_EN," "0,1"
newline
bitfld.long 0x44 25. "HS_RX_PRE_EN," "0,1"
bitfld.long 0x44 24. "TEST_EN_CNTRL,Override for bits 23:19" "0,1"
newline
bitfld.long 0x44 23. "HS_TX_EN," "0,1"
bitfld.long 0x44 22. "FS_RX_EN," "0,1"
newline
bitfld.long 0x44 20. "SQ_EN," "0,1"
bitfld.long 0x44 19. "HS_RX_EN," "0,1"
newline
bitfld.long 0x44 18. "TEST_HS_MODE,Override for bits 17:16" "0,1"
bitfld.long 0x44 17. "HS_HV_SW," "0,1"
newline
bitfld.long 0x44 16. "HS_CHIRP," "0,1"
bitfld.long 0x44 15. "TEST_FS_MODE,Override for bits 14:12" "0,1"
newline
bitfld.long 0x44 14. "FSTX_GZ," "0,1"
bitfld.long 0x44 13. "FSTX_PRE_EN," "0,1"
newline
bitfld.long 0x44 11. "TEST_SQ_CAL_CONTROL,Override for bits 10:8" "0,1"
bitfld.long 0x44 10. "SQ_CAL_EN3," "0,1"
newline
bitfld.long 0x44 9. "SQ_CAL_EN1," "0,1"
bitfld.long 0x44 8. "SQ_CAL_EN2," "0,1"
newline
bitfld.long 0x44 7. "TEST_RTERM_CAL_CONTROL,Override for bits 6" "0,1"
bitfld.long 0x44 6. "RTERM_CAL_EN," "0,1"
newline
rbitfld.long 0x44 5. "DLL_RX_DATA," "0,1"
rbitfld.long 0x44 4. "DISCON_DETECT," "0,1"
newline
bitfld.long 0x44 3. "USE_LSHOST_REG,Use bit 2 for this reg" "0,1"
bitfld.long 0x44 2. "LSHOSTMODE," "0,1"
newline
rbitfld.long 0x44 1. "LSFS_RX_DATA," "0,1"
rbitfld.long 0x44 0. "SQUELCH," "0,1"
line.long 0x48 "USBPHY_AD_INTERFACE_REG2,All bits (unless defined) are bypass bits for internal analog to digital interface pins with the same name"
bitfld.long 0x48 31. "USE_SUSP_DRV_REG,Use bits 30:27 from this register as overrides" "0,1"
bitfld.long 0x48 30. "SUS_DRV_DP_DATA," "0,1"
newline
bitfld.long 0x48 29. "SUS_DRV_DP_EN," "0,1"
bitfld.long 0x48 28. "SUS_DRV_DM_DATA," "0,1"
newline
bitfld.long 0x48 27. "SUS_DRV_DM_EN," "0,1"
bitfld.long 0x48 26. "USE_DISCON_REG,Use bits 25:24 from this register as override" "0,1"
newline
bitfld.long 0x48 25. "DISCON_EN," "0,1"
bitfld.long 0x48 24. "DISCON_PRE_EN," "0,1"
newline
rbitfld.long 0x48 18.--22. "SPARE_OUT_CORE," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x48 17. "SERX_DP_CORE," "0,1"
newline
rbitfld.long 0x48 16. "SERX_DM_CORE," "0,1"
bitfld.long 0x48 15. "USE_HSRX_CAL_EN_REG,Use bit 14 from this register as override" "0,1"
newline
bitfld.long 0x48 14. "HSRX_CAL_EN," "0,1"
bitfld.long 0x48 13. "USE_RPU_RPD_REG,Use override from bits 12:7" "0,1"
newline
bitfld.long 0x48 12. "RPU_DP_SW1_EN_CORE," "0,1"
bitfld.long 0x48 11. "RPU_DP_SW2_EN_CORE," "0,1"
newline
bitfld.long 0x48 10. "RPU_DM_SW1_EN_CORE," "0,1"
bitfld.long 0x48 9. "RPU_DM_SW2_EN_CORE," "0,1"
newline
bitfld.long 0x48 8. "DP_PULLDOWN_EN_CORE," "0,1"
bitfld.long 0x48 7. "DM_PULLDOWN_EN_CORE," "0,1"
newline
rbitfld.long 0x48 6. "DP_DM_5V_SHORT," "0,1"
bitfld.long 0x48 1.--5. "SPARE_IN_CORE," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
newline
rbitfld.long 0x48 0. "PORZ,Read only bit - the PORZ generated from the digital registered on the A-D interface" "0,1"
line.long 0x4C "USBPHY_AD_INTERFACE_REG3,All bits (unless defined) are bypass bits for internal analog to digital interface pins with the same name"
bitfld.long 0x4C 31. "USE_HSOS_DATA_REG,Use bits 30:23 in this register as bypass bits" "0,1"
hexmask.long.byte 0x4C 23.--30. 1. "HSOS_DATA,"
newline
bitfld.long 0x4C 22. "USE_FS_REG3,Use bits 21:20 as bypass bits" "0,1"
bitfld.long 0x4C 21. "FSTX_MODE," "0,1"
newline
bitfld.long 0x4C 20. "FSTX_SE0," "0,1"
bitfld.long 0x4C 19. "USE_HS_TERM_RES_REG,Use bit 18 as override bit" "0,1"
newline
bitfld.long 0x4C 18. "HS_TERM_RES," "0,1"
hexmask.long.byte 0x4C 10.--17. 1. "SPARE_IN_LDO,"
newline
hexmask.long.byte 0x4C 2.--9. 1. "SPARE_OUT_LDO,"
bitfld.long 0x4C 1. "USE_FARCORE_REG,Use bit 0 from this register as bypass" "0,1"
newline
bitfld.long 0x4C 0. "FARCORE," "0,1"
line.long 0x50 "USBPHY_ANA_CONFIG1,Used to configure and debug the analog blocks"
hexmask.long.word 0x50 17.--31. 1. "SQ_CTRL_REG,"
bitfld.long 0x50 14.--16. "FS_SLEW," "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x50 12.--13. "HS_PRE_EMP_CNTRL," "0,1,2,3"
hexmask.long.byte 0x50 5.--11. 1. "HSFSTX_TEST,"
newline
bitfld.long 0x50 0.--4. "PROTECT_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"
line.long 0x54 "USBPHY_ANA_CONFIG2,Used to configure and debug the analog blocks"
bitfld.long 0x54 27.--31. "RTERM_CAL_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"
hexmask.long.byte 0x54 20.--26. 1. "REF_GEN_TEST,NOT IMPLEMENTED"
newline
bitfld.long 0x54 18.--19. "FSRX_TEST," "0,1,2,3"
bitfld.long 0x54 15.--17. "RTERM_TEST,0x0 is default 0x3 decreases the termination impedance by 2 to 3% (can be used to get 1 to 1.5% better eye vertical opening)" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x54 11.--14. "DISCON_TEST," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x54 6.--10. "HSRX_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"
newline
bitfld.long 0x54 3.--5. "SERX_TEST," "0,1,2,3,4,5,6,7"
bitfld.long 0x54 1.--2. "SERX_HYST_CNTRL," "0,1,2,3"
newline
bitfld.long 0x54 0. "SQ_LPMODEZ," "0,1"
tree.end
tree.end
tree "HSI"
tree "HSI_PORTS"
base ansd:0x4A05A000
tree "Channel_0"
rgroup.long 0x880++0x03
line.long 0x00 "HSR_BUFFER_P1_CHN_i_0,Receive register for receive FIFO"
rgroup.long 0x1880++0x03
line.long 0x00 "HSR_BUFFER_P2_CHN_i_0,Receive register for receive FIFO"
rgroup.long 0x8C0++0x03
line.long 0x00 "HSR_SWAPBUFFER_P1_CHN_i_0,Byte swapped receive register for receive FIFO"
rgroup.long 0x18C0++0x03
line.long 0x00 "HSR_SWAPBUFFER_P2_CHN_i_0,Byte swapped receive register for receive FIFO"
group.long 0x80++0x03
line.long 0x00 "HST_BUFFER_P1_CHN_i_0,Transmit register for FIFO"
group.long 0x1080++0x03
line.long 0x00 "HST_BUFFER_P2_CHN_i_0,Transmit register for FIFO"
group.long 0xC0++0x03
line.long 0x00 "HST_SWAPBUFFER_P1_CHN_i_0,Transmit register with byte swapping for FIFO"
group.long 0x10C0++0x03
line.long 0x00 "HST_SWAPBUFFER_P2_CHN_i_0,Transmit register with byte swapping for FIFO"
tree.end
tree "Channel_1"
rgroup.long 0x884++0x03
line.long 0x00 "HSR_BUFFER_P1_CHN_i_1,Receive register for receive FIFO"
rgroup.long 0x1884++0x03
line.long 0x00 "HSR_BUFFER_P2_CHN_i_1,Receive register for receive FIFO"
rgroup.long 0x8C4++0x03
line.long 0x00 "HSR_SWAPBUFFER_P1_CHN_i_1,Byte swapped receive register for receive FIFO"
rgroup.long 0x18C4++0x03
line.long 0x00 "HSR_SWAPBUFFER_P2_CHN_i_1,Byte swapped receive register for receive FIFO"
group.long 0x84++0x03
line.long 0x00 "HST_BUFFER_P1_CHN_i_1,Transmit register for FIFO"
group.long 0x1084++0x03
line.long 0x00 "HST_BUFFER_P2_CHN_i_1,Transmit register for FIFO"
group.long 0xC4++0x03
line.long 0x00 "HST_SWAPBUFFER_P1_CHN_i_1,Transmit register with byte swapping for FIFO"
group.long 0x10C4++0x03
line.long 0x00 "HST_SWAPBUFFER_P2_CHN_i_1,Transmit register with byte swapping for FIFO"
tree.end
tree "Channel_2"
rgroup.long 0x888++0x03
line.long 0x00 "HSR_BUFFER_P1_CHN_i_2,Receive register for receive FIFO"
rgroup.long 0x1888++0x03
line.long 0x00 "HSR_BUFFER_P2_CHN_i_2,Receive register for receive FIFO"
rgroup.long 0x8C8++0x03
line.long 0x00 "HSR_SWAPBUFFER_P1_CHN_i_2,Byte swapped receive register for receive FIFO"
rgroup.long 0x18C8++0x03
line.long 0x00 "HSR_SWAPBUFFER_P2_CHN_i_2,Byte swapped receive register for receive FIFO"
group.long 0x88++0x03
line.long 0x00 "HST_BUFFER_P1_CHN_i_2,Transmit register for FIFO"
group.long 0x1088++0x03
line.long 0x00 "HST_BUFFER_P2_CHN_i_2,Transmit register for FIFO"
group.long 0xC8++0x03
line.long 0x00 "HST_SWAPBUFFER_P1_CHN_i_2,Transmit register with byte swapping for FIFO"
group.long 0x10C8++0x03
line.long 0x00 "HST_SWAPBUFFER_P2_CHN_i_2,Transmit register with byte swapping for FIFO"
tree.end
tree "Channel_3"
rgroup.long 0x88C++0x03
line.long 0x00 "HSR_BUFFER_P1_CHN_i_3,Receive register for receive FIFO"
rgroup.long 0x188C++0x03
line.long 0x00 "HSR_BUFFER_P2_CHN_i_3,Receive register for receive FIFO"
rgroup.long 0x8CC++0x03
line.long 0x00 "HSR_SWAPBUFFER_P1_CHN_i_3,Byte swapped receive register for receive FIFO"
rgroup.long 0x18CC++0x03
line.long 0x00 "HSR_SWAPBUFFER_P2_CHN_i_3,Byte swapped receive register for receive FIFO"
group.long 0x8C++0x03
line.long 0x00 "HST_BUFFER_P1_CHN_i_3,Transmit register for FIFO"
group.long 0x108C++0x03
line.long 0x00 "HST_BUFFER_P2_CHN_i_3,Transmit register for FIFO"
group.long 0xCC++0x03
line.long 0x00 "HST_SWAPBUFFER_P1_CHN_i_3,Transmit register with byte swapping for FIFO"
group.long 0x10CC++0x03
line.long 0x00 "HST_SWAPBUFFER_P2_CHN_i_3,Transmit register with byte swapping for FIFO"
tree.end
tree "Channel_4"
rgroup.long 0x890++0x03
line.long 0x00 "HSR_BUFFER_P1_CHN_i_4,Receive register for receive FIFO"
rgroup.long 0x1890++0x03
line.long 0x00 "HSR_BUFFER_P2_CHN_i_4,Receive register for receive FIFO"
rgroup.long 0x8D0++0x03
line.long 0x00 "HSR_SWAPBUFFER_P1_CHN_i_4,Byte swapped receive register for receive FIFO"
rgroup.long 0x18D0++0x03
line.long 0x00 "HSR_SWAPBUFFER_P2_CHN_i_4,Byte swapped receive register for receive FIFO"
group.long 0x90++0x03
line.long 0x00 "HST_BUFFER_P1_CHN_i_4,Transmit register for FIFO"
group.long 0x1090++0x03
line.long 0x00 "HST_BUFFER_P2_CHN_i_4,Transmit register for FIFO"
group.long 0xD0++0x03
line.long 0x00 "HST_SWAPBUFFER_P1_CHN_i_4,Transmit register with byte swapping for FIFO"
group.long 0x10D0++0x03
line.long 0x00 "HST_SWAPBUFFER_P2_CHN_i_4,Transmit register with byte swapping for FIFO"
tree.end
tree "Channel_5"
rgroup.long 0x894++0x03
line.long 0x00 "HSR_BUFFER_P1_CHN_i_5,Receive register for receive FIFO"
rgroup.long 0x1894++0x03
line.long 0x00 "HSR_BUFFER_P2_CHN_i_5,Receive register for receive FIFO"
rgroup.long 0x8D4++0x03
line.long 0x00 "HSR_SWAPBUFFER_P1_CHN_i_5,Byte swapped receive register for receive FIFO"
rgroup.long 0x18D4++0x03
line.long 0x00 "HSR_SWAPBUFFER_P2_CHN_i_5,Byte swapped receive register for receive FIFO"
group.long 0x94++0x03
line.long 0x00 "HST_BUFFER_P1_CHN_i_5,Transmit register for FIFO"
group.long 0x1094++0x03
line.long 0x00 "HST_BUFFER_P2_CHN_i_5,Transmit register for FIFO"
group.long 0xD4++0x03
line.long 0x00 "HST_SWAPBUFFER_P1_CHN_i_5,Transmit register with byte swapping for FIFO"
group.long 0x10D4++0x03
line.long 0x00 "HST_SWAPBUFFER_P2_CHN_i_5,Transmit register with byte swapping for FIFO"
tree.end
tree "Channel_6"
rgroup.long 0x898++0x03
line.long 0x00 "HSR_BUFFER_P1_CHN_i_6,Receive register for receive FIFO"
rgroup.long 0x1898++0x03
line.long 0x00 "HSR_BUFFER_P2_CHN_i_6,Receive register for receive FIFO"
rgroup.long 0x8D8++0x03
line.long 0x00 "HSR_SWAPBUFFER_P1_CHN_i_6,Byte swapped receive register for receive FIFO"
rgroup.long 0x18D8++0x03
line.long 0x00 "HSR_SWAPBUFFER_P2_CHN_i_6,Byte swapped receive register for receive FIFO"
group.long 0x98++0x03
line.long 0x00 "HST_BUFFER_P1_CHN_i_6,Transmit register for FIFO"
group.long 0x1098++0x03
line.long 0x00 "HST_BUFFER_P2_CHN_i_6,Transmit register for FIFO"
group.long 0xD8++0x03
line.long 0x00 "HST_SWAPBUFFER_P1_CHN_i_6,Transmit register with byte swapping for FIFO"
group.long 0x10D8++0x03
line.long 0x00 "HST_SWAPBUFFER_P2_CHN_i_6,Transmit register with byte swapping for FIFO"
tree.end
tree "Channel_7"
rgroup.long 0x89C++0x03
line.long 0x00 "HSR_BUFFER_P1_CHN_i_7,Receive register for receive FIFO"
rgroup.long 0x189C++0x03
line.long 0x00 "HSR_BUFFER_P2_CHN_i_7,Receive register for receive FIFO"
rgroup.long 0x8DC++0x03
line.long 0x00 "HSR_SWAPBUFFER_P1_CHN_i_7,Byte swapped receive register for receive FIFO"
rgroup.long 0x18DC++0x03
line.long 0x00 "HSR_SWAPBUFFER_P2_CHN_i_7,Byte swapped receive register for receive FIFO"
group.long 0x9C++0x03
line.long 0x00 "HST_BUFFER_P1_CHN_i_7,Transmit register for FIFO"
group.long 0x109C++0x03
line.long 0x00 "HST_BUFFER_P2_CHN_i_7,Transmit register for FIFO"
group.long 0xDC++0x03
line.long 0x00 "HST_SWAPBUFFER_P1_CHN_i_7,Transmit register with byte swapping for FIFO"
group.long 0x10DC++0x03
line.long 0x00 "HST_SWAPBUFFER_P2_CHN_i_7,Transmit register with byte swapping for FIFO"
tree.end
rgroup.long 0x81C++0x03
line.long 0x00 "HSR_BREAK_P1,Break detected on port 1"
bitfld.long 0x00 0. "BREAK_VAL,Break detected" "BREAK_VAL_0_r,BREAK_VAL_1_r"
rgroup.long 0x181C++0x03
line.long 0x00 "HSR_BREAK_P2,Break detected on port 2"
bitfld.long 0x00 0. "BREAK_VAL,Break detected" "BREAK_VAL_0_r,BREAK_VAL_1_r"
rgroup.long 0x810++0x03
line.long 0x00 "HSR_BUFSTATE_P1,State of receiver buffer register for port 1"
hexmask.long.byte 0x00 0.--7. 1. "BUFSTATE_VAL,Each bit gives the state of receiver buffer register:0x0: buffer is not"
rgroup.long 0x1810++0x03
line.long 0x00 "HSR_BUFSTATE_P2,State of receiver buffer register for port 2"
hexmask.long.byte 0x00 0.--7. 1. "BUFSTATE_VAL,Each bit gives the state of receiver buffer register:0x0: buffer is not"
group.long 0x828++0x03
line.long 0x00 "HSR_CHANNELS_P1,Number of active channels on port 1 (this will determine the number of the used channel descriptor bits on the MIPI port as well)It can be 1.2.4.8 or 16"
bitfld.long 0x00 0.--4. "CHAN_NUM_VAL,Number of active" "?,CHAN_NUM_VAL_1,CHAN_NUM_VAL_2,?,CHAN_NUM_VAL_4,?,?,?,CHAN_NUM_VAL_8,?,?,?,?,?,?,?,CHAN_NUM_VAL_16,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
group.long 0x1828++0x03
line.long 0x00 "HSR_CHANNELS_P2,Number of active channels on port 2 (this will determine the number of the used channel descriptor bits on the MIPI port as well)It can be 1.2.4.8 or 16"
bitfld.long 0x00 0.--4. "CHAN_NUM_VAL,Number of active" "?,CHAN_NUM_VAL_1,CHAN_NUM_VAL_2,?,CHAN_NUM_VAL_4,?,?,?,CHAN_NUM_VAL_8,?,?,?,?,?,?,?,CHAN_NUM_VAL_16,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
group.long 0x834++0x03
line.long 0x00 "HSR_COUNTERS_P1,Counters setting register for port 1"
hexmask.long.byte 0x00 24.--31. 1. "FB,Setting for Frame Burst Counter"
bitfld.long 0x00 20.--23. "TB,Setting for Tailing Bit Counter" "TB_0,TB_1,TB_2,TB_3,TB_4,TB_5,TB_6,TB_7,TB_8,TB_9,TB_10,TB_11,TB_12,TB_13,TB_14,TB_15"
hexmask.long.tbyte 0x00 0.--19. 1. "FT,Setting for Frame Timeout counter"
group.long 0x1834++0x03
line.long 0x00 "HSR_COUNTERS_P2,Counters setting register for port 2"
hexmask.long.byte 0x00 24.--31. 1. "FB,Setting for Frame Burst Counter"
bitfld.long 0x00 20.--23. "TB,Setting for Tailing Bit Counter" "TB_0,TB_1,TB_2,TB_3,TB_4,TB_5,TB_6,TB_7,TB_8,TB_9,TB_10,TB_11,TB_12,TB_13,TB_14,TB_15"
hexmask.long.tbyte 0x00 0.--19. 1. "FT,Setting for Frame Timeout counter"
group.long 0x94C++0x03
line.long 0x00 "HSR_DIVISOR_P1,Receive bit rate divisor for port 1.This needs to be set for correct protocol timing detection (tailing timeout. frame timeout)"
hexmask.long.byte 0x00 0.--7. 1. "RX_RATE_DIV_VAL,The functional clock source divided by this value will be used as a clock base for the receive counters.Set n as a value will result the n+1 divisor value"
group.long 0x194C++0x03
line.long 0x00 "HSR_DIVISOR_P2,Receive bit rate divisor for port 2.This needs to be set for correct protocol timing detection (tailing timeout. frame timeout)"
hexmask.long.byte 0x00 0.--7. 1. "RX_RATE_DIV_VAL,The functional clock source divided by this value will be used as a clock base for the receive counters.Set n as a value will result the n+1 divisor value"
hgroup.long 0x944++0x03
hide.long 0x00 "HSR_DLL,Reserved"
rgroup.long 0x820++0x03
line.long 0x00 "HSR_ERROR_P1,Error detection state register for port 1"
bitfld.long 0x00 11. "TME,Tx Mapping Error" "TME_0,TME_1"
bitfld.long 0x00 7. "RME,Rx Mapping Error" "RME_0,RME_1"
bitfld.long 0x00 4. "TBE,Tailing Bit Error" "TBE_0,TBE_1"
newline
bitfld.long 0x00 1. "FTE,Frame Timeout Error" "FTE_0,FTE_1"
bitfld.long 0x00 0. "SIG,signal error (legacy)" "SIG_0,SIG_1"
rgroup.long 0x1820++0x03
line.long 0x00 "HSR_ERROR_P2,Error detection state register for port 2"
bitfld.long 0x00 11. "TME,Tx Mapping Error" "TME_0,TME_1"
bitfld.long 0x00 7. "RME,Rx Mapping Error" "RME_0,RME_1"
bitfld.long 0x00 4. "TBE,Tailing Bit Error" "TBE_0,TBE_1"
newline
bitfld.long 0x00 1. "FTE,Frame Timeout Error" "FTE_0,FTE_1"
bitfld.long 0x00 0. "SIG,signal error (legacy)" "SIG_0,SIG_1"
group.long 0x824++0x03
line.long 0x00 "HSR_ERRORACK_P1,Error detection acknowledge register on port"
bitfld.long 0x00 11. "TME,Tx Mapping Error" "TME_0,TME_1"
bitfld.long 0x00 7. "RME,Rx Mapping Error" "RME_0,RME_1"
bitfld.long 0x00 4. "TBE,Tailing Bit Error" "TBE_0,TBE_1"
newline
bitfld.long 0x00 1. "FTE,Frame Timeout Error" "FTE_0,FTE_1"
bitfld.long 0x00 0. "SIG,signal error (legacy)" "SIG_0,SIG_1"
group.long 0x1824++0x03
line.long 0x00 "HSR_ERRORACK_P2,Error detection acknowledge register on port"
bitfld.long 0x00 11. "TME,Tx Mapping Error" "TME_0,TME_1"
bitfld.long 0x00 7. "RME,Rx Mapping Error" "RME_0,RME_1"
bitfld.long 0x00 4. "TBE,Tailing Bit Error" "TBE_0,TBE_1"
newline
bitfld.long 0x00 1. "FTE,Frame Timeout Error" "FTE_0,FTE_1"
bitfld.long 0x00 0. "SIG,signal error (legacy)" "SIG_0,SIG_1"
rgroup.long 0x808++0x03
line.long 0x00 "HSR_FRAMESIZE_P1,legacy returns 0x1f"
bitfld.long 0x00 0.--4. "SIZE_VAL,0x1f" "SIZE_VAL_0,SIZE_VAL_1,SIZE_VAL_2,SIZE_VAL_3,SIZE_VAL_4,SIZE_VAL_5,SIZE_VAL_6,SIZE_VAL_7,SIZE_VAL_8,SIZE_VAL_9,SIZE_VAL_10,SIZE_VAL_11,SIZE_VAL_12,SIZE_VAL_13,SIZE_VAL_14,SIZE_VAL_15,SIZE_VAL_16,SIZE_VAL_17,SIZE_VAL_18,SIZE_VAL_19,SIZE_VAL_20,SIZE_VAL_21,SIZE_VAL_22,SIZE_VAL_23,SIZE_VAL_24,SIZE_VAL_25,SIZE_VAL_26,SIZE_VAL_27,SIZE_VAL_28,SIZE_VAL_29,SIZE_VAL_30,SIZE_VAL_31"
rgroup.long 0x1808++0x03
line.long 0x00 "HSR_FRAMESIZE_P2,legacy returns 0x1f"
bitfld.long 0x00 0.--4. "SIZE_VAL,0x1f" "SIZE_VAL_0,SIZE_VAL_1,SIZE_VAL_2,SIZE_VAL_3,SIZE_VAL_4,SIZE_VAL_5,SIZE_VAL_6,SIZE_VAL_7,SIZE_VAL_8,SIZE_VAL_9,SIZE_VAL_10,SIZE_VAL_11,SIZE_VAL_12,SIZE_VAL_13,SIZE_VAL_14,SIZE_VAL_15,SIZE_VAL_16,SIZE_VAL_17,SIZE_VAL_18,SIZE_VAL_19,SIZE_VAL_20,SIZE_VAL_21,SIZE_VAL_22,SIZE_VAL_23,SIZE_VAL_24,SIZE_VAL_25,SIZE_VAL_26,SIZE_VAL_27,SIZE_VAL_28,SIZE_VAL_29,SIZE_VAL_30,SIZE_VAL_31"
rgroup.long 0x800++0x03
line.long 0x00 "HSR_ID_P1,Legacy Identification"
rgroup.long 0x1800++0x03
line.long 0x00 "HSR_ID_P2,Legacy Identification"
group.long 0x900++0x07
line.long 0x00 "HSR_MAPPING0,RX FIFO Configuration register"
rbitfld.long 0x00 10.--13. "WORDS,Number of words available in the RX FIFO for reading R" "WORDS_0,WORDS_1,WORDS_2,WORDS_3,WORDS_4,WORDS_5,WORDS_6,WORDS_7,WORDS_8,WORDS_9,WORDS_10,WORDS_11,WORDS_12,WORDS_13,WORDS_14,WORDS_15"
bitfld.long 0x00 7. "PORT_NUMBER,Associates the RX FIFO to a HSI port" "PORT_NUMBER_0,PORT_NUMBER_1"
bitfld.long 0x00 1.--4. "CH_NUMBER,Associates RX FIFO to a HSI logical" "CH_NUMBER_0,CH_NUMBER_1,CH_NUMBER_2,CH_NUMBER_3,CH_NUMBER_4,CH_NUMBER_5,CH_NUMBER_6,CH_NUMBER_7,CH_NUMBER_8,CH_NUMBER_9,CH_NUMBER_10,CH_NUMBER_11,CH_NUMBER_12,CH_NUMBER_13,CH_NUMBER_14,CH_NUMBER_15"
newline
bitfld.long 0x00 0. "ENABLE,Enables or disables RX FIFO" "ENABLE_0,ENABLE_1"
line.long 0x04 "HSR_MAPPING1,RX FIFO Configuration register"
rbitfld.long 0x04 10.--13. "WORDS,Number of words available in the RX FIFO for reading R" "WORDS_0,WORDS_1,WORDS_2,WORDS_3,WORDS_4,WORDS_5,WORDS_6,WORDS_7,WORDS_8,WORDS_9,WORDS_10,WORDS_11,WORDS_12,WORDS_13,WORDS_14,WORDS_15"
bitfld.long 0x04 7. "PORT_NUMBER,Associates the RX FIFO to a HSI port" "PORT_NUMBER_0,PORT_NUMBER_1"
bitfld.long 0x04 1.--4. "CH_NUMBER,Associates RX FIFO to a HSI logical" "CH_NUMBER_0,CH_NUMBER_1,CH_NUMBER_2,CH_NUMBER_3,CH_NUMBER_4,CH_NUMBER_5,CH_NUMBER_6,CH_NUMBER_7,CH_NUMBER_8,CH_NUMBER_9,CH_NUMBER_10,CH_NUMBER_11,CH_NUMBER_12,CH_NUMBER_13,CH_NUMBER_14,CH_NUMBER_15"
newline
bitfld.long 0x04 0. "ENABLE,Enables or disables RX FIFO" "ENABLE_0,ENABLE_1"
group.long 0x928++0x17
line.long 0x00 "HSR_MAPPING10,RX FIFO Configuration register"
rbitfld.long 0x00 10.--13. "WORDS,Number of words available in the RX FIFO for reading R" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 7. "PORT_NUMBER,Associates the RX FIFO to a HSI port" "PORT_NUMBER_0,PORT_NUMBER_1"
bitfld.long 0x00 1.--4. "CH_NUMBER,Associates RX FIFO to a HSI logical" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 0. "ENABLE,Enables or disables RX FIFO" "ENABLE_0,ENABLE_1"
line.long 0x04 "HSR_MAPPING11,RX FIFO Configuration register"
rbitfld.long 0x04 10.--13. "WORDS,Number of words available in the RX FIFO for reading R" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x04 7. "PORT_NUMBER,Associates the RX FIFO to a HSI port" "PORT_NUMBER_0,PORT_NUMBER_1"
bitfld.long 0x04 1.--4. "CH_NUMBER,Associates RX FIFO to a HSI logical" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x04 0. "ENABLE,Enables or disables RX FIFO" "ENABLE_0,ENABLE_1"
line.long 0x08 "HSR_MAPPING12,RX FIFO Configuration register"
rbitfld.long 0x08 10.--13. "WORDS,Number of words available in the RX FIFO for reading R" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x08 7. "PORT_NUMBER,Associates the RX FIFO to a HSI port" "PORT_NUMBER_0,PORT_NUMBER_1"
bitfld.long 0x08 1.--4. "CH_NUMBER,Associates RX FIFO to a HSI logical" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x08 0. "ENABLE,Enables or disables RX FIFO" "ENABLE_0,ENABLE_1"
line.long 0x0C "HSR_MAPPING13,RX FIFO Configuration register"
rbitfld.long 0x0C 10.--13. "WORDS,Number of words available in the RX FIFO for reading R" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x0C 7. "PORT_NUMBER,Associates the RX FIFO to a HSI port" "PORT_NUMBER_0,PORT_NUMBER_1"
bitfld.long 0x0C 1.--4. "CH_NUMBER,Associates RX FIFO to a HSI logical" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x0C 0. "ENABLE,Enables or disables RX FIFO" "ENABLE_0,ENABLE_1"
line.long 0x10 "HSR_MAPPING14,RX FIFO Configuration register"
rbitfld.long 0x10 10.--13. "WORDS,Number of words available in the RX FIFO for reading R" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x10 7. "PORT_NUMBER,Associates the RX FIFO to a HSI port" "PORT_NUMBER_0,PORT_NUMBER_1"
bitfld.long 0x10 1.--4. "CH_NUMBER,Associates RX FIFO to a HSI logical" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x10 0. "ENABLE,Enables or disables RX FIFO" "ENABLE_0,ENABLE_1"
line.long 0x14 "HSR_MAPPING15,RX FIFO Configuration register"
rbitfld.long 0x14 10.--13. "WORDS,Number of words available in the RX FIFO for reading R" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x14 7. "PORT_NUMBER,Associates the RX FIFO to a HSI port" "PORT_NUMBER_0,PORT_NUMBER_1"
bitfld.long 0x14 1.--4. "CH_NUMBER,Associates RX FIFO to a HSI logical" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x14 0. "ENABLE,Enables or disables RX FIFO" "ENABLE_0,ENABLE_1"
group.long 0x908++0x1F
line.long 0x00 "HSR_MAPPING2,RX FIFO Configuration register"
rbitfld.long 0x00 10.--13. "WORDS,Number of words available in the RX FIFO for reading R" "WORDS_0,WORDS_1,WORDS_2,WORDS_3,WORDS_4,WORDS_5,WORDS_6,WORDS_7,WORDS_8,WORDS_9,WORDS_10,WORDS_11,WORDS_12,WORDS_13,WORDS_14,WORDS_15"
bitfld.long 0x00 7. "PORT_NUMBER,Associates the RX FIFO to a HSI port" "PORT_NUMBER_0,PORT_NUMBER_1"
bitfld.long 0x00 1.--4. "CH_NUMBER,Associates RX FIFO to a HSI logical" "CH_NUMBER_0,CH_NUMBER_1,CH_NUMBER_2,CH_NUMBER_3,CH_NUMBER_4,CH_NUMBER_5,CH_NUMBER_6,CH_NUMBER_7,CH_NUMBER_8,CH_NUMBER_9,CH_NUMBER_10,CH_NUMBER_11,CH_NUMBER_12,CH_NUMBER_13,CH_NUMBER_14,CH_NUMBER_15"
newline
bitfld.long 0x00 0. "ENABLE,Enables or disables RX FIFO" "ENABLE_0,ENABLE_1"
line.long 0x04 "HSR_MAPPING3,RX FIFO Configuration register"
rbitfld.long 0x04 10.--13. "WORDS,Number of words available in the RX FIFO for reading R" "WORDS_0,WORDS_1,WORDS_2,WORDS_3,WORDS_4,WORDS_5,WORDS_6,WORDS_7,WORDS_8,WORDS_9,WORDS_10,WORDS_11,WORDS_12,WORDS_13,WORDS_14,WORDS_15"
bitfld.long 0x04 7. "PORT_NUMBER,Associates the RX FIFO to a HSI port" "PORT_NUMBER_0,PORT_NUMBER_1"
bitfld.long 0x04 1.--4. "CH_NUMBER,Associates RX FIFO to a HSI logical" "CH_NUMBER_0,CH_NUMBER_1,CH_NUMBER_2,CH_NUMBER_3,CH_NUMBER_4,CH_NUMBER_5,CH_NUMBER_6,CH_NUMBER_7,CH_NUMBER_8,CH_NUMBER_9,CH_NUMBER_10,CH_NUMBER_11,CH_NUMBER_12,CH_NUMBER_13,CH_NUMBER_14,CH_NUMBER_15"
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bitfld.long 0x04 0. "ENABLE,Enables or disables RX FIFO" "ENABLE_0,ENABLE_1"
line.long 0x08 "HSR_MAPPING4,RX FIFO Configuration register"
rbitfld.long 0x08 10.--13. "WORDS,Number of words available in the RX FIFO for reading R" "WORDS_0,WORDS_1,WORDS_2,WORDS_3,WORDS_4,WORDS_5,WORDS_6,WORDS_7,WORDS_8,WORDS_9,WORDS_10,WORDS_11,WORDS_12,WORDS_13,WORDS_14,WORDS_15"
bitfld.long 0x08 7. "PORT_NUMBER,Associates the RX FIFO to a HSI port" "PORT_NUMBER_0,PORT_NUMBER_1"
bitfld.long 0x08 1.--4. "CH_NUMBER,Associates RX FIFO to a HSI logical" "CH_NUMBER_0,CH_NUMBER_1,CH_NUMBER_2,CH_NUMBER_3,CH_NUMBER_4,CH_NUMBER_5,CH_NUMBER_6,CH_NUMBER_7,CH_NUMBER_8,CH_NUMBER_9,CH_NUMBER_10,CH_NUMBER_11,CH_NUMBER_12,CH_NUMBER_13,CH_NUMBER_14,CH_NUMBER_15"
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bitfld.long 0x08 0. "ENABLE,Enables or disables RX FIFO" "ENABLE_0,ENABLE_1"
line.long 0x0C "HSR_MAPPING5,RX FIFO Configuration register"
rbitfld.long 0x0C 10.--13. "WORDS,Number of words available in the RX FIFO for reading R" "WORDS_0,WORDS_1,WORDS_2,WORDS_3,WORDS_4,WORDS_5,WORDS_6,WORDS_7,WORDS_8,WORDS_9,WORDS_10,WORDS_11,WORDS_12,WORDS_13,WORDS_14,WORDS_15"
bitfld.long 0x0C 7. "PORT_NUMBER,Associates the RX FIFO to a HSI port" "PORT_NUMBER_0,PORT_NUMBER_1"
bitfld.long 0x0C 1.--4. "CH_NUMBER,Associates RX FIFO to a HSI logical" "CH_NUMBER_0,CH_NUMBER_1,CH_NUMBER_2,CH_NUMBER_3,CH_NUMBER_4,CH_NUMBER_5,CH_NUMBER_6,CH_NUMBER_7,CH_NUMBER_8,CH_NUMBER_9,CH_NUMBER_10,CH_NUMBER_11,CH_NUMBER_12,CH_NUMBER_13,CH_NUMBER_14,CH_NUMBER_15"
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bitfld.long 0x0C 0. "ENABLE,Enables or disables RX FIFO" "ENABLE_0,ENABLE_1"
line.long 0x10 "HSR_MAPPING6,RX FIFO Configuration register"
rbitfld.long 0x10 10.--13. "WORDS,Number of words available in the RX FIFO for reading R" "WORDS_0,WORDS_1,WORDS_2,WORDS_3,WORDS_4,WORDS_5,WORDS_6,WORDS_7,WORDS_8,WORDS_9,WORDS_10,WORDS_11,WORDS_12,WORDS_13,WORDS_14,WORDS_15"
bitfld.long 0x10 7. "PORT_NUMBER,Associates the RX FIFO to a HSI port" "PORT_NUMBER_0,PORT_NUMBER_1"
bitfld.long 0x10 1.--4. "CH_NUMBER,Associates RX FIFO to a HSI logical" "CH_NUMBER_0,CH_NUMBER_1,CH_NUMBER_2,CH_NUMBER_3,CH_NUMBER_4,CH_NUMBER_5,CH_NUMBER_6,CH_NUMBER_7,CH_NUMBER_8,CH_NUMBER_9,CH_NUMBER_10,CH_NUMBER_11,CH_NUMBER_12,CH_NUMBER_13,CH_NUMBER_14,CH_NUMBER_15"
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bitfld.long 0x10 0. "ENABLE,Enables or disables RX FIFO" "ENABLE_0,ENABLE_1"
line.long 0x14 "HSR_MAPPING7,RX FIFO Configuration register"
rbitfld.long 0x14 10.--13. "WORDS,Number of words available in the RX FIFO for reading R" "WORDS_0,WORDS_1,WORDS_2,WORDS_3,WORDS_4,WORDS_5,WORDS_6,WORDS_7,WORDS_8,WORDS_9,WORDS_10,WORDS_11,WORDS_12,WORDS_13,WORDS_14,WORDS_15"
bitfld.long 0x14 7. "PORT_NUMBER,Associates the RX FIFO to a HSI port" "PORT_NUMBER_0,PORT_NUMBER_1"
bitfld.long 0x14 1.--4. "CH_NUMBER,Associates RX FIFO to a HSI logical" "CH_NUMBER_0,CH_NUMBER_1,CH_NUMBER_2,CH_NUMBER_3,CH_NUMBER_4,CH_NUMBER_5,CH_NUMBER_6,CH_NUMBER_7,CH_NUMBER_8,CH_NUMBER_9,CH_NUMBER_10,CH_NUMBER_11,CH_NUMBER_12,CH_NUMBER_13,CH_NUMBER_14,CH_NUMBER_15"
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bitfld.long 0x14 0. "ENABLE,Enables or disables RX FIFO" "ENABLE_0,ENABLE_1"
line.long 0x18 "HSR_MAPPING8,RX FIFO Configuration register"
rbitfld.long 0x18 10.--13. "WORDS,Number of words available in the RX FIFO for reading R" "WORDS_0,WORDS_1,WORDS_2,WORDS_3,WORDS_4,WORDS_5,WORDS_6,WORDS_7,WORDS_8,WORDS_9,WORDS_10,WORDS_11,WORDS_12,WORDS_13,WORDS_14,WORDS_15"
bitfld.long 0x18 7. "PORT_NUMBER,Associates the RX FIFO to a HSI port" "PORT_NUMBER_0,PORT_NUMBER_1"
bitfld.long 0x18 1.--4. "CH_NUMBER,Associates RX FIFO to a HSI logical" "CH_NUMBER_0,CH_NUMBER_1,CH_NUMBER_2,CH_NUMBER_3,CH_NUMBER_4,CH_NUMBER_5,CH_NUMBER_6,CH_NUMBER_7,CH_NUMBER_8,CH_NUMBER_9,CH_NUMBER_10,CH_NUMBER_11,CH_NUMBER_12,CH_NUMBER_13,CH_NUMBER_14,CH_NUMBER_15"
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bitfld.long 0x18 0. "ENABLE,Enables or disables RX FIFO" "ENABLE_0,ENABLE_1"
line.long 0x1C "HSR_MAPPING9,RX FIFO Configuration register"
rbitfld.long 0x1C 10.--13. "WORDS,Number of words available in the RX FIFO for reading R" "WORDS_0,WORDS_1,WORDS_2,WORDS_3,WORDS_4,WORDS_5,WORDS_6,WORDS_7,WORDS_8,WORDS_9,WORDS_10,WORDS_11,WORDS_12,WORDS_13,WORDS_14,WORDS_15"
bitfld.long 0x1C 7. "PORT_NUMBER,Associates the RX FIFO to a HSI port" "PORT_NUMBER_0,PORT_NUMBER_1"
bitfld.long 0x1C 1.--4. "CH_NUMBER,Associates RX FIFO to a HSI logical" "CH_NUMBER_0,CH_NUMBER_1,CH_NUMBER_2,CH_NUMBER_3,CH_NUMBER_4,CH_NUMBER_5,CH_NUMBER_6,CH_NUMBER_7,CH_NUMBER_8,CH_NUMBER_9,CH_NUMBER_10,CH_NUMBER_11,CH_NUMBER_12,CH_NUMBER_13,CH_NUMBER_14,CH_NUMBER_15"
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bitfld.long 0x1C 0. "ENABLE,Enables or disables RX FIFO" "ENABLE_0,ENABLE_1"
group.long 0x804++0x03
line.long 0x00 "HSR_MODE_P1,Defines operation mode and data flow on port 1"
rbitfld.long 0x00 4. "WAKE_STATUS,Level of WAKE line" "WAKE_STATUS_0,WAKE_STATUS_1"
bitfld.long 0x00 2.--3. "FLOW_VAL,Flow" "FLOW_VAL_0,FLOW_VAL_1,FLOW_VAL_2,?"
bitfld.long 0x00 0.--1. "MODE_VAL,Mode" "MODE_VAL_0,MODE_VAL_1,MODE_VAL_2,MODE_VAL_3"
group.long 0x1804++0x03
line.long 0x00 "HSR_MODE_P2,Defines operation mode and data flow on port 2"
rbitfld.long 0x00 4. "WAKE_STATUS,Level of WAKE line" "WAKE_STATUS_0,WAKE_STATUS_1"
bitfld.long 0x00 2.--3. "FLOW_VAL,Flow" "FLOW_VAL_0,FLOW_VAL_1,FLOW_VAL_2,?"
bitfld.long 0x00 0.--1. "MODE_VAL,Mode" "MODE_VAL_0,MODE_VAL_1,MODE_VAL_2,MODE_VAL_3"
rgroup.long 0x82C++0x03
line.long 0x00 "HSR_OVERRUN_P1,Overrun detection state register for those receive FIFOs which are mapped to port 1"
hexmask.long.word 0x00 0.--15. 1. "OVERRUN_VAL,Bit n is set when overrun is detected on channel n"
rgroup.long 0x182C++0x03
line.long 0x00 "HSR_OVERRUN_P2,Overrun detection state register for those receive FIFOs which are mapped to port 2"
hexmask.long.word 0x00 0.--15. 1. "OVERRUN_VAL,Bit n is set when overrun is detected on channel n"
group.long 0x830++0x03
line.long 0x00 "HSR_OVERRUNACK_P1,Overrun acknowledge register for those receive FIFOs which are mapped to port 1"
hexmask.long.word 0x00 0.--15. 1. "OVERRUNACK_VAL,Bit n is set when overrun is acknowledged on channel n"
group.long 0x1830++0x03
line.long 0x00 "HSR_OVERRUNACK_P2,Overrun acknowledge register for those receive FIFOs which are mapped to port 2"
hexmask.long.word 0x00 0.--15. 1. "OVERRUNACK_VAL,Bit n is set when overrun is acknowledged on channel n"
rgroup.long 0x80C++0x03
line.long 0x00 "HSR_RXSTATE_P1,Receiver state on port 1"
bitfld.long 0x00 0.--2. "RXSTATEVAL,State" "RXSTATEVAL_0_r,RXSTATEVAL_1_r,RXSTATEVAL_2_r,RXSTATEVAL_3_r,RXSTATEVAL_4_r,RXSTATEVAL_5_r,?,?"
rgroup.long 0x180C++0x03
line.long 0x00 "HSR_RXSTATE_P2,Receiver state on port 2"
bitfld.long 0x00 0.--2. "RXSTATEVAL,State" "RXSTATEVAL_0_r,RXSTATEVAL_1_r,RXSTATEVAL_2_r,RXSTATEVAL_3_r,RXSTATEVAL_4_r,RXSTATEVAL_5_r,?,?"
group.long 0x28++0x03
line.long 0x00 "HST_ARBMODE_P1,Arbitration type for the transmit FIFOs on port 1"
bitfld.long 0x00 0. "ARB_VAL,Mode" "ARB_VAL_0,ARB_VAL_1"
group.long 0x1028++0x03
line.long 0x00 "HST_ARBMODE_P2,Arbitration type for the transmit FIFOs on port 2"
bitfld.long 0x00 0. "ARB_VAL,Mode" "ARB_VAL_0,ARB_VAL_1"
group.long 0x20++0x03
line.long 0x00 "HST_BREAK_P1,Transmit break strobe register on port 1"
bitfld.long 0x00 0. "BREAK_VAL,Send a break signal on the port" "BREAK_VAL_0_w,BREAK_VAL_1_w"
group.long 0x1020++0x03
line.long 0x00 "HST_BREAK_P2,Transmit break strobe register on port 2"
bitfld.long 0x00 0. "BREAK_VAL,Send a break signal on the port" "BREAK_VAL_0_w,BREAK_VAL_1_w"
rgroup.long 0x10++0x03
line.long 0x00 "HST_BUFSTATE_P1,Transmitter state for FIFO 0..7Each bit gives the state of transmit FIFOs:0x1 FIFO full0x0 FIFO not full"
hexmask.long.byte 0x00 0.--7. 1. "BUFSTATE_VAL,Each bit gives the state of transmit buffer register:0x0: buffer is not"
rgroup.long 0x1010++0x03
line.long 0x00 "HST_BUFSTATE_P2,Transmitter state for buffer 8..15Each bit gives the state of transmit FIFOs:0x1 FIFO full0x0 FIFO not full"
hexmask.long.byte 0x00 0.--7. 1. "BUFSTATE_VAL,Each bit gives the state of transmit buffer register:0x0: buffer is not"
group.long 0x24++0x03
line.long 0x00 "HST_CHANNELS_P1,Number of active channels on port 1 (this will determine the number of the used channel descriptor bits on the MIPI port as well)It can be 1.2.4.8 or 16"
bitfld.long 0x00 0.--4. "CHAN_NUM_VAL,Number of active channels up to" "?,CHAN_NUM_VAL_1,?,?,CHAN_NUM_VAL_4,?,?,?,CHAN_NUM_VAL_8,?,?,?,?,?,?,?,CHAN_NUM_VAL_16,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
group.long 0x1024++0x03
line.long 0x00 "HST_CHANNELS_P2,Number of active channels on port 2 (this will determine the number of the used channel descriptor bits on the MIPI port as well)It can be 1.2.4.8 or 16"
bitfld.long 0x00 0.--4. "CHAN_NUM_VAL,Number of active channels up to" "?,CHAN_NUM_VAL_1,?,?,CHAN_NUM_VAL_4,?,?,?,CHAN_NUM_VAL_8,?,?,?,?,?,?,?,CHAN_NUM_VAL_16,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
group.long 0x18++0x03
line.long 0x00 "HST_DIVISOR_P1,Transmission bit rate divisor for port 1"
hexmask.long.byte 0x00 0.--7. 1. "TX_RATE_DIV_VAL,This bitfield B has a range [0..255] and it programs a division factor [1..256] B+1 example: writing 0 divides by 1 writing 1 divides by 2 writing 2 divides by 3 etc"
group.long 0x1018++0x03
line.long 0x00 "HST_DIVISOR_P2,Transmission bit rate divisor for port 2"
hexmask.long.byte 0x00 0.--7. 1. "TX_RATE_DIV_VAL,This bitfield B has a range [0..255] and it programs a division factor [1..256] B+1 example: writing 0 divides by 1 writing 1 divides by 2 writing 2 divides by 3 etc"
rgroup.long 0x08++0x03
line.long 0x00 "HST_FRAMESIZE_P1,This register is provided for legacy and possible future extension of protocol"
bitfld.long 0x00 0.--4. "SIZE_VAL,In the current implementation it must be always written 31 meaning the frame payload size is 32 bit" "?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,SIZE_VAL_31_r"
rgroup.long 0x1008++0x03
line.long 0x00 "HST_FRAMESIZE_P2,This register is provided for legacy and possible future extension of protocol"
bitfld.long 0x00 0.--4. "SIZE_VAL,In the current implementation it must be always written 31 meaning the frame payload size is 32 bit" "?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,SIZE_VAL_31_r"
rgroup.long 0x00++0x03
line.long 0x00 "HST_ID_P1,legacy identification on port 1"
rgroup.long 0x1000++0x03
line.long 0x00 "HST_ID_P2,legacy identification on port 2"
group.long 0x100++0x07
line.long 0x00 "HST_MAPPING0,TX FIFO configuration register"
bitfld.long 0x00 10.--13. "THRESHOLD,Number of empty TX FIFO locations that will activate interrupt or DMA requests" "less than 8 words in the FIFO,less than 1 words in the FIFO,less than 2 words in the FIFO,?,?,?,?,?,less than 8 words in the FIFO 0x9 through,?,?,?,?,?,?,no request generated"
bitfld.long 0x00 7. "PORT_NUMBER,Associates the FIFO to a HSI port" "PORT_NUMBER_0,PORT_NUMBER_1"
bitfld.long 0x00 1.--4. "CH_NUMBER,Associates the TX FIFO to a HSI logical channel number (0-15):0x0: logical channel number" "CH_NUMBER_0,CH_NUMBER_1,CH_NUMBER_2,CH_NUMBER_3,CH_NUMBER_4,CH_NUMBER_5,CH_NUMBER_6,CH_NUMBER_7,CH_NUMBER_8,CH_NUMBER_9,CH_NUMBER_10,CH_NUMBER_11,CH_NUMBER_12,CH_NUMBER_13,CH_NUMBER_14,CH_NUMBER_15"
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bitfld.long 0x00 0. "ENABLE,Enables the FIFO" "ENABLE_0,ENABLE_1"
line.long 0x04 "HST_MAPPING1,TX FIFO configuration register"
bitfld.long 0x04 10.--13. "THRESHOLD,Number of empty TX FIFO locations that will activate interrupt or DMA requests" "less than 8 words in the FIFO,less than 1 words in the FIFO,less than 2 words in the FIFO,?,?,?,?,?,less than 8 words in the FIFO 0x9 through,?,?,?,?,?,?,no request generated"
bitfld.long 0x04 7. "PORT_NUMBER,Associates the FIFO to a HSI port" "PORT_NUMBER_0,PORT_NUMBER_1"
bitfld.long 0x04 1.--4. "CH_NUMBER,Associates the TX FIFO to a HSI logical channel number (0-15):0x0: logical channel number" "CH_NUMBER_0,CH_NUMBER_1,CH_NUMBER_2,CH_NUMBER_3,CH_NUMBER_4,CH_NUMBER_5,CH_NUMBER_6,CH_NUMBER_7,CH_NUMBER_8,CH_NUMBER_9,CH_NUMBER_10,CH_NUMBER_11,CH_NUMBER_12,CH_NUMBER_13,CH_NUMBER_14,CH_NUMBER_15"
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bitfld.long 0x04 0. "ENABLE,Enables the FIFO" "ENABLE_0,ENABLE_1"
group.long 0x128++0x17
line.long 0x00 "HST_MAPPING10,TX FIFO configuration register"
bitfld.long 0x00 10.--13. "THRESHOLD,Number of empty TX FIFO locations that will activate interrupt or DMA requests" "less than 8 words in the FIFO,less than 1 words in the FIFO,less than 2 words in the FIFO,?,?,?,?,?,less than 8 words in the FIFO 0x9 through,?,?,?,?,?,?,no request generated"
bitfld.long 0x00 7. "PORT_NUMBER,Associates the FIFO to a HSI port" "PORT_NUMBER_0,PORT_NUMBER_1"
bitfld.long 0x00 1.--4. "CH_NUMBER,Associates the TX FIFO to a HSI logical channel number (0-15):0x0: logical channel number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
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bitfld.long 0x00 0. "ENABLE,Enables the FIFO" "ENABLE_0,ENABLE_1"
line.long 0x04 "HST_MAPPING11,TX FIFO configuration register"
bitfld.long 0x04 10.--13. "THRESHOLD,Number of empty TX FIFO locations that will activate interrupt or DMA requests" "less than 8 words in the FIFO,less than 1 words in the FIFO,less than 2 words in the FIFO,?,?,?,?,?,less than 8 words in the FIFO 0x9 through,?,?,?,?,?,?,no request generated"
bitfld.long 0x04 7. "PORT_NUMBER,Associates the FIFO to a HSI port" "PORT_NUMBER_0,PORT_NUMBER_1"
bitfld.long 0x04 1.--4. "CH_NUMBER,Associates the TX FIFO to a HSI logical channel number (0-15):0x0: logical channel number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
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bitfld.long 0x04 0. "ENABLE,Enables the FIFO" "ENABLE_0,ENABLE_1"
line.long 0x08 "HST_MAPPING12,TX FIFO configuration register"
bitfld.long 0x08 10.--13. "THRESHOLD,Number of empty TX FIFO locations that will activate interrupt or DMA requests" "less than 8 words in the FIFO,less than 1 words in the FIFO,less than 2 words in the FIFO,?,?,?,?,?,less than 8 words in the FIFO 0x9 through,?,?,?,?,?,?,no request generated"
bitfld.long 0x08 7. "PORT_NUMBER,Associates the FIFO to a HSI port" "PORT_NUMBER_0,PORT_NUMBER_1"
bitfld.long 0x08 1.--4. "CH_NUMBER,Associates the TX FIFO to a HSI logical channel number (0-15):0x0: logical channel number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
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bitfld.long 0x08 0. "ENABLE,Enables the FIFO" "ENABLE_0,ENABLE_1"
line.long 0x0C "HST_MAPPING13,TX FIFO configuration register"
bitfld.long 0x0C 10.--13. "THRESHOLD,Number of empty TX FIFO locations that will activate interrupt or DMA requests" "less than 8 words in the FIFO,less than 1 words in the FIFO,less than 2 words in the FIFO,?,?,?,?,?,less than 8 words in the FIFO 0x9 through,?,?,?,?,?,?,no request generated"
bitfld.long 0x0C 7. "PORT_NUMBER,Associates the FIFO to a HSI port" "PORT_NUMBER_0,PORT_NUMBER_1"
bitfld.long 0x0C 1.--4. "CH_NUMBER,Associates the TX FIFO to a HSI logical channel number (0-15):0x0: logical channel number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
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bitfld.long 0x0C 0. "ENABLE,Enables the FIFO" "ENABLE_0,ENABLE_1"
line.long 0x10 "HST_MAPPING14,TX FIFO configuration register"
bitfld.long 0x10 10.--13. "THRESHOLD,Number of empty TX FIFO locations that will activate interrupt or DMA requests" "less than 8 words in the FIFO,less than 1 words in the FIFO,less than 2 words in the FIFO,?,?,?,?,?,less than 8 words in the FIFO 0x9 through,?,?,?,?,?,?,no request generated"
bitfld.long 0x10 7. "PORT_NUMBER,Associates the FIFO to a HSI port" "PORT_NUMBER_0,PORT_NUMBER_1"
bitfld.long 0x10 1.--4. "CH_NUMBER,Associates the TX FIFO to a HSI logical channel number (0-15):0x0: logical channel number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
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bitfld.long 0x10 0. "ENABLE,Enables the FIFO" "ENABLE_0,ENABLE_1"
line.long 0x14 "HST_MAPPING15,TX FIFO configuration register"
bitfld.long 0x14 10.--13. "THRESHOLD,Number of empty TX FIFO locations that will activate interrupt or DMA requests" "less than 8 words in the FIFO,less than 1 words in the FIFO,less than 2 words in the FIFO,?,?,?,?,?,less than 8 words in the FIFO 0x9 through,?,?,?,?,?,?,no request generated"
bitfld.long 0x14 7. "PORT_NUMBER,Associates the FIFO to a HSI port" "PORT_NUMBER_0,PORT_NUMBER_1"
bitfld.long 0x14 1.--4. "CH_NUMBER,Associates the TX FIFO to a HSI logical channel number (0-15):0x0: logical channel number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
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bitfld.long 0x14 0. "ENABLE,Enables the FIFO" "ENABLE_0,ENABLE_1"
group.long 0x108++0x1F
line.long 0x00 "HST_MAPPING2,TX FIFO configuration register"
bitfld.long 0x00 10.--13. "THRESHOLD,Number of empty TX FIFO locations that will activate interrupt or DMA requests" "less than 8 words in the FIFO,less than 1 words in the FIFO,less than 2 words in the FIFO,?,?,?,?,?,less than 8 words in the FIFO 0x9 through,?,?,?,?,?,?,no request generated"
bitfld.long 0x00 7. "PORT_NUMBER,Associates the FIFO to a HSI port" "PORT_NUMBER_0,PORT_NUMBER_1"
bitfld.long 0x00 1.--4. "CH_NUMBER,Associates the TX FIFO to a HSI logical channel number (0-15):0x0: logical channel number" "CH_NUMBER_0,CH_NUMBER_1,CH_NUMBER_2,CH_NUMBER_3,CH_NUMBER_4,CH_NUMBER_5,CH_NUMBER_6,CH_NUMBER_7,CH_NUMBER_8,CH_NUMBER_9,CH_NUMBER_10,CH_NUMBER_11,CH_NUMBER_12,CH_NUMBER_13,CH_NUMBER_14,CH_NUMBER_15"
newline
bitfld.long 0x00 0. "ENABLE,Enables the FIFO" "ENABLE_0,ENABLE_1"
line.long 0x04 "HST_MAPPING3,TX FIFO configuration register"
bitfld.long 0x04 10.--13. "THRESHOLD,Number of empty TX FIFO locations that will activate interrupt or DMA requests" "less than 8 words in the FIFO,less than 1 words in the FIFO,less than 2 words in the FIFO,?,?,?,?,?,less than 8 words in the FIFO 0x9 through,?,?,?,?,?,?,no request generated"
bitfld.long 0x04 7. "PORT_NUMBER,Associates the FIFO to a HSI port" "PORT_NUMBER_0,PORT_NUMBER_1"
bitfld.long 0x04 1.--4. "CH_NUMBER,Associates the TX FIFO to a HSI logical channel number (0-15):0x0: logical channel number" "CH_NUMBER_0,CH_NUMBER_1,CH_NUMBER_2,CH_NUMBER_3,CH_NUMBER_4,CH_NUMBER_5,CH_NUMBER_6,CH_NUMBER_7,CH_NUMBER_8,CH_NUMBER_9,CH_NUMBER_10,CH_NUMBER_11,CH_NUMBER_12,CH_NUMBER_13,CH_NUMBER_14,CH_NUMBER_15"
newline
bitfld.long 0x04 0. "ENABLE,Enables the FIFO" "ENABLE_0,ENABLE_1"
line.long 0x08 "HST_MAPPING4,TX FIFO configuration register"
bitfld.long 0x08 10.--13. "THRESHOLD,Number of empty TX FIFO locations that will activate interrupt or DMA requests" "less than 8 words in the FIFO,less than 1 words in the FIFO,less than 2 words in the FIFO,?,?,?,?,?,less than 8 words in the FIFO 0x9 through,?,?,?,?,?,?,no request generated"
bitfld.long 0x08 7. "PORT_NUMBER,Associates the FIFO to a HSI port" "PORT_NUMBER_0,PORT_NUMBER_1"
bitfld.long 0x08 1.--4. "CH_NUMBER,Associates the TX FIFO to a HSI logical channel number (0-15):0x0: logical channel number" "CH_NUMBER_0,CH_NUMBER_1,CH_NUMBER_2,CH_NUMBER_3,CH_NUMBER_4,CH_NUMBER_5,CH_NUMBER_6,CH_NUMBER_7,CH_NUMBER_8,CH_NUMBER_9,CH_NUMBER_10,CH_NUMBER_11,CH_NUMBER_12,CH_NUMBER_13,CH_NUMBER_14,CH_NUMBER_15"
newline
bitfld.long 0x08 0. "ENABLE,Enables the FIFO" "ENABLE_0,ENABLE_1"
line.long 0x0C "HST_MAPPING5,TX FIFO configuration register"
bitfld.long 0x0C 10.--13. "THRESHOLD,Number of empty TX FIFO locations that will activate interrupt or DMA requests" "less than 8 words in the FIFO,less than 1 words in the FIFO,less than 2 words in the FIFO,?,?,?,?,?,less than 8 words in the FIFO 0x9 through,?,?,?,?,?,?,no request generated"
bitfld.long 0x0C 7. "PORT_NUMBER,Associates the FIFO to a HSI port" "PORT_NUMBER_0,PORT_NUMBER_1"
bitfld.long 0x0C 1.--4. "CH_NUMBER,Associates the TX FIFO to a HSI logical channel number (0-15):0x0: logical channel number" "CH_NUMBER_0,CH_NUMBER_1,CH_NUMBER_2,CH_NUMBER_3,CH_NUMBER_4,CH_NUMBER_5,CH_NUMBER_6,CH_NUMBER_7,CH_NUMBER_8,CH_NUMBER_9,CH_NUMBER_10,CH_NUMBER_11,CH_NUMBER_12,CH_NUMBER_13,CH_NUMBER_14,CH_NUMBER_15"
newline
bitfld.long 0x0C 0. "ENABLE,Enables the FIFO" "ENABLE_0,ENABLE_1"
line.long 0x10 "HST_MAPPING6,TX FIFO configuration register"
bitfld.long 0x10 10.--13. "THRESHOLD,Number of empty TX FIFO locations that will activate interrupt or DMA requests" "less than 8 words in the FIFO,less than 1 words in the FIFO,less than 2 words in the FIFO,?,?,?,?,?,less than 8 words in the FIFO 0x9 through,?,?,?,?,?,?,no request generated"
bitfld.long 0x10 7. "PORT_NUMBER,Associates the FIFO to a HSI port" "PORT_NUMBER_0,PORT_NUMBER_1"
bitfld.long 0x10 1.--4. "CH_NUMBER,Associates the TX FIFO to a HSI logical channel number (0-15):0x0: logical channel number" "CH_NUMBER_0,CH_NUMBER_1,CH_NUMBER_2,CH_NUMBER_3,CH_NUMBER_4,CH_NUMBER_5,CH_NUMBER_6,CH_NUMBER_7,CH_NUMBER_8,CH_NUMBER_9,CH_NUMBER_10,CH_NUMBER_11,CH_NUMBER_12,CH_NUMBER_13,CH_NUMBER_14,CH_NUMBER_15"
newline
bitfld.long 0x10 0. "ENABLE,Enables the FIFO" "ENABLE_0,ENABLE_1"
line.long 0x14 "HST_MAPPING7,TX FIFO configuration register"
bitfld.long 0x14 10.--13. "THRESHOLD,Number of empty TX FIFO locations that will activate interrupt or DMA requests" "less than 8 words in the FIFO,less than 1 words in the FIFO,less than 2 words in the FIFO,?,?,?,?,?,less than 8 words in the FIFO 0x9 through,?,?,?,?,?,?,no request generated"
bitfld.long 0x14 7. "PORT_NUMBER,Associates the FIFO to a HSI port" "PORT_NUMBER_0,PORT_NUMBER_1"
bitfld.long 0x14 1.--4. "CH_NUMBER,Associates the TX FIFO to a HSI logical channel number (0-15):0x0: logical channel number" "CH_NUMBER_0,CH_NUMBER_1,CH_NUMBER_2,CH_NUMBER_3,CH_NUMBER_4,CH_NUMBER_5,CH_NUMBER_6,CH_NUMBER_7,CH_NUMBER_8,CH_NUMBER_9,CH_NUMBER_10,CH_NUMBER_11,CH_NUMBER_12,CH_NUMBER_13,CH_NUMBER_14,CH_NUMBER_15"
newline
bitfld.long 0x14 0. "ENABLE,Enables the FIFO" "ENABLE_0,ENABLE_1"
line.long 0x18 "HST_MAPPING8,TX FIFO configuration register"
bitfld.long 0x18 10.--13. "THRESHOLD,Number of empty TX FIFO locations that will activate interrupt or DMA requests" "less than 8 words in the FIFO,less than 1 words in the FIFO,less than 2 words in the FIFO,?,?,?,?,?,less than 8 words in the FIFO 0x9 through,?,?,?,?,?,?,no request generated"
bitfld.long 0x18 7. "PORT_NUMBER,Associates the FIFO to a HSI port" "PORT_NUMBER_0,PORT_NUMBER_1"
bitfld.long 0x18 1.--4. "CH_NUMBER,Associates the TX FIFO to a HSI logical channel number (0-15):0x0: logical channel number" "CH_NUMBER_0,CH_NUMBER_1,CH_NUMBER_2,CH_NUMBER_3,CH_NUMBER_4,CH_NUMBER_5,CH_NUMBER_6,CH_NUMBER_7,CH_NUMBER_8,CH_NUMBER_9,CH_NUMBER_10,CH_NUMBER_11,CH_NUMBER_12,CH_NUMBER_13,CH_NUMBER_14,CH_NUMBER_15"
newline
bitfld.long 0x18 0. "ENABLE,Enables the FIFO" "ENABLE_0,ENABLE_1"
line.long 0x1C "HST_MAPPING9,TX FIFO configuration register"
bitfld.long 0x1C 10.--13. "THRESHOLD,Number of empty TX FIFO locations that will activate interrupt or DMA requests" "less than 8 words in the FIFO,less than 1 words in the FIFO,less than 2 words in the FIFO,?,?,?,?,?,less than 8 words in the FIFO 0x9 through,?,?,?,?,?,?,no request generated"
bitfld.long 0x1C 7. "PORT_NUMBER,Associates the FIFO to a HSI port" "PORT_NUMBER_0,PORT_NUMBER_1"
bitfld.long 0x1C 1.--4. "CH_NUMBER,Associates the TX FIFO to a HSI logical channel number (0-15):0x0: logical channel number" "CH_NUMBER_0,CH_NUMBER_1,CH_NUMBER_2,CH_NUMBER_3,CH_NUMBER_4,CH_NUMBER_5,CH_NUMBER_6,CH_NUMBER_7,CH_NUMBER_8,CH_NUMBER_9,CH_NUMBER_10,CH_NUMBER_11,CH_NUMBER_12,CH_NUMBER_13,CH_NUMBER_14,CH_NUMBER_15"
newline
bitfld.long 0x1C 0. "ENABLE,Enables the FIFO" "ENABLE_0,ENABLE_1"
group.long 0x04++0x03
line.long 0x00 "HST_MODE_P1,Defines operation mode and data flow on port 1"
bitfld.long 0x00 4. "WAKE_CTRL,Wake control" "WAKE_CTRL_0,WAKE_CTRL_1"
bitfld.long 0x00 2.--3. "FLOW_VAL,Flow" "FLOW_VAL_0,FLOW_VAL_1,FLOW_VAL_2,?"
bitfld.long 0x00 0.--1. "MODE_VAL,Mode" "MODE_VAL_0,MODE_VAL_1,MODE_VAL_2,MODE_VAL_3"
group.long 0x1004++0x03
line.long 0x00 "HST_MODE_P2,Defines operation mode and data flow on port 2"
bitfld.long 0x00 4. "WAKE_CTRL,Wake control" "WAKE_CTRL_0,WAKE_CTRL_1"
bitfld.long 0x00 2.--3. "FLOW_VAL,Flow" "FLOW_VAL_0,FLOW_VAL_1,FLOW_VAL_2,?"
bitfld.long 0x00 0.--1. "MODE_VAL,Mode" "MODE_VAL_0,MODE_VAL_1,MODE_VAL_2,MODE_VAL_3"
rgroup.long 0x0C++0x03
line.long 0x00 "HST_TXSTATE_P1,Define the state of the transmitter on port 1"
bitfld.long 0x00 0.--2. "TXSTATEVAL,State of the transmitter" "TXSTATEVAL_0_r,TXSTATEVAL_1_r,TXSTATEVAL_2_r,TXSTATEVAL_3_r,TXSTATEVAL_4_r,TXSTATEVAL_5_r,TXSTATEVAL_6_r,TXSTATEVAL_7_r"
rgroup.long 0x100C++0x03
line.long 0x00 "HST_TXSTATE_P2,Define the state of the transmitter on port 2"
bitfld.long 0x00 0.--2. "TXSTATEVAL,State of the transmitter" "TXSTATEVAL_0_r,TXSTATEVAL_1_r,TXSTATEVAL_2_r,TXSTATEVAL_3_r,TXSTATEVAL_4_r,TXSTATEVAL_5_r,TXSTATEVAL_6_r,TXSTATEVAL_7_r"
tree.end
tree "HSI_TOP"
base ansd:0x4A058000
rgroup.long 0x00++0x07
line.long 0x00 "HSI_REVISION,IP Revision Identifier (X.Y.R)Used by software to track features. bugs. and compatibility"
line.long 0x04 "HSI_HWINFO,Information about the IP module's hardware configuration. i.e"
group.long 0x10++0x07
line.long 0x00 "HSI_SYSCONFIG,This register allows controlling various parameters of the L4_CFG interface"
bitfld.long 0x00 12.--13. "MIDLEMODE,Master interface power management standby/wait control" "MIDLEMODE_0,MIDLEMODE_1,MIDLEMODE_2,MIDLEMODE_3"
bitfld.long 0x00 3.--4. "SIDLEMODE,Slave interface power management request/acknowledgement control" "SIDLEMODE_0,SIDLEMODE_1,SIDLEMODE_2,SIDLEMODE_3"
bitfld.long 0x00 2. "FREE_EMU,Sensitivity to emulation (debug) suspend input signal" "FREE_EMU_0,FREE_EMU_1"
newline
bitfld.long 0x00 1. "SOFTRESET,Software reset" "SOFTRESET_0,SOFTRESET_1"
bitfld.long 0x00 0. "AUTOIDLE,Internal interface clock gating strategy" "AUTOIDLE_0,AUTOIDLE_1"
line.long 0x04 "HSI_SYSSTATUS,Status on module. (reset done on bit 0. available for more status info)"
group.long 0x408++0x1F
line.long 0x00 "HSI_P1_M_IRQ0U_STATUS,IRQ status register for FIFO (8..15) events and for port p break. wake and error events"
bitfld.long 0x00 26. "HSR_WAKE,Wake detected on any channel 8..15" "0,1"
bitfld.long 0x00 25. "HSR_BREAK,Break detected on any channel 8..15" "HSR_BREAK_0,HSR_BREAK_1"
bitfld.long 0x00 24. "HSR_ERROR,Error detected on any channel 8..15" "HSR_ERROR_0,HSR_ERROR_1"
newline
hexmask.long.byte 0x00 16.--23. 1. "HSR_OVERRUN_CHI,Data overrun in real time mode channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
hexmask.long.byte 0x00 8.--15. 1. "HSR_AVAILABLE_CHI,Data received on channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
hexmask.long.byte 0x00 0.--7. 1. "HST_ACCEPTED_CHI,Data transmitted on channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
line.long 0x04 "HSI_P1_M_IRQ0U_ENABLE,IRQ enable register for FIFO (8..15) events and for port p break. wake and error events signaled to DSP line r (Dspirq_r)"
bitfld.long 0x04 26. "HSR_WAKE,Wake interrupt enable for all channels 8..15" "0,1"
bitfld.long 0x04 25. "HSR_BREAK,Break interrupt enable for all channels 8..15" "0,1"
bitfld.long 0x04 24. "HSR_ERROR,Error interrupt enable for all channels 8..15" "0,1"
newline
hexmask.long.byte 0x04 16.--23. 1. "HSR_OVERRUN_ENI,Overrun interrupt enable for channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
hexmask.long.byte 0x04 8.--15. 1. "HSR_AVAILABLE_ENI,Data available interrupt enable for channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
hexmask.long.byte 0x04 0.--7. 1. "HST_ACCEPTED_ENI,Data accepted interrupt enable for channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
line.long 0x08 "HSI_P1_M_IRQ1U_STATUS,IRQ status register for FIFO (8..15) events and for port p break. wake and error events"
bitfld.long 0x08 26. "HSR_WAKE,Wake detected on any channel 8..15" "0,1"
bitfld.long 0x08 25. "HSR_BREAK,Break detected on any channel 8..15" "HSR_BREAK_0,HSR_BREAK_1"
bitfld.long 0x08 24. "HSR_ERROR,Error detected on any channel 8..15" "HSR_ERROR_0,HSR_ERROR_1"
newline
hexmask.long.byte 0x08 16.--23. 1. "HSR_OVERRUN_CHI,Data overrun in real time mode channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
hexmask.long.byte 0x08 8.--15. 1. "HSR_AVAILABLE_CHI,Data received on channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
hexmask.long.byte 0x08 0.--7. 1. "HST_ACCEPTED_CHI,Data transmitted on channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
line.long 0x0C "HSI_P1_M_IRQ1U_ENABLE,IRQ enable register for FIFO (8..15) events and for port p break. wake and error events signaled to DSP line r (Dspirq_r)"
bitfld.long 0x0C 26. "HSR_WAKE,Wake interrupt enable for all channels 8..15" "0,1"
bitfld.long 0x0C 25. "HSR_BREAK,Break interrupt enable for all channels 8..15" "0,1"
bitfld.long 0x0C 24. "HSR_ERROR,Error interrupt enable for all channels 8..15" "0,1"
newline
hexmask.long.byte 0x0C 16.--23. 1. "HSR_OVERRUN_ENI,Overrun interrupt enable for channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
hexmask.long.byte 0x0C 8.--15. 1. "HSR_AVAILABLE_ENI,Data available interrupt enable for channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
hexmask.long.byte 0x0C 0.--7. 1. "HST_ACCEPTED_ENI,Data accepted interrupt enable for channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
line.long 0x10 "HSI_P2_M_IRQ0U_STATUS,IRQ status register for FIFO (8..15) events and for port p break. wake and error events"
bitfld.long 0x10 26. "HSR_WAKE,Wake detected on any channel 8..15" "0,1"
bitfld.long 0x10 25. "HSR_BREAK,Break detected on any channel 8..15" "HSR_BREAK_0,HSR_BREAK_1"
bitfld.long 0x10 24. "HSR_ERROR,Error detected on any channel 8..15" "HSR_ERROR_0,HSR_ERROR_1"
newline
hexmask.long.byte 0x10 16.--23. 1. "HSR_OVERRUN_CHI,Data overrun in real time mode channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
hexmask.long.byte 0x10 8.--15. 1. "HSR_AVAILABLE_CHI,Data received on channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
hexmask.long.byte 0x10 0.--7. 1. "HST_ACCEPTED_CHI,Data transmitted on channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
line.long 0x14 "HSI_P2_M_IRQ0U_ENABLE,IRQ enable register for FIFO (8..15) events and for port p break. wake and error events signaled to DSP line r (Dspirq_r)"
bitfld.long 0x14 26. "HSR_WAKE,Wake interrupt enable for all channels 8..15" "0,1"
bitfld.long 0x14 25. "HSR_BREAK,Break interrupt enable for all channels 8..15" "0,1"
bitfld.long 0x14 24. "HSR_ERROR,Error interrupt enable for all channels 8..15" "0,1"
newline
hexmask.long.byte 0x14 16.--23. 1. "HSR_OVERRUN_ENI,Overrun interrupt enable for channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
hexmask.long.byte 0x14 8.--15. 1. "HSR_AVAILABLE_ENI,Data available interrupt enable for channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
hexmask.long.byte 0x14 0.--7. 1. "HST_ACCEPTED_ENI,Data accepted interrupt enable for channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
line.long 0x18 "HSI_P2_M_IRQ1U_STATUS,IRQ status register for FIFO (8..15) events and for port p break. wake and error events"
bitfld.long 0x18 26. "HSR_WAKE,Wake detected on any channel 8..15" "0,1"
bitfld.long 0x18 25. "HSR_BREAK,Break detected on any channel 8..15" "HSR_BREAK_0,HSR_BREAK_1"
bitfld.long 0x18 24. "HSR_ERROR,Error detected on any channel 8..15" "HSR_ERROR_0,HSR_ERROR_1"
newline
hexmask.long.byte 0x18 16.--23. 1. "HSR_OVERRUN_CHI,Data overrun in real time mode channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
hexmask.long.byte 0x18 8.--15. 1. "HSR_AVAILABLE_CHI,Data received on channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
hexmask.long.byte 0x18 0.--7. 1. "HST_ACCEPTED_CHI,Data transmitted on channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
line.long 0x1C "HSI_P2_M_IRQ1U_ENABLE,IRQ enable register for FIFO (8..15) events and for port p break. wake and error events signaled to DSP line r (Dspirq_r)"
bitfld.long 0x1C 26. "HSR_WAKE,Wake interrupt enable for all channels 8..15" "0,1"
bitfld.long 0x1C 25. "HSR_BREAK,Break interrupt enable for all channels 8..15" "0,1"
bitfld.long 0x1C 24. "HSR_ERROR,Error interrupt enable for all channels 8..15" "0,1"
newline
hexmask.long.byte 0x1C 16.--23. 1. "HSR_OVERRUN_ENI,Overrun interrupt enable for channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
hexmask.long.byte 0x1C 8.--15. 1. "HSR_AVAILABLE_ENI,Data available interrupt enable for channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
hexmask.long.byte 0x1C 0.--7. 1. "HST_ACCEPTED_ENI,Data accepted interrupt enable for channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
group.long 0x430++0x1F
line.long 0x00 "HSI_P1_D_IRQ0U_STATUS,IRQ status register for FIFO (8..15) events and for port p break. wake and error events"
bitfld.long 0x00 26. "HSR_WAKE,Wake detected on any channel 8..15" "0,1"
bitfld.long 0x00 25. "HSR_BREAK,Break detected on any channel 8..15" "HSR_BREAK_0,HSR_BREAK_1"
bitfld.long 0x00 24. "HSR_ERROR,Error on any channel 8..15" "HSR_ERROR_0,HSR_ERROR_1"
newline
hexmask.long.byte 0x00 16.--23. 1. "HSR_OVERRUN_CHI,Data overrun in real time mode channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
hexmask.long.byte 0x00 8.--15. 1. "HSR_AVAILABLE_CHI,Data received on channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
hexmask.long.byte 0x00 0.--7. 1. "HST_ACCEPTED_CHI,Data transmitted on channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
line.long 0x04 "HSI_P1_D_IRQ0U_ENABLE,IRQ enable register for FIFO (8..15) events and for port p break. wake and error events signaled to DSP line r (Dspirq_r)"
bitfld.long 0x04 26. "HSR_WAKE,Wake interrupt enable for channel 8..15" "0,1"
bitfld.long 0x04 25. "HSR_BREAK,Break interrupt enable for channel 8..15" "0,1"
bitfld.long 0x04 24. "HSR_ERROR,Error interrupt enable for channel 8..15" "0,1"
newline
hexmask.long.byte 0x04 16.--23. 1. "HSR_OVERRUN_ENI,Overrun interrupt enable for channel 8..15"
hexmask.long.byte 0x04 8.--15. 1. "HSR_AVAILABLE_ENI,Data available interrupt enable for channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
hexmask.long.byte 0x04 0.--7. 1. "HST_ACCEPTED_ENI,Data accepted interrupt enable for channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
line.long 0x08 "HSI_P1_D_IRQ1U_STATUS,IRQ status register for FIFO (8..15) events and for port p break. wake and error events"
bitfld.long 0x08 26. "HSR_WAKE,Wake detected on any channel 8..15" "0,1"
bitfld.long 0x08 25. "HSR_BREAK,Break detected on any channel 8..15" "HSR_BREAK_0,HSR_BREAK_1"
bitfld.long 0x08 24. "HSR_ERROR,Error on any channel 8..15" "HSR_ERROR_0,HSR_ERROR_1"
newline
hexmask.long.byte 0x08 16.--23. 1. "HSR_OVERRUN_CHI,Data overrun in real time mode channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
hexmask.long.byte 0x08 8.--15. 1. "HSR_AVAILABLE_CHI,Data received on channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
hexmask.long.byte 0x08 0.--7. 1. "HST_ACCEPTED_CHI,Data transmitted on channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
line.long 0x0C "HSI_P1_D_IRQ1U_ENABLE,IRQ enable register for FIFO (8..15) events and for port p break. wake and error events signaled to DSP line r (Dspirq_r)"
bitfld.long 0x0C 26. "HSR_WAKE,Wake interrupt enable for channel 8..15" "0,1"
bitfld.long 0x0C 25. "HSR_BREAK,Break interrupt enable for channel 8..15" "0,1"
bitfld.long 0x0C 24. "HSR_ERROR,Error interrupt enable for channel 8..15" "0,1"
newline
hexmask.long.byte 0x0C 16.--23. 1. "HSR_OVERRUN_ENI,Overrun interrupt enable for channel 8..15"
hexmask.long.byte 0x0C 8.--15. 1. "HSR_AVAILABLE_ENI,Data available interrupt enable for channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
hexmask.long.byte 0x0C 0.--7. 1. "HST_ACCEPTED_ENI,Data accepted interrupt enable for channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
line.long 0x10 "HSI_P2_D_IRQ0U_STATUS,IRQ status register for FIFO (8..15) events and for port p break. wake and error events"
bitfld.long 0x10 26. "HSR_WAKE,Wake detected on any channel 8..15" "0,1"
bitfld.long 0x10 25. "HSR_BREAK,Break detected on any channel 8..15" "HSR_BREAK_0,HSR_BREAK_1"
bitfld.long 0x10 24. "HSR_ERROR,Error on any channel 8..15" "HSR_ERROR_0,HSR_ERROR_1"
newline
hexmask.long.byte 0x10 16.--23. 1. "HSR_OVERRUN_CHI,Data overrun in real time mode channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
hexmask.long.byte 0x10 8.--15. 1. "HSR_AVAILABLE_CHI,Data received on channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
hexmask.long.byte 0x10 0.--7. 1. "HST_ACCEPTED_CHI,Data transmitted on channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
line.long 0x14 "HSI_P2_D_IRQ0U_ENABLE,IRQ enable register for FIFO (8..15) events and for port p break. wake and error events signaled to DSP line r (Dspirq_r)"
bitfld.long 0x14 26. "HSR_WAKE,Wake interrupt enable for channel 8..15" "0,1"
bitfld.long 0x14 25. "HSR_BREAK,Break interrupt enable for channel 8..15" "0,1"
bitfld.long 0x14 24. "HSR_ERROR,Error interrupt enable for channel 8..15" "0,1"
newline
hexmask.long.byte 0x14 16.--23. 1. "HSR_OVERRUN_ENI,Overrun interrupt enable for channel 8..15"
hexmask.long.byte 0x14 8.--15. 1. "HSR_AVAILABLE_ENI,Data available interrupt enable for channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
hexmask.long.byte 0x14 0.--7. 1. "HST_ACCEPTED_ENI,Data accepted interrupt enable for channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
line.long 0x18 "HSI_P2_D_IRQ1U_STATUS,IRQ status register for FIFO (8..15) events and for port p break. wake and error events"
bitfld.long 0x18 26. "HSR_WAKE,Wake detected on any channel 8..15" "0,1"
bitfld.long 0x18 25. "HSR_BREAK,Break detected on any channel 8..15" "HSR_BREAK_0,HSR_BREAK_1"
bitfld.long 0x18 24. "HSR_ERROR,Error on any channel 8..15" "HSR_ERROR_0,HSR_ERROR_1"
newline
hexmask.long.byte 0x18 16.--23. 1. "HSR_OVERRUN_CHI,Data overrun in real time mode channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
hexmask.long.byte 0x18 8.--15. 1. "HSR_AVAILABLE_CHI,Data received on channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
hexmask.long.byte 0x18 0.--7. 1. "HST_ACCEPTED_CHI,Data transmitted on channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
line.long 0x1C "HSI_P2_D_IRQ1U_ENABLE,IRQ enable register for FIFO (8..15) events and for port p break. wake and error events signaled to DSP line r (Dspirq_r)"
bitfld.long 0x1C 26. "HSR_WAKE,Wake interrupt enable for channel 8..15" "0,1"
bitfld.long 0x1C 25. "HSR_BREAK,Break interrupt enable for channel 8..15" "0,1"
bitfld.long 0x1C 24. "HSR_ERROR,Error interrupt enable for channel 8..15" "0,1"
newline
hexmask.long.byte 0x1C 16.--23. 1. "HSR_OVERRUN_ENI,Overrun interrupt enable for channel 8..15"
hexmask.long.byte 0x1C 8.--15. 1. "HSR_AVAILABLE_ENI,Data available interrupt enable for channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
hexmask.long.byte 0x1C 0.--7. 1. "HST_ACCEPTED_ENI,Data accepted interrupt enable for channel 8..15 (LSB stands for channel 8 and MSB for channel 15)"
group.long 0x800++0x4F
line.long 0x00 "HSI_DMA_M_IRQSTATUS,This register collects status for all of the DMA events able to generate interrupt to MPU:Read"
hexmask.long.word 0x00 0.--15. 1. "DMA_CHI,Channel i status (LSB stands for channel 0 and MSB for channel 15)"
line.long 0x04 "HSI_DMA_M_IRQENABLE,This register masks and unmasks DMA sources of interrupt to MPU"
hexmask.long.word 0x04 0.--15. 1. "DMA_EN_CHI,Channel i (LSB stands for channel 0 and MSB for channel 15)"
line.long 0x08 "HSI_P1_M_IRQ0_STATUS,IRQ status register for FIFO (0..7) events and for port p break. wake and error events Events will signal interrupt for MPU line r (Mpuirq_r)Read"
bitfld.long 0x08 26. "HSR_WAKE,Wake detected on Port p" "0,1"
bitfld.long 0x08 25. "HSR_BREAK,Break detected on Port p" "HSR_BREAK_0,HSR_BREAK_1"
bitfld.long 0x08 24. "HSR_ERROR,Error on Port p" "HSR_ERROR_0,HSR_ERROR_1"
newline
hexmask.long.byte 0x08 16.--23. 1. "HSR_OVERRUN_CHI,Data overrun in real time mode channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
hexmask.long.byte 0x08 8.--15. 1. "HSR_AVAILABLE_CHI,Data received on channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
hexmask.long.byte 0x08 0.--7. 1. "HST_ACCEPTED_CHI,Data transmitted on channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
line.long 0x0C "HSI_P1_M_IRQ0_ENABLE,IRQ enable register for FIFO (0..7) events and for port p break. wake and error events signaled to MPU line r (Mpuirq_r)"
bitfld.long 0x0C 26. "HSR_WAKE,Wake interrupt enable for Port p" "0,1"
bitfld.long 0x0C 25. "HSR_BREAK,Break interrupt enable for Port p" "0,1"
bitfld.long 0x0C 24. "HSR_ERROR,Error interrupt enable for Port p" "0,1"
newline
hexmask.long.byte 0x0C 16.--23. 1. "HSR_OVERRUN_ENI,Overrun interrupt enable for channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
hexmask.long.byte 0x0C 8.--15. 1. "HSR_AVAILABLE_ENI,Data available interrupt enable for channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
hexmask.long.byte 0x0C 0.--7. 1. "HST_ACCEPTED_ENI,Data accepted interrupt enable for channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
line.long 0x10 "HSI_P1_M_IRQ1_STATUS,IRQ status register for FIFO (0..7) events and for port p break. wake and error events Events will signal interrupt for MPU line r (Mpuirq_r)Read"
bitfld.long 0x10 26. "HSR_WAKE,Wake detected on Port p" "0,1"
bitfld.long 0x10 25. "HSR_BREAK,Break detected on Port p" "HSR_BREAK_0,HSR_BREAK_1"
bitfld.long 0x10 24. "HSR_ERROR,Error on Port p" "HSR_ERROR_0,HSR_ERROR_1"
newline
hexmask.long.byte 0x10 16.--23. 1. "HSR_OVERRUN_CHI,Data overrun in real time mode channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
hexmask.long.byte 0x10 8.--15. 1. "HSR_AVAILABLE_CHI,Data received on channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
hexmask.long.byte 0x10 0.--7. 1. "HST_ACCEPTED_CHI,Data transmitted on channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
line.long 0x14 "HSI_P1_M_IRQ1_ENABLE,IRQ enable register for FIFO (0..7) events and for port p break. wake and error events signaled to MPU line r (Mpuirq_r)"
bitfld.long 0x14 26. "HSR_WAKE,Wake interrupt enable for Port p" "0,1"
bitfld.long 0x14 25. "HSR_BREAK,Break interrupt enable for Port p" "HSR_BREAK_0,HSR_BREAK_1"
bitfld.long 0x14 24. "HSR_ERROR,Error interrupt enable for Port p" "HSR_ERROR_0,HSR_ERROR_1"
newline
hexmask.long.byte 0x14 16.--23. 1. "HSR_OVERRUN_ENI,Overrun interrupt enable for channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
hexmask.long.byte 0x14 8.--15. 1. "HSR_AVAILABLE_ENI,Data available interrupt enable for channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
hexmask.long.byte 0x14 0.--7. 1. "HST_ACCEPTED_ENI,Data accepted interrupt enable for channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
line.long 0x18 "HSI_P2_M_IRQ0_STATUS,IRQ status register for FIFO (0..7) events and for port p break. wake and error events Events will signal interrupt for MPU line r (Mpuirq_r)Read"
bitfld.long 0x18 26. "HSR_WAKE,Wake detected on Port p" "0,1"
bitfld.long 0x18 25. "HSR_BREAK,Break detected on Port p" "HSR_BREAK_0,HSR_BREAK_1"
bitfld.long 0x18 24. "HSR_ERROR,Error on Port p" "HSR_ERROR_0,HSR_ERROR_1"
newline
hexmask.long.byte 0x18 16.--23. 1. "HSR_OVERRUN_CHI,Data overrun in real time mode channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
hexmask.long.byte 0x18 8.--15. 1. "HSR_AVAILABLE_CHI,Data received on channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
hexmask.long.byte 0x18 0.--7. 1. "HST_ACCEPTED_CHI,Data transmitted on channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
line.long 0x1C "HSI_P2_M_IRQ0_ENABLE,IRQ enable register for FIFO (0..7) events and for port p break. wake and error events signaled to MPU line r (Mpuirq_r)"
bitfld.long 0x1C 26. "HSR_WAKE,Wake interrupt enable for Port p" "0,1"
bitfld.long 0x1C 25. "HSR_BREAK,Break interrupt enable for Port p" "0,1"
bitfld.long 0x1C 24. "HSR_ERROR,Error interrupt enable for Port p" "0,1"
newline
hexmask.long.byte 0x1C 16.--23. 1. "HSR_OVERRUN_ENI,Overrun interrupt enable for channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
hexmask.long.byte 0x1C 8.--15. 1. "HSR_AVAILABLE_ENI,Data available interrupt enable for channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
hexmask.long.byte 0x1C 0.--7. 1. "HST_ACCEPTED_ENI,Data accepted interrupt enable for channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
line.long 0x20 "HSI_P2_M_IRQ1_STATUS,IRQ status register for FIFO (0..7) events and for port p break. wake and error events Events will signal interrupt for MPU line r (Mpuirq_r)Read"
bitfld.long 0x20 26. "HSR_WAKE,Wake detected on Port p" "0,1"
bitfld.long 0x20 25. "HSR_BREAK,Break detected on Port p" "HSR_BREAK_0,HSR_BREAK_1"
bitfld.long 0x20 24. "HSR_ERROR,Error on Port p" "HSR_ERROR_0,HSR_ERROR_1"
newline
hexmask.long.byte 0x20 16.--23. 1. "HSR_OVERRUN_CHI,Data overrun in real time mode channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
hexmask.long.byte 0x20 8.--15. 1. "HSR_AVAILABLE_CHI,Data received on channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
hexmask.long.byte 0x20 0.--7. 1. "HST_ACCEPTED_CHI,Data transmitted on channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
line.long 0x24 "HSI_P2_M_IRQ1_ENABLE,IRQ enable register for FIFO (0..7) events and for port p break. wake and error events signaled to MPU line r (Mpuirq_r)"
bitfld.long 0x24 26. "HSR_WAKE,Wake interrupt enable for Port p" "0,1"
bitfld.long 0x24 25. "HSR_BREAK,Break interrupt enable for Port p" "0,1"
bitfld.long 0x24 24. "HSR_ERROR,Error interrupt enable for Port p" "0,1"
newline
hexmask.long.byte 0x24 16.--23. 1. "HSR_OVERRUN_ENI,Overrun interrupt enable for channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
hexmask.long.byte 0x24 8.--15. 1. "HSR_AVAILABLE_ENI,Data available interrupt enable for channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
hexmask.long.byte 0x24 0.--7. 1. "HST_ACCEPTED_ENI,Data accepted interrupt enable for channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
line.long 0x28 "HSI_DMA_D_IRQSTATUS,IRQ status register for all DMA events"
hexmask.long.word 0x28 0.--15. 1. "DMA_CHI,IRQ event happened on DMA channel i (LSB stands for channel 0 and MSB for channel 15)"
line.long 0x2C "HSI_DMA_D_IRQENABLE,IRQ enable register for all DMA events signaled to DSP"
hexmask.long.word 0x2C 0.--15. 1. "DMA_EN_CHI,Channel i (LSB stands for channel 0 and MSB for channel 15)"
line.long 0x30 "HSI_P1_D_IRQ0_STATUS,IRQ status register for FIFO (0..7) events and for port p break. wake and error events"
bitfld.long 0x30 26. "HSR_WAKE,Wake detected on Port p" "0,1"
bitfld.long 0x30 25. "HSR_BREAK,Break detected on Port p" "HSR_BREAK_0,HSR_BREAK_1"
bitfld.long 0x30 24. "HSR_ERROR,Error on Port p" "HSR_ERROR_0,HSR_ERROR_1"
newline
hexmask.long.byte 0x30 16.--23. 1. "HSR_OVERRUN_CHI,Data overrun in real time mode channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
hexmask.long.byte 0x30 8.--15. 1. "HSR_AVAILABLE_CHI,Data received on channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
hexmask.long.byte 0x30 0.--7. 1. "HST_ACCEPTED_CHI,Data transmitted on channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
line.long 0x34 "HSI_P1_D_IRQ0_ENABLE,IRQ enable register for FIFO (0..7) events and for port p break. wake and error events signaled to DSP line r (Dspirq_r)"
bitfld.long 0x34 26. "HSR_WAKE,Wake interrupt enable for Port p" "0,1"
bitfld.long 0x34 25. "HSR_BREAK,Break interrupt enable for Port p" "0,1"
bitfld.long 0x34 24. "HSR_ERROR,Error interrupt enable for Port p" "0,1"
newline
hexmask.long.byte 0x34 16.--23. 1. "HSR_OVERRUN_ENI,Overrun interrupt enable for channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
hexmask.long.byte 0x34 8.--15. 1. "HSR_AVAILABLE_ENI,Data available interrupt enable for channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
hexmask.long.byte 0x34 0.--7. 1. "HST_ACCEPTED_ENI,Data accepted interrupt enable for channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
line.long 0x38 "HSI_P1_D_IRQ1_STATUS,IRQ status register for FIFO (0..7) events and for port p break. wake and error events"
bitfld.long 0x38 26. "HSR_WAKE,Wake detected on Port p" "0,1"
bitfld.long 0x38 25. "HSR_BREAK,Break detected on Port p" "HSR_BREAK_0,HSR_BREAK_1"
bitfld.long 0x38 24. "HSR_ERROR,Error on Port p" "HSR_ERROR_0,HSR_ERROR_1"
newline
hexmask.long.byte 0x38 16.--23. 1. "HSR_OVERRUN_CHI,Data overrun in real time mode channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
hexmask.long.byte 0x38 8.--15. 1. "HSR_AVAILABLE_CHI,Data received on channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
hexmask.long.byte 0x38 0.--7. 1. "HST_ACCEPTED_CHI,Data transmitted on channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
line.long 0x3C "HSI_P1_D_IRQ1_ENABLE,IRQ enable register for FIFO (0..7) events and for port p break. wake and error events signaled to DSP line r (Dspirq_r)"
bitfld.long 0x3C 26. "HSR_WAKE,Wake interrupt enable for Port p" "0,1"
bitfld.long 0x3C 25. "HSR_BREAK,Break interrupt enable for Port p" "0,1"
bitfld.long 0x3C 24. "HSR_ERROR,Error interrupt enable for Port p" "0,1"
newline
hexmask.long.byte 0x3C 16.--23. 1. "HSR_OVERRUN_ENI,Overrun interrupt enable for channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
hexmask.long.byte 0x3C 8.--15. 1. "HSR_AVAILABLE_ENI,Data available interrupt enable for channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
hexmask.long.byte 0x3C 0.--7. 1. "HST_ACCEPTED_ENI,Data accepted interrupt enable for channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
line.long 0x40 "HSI_P2_D_IRQ0_STATUS,IRQ status register for FIFO (0..7) events and for port p break. wake and error events"
bitfld.long 0x40 26. "HSR_WAKE,Wake detected on Port p" "0,1"
bitfld.long 0x40 25. "HSR_BREAK,Break detected on Port p" "HSR_BREAK_0,HSR_BREAK_1"
bitfld.long 0x40 24. "HSR_ERROR,Error on Port p" "HSR_ERROR_0,HSR_ERROR_1"
newline
hexmask.long.byte 0x40 16.--23. 1. "HSR_OVERRUN_CHI,Data overrun in real time mode channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
hexmask.long.byte 0x40 8.--15. 1. "HSR_AVAILABLE_CHI,Data received on channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
hexmask.long.byte 0x40 0.--7. 1. "HST_ACCEPTED_CHI,Data transmitted on channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
line.long 0x44 "HSI_P2_D_IRQ0_ENABLE,IRQ enable register for FIFO (0..7) events and for port p break. wake and error events signaled to DSP line r (Dspirq_r)"
bitfld.long 0x44 26. "HSR_WAKE,Wake interrupt enable for Port p" "0,1"
bitfld.long 0x44 25. "HSR_BREAK,Break interrupt enable for Port p" "0,1"
bitfld.long 0x44 24. "HSR_ERROR,Error interrupt enable for Port p" "0,1"
newline
hexmask.long.byte 0x44 16.--23. 1. "HSR_OVERRUN_ENI,Overrun interrupt enable for channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
hexmask.long.byte 0x44 8.--15. 1. "HSR_AVAILABLE_ENI,Data available interrupt enable for channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
hexmask.long.byte 0x44 0.--7. 1. "HST_ACCEPTED_ENI,Data accepted interrupt enable for channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
line.long 0x48 "HSI_P2_D_IRQ1_STATUS,IRQ status register for FIFO (0..7) events and for port p break. wake and error events"
bitfld.long 0x48 26. "HSR_WAKE,Wake detected on Port p" "0,1"
bitfld.long 0x48 25. "HSR_BREAK,Break detected on Port p" "HSR_BREAK_0,HSR_BREAK_1"
bitfld.long 0x48 24. "HSR_ERROR,Error on Port p" "HSR_ERROR_0,HSR_ERROR_1"
newline
hexmask.long.byte 0x48 16.--23. 1. "HSR_OVERRUN_CHI,Data overrun in real time mode channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
hexmask.long.byte 0x48 8.--15. 1. "HSR_AVAILABLE_CHI,Data received on channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
hexmask.long.byte 0x48 0.--7. 1. "HST_ACCEPTED_CHI,Data transmitted on channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
line.long 0x4C "HSI_P2_D_IRQ1_ENABLE,IRQ enable register for FIFO (0..7) events and for port p break. wake and error events signaled to DSP line r (Dspirq_r)"
bitfld.long 0x4C 26. "HSR_WAKE,Wake interrupt enable for Port p" "0,1"
bitfld.long 0x4C 25. "HSR_BREAK,Break interrupt enable for Port p" "0,1"
bitfld.long 0x4C 24. "HSR_ERROR,Error interrupt enable for Port p" "0,1"
newline
hexmask.long.byte 0x4C 16.--23. 1. "HSR_OVERRUN_ENI,Overrun interrupt enable for channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
hexmask.long.byte 0x4C 8.--15. 1. "HSR_AVAILABLE_ENI,Data available interrupt enable for channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
hexmask.long.byte 0x4C 0.--7. 1. "HST_ACCEPTED_ENI,Data accepted interrupt enable for channel 0..7 (LSB stands for channel 0 and MSB for channel 7)"
rgroup.long 0xC00++0x0B
line.long 0x00 "HSI_P1_WAKE,Programmed wake state for each channel. in port"
hexmask.long.word 0x00 0.--15. 1. "HSI_WAKE_CHI,Channel 0..15 (LSB stands for channel 0 and MSB for channel 15)"
line.long 0x04 "HSI_P1_CLEAR_WAKE,Clear register for programmed wake state on port 1 HST_WAKE for each"
hexmask.long.word 0x04 0.--15. 1. "HSI_CLEAR_WAKE_CHI,Channel 0..15 (LSB stands for channel 0 and MSB for channel 15)"
line.long 0x08 "HSI_P1_SET_WAKE,Set function for wake state for each channel. in port"
bitfld.long 0x08 17. "HSI_READY_LVL,READY default level" "HSI_READY_LVL_0,HSI_READY_LVL_1"
bitfld.long 0x08 16. "HSI_3_WIRES,Sets 3 wires" "HSI_3_WIRES_0,HSI_3_WIRES_1"
hexmask.long.word 0x08 0.--15. 1. "HSI_SET_WAKE_CHI,Sets programmed WAKE state for channel i"
rgroup.long 0xC10++0x0B
line.long 0x00 "HSI_P2_WAKE,Programmed wake state for each channel. in port"
hexmask.long.word 0x00 0.--15. 1. "HSI_WAKE_CHI,Channel 0..15 (LSB stands for channel 0 and MSB for channel 15)"
line.long 0x04 "HSI_P2_CLEAR_WAKE,Clear register for programmed wake state on port 2 HST_WAKE for each"
hexmask.long.word 0x04 0.--15. 1. "HSI_CLEAR_WAKE_CHI,Channel 0..15 (LSB stands for channel 0 and MSB for channel 15)"
line.long 0x08 "HSI_P2_SET_WAKE,Set function for wake state for each channel. in port"
bitfld.long 0x08 17. "HSI_READY_LVL,READY default level" "HSI_READY_LVL_0,HSI_READY_LVL_1"
bitfld.long 0x08 16. "HSI_3_WIRES,Sets 3 wires" "HSI_3_WIRES_0,HSI_3_WIRES_1"
hexmask.long.word 0x08 0.--15. 1. "HSI_SET_WAKE_CHI,Sets programmed WAKE state for channel i"
group.long 0x1100++0x03
line.long 0x00 "DMA_GCR,Global Control Register: suspend and clock gating"
bitfld.long 0x00 3. "AUTOGATING,DMA clock autogating enable" "AUTOGATING_0,AUTOGATING_1"
bitfld.long 0x00 0. "SWITCH_OFF,DMA global clock control" "SWITCH_OFF_0,SWITCH_OFF_1"
group.long 0x1200++0x03
line.long 0x00 "DMA_GRST,DMA software reset control register"
bitfld.long 0x00 0. "SWRESET,DMA sw reset control bit" "?,SWRESET_1"
tree.end
tree.end
tree "ISS_Interfaces"
tree "ISS_BTE"
base ansd:0x52002000
group.long 0x30++0x07
line.long 0x00 "BTE_CTRL,BTE control register"
abitfld.long 0x00 22.--31. "BW_LIMITER,Minimum number of OCP cycles between two consecutive buffer flushing or prefetch requests" "0x000=Maximum speed,0x001=Up to 1 request every 9 cycles,0x3FF=Minimum speed"
bitfld.long 0x00 8.--11. "BASE,Base address of the virtual space translated by the BTE" "BASE_0,BASE_1,BASE_2,BASE_3,BASE_4,BASE_5,BASE_6,BASE_7,BASE_8,BASE_9,BASE_10,BASE_11,BASE_12,BASE_13,BASE_14,BASE_15"
bitfld.long 0x00 5. "POSTED,Select among posted and nonposted writes for translated requests" "POSTED_0,POSTED_1"
newline
bitfld.long 0x00 0.--3. "TAG_CNT,BTE could use up to TAG_CNT+1 tags on OCPO" "TAG_CNT_0,TAG_CNT_1,TAG_CNT_2,TAG_CNT_3,TAG_CNT_4,TAG_CNT_5,TAG_CNT_6,TAG_CNT_7,TAG_CNT_8,TAG_CNT_9,TAG_CNT_10,TAG_CNT_11,TAG_CNT_12,TAG_CNT_13,TAG_CNT_14,TAG_CNT_15"
line.long 0x04 "BTE_CTRL1,BTE control register"
hexmask.long.byte 0x04 0.--6. 1. "RESP_FIFO_THR,The BTE stops accepting new requests from OCPI (on a clean burst boundary) when the response FIFO contains more than RESP_FIFO_THR words"
rgroup.long 0x04++0x03
line.long 0x00 "BTE_HL_HWINFO,Information about the hardware configuration of the IP module; that is. typically. the HDL generics (if any) of the module"
bitfld.long 0x00 21.--23. "RESPFIFO,Response FIFO size" "RESPFIFO_0_r,RESPFIFO_1_r,RESPFIFO_2_r,RESPFIFO_3_r,RESPFIFO_4_r,RESPFIFO_5_r,RESPFIFO_6_r,RESPFIFO_7_r"
bitfld.long 0x00 19.--20. "CONTEXTS,Number of contexts" "CONTEXTS_0_r,CONTEXTS_1_r,CONTEXTS_2_r,CONTEXTS_3_r"
group.long 0x2C++0x03
line.long 0x00 "BTE_HL_IRQENABLE_CLR,Per-event interrupt enable bit vector Write 1 to clear (disable interrupt)"
bitfld.long 0x00 27. "IRQ_CTX3_ERR,Read request received before sufficient data has been prefetched" "IRQ_CTX3_ERR_0_r,IRQ_CTX3_ERR_1_r"
bitfld.long 0x00 26. "IRQ_CTX2_ERR,Read request received before sufficient data has been prefetched" "IRQ_CTX2_ERR_0_r,IRQ_CTX2_ERR_1_r"
bitfld.long 0x00 25. "IRQ_CTX1_ERR,Read request received before sufficient data has been prefetched" "IRQ_CTX1_ERR_0_r,IRQ_CTX1_ERR_1_r"
newline
bitfld.long 0x00 24. "IRQ_CTX0_ERR,Read request received before sufficient data has been prefetched" "IRQ_CTX0_ERR_0_r,IRQ_CTX0_ERR_1_r"
bitfld.long 0x00 19. "IRQ_CTX3_INVALID,Invalid access" "IRQ_CTX3_INVALID_0_r,IRQ_CTX3_INVALID_1_r"
bitfld.long 0x00 18. "IRQ_CTX2_INVALID,Invalid access" "IRQ_CTX2_INVALID_0_r,IRQ_CTX2_INVALID_1_r"
newline
bitfld.long 0x00 17. "IRQ_CTX1_INVALID,Invalid access" "IRQ_CTX1_INVALID_0_r,IRQ_CTX1_INVALID_1_r"
bitfld.long 0x00 16. "IRQ_CTX0_INVALID,Invalid access" "IRQ_CTX0_INVALID_0_r,IRQ_CTX0_INVALID_1_r"
bitfld.long 0x00 11. "IRQ_CTX3_DONE,Context has been fully transferred to the TILER" "IRQ_CTX3_DONE_0_r,IRQ_CTX3_DONE_1_r"
newline
bitfld.long 0x00 10. "IRQ_CTX2_DONE,Context has been fully transferred to the TILER" "IRQ_CTX2_DONE_0_r,IRQ_CTX2_DONE_1_r"
bitfld.long 0x00 9. "IRQ_CTX1_DONE,Context has been fully transferred to the TILER" "IRQ_CTX1_DONE_0_r,IRQ_CTX1_DONE_1_r"
bitfld.long 0x00 8. "IRQ_CTX0_DONE,Write mode: Context has been fully transferred to the TILER Read mode: Context prefetch has completed" "IRQ_CTX0_DONE_0_r,IRQ_CTX0_DONE_1_r"
newline
bitfld.long 0x00 1. "IRQ_INVALID,Invalid access to the virtual space" "IRQ_INVALID_0_r,IRQ_INVALID_1_r"
bitfld.long 0x00 0. "IRQ_OCP_ERR,OCP error received from OCP master port" "IRQ_OCP_ERR_0_r,IRQ_OCP_ERR_1_r"
group.long 0x28++0x03
line.long 0x00 "BTE_HL_IRQENABLE_SET,Per-event interrupt enable bit vector Write 1 to set (enable interrupt)"
bitfld.long 0x00 27. "IRQ_CTX3_ERR,Read request received before sufficient data has been prefetched" "IRQ_CTX3_ERR_0_r,IRQ_CTX3_ERR_1_r"
bitfld.long 0x00 26. "IRQ_CTX2_ERR,Read request received before sufficient data has been prefetched" "IRQ_CTX2_ERR_0_r,IRQ_CTX2_ERR_1_r"
bitfld.long 0x00 25. "IRQ_CTX1_ERR,Read request received before sufficient data has been prefetched" "IRQ_CTX1_ERR_0_r,IRQ_CTX1_ERR_1_r"
newline
bitfld.long 0x00 24. "IRQ_CTX0_ERR,Read request received before sufficient data has been prefetched" "IRQ_CTX0_ERR_0_r,IRQ_CTX0_ERR_1_r"
bitfld.long 0x00 19. "IRQ_CTX3_INVALID,Invalid access" "IRQ_CTX3_INVALID_0_r,IRQ_CTX3_INVALID_1_r"
bitfld.long 0x00 18. "IRQ_CTX2_INVALID,Invalid access" "IRQ_CTX2_INVALID_0_r,IRQ_CTX2_INVALID_1_r"
newline
bitfld.long 0x00 17. "IRQ_CTX1_INVALID,Invalid access" "IRQ_CTX1_INVALID_0_r,IRQ_CTX1_INVALID_1_r"
bitfld.long 0x00 16. "IRQ_CTX0_INVALID,Invalid access" "IRQ_CTX0_INVALID_0_r,IRQ_CTX0_INVALID_1_r"
bitfld.long 0x00 11. "IRQ_CTX3_DONE,Context has been fully transferred to the TILER" "IRQ_CTX3_DONE_0_r,IRQ_CTX3_DONE_1_r"
newline
bitfld.long 0x00 10. "IRQ_CTX2_DONE,Context has been fully transferred to the TILER" "IRQ_CTX2_DONE_0_r,IRQ_CTX2_DONE_1_r"
bitfld.long 0x00 9. "IRQ_CTX1_DONE,Context has been fully transferred to the TILER" "IRQ_CTX1_DONE_0_r,IRQ_CTX1_DONE_1_r"
bitfld.long 0x00 8. "IRQ_CTX0_DONE,Write mode: Context has been fully transferred to the TILER Read mode: Context prefetch has completed" "IRQ_CTX0_DONE_0_r,IRQ_CTX0_DONE_1_r"
newline
bitfld.long 0x00 1. "IRQ_INVALID,Invalid access to the virtual space" "IRQ_INVALID_0_r,IRQ_INVALID_1_r"
bitfld.long 0x00 0. "IRQ_OCP_ERR,OCP error received from OCP master port" "IRQ_OCP_ERR_0_r,IRQ_OCP_ERR_1_r"
group.long 0x24++0x03
line.long 0x00 "BTE_HL_IRQSTATUS,Per-event 'enabled' interrupt status vector"
bitfld.long 0x00 27. "IRQ_CTX3_ERR,Read request received before sufficient data has been prefetched" "IRQ_CTX3_ERR_0_r,IRQ_CTX3_ERR_1_r"
bitfld.long 0x00 26. "IRQ_CTX2_ERR,Read request received before sufficient data has been prefetched" "IRQ_CTX2_ERR_0_r,IRQ_CTX2_ERR_1_r"
bitfld.long 0x00 25. "IRQ_CTX1_ERR,Read request received before sufficient data has been prefetched" "IRQ_CTX1_ERR_0_r,IRQ_CTX1_ERR_1_r"
newline
bitfld.long 0x00 24. "IRQ_CTX0_ERR,Read request received before sufficient data has been prefetched" "IRQ_CTX0_ERR_0_r,IRQ_CTX0_ERR_1_r"
bitfld.long 0x00 19. "IRQ_CTX3_INVALID,Invalid access" "IRQ_CTX3_INVALID_0_r,IRQ_CTX3_INVALID_1_r"
bitfld.long 0x00 18. "IRQ_CTX2_INVALID,Invalid access" "IRQ_CTX2_INVALID_0_r,IRQ_CTX2_INVALID_1_r"
newline
bitfld.long 0x00 17. "IRQ_CTX1_INVALID,Invalid access" "IRQ_CTX1_INVALID_0_r,IRQ_CTX1_INVALID_1_r"
bitfld.long 0x00 16. "IRQ_CTX0_INVALID,Invalid access" "IRQ_CTX0_INVALID_0_r,IRQ_CTX0_INVALID_1_r"
bitfld.long 0x00 11. "IRQ_CTX3_DONE,Context has been fully transferred to the TILER" "IRQ_CTX3_DONE_0_r,IRQ_CTX3_DONE_1_r"
newline
bitfld.long 0x00 10. "IRQ_CTX2_DONE,Context has been fully transferred to the TILER" "IRQ_CTX2_DONE_0_r,IRQ_CTX2_DONE_1_r"
bitfld.long 0x00 9. "IRQ_CTX1_DONE,Context has been fully transferred to the TILER" "IRQ_CTX1_DONE_0_r,IRQ_CTX1_DONE_1_r"
bitfld.long 0x00 8. "IRQ_CTX0_DONE,Write mode: Context has been fully transferred to the TILER Read mode: Context prefetch has completed" "IRQ_CTX0_DONE_0_r,IRQ_CTX0_DONE_1_r"
newline
bitfld.long 0x00 1. "IRQ_INVALID,Invalid access to the virtual space" "IRQ_INVALID_0_r,IRQ_INVALID_1_r"
bitfld.long 0x00 0. "IRQ_OCP_ERR,OCP error received from OCP master port" "IRQ_OCP_ERR_0_r,IRQ_OCP_ERR_1_r"
group.long 0x20++0x03
line.long 0x00 "BTE_HL_IRQSTATUS_RAW,Per-event raw interrupt status vector Raw status is set even if event is not enabled"
bitfld.long 0x00 27. "IRQ_CTX3_ERR,Read request received before sufficient data has been prefetched" "IRQ_CTX3_ERR_0_r,IRQ_CTX3_ERR_1_r"
bitfld.long 0x00 26. "IRQ_CTX2_ERR,Read request received before sufficient data has been prefetched" "IRQ_CTX2_ERR_0_r,IRQ_CTX2_ERR_1_r"
bitfld.long 0x00 25. "IRQ_CTX1_ERR,Read request received before sufficient data has been prefetched" "IRQ_CTX1_ERR_0_r,IRQ_CTX1_ERR_1_r"
newline
bitfld.long 0x00 24. "IRQ_CTX0_ERR,Read request received before sufficient data has been prefetched" "IRQ_CTX0_ERR_0_r,IRQ_CTX0_ERR_1_r"
bitfld.long 0x00 19. "IRQ_CTX3_INVALID,Invalid access" "IRQ_CTX3_INVALID_0_r,IRQ_CTX3_INVALID_1_r"
bitfld.long 0x00 18. "IRQ_CTX2_INVALID,Invalid access" "IRQ_CTX2_INVALID_0_r,IRQ_CTX2_INVALID_1_r"
newline
bitfld.long 0x00 17. "IRQ_CTX1_INVALID,Invalid access" "IRQ_CTX1_INVALID_0_r,IRQ_CTX1_INVALID_1_r"
bitfld.long 0x00 16. "IRQ_CTX0_INVALID,Invalid access" "IRQ_CTX0_INVALID_0_r,IRQ_CTX0_INVALID_1_r"
bitfld.long 0x00 11. "IRQ_CTX3_DONE,Context has been fully transferred to the TILER" "IRQ_CTX3_DONE_0_r,IRQ_CTX3_DONE_1_r"
newline
bitfld.long 0x00 10. "IRQ_CTX2_DONE,Context has been fully transferred to the TILER" "IRQ_CTX2_DONE_0_r,IRQ_CTX2_DONE_1_r"
bitfld.long 0x00 9. "IRQ_CTX1_DONE,Context has been fully transferred to the TILER" "IRQ_CTX1_DONE_0_r,IRQ_CTX1_DONE_1_r"
bitfld.long 0x00 8. "IRQ_CTX0_DONE,Write mode: Context has been fully transferred to the TILER Read mode: Context prefetch has completed" "IRQ_CTX0_DONE_0_r,IRQ_CTX0_DONE_1_r"
newline
bitfld.long 0x00 1. "IRQ_INVALID,Invalid access to the virtual space" "IRQ_INVALID_0_r,IRQ_INVALID_1_r"
bitfld.long 0x00 0. "IRQ_OCP_ERR,OCP error received from OCP master port" "IRQ_OCP_ERR_0_r,IRQ_OCP_ERR_1_r"
rgroup.long 0x00++0x03
line.long 0x00 "BTE_HL_REVISION,IP revision identifier (X.Y.R) Used by software to track features. bugs. and compatibility"
group.long 0x10++0x03
line.long 0x00 "BTE_HL_SYSCONFIG,Clock management configuration"
bitfld.long 0x00 2.--3. "IDLEMODE,Configuration of the local target state management mode" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 0. "SOFTRESET,Software reset" "SOFTRESET_0_r,SOFTRESET_1_r"
tree "Channel_0"
group.long 0x44++0x03
line.long 0x00 "BTE_CONTEXT_BASE_i_0,Address of the frame buffer in the TILER address space"
hexmask.long 0x00 5.--31. 1. "ADDR,Address"
group.long 0x40++0x03
line.long 0x00 "BTE_CONTEXT_CTRL_i_0,Context control register"
hexmask.long.word 0x00 16.--29. 1. "TRIGGER,Threshold used to trigger translated requests to OCPO"
bitfld.long 0x00 15. "INITSX,Reset value to be used for SX__x" "0,1"
bitfld.long 0x00 13.--14. "INITSY,Reset value to be used for SY__x" "0,1,2,3"
bitfld.long 0x00 12. "ADDR32,Controls the value of the OCP address bit 32 to be used for translated accesses" "0,1"
bitfld.long 0x00 11. "AUTOFLUSH,Controls automatic context flushing when an IDLE request is received" "AUTOFLUSH_0,AUTOFLUSH_1"
bitfld.long 0x00 10. "ONESHOT,Selects one-shot or continuous mode" "ONESHOT_0,ONESHOT_1"
newline
bitfld.long 0x00 8.--9. "GRID,Grid used to access the TILER" "GRID_0,GRID_1,GRID_2,GRID_3"
bitfld.long 0x00 6.--7. "MODE,Select the translation mode for the context" "MODE_0,MODE_1,MODE_2,MODE_3"
bitfld.long 0x00 2. "FLUSH,Flushes all remaining data of the context to the TILER" "FLUSH_0_w,FLUSH_1_w"
bitfld.long 0x00 1. "STOP,Stops the context on a clean OCP transaction boundary" "STOP_0_w,STOP_1_w"
bitfld.long 0x00 0. "START,Resets the contexts internal state and enables the context on a clean OCP transaction boundary" "START_0_w,START_1_w"
group.long 0x4C++0x03
line.long 0x00 "BTE_CONTEXT_END_i_0,Bottom-right corner of the context"
hexmask.long.word 0x00 16.--28. 1. "Y,Last line number for the context (0 corresponds to a context of 1 line) Must be 7 when ONESHOT = 0"
hexmask.long.word 0x00 4.--15. 1. "X,Address in 128-bit words of the last column of the context"
group.long 0x48++0x03
line.long 0x00 "BTE_CONTEXT_START_i_0,Top-left corner of the context"
hexmask.long.word 0x00 7.--15. 1. "X,Address in 128-byte words"
tree.end
tree "Channel_1"
group.long 0x64++0x03
line.long 0x00 "BTE_CONTEXT_BASE_i_1,Address of the frame buffer in the TILER address space"
hexmask.long 0x00 5.--31. 1. "ADDR,Address"
group.long 0x60++0x03
line.long 0x00 "BTE_CONTEXT_CTRL_i_1,Context control register"
hexmask.long.word 0x00 16.--29. 1. "TRIGGER,Threshold used to trigger translated requests to OCPO"
bitfld.long 0x00 15. "INITSX,Reset value to be used for SX__x" "0,1"
bitfld.long 0x00 13.--14. "INITSY,Reset value to be used for SY__x" "0,1,2,3"
bitfld.long 0x00 12. "ADDR32,Controls the value of the OCP address bit 32 to be used for translated accesses" "0,1"
bitfld.long 0x00 11. "AUTOFLUSH,Controls automatic context flushing when an IDLE request is received" "AUTOFLUSH_0,AUTOFLUSH_1"
bitfld.long 0x00 10. "ONESHOT,Selects one-shot or continuous mode" "ONESHOT_0,ONESHOT_1"
newline
bitfld.long 0x00 8.--9. "GRID,Grid used to access the TILER" "GRID_0,GRID_1,GRID_2,GRID_3"
bitfld.long 0x00 6.--7. "MODE,Select the translation mode for the context" "MODE_0,MODE_1,MODE_2,MODE_3"
bitfld.long 0x00 2. "FLUSH,Flushes all remaining data of the context to the TILER" "FLUSH_0_w,FLUSH_1_w"
bitfld.long 0x00 1. "STOP,Stops the context on a clean OCP transaction boundary" "STOP_0_w,STOP_1_w"
bitfld.long 0x00 0. "START,Resets the contexts internal state and enables the context on a clean OCP transaction boundary" "START_0_w,START_1_w"
group.long 0x6C++0x03
line.long 0x00 "BTE_CONTEXT_END_i_1,Bottom-right corner of the context"
hexmask.long.word 0x00 16.--28. 1. "Y,Last line number for the context (0 corresponds to a context of 1 line) Must be 7 when ONESHOT = 0"
hexmask.long.word 0x00 4.--15. 1. "X,Address in 128-bit words of the last column of the context"
group.long 0x68++0x03
line.long 0x00 "BTE_CONTEXT_START_i_1,Top-left corner of the context"
hexmask.long.word 0x00 7.--15. 1. "X,Address in 128-byte words"
tree.end
tree "Channel_2"
group.long 0x84++0x03
line.long 0x00 "BTE_CONTEXT_BASE_i_2,Address of the frame buffer in the TILER address space"
hexmask.long 0x00 5.--31. 1. "ADDR,Address"
group.long 0x80++0x03
line.long 0x00 "BTE_CONTEXT_CTRL_i_2,Context control register"
hexmask.long.word 0x00 16.--29. 1. "TRIGGER,Threshold used to trigger translated requests to OCPO"
bitfld.long 0x00 15. "INITSX,Reset value to be used for SX__x" "0,1"
bitfld.long 0x00 13.--14. "INITSY,Reset value to be used for SY__x" "0,1,2,3"
bitfld.long 0x00 12. "ADDR32,Controls the value of the OCP address bit 32 to be used for translated accesses" "0,1"
bitfld.long 0x00 11. "AUTOFLUSH,Controls automatic context flushing when an IDLE request is received" "AUTOFLUSH_0,AUTOFLUSH_1"
bitfld.long 0x00 10. "ONESHOT,Selects one-shot or continuous mode" "ONESHOT_0,ONESHOT_1"
newline
bitfld.long 0x00 8.--9. "GRID,Grid used to access the TILER" "GRID_0,GRID_1,GRID_2,GRID_3"
bitfld.long 0x00 6.--7. "MODE,Select the translation mode for the context" "MODE_0,MODE_1,MODE_2,MODE_3"
bitfld.long 0x00 2. "FLUSH,Flushes all remaining data of the context to the TILER" "FLUSH_0_w,FLUSH_1_w"
bitfld.long 0x00 1. "STOP,Stops the context on a clean OCP transaction boundary" "STOP_0_w,STOP_1_w"
bitfld.long 0x00 0. "START,Resets the contexts internal state and enables the context on a clean OCP transaction boundary" "START_0_w,START_1_w"
group.long 0x8C++0x03
line.long 0x00 "BTE_CONTEXT_END_i_2,Bottom-right corner of the context"
hexmask.long.word 0x00 16.--28. 1. "Y,Last line number for the context (0 corresponds to a context of 1 line) Must be 7 when ONESHOT = 0"
hexmask.long.word 0x00 4.--15. 1. "X,Address in 128-bit words of the last column of the context"
group.long 0x88++0x03
line.long 0x00 "BTE_CONTEXT_START_i_2,Top-left corner of the context"
hexmask.long.word 0x00 7.--15. 1. "X,Address in 128-byte words"
tree.end
tree "Channel_3"
group.long 0xA4++0x03
line.long 0x00 "BTE_CONTEXT_BASE_i_3,Address of the frame buffer in the TILER address space"
hexmask.long 0x00 5.--31. 1. "ADDR,Address"
group.long 0xA0++0x03
line.long 0x00 "BTE_CONTEXT_CTRL_i_3,Context control register"
hexmask.long.word 0x00 16.--29. 1. "TRIGGER,Threshold used to trigger translated requests to OCPO"
bitfld.long 0x00 15. "INITSX,Reset value to be used for SX__x" "0,1"
bitfld.long 0x00 13.--14. "INITSY,Reset value to be used for SY__x" "0,1,2,3"
bitfld.long 0x00 12. "ADDR32,Controls the value of the OCP address bit 32 to be used for translated accesses" "0,1"
bitfld.long 0x00 11. "AUTOFLUSH,Controls automatic context flushing when an IDLE request is received" "AUTOFLUSH_0,AUTOFLUSH_1"
bitfld.long 0x00 10. "ONESHOT,Selects one-shot or continuous mode" "ONESHOT_0,ONESHOT_1"
newline
bitfld.long 0x00 8.--9. "GRID,Grid used to access the TILER" "GRID_0,GRID_1,GRID_2,GRID_3"
bitfld.long 0x00 6.--7. "MODE,Select the translation mode for the context" "MODE_0,MODE_1,MODE_2,MODE_3"
bitfld.long 0x00 2. "FLUSH,Flushes all remaining data of the context to the TILER" "FLUSH_0_w,FLUSH_1_w"
bitfld.long 0x00 1. "STOP,Stops the context on a clean OCP transaction boundary" "STOP_0_w,STOP_1_w"
bitfld.long 0x00 0. "START,Resets the contexts internal state and enables the context on a clean OCP transaction boundary" "START_0_w,START_1_w"
group.long 0xAC++0x03
line.long 0x00 "BTE_CONTEXT_END_i_3,Bottom-right corner of the context"
hexmask.long.word 0x00 16.--28. 1. "Y,Last line number for the context (0 corresponds to a context of 1 line) Must be 7 when ONESHOT = 0"
hexmask.long.word 0x00 4.--15. 1. "X,Address in 128-bit words of the last column of the context"
group.long 0xA8++0x03
line.long 0x00 "BTE_CONTEXT_START_i_3,Top-left corner of the context"
hexmask.long.word 0x00 7.--15. 1. "X,Address in 128-byte words"
tree.end
tree.end
repeat 2. (list 1. 2. )(list ansd:0x52001170 ansd:0x52001570 )
tree "ISS_CAMERARX_CORE$1"
base $2
group.long 0x00++0x0B
line.long 0x00 "REGISTER0,First register"
bitfld.long 0x00 24. "HSCLOCKCONFIG,Disable clock missing detector" "0,1"
hexmask.long.byte 0x00 8.--15. 1. "THS_TERM,THS_TERM timing parameter in multiples of DDR clock Effective time for enabling of termination = synchronizer delay + timer delay + LPRX delay + combinational routing delay ~ (1-2)* DDRCLK + THS-TERM + ~ (1 -15) ns Programmed value = ceil(12.5.."
hexmask.long.byte 0x00 0.--7. 1. "THS_SETTLE,THS_SETTLE timing parameter in multiples of DDR clock frequency Effective THS_SETTLE seen on line (starting to look for sync pattern) = synchronizer delay + timer delay + LPRX delay + combinational routing delay - pipeline delay in HS data path"
line.long 0x04 "REGISTER1,Second register"
bitfld.long 0x04 30.--31. "RESVD_READ_BIT,Reserved bit" "0,1,2,3"
rbitfld.long 0x04 28.--29. "RESET_DONE_STATUS,Reset done read bits" "?,?,?,?"
rbitfld.long 0x04 25. "CLOCK_MISS_DETECTOR_STATUS," "CLOCK_MISS_DETECTOR_STATUS_0,?"
newline
hexmask.long.byte 0x04 18.--24. 1. "TCLK_TERM,TCLK_TERM timing parameter in multiples of CTRLCLK Effective time for enabling of termination = synchronizer delay + timer delay + LPRX delay + combinational routing delay ~ (1-2)* CTRLCLK + TCLK_TERM + ~ (1-15) ns Programmed value = ceil(9.5.."
hexmask.long.byte 0x04 10.--17. 1. "DPHY_HS_SYNC_PATTERN,DPHY mode HS sync pattern in byte order (reverse of received order) See "
bitfld.long 0x04 8.--9. "CTRLCLK_DIV_FACTOR,Divide factor for CTRLCLK for CLKMISS detector" "0,1,2,3"
newline
hexmask.long.byte 0x04 0.--7. 1. "TCLK_SETTLE,TCLK_SETTLE timing parameter in multiples of CTRLCLK Clock Effective TCLK_SETTLE = synchronizer delay + timer delay + LPRX delay + combinational routing delay ~ (1-2)* CTRLCLK + Tclk-settle + ~ (1 -15) ns Programmed value = max[3 ceil(155.."
line.long 0x08 "REGISTER2,Third register"
bitfld.long 0x08 30.--31. "TRIGGER_CMD_RXTRIGESC0,Mapping of Trigger escape entry command to PPI output RXTRIGGERESC0" "0,1,2,3"
bitfld.long 0x08 28.--29. "TRIGGER_CMD_RXTRIGESC1,Mapping of Trigger escape entry command to PPI output RXTRIGGERESC1" "0,1,2,3"
bitfld.long 0x08 26.--27. "TRIGGER_CMD_RXTRIGESC2,Mapping of Trigger escape entry command to PPI output RXTRIGGERESC2" "0,1,2,3"
newline
bitfld.long 0x08 24.--25. "TRIGGER_CMD_RXTRIGESC3,Mapping of Trigger escape entry command to PPI output RXTRIGGERESC3" "0,1,2,3"
hexmask.long.tbyte 0x08 0.--23. 1. "CCP2_SYNC_PATTERN,CCP2 mode sync pattern in byte order See "
tree.end
repeat.end
tree "ISS_CBUFF"
base ansd:0x52001800
rgroup.long 0x04++0x03
line.long 0x00 "CBUFF_HL_HWINFO,Information about the IP module's hardware configuration"
bitfld.long 0x00 1.--2. "CONTEXTS,Number of contexts" "CONTEXTS_0_r,CONTEXTS_1_r,CONTEXTS_2_r,CONTEXTS_3_r"
bitfld.long 0x00 0. "ENABLE_FRAGMENTATION,Provides information to software if fragmentation support is available" "ENABLE_FRAGMENTATION_0_r,ENABLE_FRAGMENTATION_1_r"
group.long 0x2C++0x03
line.long 0x00 "CBUFF_HL_IRQENABLE_CLR,Per-event interrupt enable bit vector. line 0"
bitfld.long 0x00 31. "IRQ_CTX7_OVR,Buffer overflow event" "IRQ_CTX7_OVR_0_r,IRQ_CTX7_OVR_1_r"
bitfld.long 0x00 30. "IRQ_CTX6_OVR,Buffer overflow event" "IRQ_CTX6_OVR_0_r,IRQ_CTX6_OVR_1_r"
newline
bitfld.long 0x00 29. "IRQ_CTX5_OVR,Buffer overflow event" "IRQ_CTX5_OVR_0_r,IRQ_CTX5_OVR_1_r"
bitfld.long 0x00 28. "IRQ_CTX4_OVR,Buffer overflow event" "IRQ_CTX4_OVR_0_r,IRQ_CTX4_OVR_1_r"
newline
bitfld.long 0x00 27. "IRQ_CTX3_OVR,Buffer overflow event" "IRQ_CTX3_OVR_0_r,IRQ_CTX3_OVR_1_r"
bitfld.long 0x00 26. "IRQ_CTX2_OVR,Buffer overflow event" "IRQ_CTX2_OVR_0_r,IRQ_CTX2_OVR_1_r"
newline
bitfld.long 0x00 25. "IRQ_CTX1_OVR,Buffer overflow event" "IRQ_CTX1_OVR_0_r,IRQ_CTX1_OVR_1_r"
bitfld.long 0x00 24. "IRQ_CTX0_OVR,Buffer overflow event" "IRQ_CTX0_OVR_0_r,IRQ_CTX0_OVR_1_r"
newline
bitfld.long 0x00 23. "IRQ_CTX7_INVALID,Invalid access" "IRQ_CTX7_INVALID_0_r,IRQ_CTX7_INVALID_1_r"
bitfld.long 0x00 22. "IRQ_CTX6_INVALID,Invalid access" "IRQ_CTX6_INVALID_0_r,IRQ_CTX6_INVALID_1_r"
newline
bitfld.long 0x00 21. "IRQ_CTX5_INVALID,Invalid access" "IRQ_CTX5_INVALID_0_r,IRQ_CTX5_INVALID_1_r"
bitfld.long 0x00 20. "IRQ_CTX4_INVALID,Invalid access" "IRQ_CTX4_INVALID_0_r,IRQ_CTX4_INVALID_1_r"
newline
bitfld.long 0x00 19. "IRQ_CTX3_INVALID,Invalid access" "IRQ_CTX3_INVALID_0_r,IRQ_CTX3_INVALID_1_r"
bitfld.long 0x00 18. "IRQ_CTX2_INVALID,Invalid access" "IRQ_CTX2_INVALID_0_r,IRQ_CTX2_INVALID_1_r"
newline
bitfld.long 0x00 17. "IRQ_CTX1_INVALID,Invalid access" "IRQ_CTX1_INVALID_0_r,IRQ_CTX1_INVALID_1_r"
bitfld.long 0x00 16. "IRQ_CTX0_INVALID,Invalid access" "IRQ_CTX0_INVALID_0_r,IRQ_CTX0_INVALID_1_r"
newline
bitfld.long 0x00 15. "IRQ_CTX7_READY,The WB physical window is ready to be accessed by the CPU" "IRQ_CTX7_READY_0_r,IRQ_CTX7_READY_1_r"
bitfld.long 0x00 14. "IRQ_CTX6_READY,The WB physical window is ready to be accessed by the CPU" "IRQ_CTX6_READY_0_r,IRQ_CTX6_READY_1_r"
newline
bitfld.long 0x00 13. "IRQ_CTX5_READY,The WB physical window is ready to be accessed by the CPU" "IRQ_CTX5_READY_0_r,IRQ_CTX5_READY_1_r"
bitfld.long 0x00 12. "IRQ_CTX4_READY,The WB physical window is ready to be accessed by the CPU" "IRQ_CTX4_READY_0_r,IRQ_CTX4_READY_1_r"
newline
bitfld.long 0x00 11. "IRQ_CTX3_READY,The WB physical window is ready to be accessed by the CPU" "IRQ_CTX3_READY_0_r,IRQ_CTX3_READY_1_r"
bitfld.long 0x00 10. "IRQ_CTX2_READY,The WB physical window is ready to be accessed by the CPU" "IRQ_CTX2_READY_0_r,IRQ_CTX2_READY_1_r"
newline
bitfld.long 0x00 9. "IRQ_CTX1_READY,The WB physical window is ready to be accessed by the CPU" "IRQ_CTX1_READY_0_r,IRQ_CTX1_READY_1_r"
bitfld.long 0x00 8. "IRQ_CTX0_READY,The WB physical window is ready to be accessed by the CPU" "IRQ_CTX0_READY_0_r,IRQ_CTX0_READY_1_r"
newline
bitfld.long 0x00 0. "IRQ_OCP_ERR,OCP error received in the master port" "IRQ_OCP_ERR_0_r,IRQ_OCP_ERR_1_r"
group.long 0x28++0x03
line.long 0x00 "CBUFF_HL_IRQENABLE_SET,Per-event interrupt enable bit vector"
bitfld.long 0x00 31. "IRQ_CTX7_OVR,Buffer overflow event" "IRQ_CTX7_OVR_0_r,IRQ_CTX7_OVR_1_r"
bitfld.long 0x00 30. "IRQ_CTX6_OVR,Buffer overflow event" "IRQ_CTX6_OVR_0_r,IRQ_CTX6_OVR_1_r"
newline
bitfld.long 0x00 29. "IRQ_CTX5_OVR,Buffer overflow event" "IRQ_CTX5_OVR_0_r,IRQ_CTX5_OVR_1_r"
bitfld.long 0x00 28. "IRQ_CTX4_OVR,Buffer overflow event" "IRQ_CTX4_OVR_0_r,IRQ_CTX4_OVR_1_r"
newline
bitfld.long 0x00 27. "IRQ_CTX3_OVR,Buffer overflow event" "IRQ_CTX3_OVR_0_r,IRQ_CTX3_OVR_1_r"
bitfld.long 0x00 26. "IRQ_CTX2_OVR,Buffer overflow event" "IRQ_CTX2_OVR_0_r,IRQ_CTX2_OVR_1_r"
newline
bitfld.long 0x00 25. "IRQ_CTX1_OVR,Buffer overflow event" "IRQ_CTX1_OVR_0_r,IRQ_CTX1_OVR_1_r"
bitfld.long 0x00 24. "IRQ_CTX0_OVR,Buffer overflow event" "IRQ_CTX0_OVR_0_r,IRQ_CTX0_OVR_1_r"
newline
bitfld.long 0x00 23. "IRQ_CTX7_INVALID,Invalid access" "IRQ_CTX7_INVALID_0_r,IRQ_CTX7_INVALID_1_r"
bitfld.long 0x00 22. "IRQ_CTX6_INVALID,Invalid access" "IRQ_CTX6_INVALID_0_r,IRQ_CTX6_INVALID_1_r"
newline
bitfld.long 0x00 21. "IRQ_CTX5_INVALID,Invalid access" "IRQ_CTX5_INVALID_0_r,IRQ_CTX5_INVALID_1_r"
bitfld.long 0x00 20. "IRQ_CTX4_INVALID,Invalid access" "IRQ_CTX4_INVALID_0_r,IRQ_CTX4_INVALID_1_r"
newline
bitfld.long 0x00 19. "IRQ_CTX3_INVALID,Invalid access" "IRQ_CTX3_INVALID_0_r,IRQ_CTX3_INVALID_1_r"
bitfld.long 0x00 18. "IRQ_CTX2_INVALID,Invalid access" "IRQ_CTX2_INVALID_0_r,IRQ_CTX2_INVALID_1_r"
newline
bitfld.long 0x00 17. "IRQ_CTX1_INVALID,Invalid access" "IRQ_CTX1_INVALID_0_r,IRQ_CTX1_INVALID_1_r"
bitfld.long 0x00 16. "IRQ_CTX0_INVALID,Invalid access" "IRQ_CTX0_INVALID_0_r,IRQ_CTX0_INVALID_1_r"
newline
bitfld.long 0x00 15. "IRQ_CTX7_READY,The WB physical window is ready to be accessed by the CPU" "IRQ_CTX7_READY_0_r,IRQ_CTX7_READY_1_r"
bitfld.long 0x00 14. "IRQ_CTX6_READY,The WB physical window is ready to be accessed by the CPU" "IRQ_CTX6_READY_0_r,IRQ_CTX6_READY_1_r"
newline
bitfld.long 0x00 13. "IRQ_CTX5_READY,The WB physical window is ready to be accessed by the CPU" "IRQ_CTX5_READY_0_r,IRQ_CTX5_READY_1_r"
bitfld.long 0x00 12. "IRQ_CTX4_READY,The WB physical window is ready to be accessed by the CPU" "IRQ_CTX4_READY_0_r,IRQ_CTX4_READY_1_r"
newline
bitfld.long 0x00 11. "IRQ_CTX3_READY,The WB physical window is ready to be accessed by the CPU" "IRQ_CTX3_READY_0_r,IRQ_CTX3_READY_1_r"
bitfld.long 0x00 10. "IRQ_CTX2_READY,The WB physical window is ready to be accessed by the CPU" "IRQ_CTX2_READY_0_r,IRQ_CTX2_READY_1_r"
newline
bitfld.long 0x00 9. "IRQ_CTX1_READY,The WB physical window is ready to be accessed by the CPU" "IRQ_CTX1_READY_0_r,IRQ_CTX1_READY_1_r"
bitfld.long 0x00 8. "IRQ_CTX0_READY,The WB physical window is ready to be accessed by the CPU" "IRQ_CTX0_READY_0_r,IRQ_CTX0_READY_1_r"
newline
bitfld.long 0x00 0. "IRQ_OCP_ERR,OCP error received in the master port" "IRQ_OCP_ERR_0_r,IRQ_OCP_ERR_1_r"
group.long 0x24++0x03
line.long 0x00 "CBUFF_HL_IRQSTATUS,Per-event 'enabled' interrupt status vector"
bitfld.long 0x00 31. "IRQ_CTX7_OVR,Buffer overflow event" "IRQ_CTX7_OVR_0_r,IRQ_CTX7_OVR_1_r"
bitfld.long 0x00 30. "IRQ_CTX6_OVR,Buffer overflow event" "IRQ_CTX6_OVR_0_r,IRQ_CTX6_OVR_1_r"
newline
bitfld.long 0x00 29. "IRQ_CTX5_OVR,Buffer overflow event" "IRQ_CTX5_OVR_0_r,IRQ_CTX5_OVR_1_r"
bitfld.long 0x00 28. "IRQ_CTX4_OVR,Buffer overflow event" "IRQ_CTX4_OVR_0_r,IRQ_CTX4_OVR_1_r"
newline
bitfld.long 0x00 27. "IRQ_CTX3_OVR,Buffer overflow event" "IRQ_CTX3_OVR_0_r,IRQ_CTX3_OVR_1_r"
bitfld.long 0x00 26. "IRQ_CTX2_OVR,Buffer overflow event" "IRQ_CTX2_OVR_0_r,IRQ_CTX2_OVR_1_r"
newline
bitfld.long 0x00 25. "IRQ_CTX1_OVR,Buffer overflow event" "IRQ_CTX1_OVR_0_r,IRQ_CTX1_OVR_1_r"
bitfld.long 0x00 24. "IRQ_CTX0_OVR,Buffer overflow event" "IRQ_CTX0_OVR_0_r,IRQ_CTX0_OVR_1_r"
newline
bitfld.long 0x00 23. "IRQ_CTX7_INVALID,Invalid access" "IRQ_CTX7_INVALID_0_r,IRQ_CTX7_INVALID_1_r"
bitfld.long 0x00 22. "IRQ_CTX6_INVALID,Invalid access" "IRQ_CTX6_INVALID_0_r,IRQ_CTX6_INVALID_1_r"
newline
bitfld.long 0x00 21. "IRQ_CTX5_INVALID,Invalid access" "IRQ_CTX5_INVALID_0_r,IRQ_CTX5_INVALID_1_r"
bitfld.long 0x00 20. "IRQ_CTX4_INVALID,Invalid access" "IRQ_CTX4_INVALID_0_r,IRQ_CTX4_INVALID_1_r"
newline
bitfld.long 0x00 19. "IRQ_CTX3_INVALID,Invalid access" "IRQ_CTX3_INVALID_0_r,IRQ_CTX3_INVALID_1_r"
bitfld.long 0x00 18. "IRQ_CTX2_INVALID,Invalid access" "IRQ_CTX2_INVALID_0_r,IRQ_CTX2_INVALID_1_r"
newline
bitfld.long 0x00 17. "IRQ_CTX1_INVALID,Invalid access" "IRQ_CTX1_INVALID_0_r,IRQ_CTX1_INVALID_1_r"
bitfld.long 0x00 16. "IRQ_CTX0_INVALID,Invalid access" "IRQ_CTX0_INVALID_0_r,IRQ_CTX0_INVALID_1_r"
newline
bitfld.long 0x00 15. "IRQ_CTX7_READY,The WB physical window is ready to be accessed by the CPU" "IRQ_CTX7_READY_0_r,IRQ_CTX7_READY_1_r"
bitfld.long 0x00 14. "IRQ_CTX6_READY,The WB physical window is ready to be accessed by the CPU" "IRQ_CTX6_READY_0_r,IRQ_CTX6_READY_1_r"
newline
bitfld.long 0x00 13. "IRQ_CTX5_READY,The WB physical window is ready to be accessed by the CPU" "IRQ_CTX5_READY_0_r,IRQ_CTX5_READY_1_r"
bitfld.long 0x00 12. "IRQ_CTX4_READY,The WB physical window is ready to be accessed by the CPU" "IRQ_CTX4_READY_0_r,IRQ_CTX4_READY_1_r"
newline
bitfld.long 0x00 11. "IRQ_CTX3_READY,The WB physical window is ready to be accessed by the CPU" "IRQ_CTX3_READY_0_r,IRQ_CTX3_READY_1_r"
bitfld.long 0x00 10. "IRQ_CTX2_READY,The WB physical window is ready to be accessed by the CPU" "IRQ_CTX2_READY_0_r,IRQ_CTX2_READY_1_r"
newline
bitfld.long 0x00 9. "IRQ_CTX1_READY,The WB physical window is ready to be accessed by the CPU" "IRQ_CTX1_READY_0_r,IRQ_CTX1_READY_1_r"
bitfld.long 0x00 8. "IRQ_CTX0_READY,The WB physical window is ready to be accessed by the CPU" "IRQ_CTX0_READY_0_r,IRQ_CTX0_READY_1_r"
newline
bitfld.long 0x00 0. "IRQ_OCP_ERR,OCP error received in the master port" "IRQ_OCP_ERR_0_r,IRQ_OCP_ERR_1_r"
group.long 0x20++0x03
line.long 0x00 "CBUFF_HL_IRQSTATUS_RAW,Per-event raw interrupt status vector"
bitfld.long 0x00 31. "IRQ_CTX7_OVR,Buffer overflow event" "IRQ_CTX7_OVR_0_r,IRQ_CTX7_OVR_1_r"
bitfld.long 0x00 30. "IRQ_CTX6_OVR,Buffer overflow event" "IRQ_CTX6_OVR_0_r,IRQ_CTX6_OVR_1_r"
newline
bitfld.long 0x00 29. "IRQ_CTX5_OVR,Buffer overflow event" "IRQ_CTX5_OVR_0_r,IRQ_CTX5_OVR_1_r"
bitfld.long 0x00 28. "IRQ_CTX4_OVR,Buffer overflow event" "IRQ_CTX4_OVR_0_r,IRQ_CTX4_OVR_1_r"
newline
bitfld.long 0x00 27. "IRQ_CTX3_OVR,Buffer overflow event" "IRQ_CTX3_OVR_0_r,IRQ_CTX3_OVR_1_r"
bitfld.long 0x00 26. "IRQ_CTX2_OVR,Buffer overflow event" "IRQ_CTX2_OVR_0_r,IRQ_CTX2_OVR_1_r"
newline
bitfld.long 0x00 25. "IRQ_CTX1_OVR,Buffer overflow event" "IRQ_CTX1_OVR_0_r,IRQ_CTX1_OVR_1_r"
bitfld.long 0x00 24. "IRQ_CTX0_OVR,Buffer overflow event" "IRQ_CTX0_OVR_0_r,IRQ_CTX0_OVR_1_r"
newline
bitfld.long 0x00 23. "IRQ_CTX7_INVALID,Invalid access" "IRQ_CTX7_INVALID_0_r,IRQ_CTX7_INVALID_1_r"
bitfld.long 0x00 22. "IRQ_CTX6_INVALID,Invalid access" "IRQ_CTX6_INVALID_0_r,IRQ_CTX6_INVALID_1_r"
newline
bitfld.long 0x00 21. "IRQ_CTX5_INVALID,Invalid access" "IRQ_CTX5_INVALID_0_r,IRQ_CTX5_INVALID_1_r"
bitfld.long 0x00 20. "IRQ_CTX4_INVALID,Invalid access" "IRQ_CTX4_INVALID_0_r,IRQ_CTX4_INVALID_1_r"
newline
bitfld.long 0x00 19. "IRQ_CTX3_INVALID,Invalid access" "IRQ_CTX3_INVALID_0_r,IRQ_CTX3_INVALID_1_r"
bitfld.long 0x00 18. "IRQ_CTX2_INVALID,Invalid access" "IRQ_CTX2_INVALID_0_r,IRQ_CTX2_INVALID_1_r"
newline
bitfld.long 0x00 17. "IRQ_CTX1_INVALID,Invalid access" "IRQ_CTX1_INVALID_0_r,IRQ_CTX1_INVALID_1_r"
bitfld.long 0x00 16. "IRQ_CTX0_INVALID,Invalid access" "IRQ_CTX0_INVALID_0_r,IRQ_CTX0_INVALID_1_r"
newline
bitfld.long 0x00 15. "IRQ_CTX7_READY,The WB physical window is ready to be accessed by the CPU" "IRQ_CTX7_READY_0_r,IRQ_CTX7_READY_1_r"
bitfld.long 0x00 14. "IRQ_CTX6_READY,The WB physical window is ready to be accessed by the CPU" "IRQ_CTX6_READY_0_r,IRQ_CTX6_READY_1_r"
newline
bitfld.long 0x00 13. "IRQ_CTX5_READY,The WB physical window is ready to be accessed by the CPU" "IRQ_CTX5_READY_0_r,IRQ_CTX5_READY_1_r"
bitfld.long 0x00 12. "IRQ_CTX4_READY,The WB physical window is ready to be accessed by the CPU" "IRQ_CTX4_READY_0_r,IRQ_CTX4_READY_1_r"
newline
bitfld.long 0x00 11. "IRQ_CTX3_READY,The WB physical window is ready to be accessed by the CPU" "IRQ_CTX3_READY_0_r,IRQ_CTX3_READY_1_r"
bitfld.long 0x00 10. "IRQ_CTX2_READY,The WB physical window is ready to be accessed by the CPU" "IRQ_CTX2_READY_0_r,IRQ_CTX2_READY_1_r"
newline
bitfld.long 0x00 9. "IRQ_CTX1_READY,The WB physical window is ready to be accessed by the CPU" "IRQ_CTX1_READY_0_r,IRQ_CTX1_READY_1_r"
bitfld.long 0x00 8. "IRQ_CTX0_READY,The WB physical window is ready to be accessed by the CPU" "IRQ_CTX0_READY_0_r,IRQ_CTX0_READY_1_r"
newline
bitfld.long 0x00 0. "IRQ_OCP_ERR,OCP error received in the master port" "IRQ_OCP_ERR_0_r,IRQ_OCP_ERR_1_r"
rgroup.long 0x00++0x03
line.long 0x00 "CBUFF_HL_REVISION,IP revision identifier (X.Y.R) Used by software to track features. bugs. and compatibility"
group.long 0x10++0x03
line.long 0x00 "CBUFF_HL_SYSCONFIG,Clock management configuration"
bitfld.long 0x00 2.--3. "IDLEMODE,Configuration of the local target state management mode" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 0. "SOFTRESET,Software reset" "SOFTRESET_0_r,SOFTRESET_1_r"
tree "CTX_Line_0"
group.long 0x100++0x03
line.long 0x00 "CBUFF_CTX_CTRL_i_0,Context control register"
bitfld.long 0x00 11. "TILERMODE,Sets the expected value for ADDR[32]" "0,1"
bitfld.long 0x00 10. "DONE,Write this bit to 1 to indicate the CPU has finished processing its physical buffer" "DONE_0_w,DONE_1_w"
bitfld.long 0x00 8.--9. "WCOUNT,Window count" "WCOUNT_0,WCOUNT_1,WCOUNT_2,WCOUNT_3"
bitfld.long 0x00 4.--7. "BCF,This register controls the bandwidth control feedback loop output" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 1.--2. "MODE,Selects the functional mode of this context" "MODE_0,MODE_1,MODE_2,?"
bitfld.long 0x00 0. "ENABLE,Enable/disable" "ENABLE_0,ENABLE_1"
group.long 0x108++0x03
line.long 0x00 "CBUFF_CTX_END_i_0,End address of the virtual space managed by the context"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128-bit words"
group.long 0x11C++0x03
line.long 0x00 "CBUFF_CTX_PHY_i_0,Start address of the first physical buffer managed by the context when fragmentation support is disabled"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128 bit words"
group.long 0x104++0x03
line.long 0x00 "CBUFF_CTX_START_i_0,Start address of the virtual space managed by the context"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128-bit words"
rgroup.long 0x118++0x03
line.long 0x00 "CBUFF_CTX_STATUS_i_0,Status register"
bitfld.long 0x00 8.--11. "WA,Valid values depend on the CBUFF_CTX_CTRL__x.WCOUNT register" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "WB,Valid values depend on the CBUFF_CTX_CTRL__x.WCOUNT register" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x110++0x07
line.long 0x00 "CBUFF_CTX_THRESHOLD_F_i_0,Threshold value used to check if a write window is full"
hexmask.long.tbyte 0x00 0.--23. 1. "THRESHOLD,Threshold value in bytes"
line.long 0x04 "CBUFF_CTX_THRESHOLD_S_i_0,Threshold value used to control the BCF synchronization mechanism"
hexmask.long.tbyte 0x04 0.--23. 1. "THRESHOLD,Threshold value in bytes"
group.long 0x10C++0x03
line.long 0x00 "CBUFF_CTX_WINDOWSIZE_i_0,Defines the size of a window"
hexmask.long.tbyte 0x00 4.--23. 1. "SIZE,Size in 128-bit words"
group.long 0x80++0x03
line.long 0x00 "CBUFF_FRAG_ADDR_j_0,Start address of the physical buffer of the CBUFF context 0"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128-bit words"
tree.end
tree "CTX_Line_1"
group.long 0x120++0x03
line.long 0x00 "CBUFF_CTX_CTRL_i_1,Context control register"
bitfld.long 0x00 11. "TILERMODE,Sets the expected value for ADDR[32]" "0,1"
bitfld.long 0x00 10. "DONE,Write this bit to 1 to indicate the CPU has finished processing its physical buffer" "DONE_0_w,DONE_1_w"
bitfld.long 0x00 8.--9. "WCOUNT,Window count" "WCOUNT_0,WCOUNT_1,WCOUNT_2,WCOUNT_3"
bitfld.long 0x00 4.--7. "BCF,This register controls the bandwidth control feedback loop output" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 1.--2. "MODE,Selects the functional mode of this context" "MODE_0,MODE_1,MODE_2,?"
bitfld.long 0x00 0. "ENABLE,Enable/disable" "ENABLE_0,ENABLE_1"
group.long 0x128++0x03
line.long 0x00 "CBUFF_CTX_END_i_1,End address of the virtual space managed by the context"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128-bit words"
group.long 0x13C++0x03
line.long 0x00 "CBUFF_CTX_PHY_i_1,Start address of the first physical buffer managed by the context when fragmentation support is disabled"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128 bit words"
group.long 0x124++0x03
line.long 0x00 "CBUFF_CTX_START_i_1,Start address of the virtual space managed by the context"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128-bit words"
rgroup.long 0x138++0x03
line.long 0x00 "CBUFF_CTX_STATUS_i_1,Status register"
bitfld.long 0x00 8.--11. "WA,Valid values depend on the CBUFF_CTX_CTRL__x.WCOUNT register" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "WB,Valid values depend on the CBUFF_CTX_CTRL__x.WCOUNT register" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x130++0x07
line.long 0x00 "CBUFF_CTX_THRESHOLD_F_i_1,Threshold value used to check if a write window is full"
hexmask.long.tbyte 0x00 0.--23. 1. "THRESHOLD,Threshold value in bytes"
line.long 0x04 "CBUFF_CTX_THRESHOLD_S_i_1,Threshold value used to control the BCF synchronization mechanism"
hexmask.long.tbyte 0x04 0.--23. 1. "THRESHOLD,Threshold value in bytes"
group.long 0x12C++0x03
line.long 0x00 "CBUFF_CTX_WINDOWSIZE_i_1,Defines the size of a window"
hexmask.long.tbyte 0x00 4.--23. 1. "SIZE,Size in 128-bit words"
group.long 0x84++0x03
line.long 0x00 "CBUFF_FRAG_ADDR_j_1,Start address of the physical buffer of the CBUFF context 0"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128-bit words"
tree.end
tree "CTX_Line_2"
group.long 0x140++0x03
line.long 0x00 "CBUFF_CTX_CTRL_i_2,Context control register"
bitfld.long 0x00 11. "TILERMODE,Sets the expected value for ADDR[32]" "0,1"
bitfld.long 0x00 10. "DONE,Write this bit to 1 to indicate the CPU has finished processing its physical buffer" "DONE_0_w,DONE_1_w"
bitfld.long 0x00 8.--9. "WCOUNT,Window count" "WCOUNT_0,WCOUNT_1,WCOUNT_2,WCOUNT_3"
bitfld.long 0x00 4.--7. "BCF,This register controls the bandwidth control feedback loop output" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 1.--2. "MODE,Selects the functional mode of this context" "MODE_0,MODE_1,MODE_2,?"
bitfld.long 0x00 0. "ENABLE,Enable/disable" "ENABLE_0,ENABLE_1"
group.long 0x148++0x03
line.long 0x00 "CBUFF_CTX_END_i_2,End address of the virtual space managed by the context"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128-bit words"
group.long 0x15C++0x03
line.long 0x00 "CBUFF_CTX_PHY_i_2,Start address of the first physical buffer managed by the context when fragmentation support is disabled"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128 bit words"
group.long 0x144++0x03
line.long 0x00 "CBUFF_CTX_START_i_2,Start address of the virtual space managed by the context"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128-bit words"
rgroup.long 0x158++0x03
line.long 0x00 "CBUFF_CTX_STATUS_i_2,Status register"
bitfld.long 0x00 8.--11. "WA,Valid values depend on the CBUFF_CTX_CTRL__x.WCOUNT register" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "WB,Valid values depend on the CBUFF_CTX_CTRL__x.WCOUNT register" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x150++0x07
line.long 0x00 "CBUFF_CTX_THRESHOLD_F_i_2,Threshold value used to check if a write window is full"
hexmask.long.tbyte 0x00 0.--23. 1. "THRESHOLD,Threshold value in bytes"
line.long 0x04 "CBUFF_CTX_THRESHOLD_S_i_2,Threshold value used to control the BCF synchronization mechanism"
hexmask.long.tbyte 0x04 0.--23. 1. "THRESHOLD,Threshold value in bytes"
group.long 0x14C++0x03
line.long 0x00 "CBUFF_CTX_WINDOWSIZE_i_2,Defines the size of a window"
hexmask.long.tbyte 0x00 4.--23. 1. "SIZE,Size in 128-bit words"
group.long 0x88++0x03
line.long 0x00 "CBUFF_FRAG_ADDR_j_2,Start address of the physical buffer of the CBUFF context 0"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128-bit words"
tree.end
tree "CTX_Line_3"
group.long 0x160++0x03
line.long 0x00 "CBUFF_CTX_CTRL_i_3,Context control register"
bitfld.long 0x00 11. "TILERMODE,Sets the expected value for ADDR[32]" "0,1"
bitfld.long 0x00 10. "DONE,Write this bit to 1 to indicate the CPU has finished processing its physical buffer" "DONE_0_w,DONE_1_w"
bitfld.long 0x00 8.--9. "WCOUNT,Window count" "WCOUNT_0,WCOUNT_1,WCOUNT_2,WCOUNT_3"
bitfld.long 0x00 4.--7. "BCF,This register controls the bandwidth control feedback loop output" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 1.--2. "MODE,Selects the functional mode of this context" "MODE_0,MODE_1,MODE_2,?"
bitfld.long 0x00 0. "ENABLE,Enable/disable" "ENABLE_0,ENABLE_1"
group.long 0x168++0x03
line.long 0x00 "CBUFF_CTX_END_i_3,End address of the virtual space managed by the context"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128-bit words"
group.long 0x17C++0x03
line.long 0x00 "CBUFF_CTX_PHY_i_3,Start address of the first physical buffer managed by the context when fragmentation support is disabled"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128 bit words"
group.long 0x164++0x03
line.long 0x00 "CBUFF_CTX_START_i_3,Start address of the virtual space managed by the context"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128-bit words"
rgroup.long 0x178++0x03
line.long 0x00 "CBUFF_CTX_STATUS_i_3,Status register"
bitfld.long 0x00 8.--11. "WA,Valid values depend on the CBUFF_CTX_CTRL__x.WCOUNT register" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "WB,Valid values depend on the CBUFF_CTX_CTRL__x.WCOUNT register" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x170++0x07
line.long 0x00 "CBUFF_CTX_THRESHOLD_F_i_3,Threshold value used to check if a write window is full"
hexmask.long.tbyte 0x00 0.--23. 1. "THRESHOLD,Threshold value in bytes"
line.long 0x04 "CBUFF_CTX_THRESHOLD_S_i_3,Threshold value used to control the BCF synchronization mechanism"
hexmask.long.tbyte 0x04 0.--23. 1. "THRESHOLD,Threshold value in bytes"
group.long 0x16C++0x03
line.long 0x00 "CBUFF_CTX_WINDOWSIZE_i_3,Defines the size of a window"
hexmask.long.tbyte 0x00 4.--23. 1. "SIZE,Size in 128-bit words"
group.long 0x8C++0x03
line.long 0x00 "CBUFF_FRAG_ADDR_j_3,Start address of the physical buffer of the CBUFF context 0"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128-bit words"
tree.end
tree "CTX_Line_4"
group.long 0x180++0x03
line.long 0x00 "CBUFF_CTX_CTRL_i_4,Context control register"
bitfld.long 0x00 11. "TILERMODE,Sets the expected value for ADDR[32]" "0,1"
bitfld.long 0x00 10. "DONE,Write this bit to 1 to indicate the CPU has finished processing its physical buffer" "DONE_0_w,DONE_1_w"
bitfld.long 0x00 8.--9. "WCOUNT,Window count" "WCOUNT_0,WCOUNT_1,WCOUNT_2,WCOUNT_3"
bitfld.long 0x00 4.--7. "BCF,This register controls the bandwidth control feedback loop output" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 1.--2. "MODE,Selects the functional mode of this context" "MODE_0,MODE_1,MODE_2,?"
bitfld.long 0x00 0. "ENABLE,Enable/disable" "ENABLE_0,ENABLE_1"
group.long 0x188++0x03
line.long 0x00 "CBUFF_CTX_END_i_4,End address of the virtual space managed by the context"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128-bit words"
group.long 0x19C++0x03
line.long 0x00 "CBUFF_CTX_PHY_i_4,Start address of the first physical buffer managed by the context when fragmentation support is disabled"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128 bit words"
group.long 0x184++0x03
line.long 0x00 "CBUFF_CTX_START_i_4,Start address of the virtual space managed by the context"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128-bit words"
rgroup.long 0x198++0x03
line.long 0x00 "CBUFF_CTX_STATUS_i_4,Status register"
bitfld.long 0x00 8.--11. "WA,Valid values depend on the CBUFF_CTX_CTRL__x.WCOUNT register" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "WB,Valid values depend on the CBUFF_CTX_CTRL__x.WCOUNT register" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x190++0x07
line.long 0x00 "CBUFF_CTX_THRESHOLD_F_i_4,Threshold value used to check if a write window is full"
hexmask.long.tbyte 0x00 0.--23. 1. "THRESHOLD,Threshold value in bytes"
line.long 0x04 "CBUFF_CTX_THRESHOLD_S_i_4,Threshold value used to control the BCF synchronization mechanism"
hexmask.long.tbyte 0x04 0.--23. 1. "THRESHOLD,Threshold value in bytes"
group.long 0x18C++0x03
line.long 0x00 "CBUFF_CTX_WINDOWSIZE_i_4,Defines the size of a window"
hexmask.long.tbyte 0x00 4.--23. 1. "SIZE,Size in 128-bit words"
group.long 0x90++0x03
line.long 0x00 "CBUFF_FRAG_ADDR_j_4,Start address of the physical buffer of the CBUFF context 0"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128-bit words"
tree.end
tree "CTX_Line_5"
group.long 0x1A0++0x03
line.long 0x00 "CBUFF_CTX_CTRL_i_5,Context control register"
bitfld.long 0x00 11. "TILERMODE,Sets the expected value for ADDR[32]" "0,1"
bitfld.long 0x00 10. "DONE,Write this bit to 1 to indicate the CPU has finished processing its physical buffer" "DONE_0_w,DONE_1_w"
bitfld.long 0x00 8.--9. "WCOUNT,Window count" "WCOUNT_0,WCOUNT_1,WCOUNT_2,WCOUNT_3"
bitfld.long 0x00 4.--7. "BCF,This register controls the bandwidth control feedback loop output" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 1.--2. "MODE,Selects the functional mode of this context" "MODE_0,MODE_1,MODE_2,?"
bitfld.long 0x00 0. "ENABLE,Enable/disable" "ENABLE_0,ENABLE_1"
group.long 0x1A8++0x03
line.long 0x00 "CBUFF_CTX_END_i_5,End address of the virtual space managed by the context"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128-bit words"
group.long 0x1BC++0x03
line.long 0x00 "CBUFF_CTX_PHY_i_5,Start address of the first physical buffer managed by the context when fragmentation support is disabled"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128 bit words"
group.long 0x1A4++0x03
line.long 0x00 "CBUFF_CTX_START_i_5,Start address of the virtual space managed by the context"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128-bit words"
rgroup.long 0x1B8++0x03
line.long 0x00 "CBUFF_CTX_STATUS_i_5,Status register"
bitfld.long 0x00 8.--11. "WA,Valid values depend on the CBUFF_CTX_CTRL__x.WCOUNT register" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "WB,Valid values depend on the CBUFF_CTX_CTRL__x.WCOUNT register" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x1B0++0x07
line.long 0x00 "CBUFF_CTX_THRESHOLD_F_i_5,Threshold value used to check if a write window is full"
hexmask.long.tbyte 0x00 0.--23. 1. "THRESHOLD,Threshold value in bytes"
line.long 0x04 "CBUFF_CTX_THRESHOLD_S_i_5,Threshold value used to control the BCF synchronization mechanism"
hexmask.long.tbyte 0x04 0.--23. 1. "THRESHOLD,Threshold value in bytes"
group.long 0x1AC++0x03
line.long 0x00 "CBUFF_CTX_WINDOWSIZE_i_5,Defines the size of a window"
hexmask.long.tbyte 0x00 4.--23. 1. "SIZE,Size in 128-bit words"
group.long 0x94++0x03
line.long 0x00 "CBUFF_FRAG_ADDR_j_5,Start address of the physical buffer of the CBUFF context 0"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128-bit words"
tree.end
tree "CTX_Line_6"
group.long 0x1C0++0x03
line.long 0x00 "CBUFF_CTX_CTRL_i_6,Context control register"
bitfld.long 0x00 11. "TILERMODE,Sets the expected value for ADDR[32]" "0,1"
bitfld.long 0x00 10. "DONE,Write this bit to 1 to indicate the CPU has finished processing its physical buffer" "DONE_0_w,DONE_1_w"
bitfld.long 0x00 8.--9. "WCOUNT,Window count" "WCOUNT_0,WCOUNT_1,WCOUNT_2,WCOUNT_3"
bitfld.long 0x00 4.--7. "BCF,This register controls the bandwidth control feedback loop output" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 1.--2. "MODE,Selects the functional mode of this context" "MODE_0,MODE_1,MODE_2,?"
bitfld.long 0x00 0. "ENABLE,Enable/disable" "ENABLE_0,ENABLE_1"
group.long 0x1C8++0x03
line.long 0x00 "CBUFF_CTX_END_i_6,End address of the virtual space managed by the context"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128-bit words"
group.long 0x1DC++0x03
line.long 0x00 "CBUFF_CTX_PHY_i_6,Start address of the first physical buffer managed by the context when fragmentation support is disabled"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128 bit words"
group.long 0x1C4++0x03
line.long 0x00 "CBUFF_CTX_START_i_6,Start address of the virtual space managed by the context"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128-bit words"
rgroup.long 0x1D8++0x03
line.long 0x00 "CBUFF_CTX_STATUS_i_6,Status register"
bitfld.long 0x00 8.--11. "WA,Valid values depend on the CBUFF_CTX_CTRL__x.WCOUNT register" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "WB,Valid values depend on the CBUFF_CTX_CTRL__x.WCOUNT register" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x1D0++0x07
line.long 0x00 "CBUFF_CTX_THRESHOLD_F_i_6,Threshold value used to check if a write window is full"
hexmask.long.tbyte 0x00 0.--23. 1. "THRESHOLD,Threshold value in bytes"
line.long 0x04 "CBUFF_CTX_THRESHOLD_S_i_6,Threshold value used to control the BCF synchronization mechanism"
hexmask.long.tbyte 0x04 0.--23. 1. "THRESHOLD,Threshold value in bytes"
group.long 0x1CC++0x03
line.long 0x00 "CBUFF_CTX_WINDOWSIZE_i_6,Defines the size of a window"
hexmask.long.tbyte 0x00 4.--23. 1. "SIZE,Size in 128-bit words"
group.long 0x98++0x03
line.long 0x00 "CBUFF_FRAG_ADDR_j_6,Start address of the physical buffer of the CBUFF context 0"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128-bit words"
tree.end
tree "CTX_Line_7"
group.long 0x1E0++0x03
line.long 0x00 "CBUFF_CTX_CTRL_i_7,Context control register"
bitfld.long 0x00 11. "TILERMODE,Sets the expected value for ADDR[32]" "0,1"
bitfld.long 0x00 10. "DONE,Write this bit to 1 to indicate the CPU has finished processing its physical buffer" "DONE_0_w,DONE_1_w"
bitfld.long 0x00 8.--9. "WCOUNT,Window count" "WCOUNT_0,WCOUNT_1,WCOUNT_2,WCOUNT_3"
bitfld.long 0x00 4.--7. "BCF,This register controls the bandwidth control feedback loop output" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 1.--2. "MODE,Selects the functional mode of this context" "MODE_0,MODE_1,MODE_2,?"
bitfld.long 0x00 0. "ENABLE,Enable/disable" "ENABLE_0,ENABLE_1"
group.long 0x1E8++0x03
line.long 0x00 "CBUFF_CTX_END_i_7,End address of the virtual space managed by the context"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128-bit words"
group.long 0x1FC++0x03
line.long 0x00 "CBUFF_CTX_PHY_i_7,Start address of the first physical buffer managed by the context when fragmentation support is disabled"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128 bit words"
group.long 0x1E4++0x03
line.long 0x00 "CBUFF_CTX_START_i_7,Start address of the virtual space managed by the context"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128-bit words"
rgroup.long 0x1F8++0x03
line.long 0x00 "CBUFF_CTX_STATUS_i_7,Status register"
bitfld.long 0x00 8.--11. "WA,Valid values depend on the CBUFF_CTX_CTRL__x.WCOUNT register" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "WB,Valid values depend on the CBUFF_CTX_CTRL__x.WCOUNT register" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x1F0++0x07
line.long 0x00 "CBUFF_CTX_THRESHOLD_F_i_7,Threshold value used to check if a write window is full"
hexmask.long.tbyte 0x00 0.--23. 1. "THRESHOLD,Threshold value in bytes"
line.long 0x04 "CBUFF_CTX_THRESHOLD_S_i_7,Threshold value used to control the BCF synchronization mechanism"
hexmask.long.tbyte 0x04 0.--23. 1. "THRESHOLD,Threshold value in bytes"
group.long 0x1EC++0x03
line.long 0x00 "CBUFF_CTX_WINDOWSIZE_i_7,Defines the size of a window"
hexmask.long.tbyte 0x00 4.--23. 1. "SIZE,Size in 128-bit words"
group.long 0x9C++0x23
line.long 0x00 "CBUFF_FRAG_ADDR_j_7,Start address of the physical buffer of the CBUFF context 0"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128-bit words"
line.long 0x04 "CBUFF_FRAG_ADDR_j_8,Start address of the physical buffer of the CBUFF context 0"
hexmask.long 0x04 4.--31. 1. "ADDR,Address in 128-bit words"
line.long 0x08 "CBUFF_FRAG_ADDR_j_9,Start address of the physical buffer of the CBUFF context 0"
hexmask.long 0x08 4.--31. 1. "ADDR,Address in 128-bit words"
line.long 0x0C "CBUFF_FRAG_ADDR_j_10,Start address of the physical buffer of the CBUFF context 0"
hexmask.long 0x0C 4.--31. 1. "ADDR,Address in 128-bit words"
line.long 0x10 "CBUFF_FRAG_ADDR_j_11,Start address of the physical buffer of the CBUFF context 0"
hexmask.long 0x10 4.--31. 1. "ADDR,Address in 128-bit words"
line.long 0x14 "CBUFF_FRAG_ADDR_j_12,Start address of the physical buffer of the CBUFF context 0"
hexmask.long 0x14 4.--31. 1. "ADDR,Address in 128-bit words"
line.long 0x18 "CBUFF_FRAG_ADDR_j_13,Start address of the physical buffer of the CBUFF context 0"
hexmask.long 0x18 4.--31. 1. "ADDR,Address in 128-bit words"
line.long 0x1C "CBUFF_FRAG_ADDR_j_14,Start address of the physical buffer of the CBUFF context 0"
hexmask.long 0x1C 4.--31. 1. "ADDR,Address in 128-bit words"
line.long 0x20 "CBUFF_FRAG_ADDR_j_15,Start address of the physical buffer of the CBUFF context 0"
hexmask.long 0x20 4.--31. 1. "ADDR,Address in 128-bit words"
tree.end
tree.end
tree "ISS_CCP2"
base ansd:0x52001C00
group.long 0x40++0x03
line.long 0x00 "CCP2_CTRL,GLOBAL CONTROL REGISTER This register controls the CCP2 receiver"
hexmask.long.tbyte 0x00 15.--31. 1. "FRACDIV,Fractional clock divider control for the video port"
bitfld.long 0x00 14. "POSTED,Selects between posted and non posted writes" "POSTED_0,POSTED_1"
bitfld.long 0x00 13. "DBG_EN,Enables the debug mode" "DBG_EN_0,DBG_EN_1"
newline
bitfld.long 0x00 12. "VP_CLK_POL,VP clock polarity" "VP_CLK_POL_0,VP_CLK_POL_1"
bitfld.long 0x00 11. "VP_ONLY_EN,VP only enable" "VP_ONLY_EN_0,VP_ONLY_EN_1"
bitfld.long 0x00 9. "VP_CLK_FORCE_ON,Controls VP_PCLK gating during frame blanking periods" "VP_CLK_FORCE_ON_0,VP_CLK_FORCE_ON_1"
newline
bitfld.long 0x00 5.--7. "BURST,Forces the write burst size used by the module" "BURST_0,BURST_1,BURST_2,BURST_3,BURST_4,?,?,?"
bitfld.long 0x00 4. "MODE,Selects the receiver operating mode" "MODE_0,MODE_1"
bitfld.long 0x00 3. "FRAME,Set the modality in which IF_EN works" "FRAME_0,FRAME_1"
newline
bitfld.long 0x00 0. "IF_EN,Enables the physical interface to the module" "IF_EN_0,IF_EN_1"
group.long 0x4C++0x03
line.long 0x00 "CCP2_CTRL1,GLOBAL CONTROL REGISTER (2) This register controls the CCP2 receiver"
bitfld.long 0x00 0.--1. "BLANKING,Controls the number of clock pulses provided during vertical and horizontal clock periods" "BLANKING_0,BLANKING_1,BLANKING_2,BLANKING_3"
group.long 0x44++0x07
line.long 0x00 "CCP2_DBG,DEBUG REGISTER This register provides a way to debug the CCP2 receiver with no image sensor connected to the module"
line.long 0x04 "CCP2_GNQ,GENERIC PARAMETER REGISTER This register provide a way to read the generic parameters used in the design"
bitfld.long 0x04 5. "OCPREADPORT,The OCP master read port the DPCM encoder and ALAW decompression are only present when this bit is set" "OCPREADPORT_0,OCPREADPORT_1"
bitfld.long 0x04 2.--4. "FIFODEPTH,Output FIFO size in multiple of 64 bits" "FIFODEPTH_0_r,FIFODEPTH_1_r,FIFODEPTH_2_r,FIFODEPTH_3_r,FIFODEPTH_4_r,FIFODEPTH_5_r,?,?"
bitfld.long 0x04 0.--1. "NBCHANNELS,Number of logical channels supported by the module" "NBCHANNELS_0_r,NBCHANNELS_1_r,NBCHANNELS_2_r,NBCHANNELS_3_r"
group.long 0x0C++0x0F
line.long 0x00 "CCP2_LC01_IRQENABLE,INTERRUPT ENABLE REGISTER - LOG CHAN 0 & 1 This register regroups all the events related to logical channel 0 and logical channel 1"
bitfld.long 0x00 31. "LC1_OCPERROR_IRQ,An OCP error occurred on the master write port" "LC1_OCPERROR_IRQ_0,LC1_OCPERROR_IRQ_1"
bitfld.long 0x00 27. "LC1_FS_IRQ,Logical channel" "LC1_FS_IRQ_0,LC1_FS_IRQ_1"
bitfld.long 0x00 26. "LC1_LE_IRQ,Logical channel" "LC1_LE_IRQ_0,LC1_LE_IRQ_1"
newline
bitfld.long 0x00 25. "LC1_LS_IRQ,Logical channel" "LC1_LS_IRQ_0,LC1_LS_IRQ_1"
bitfld.long 0x00 24. "LC1_FE_IRQ,Logical channel" "LC1_FE_IRQ_0,LC1_FE_IRQ_1"
bitfld.long 0x00 23. "LC1_COUNT_IRQ,Logical channel" "LC1_COUNT_IRQ_0,LC1_COUNT_IRQ_1"
newline
bitfld.long 0x00 21. "LC1_FIFO_OVF_IRQ,Logical channel" "LC1_FIFO_OVF_IRQ_0,LC1_FIFO_OVF_IRQ_1"
bitfld.long 0x00 20. "LC1_CRC_IRQ,Logical channel" "LC1_CRC_IRQ_0,LC1_CRC_IRQ_1"
bitfld.long 0x00 19. "LC1_FSP_IRQ,Logical channel" "LC1_FSP_IRQ_0,LC1_FSP_IRQ_1"
newline
bitfld.long 0x00 18. "LC1_FW_IRQ,Logical channel" "LC1_FW_IRQ_0,LC1_FW_IRQ_1"
bitfld.long 0x00 17. "LC1_FSC_IRQ,Logical channel" "LC1_FSC_IRQ_0,LC1_FSC_IRQ_1"
bitfld.long 0x00 15. "LC0_OCPERROR_IRQ,An OCP error occurred on the master write port" "LC0_OCPERROR_IRQ_0,LC0_OCPERROR_IRQ_1"
newline
bitfld.long 0x00 11. "LC0_FS_IRQ,Logical channel" "LC0_FS_IRQ_0,LC0_FS_IRQ_1"
bitfld.long 0x00 10. "LC0_LE_IRQ,Logical channel" "LC0_LE_IRQ_0,LC0_LE_IRQ_1"
bitfld.long 0x00 9. "LC0_LS_IRQ,Logical channel" "LC0_LS_IRQ_0,LC0_LS_IRQ_1"
newline
bitfld.long 0x00 8. "LC0_FE_IRQ,Logical channel" "LC0_FE_IRQ_0,LC0_FE_IRQ_1"
bitfld.long 0x00 7. "LC0_COUNT_IRQ,Logical channel" "LC0_COUNT_IRQ_0,LC0_COUNT_IRQ_1"
bitfld.long 0x00 5. "LC0_FIFO_OVF_IRQ,Logical channel" "LC0_FIFO_OVF_IRQ_0,LC0_FIFO_OVF_IRQ_1"
newline
bitfld.long 0x00 4. "LC0_CRC_IRQ,Logical channel" "LC0_CRC_IRQ_0,LC0_CRC_IRQ_1"
bitfld.long 0x00 3. "LC0_FSP_IRQ,Logical channel" "LC0_FSP_IRQ_0,LC0_FSP_IRQ_1"
bitfld.long 0x00 2. "LC0_FW_IRQ,Logical channel" "LC0_FW_IRQ_0,LC0_FW_IRQ_1"
newline
bitfld.long 0x00 1. "LC0_FSC_IRQ,Logical channel" "LC0_FSC_IRQ_0,LC0_FSC_IRQ_1"
line.long 0x04 "CCP2_LC01_IRQSTATUS,INTERRUPT STATUS REGISTER - LOG CHAN 0 & 1 This register regroups all the events related to logical channel 0 and logical channel 1"
bitfld.long 0x04 31. "LC1_OCPERROR_IRQ,An OCP error occurred on the master write port" "LC1_OCPERROR_IRQ_0,LC1_OCPERROR_IRQ_1"
bitfld.long 0x04 27. "LC1_FS_IRQ,Logical channel" "LC1_FS_IRQ_0,LC1_FS_IRQ_1"
bitfld.long 0x04 26. "LC1_LE_IRQ,Logical channel" "LC1_LE_IRQ_0,LC1_LE_IRQ_1"
newline
bitfld.long 0x04 25. "LC1_LS_IRQ,Logical channel" "LC1_LS_IRQ_0,LC1_LS_IRQ_1"
bitfld.long 0x04 24. "LC1_FE_IRQ,Logical channel" "LC1_FE_IRQ_0,LC1_FE_IRQ_1"
bitfld.long 0x04 23. "LC1_COUNT_IRQ,Logical channel" "LC1_COUNT_IRQ_0,LC1_COUNT_IRQ_1"
newline
bitfld.long 0x04 21. "LC1_FIFO_OVF_IRQ,Logical channel" "LC1_FIFO_OVF_IRQ_0,LC1_FIFO_OVF_IRQ_1"
bitfld.long 0x04 20. "LC1_CRC_IRQ,Logical channel" "LC1_CRC_IRQ_0,LC1_CRC_IRQ_1"
bitfld.long 0x04 19. "LC1_FSP_IRQ,Logical channel" "LC1_FSP_IRQ_0,LC1_FSP_IRQ_1"
newline
bitfld.long 0x04 18. "LC1_FW_IRQ,Logical channel" "LC1_FW_IRQ_0,LC1_FW_IRQ_1"
bitfld.long 0x04 17. "LC1_FSC_IRQ,Logical channel" "LC1_FSC_IRQ_0,LC1_FSC_IRQ_1"
bitfld.long 0x04 15. "LC0_OCPERROR_IRQ,An OCP error occurred on the master write port" "LC0_OCPERROR_IRQ_0,LC0_OCPERROR_IRQ_1"
newline
bitfld.long 0x04 11. "LC0_FS_IRQ,Logical channel" "LC0_FS_IRQ_0,LC0_FS_IRQ_1"
bitfld.long 0x04 10. "LC0_LE_IRQ,Logical channel" "LC0_LE_IRQ_0,LC0_LE_IRQ_1"
bitfld.long 0x04 9. "LC0_LS_IRQ,Logical channel" "LC0_LS_IRQ_0,LC0_LS_IRQ_1"
newline
bitfld.long 0x04 8. "LC0_FE_IRQ,Logical channel" "LC0_FE_IRQ_0,LC0_FE_IRQ_1"
bitfld.long 0x04 7. "LC0_COUNT_IRQ,Logical channel" "LC0_COUNT_IRQ_0,LC0_COUNT_IRQ_1"
bitfld.long 0x04 5. "LC0_FIFO_OVF_IRQ,Logical channel" "LC0_FIFO_OVF_IRQ_0,LC0_FIFO_OVF_IRQ_1"
newline
bitfld.long 0x04 4. "LC0_CRC_IRQ,Logical channel" "LC0_CRC_IRQ_0,LC0_CRC_IRQ_1"
bitfld.long 0x04 3. "LC0_FSP_IRQ,Logical channel" "LC0_FSP_IRQ_0,LC0_FSP_IRQ_1"
bitfld.long 0x04 2. "LC0_FW_IRQ,Logical channel" "LC0_FW_IRQ_0,LC0_FW_IRQ_1"
newline
bitfld.long 0x04 1. "LC0_FSC_IRQ,Logical channel" "LC0_FSC_IRQ_0,LC0_FSC_IRQ_1"
line.long 0x08 "CCP2_LC23_IRQENABLE,INTERRUPT ENABLE REGISTER - LOG CHAN 2 & 3 This register regroups all the events related to logical channel 2 and logical channel 3"
bitfld.long 0x08 31. "LC3_OCPERROR_IRQ,An OCP error occurred on the master write port" "LC3_OCPERROR_IRQ_0,LC3_OCPERROR_IRQ_1"
bitfld.long 0x08 27. "LC3_FS_IRQ,Logical channel" "LC3_FS_IRQ_0,LC3_FS_IRQ_1"
bitfld.long 0x08 26. "LC3_LE_IRQ,Logical channel" "LC3_LE_IRQ_0,LC3_LE_IRQ_1"
newline
bitfld.long 0x08 25. "LC3_LS_IRQ,Logical channel" "LC3_LS_IRQ_0,LC3_LS_IRQ_1"
bitfld.long 0x08 24. "LC3_FE_IRQ,Logical channel" "LC3_FE_IRQ_0,LC3_FE_IRQ_1"
bitfld.long 0x08 23. "LC3_COUNT_IRQ,Logical channel" "LC3_COUNT_IRQ_0,LC3_COUNT_IRQ_1"
newline
bitfld.long 0x08 21. "LC3_FIFO_OVF_IRQ,Logical channel" "LC3_FIFO_OVF_IRQ_0,LC3_FIFO_OVF_IRQ_1"
bitfld.long 0x08 20. "LC3_CRC_IRQ,Logical channel" "LC3_CRC_IRQ_0,LC3_CRC_IRQ_1"
bitfld.long 0x08 19. "LC3_FSP_IRQ,Logical channel" "LC3_FSP_IRQ_0,LC3_FSP_IRQ_1"
newline
bitfld.long 0x08 18. "LC3_FW_IRQ,Logical channel" "LC3_FW_IRQ_0,LC3_FW_IRQ_1"
bitfld.long 0x08 17. "LC3_FSC_IRQ,Logical channel" "LC3_FSC_IRQ_0,LC3_FSC_IRQ_1"
bitfld.long 0x08 15. "LC2_OCPERROR_IRQ,An OCP error occurred on the master write port" "LC2_OCPERROR_IRQ_0,LC2_OCPERROR_IRQ_1"
newline
bitfld.long 0x08 11. "LC2_FS_IRQ,Logical channel" "LC2_FS_IRQ_0,LC2_FS_IRQ_1"
bitfld.long 0x08 10. "LC2_LE_IRQ,Logical channel" "LC2_LE_IRQ_0,LC2_LE_IRQ_1"
bitfld.long 0x08 9. "LC2_LS_IRQ,Logical channel" "LC2_LS_IRQ_0,LC2_LS_IRQ_1"
newline
bitfld.long 0x08 8. "LC2_FE_IRQ,Logical channel" "LC2_FE_IRQ_0,LC2_FE_IRQ_1"
bitfld.long 0x08 7. "LC2_COUNT_IRQ,Logical channel" "LC2_COUNT_IRQ_0,LC2_COUNT_IRQ_1"
bitfld.long 0x08 5. "LC2_FIFO_OVF_IRQ,Logical channel" "LC2_FIFO_OVF_IRQ_0,LC2_FIFO_OVF_IRQ_1"
newline
bitfld.long 0x08 4. "LC2_CRC_IRQ,Logical channel" "LC2_CRC_IRQ_0,LC2_CRC_IRQ_1"
bitfld.long 0x08 3. "LC2_FSP_IRQ,Logical channel" "LC2_FSP_IRQ_0,LC2_FSP_IRQ_1"
bitfld.long 0x08 2. "LC2_FW_IRQ,Logical channel" "LC2_FW_IRQ_0,LC2_FW_IRQ_1"
newline
bitfld.long 0x08 1. "LC2_FSC_IRQ,Logical channel" "LC2_FSC_IRQ_0,LC2_FSC_IRQ_1"
line.long 0x0C "CCP2_LC23_IRQSTATUS,INTERRUPT STATUS REGISTER - LOG CHAN 2 & 3 This register regroups all the events related to logical channel 2 and logical channel 3"
bitfld.long 0x0C 31. "LC3_OCPERROR_IRQ,An OCP error occurred on the master write port" "LC3_OCPERROR_IRQ_0,LC3_OCPERROR_IRQ_1"
bitfld.long 0x0C 27. "LC3_FS_IRQ,Logical channel" "LC3_FS_IRQ_0,LC3_FS_IRQ_1"
bitfld.long 0x0C 26. "LC3_LE_IRQ,Logical channel" "LC3_LE_IRQ_0,LC3_LE_IRQ_1"
newline
bitfld.long 0x0C 25. "LC3_LS_IRQ,Logical channel" "LC3_LS_IRQ_0,LC3_LS_IRQ_1"
bitfld.long 0x0C 24. "LC3_FE_IRQ,Logical channel" "LC3_FE_IRQ_0,LC3_FE_IRQ_1"
bitfld.long 0x0C 23. "LC3_COUNT_IRQ,Logical channel" "LC3_COUNT_IRQ_0,LC3_COUNT_IRQ_1"
newline
bitfld.long 0x0C 21. "LC3_FIFO_OVF_IRQ,Logical channel" "LC3_FIFO_OVF_IRQ_0,LC3_FIFO_OVF_IRQ_1"
bitfld.long 0x0C 20. "LC3_CRC_IRQ,Logical channel" "LC3_CRC_IRQ_0,LC3_CRC_IRQ_1"
bitfld.long 0x0C 19. "LC3_FSP_IRQ,Logical channel" "LC3_FSP_IRQ_0,LC3_FSP_IRQ_1"
newline
bitfld.long 0x0C 18. "LC3_FW_IRQ,Logical channel" "LC3_FW_IRQ_0,LC3_FW_IRQ_1"
bitfld.long 0x0C 17. "LC3_FSC_IRQ,Logical channel" "LC3_FSC_IRQ_0,LC3_FSC_IRQ_1"
bitfld.long 0x0C 15. "LC2_OCPERROR_IRQ,An OCP error occurred on the master write port" "LC2_OCPERROR_IRQ_0,LC2_OCPERROR_IRQ_1"
newline
bitfld.long 0x0C 11. "LC2_FS_IRQ,Logical channel" "LC2_FS_IRQ_0,LC2_FS_IRQ_1"
bitfld.long 0x0C 10. "LC2_LE_IRQ,Logical channel" "LC2_LE_IRQ_0,LC2_LE_IRQ_1"
bitfld.long 0x0C 9. "LC2_LS_IRQ,Logical channel" "LC2_LS_IRQ_0,LC2_LS_IRQ_1"
newline
bitfld.long 0x0C 8. "LC2_FE_IRQ,Logical channel" "LC2_FE_IRQ_0,LC2_FE_IRQ_1"
bitfld.long 0x0C 7. "LC2_COUNT_IRQ,Logical channel" "LC2_COUNT_IRQ_0,LC2_COUNT_IRQ_1"
bitfld.long 0x0C 5. "LC2_FIFO_OVF_IRQ,Logical channel" "LC2_FIFO_OVF_IRQ_0,LC2_FIFO_OVF_IRQ_1"
newline
bitfld.long 0x0C 4. "LC2_CRC_IRQ,Logical channel" "LC2_CRC_IRQ_0,LC2_CRC_IRQ_1"
bitfld.long 0x0C 3. "LC2_FSP_IRQ,Logical channel" "LC2_FSP_IRQ_0,LC2_FSP_IRQ_1"
bitfld.long 0x0C 2. "LC2_FW_IRQ,Logical channel" "LC2_FW_IRQ_0,LC2_FW_IRQ_1"
newline
bitfld.long 0x0C 1. "LC2_FSC_IRQ,Logical channel" "LC2_FSC_IRQ_0,LC2_FSC_IRQ_1"
group.long 0x1D0++0x03
line.long 0x00 "CCP2_LCM_CTRL,Control register for the memory channel"
bitfld.long 0x00 31. "DST_PACK,Data is packed before it is send to memory" "DST_PACK_0,DST_PACK_1"
bitfld.long 0x00 30. "DST_DPCM_PRED,Selects the DPCM predictor to be used for the RAW6+DPCM10 and RAW7+DPCM10 data formats" "DST_DPCM_PRED_0,DST_DPCM_PRED_1"
bitfld.long 0x00 28.--29. "DST_COMPR,Enables data compression of data sent to memory" "DST_COMPR_0,DST_COMPR_1,DST_COMPR_2,?"
newline
bitfld.long 0x00 24.--26. "DST_FORMAT,Output format selection" "DST_FORMAT_0,DST_FORMAT_1,DST_FORMAT_2,DST_FORMAT_3,DST_FORMAT_4,DST_FORMAT_5,DST_FORMAT_6,?"
bitfld.long 0x00 23. "SRC_PACK,Data stored in memory is packed and must be unpacked" "SRC_PACK_0,SRC_PACK_1"
bitfld.long 0x00 22. "SRC_DPCM_PRED,Selects the DPCM predictor to be used for the RAW6+DPCM10 RAW7+DPCM10 and RAW8+DPCM12 data formats" "SRC_DPCM_PRED_0,SRC_DPCM_PRED_1"
newline
bitfld.long 0x00 20.--21. "SRC_DECOMPR,Enable decompression of incoming data" "SRC_DECOMPR_0,SRC_DECOMPR_1,SRC_DECOMPR_2,SRC_DECOMPR_3"
bitfld.long 0x00 16.--19. "SRC_FORMAT,Data format of the data stored in memory" "SRC_FORMAT_0,SRC_FORMAT_1,SRC_FORMAT_2,SRC_FORMAT_3,SRC_FORMAT_4,SRC_FORMAT_5,SRC_FORMAT_6,SRC_FORMAT_7,SRC_FORMAT_8,SRC_FORMAT_9,SRC_FORMAT_10,SRC_FORMAT_11,SRC_FORMAT_12,SRC_FORMAT_13,SRC_FORMAT_14,SRC_FORMAT_15"
bitfld.long 0x00 5.--7. "BURST_SIZE,Defines the burst size of the master read port" "BURST_SIZE_0,BURST_SIZE_1,BURST_SIZE_2,BURST_SIZE_3,BURST_SIZE_4,?,?,?"
newline
bitfld.long 0x00 3.--4. "READ_THROTTLE,Limit maximum data read speed for memory to memory operation" "READ_THROTTLE_0,READ_THROTTLE_1,READ_THROTTLE_2,READ_THROTTLE_3"
bitfld.long 0x00 2. "DST_PORT,Select the destination port" "DST_PORT_0,DST_PORT_1"
bitfld.long 0x00 0. "CHAN_EN,Enables the read from memory channel" "CHAN_EN_0,CHAN_EN_1"
group.long 0x1E8++0x0B
line.long 0x00 "CCP2_LCM_DST_ADDR,Memory channel destination address"
hexmask.long 0x00 5.--31. 1. "ADDR,27 most significant bits of the 32-bit address"
line.long 0x04 "CCP2_LCM_DST_OFST,Memory channel destination offset register"
hexmask.long 0x04 5.--31. 1. "OFST,Line offset programmed in bytes"
line.long 0x08 "CCP2_LCM_HISTORY,Controls operation of the DPCM history read/write feature"
bitfld.long 0x08 17. "EN_HIST_RD,Enable DPCM history read" "EN_HIST_RD_0,EN_HIST_RD_1"
bitfld.long 0x08 16. "EN_HIST_WR,Enable DPCM history write" "EN_HIST_WR_0,EN_HIST_WR_1"
hexmask.long.word 0x08 0.--15. 1. "HIST_EXPORT,Defines the horizontal position at which DPCM history information is written"
group.long 0x1D8++0x03
line.long 0x00 "CCP2_LCM_HSIZE,Memory read channel horizontal framing register"
hexmask.long.word 0x00 16.--30. 1. "COUNT,Horizontal count ofsamples to output after the skipped pixels"
hexmask.long.word 0x00 0.--14. 1. "SKIP,Horizontal count ofsamples to skip after the start of the line"
group.long 0x2C++0x07
line.long 0x00 "CCP2_LCM_IRQENABLE,INTERRUPT ENABLE REGISTER - Memory channel This register regroups all the events related to the memory channel 2"
bitfld.long 0x00 1. "LCM_OCPERROR,An interconnect error has been returned for a read (interconnect read master) or write (interconnect write master) transaction related to LCM operation" "LCM_OCPERROR_0,LCM_OCPERROR_1"
bitfld.long 0x00 0. "LCM_EOF,Memory" "LCM_EOF_0,LCM_EOF_1"
line.long 0x04 "CCP2_LCM_IRQSTATUS,INTERRUPT STATUS REGISTER - Memory channel This register regroups all the events related to memory channel"
bitfld.long 0x04 1. "LCM_OCPERROR,An interconnect error has been returned for a read (interconnect read master) or write (interconnect write master) transaction related to LCM operation" "LCM_OCPERROR_0,LCM_OCPERROR_1"
bitfld.long 0x04 0. "LCM_EOF,Memory" "LCM_EOF_0,LCM_EOF_1"
group.long 0x1DC++0x0B
line.long 0x00 "CCP2_LCM_PREFETCH,This register defines the amount of data to be fetched from memory"
hexmask.long.word 0x00 3.--15. 1. "HWORDS,64 bit words to read from memory for each line of the image"
line.long 0x04 "CCP2_LCM_SRC_ADDR,Memory channel source address register This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x04 5.--31. 1. "ADDR,27 most-significant bits of the 32-bit address"
line.long 0x08 "CCP2_LCM_SRC_OFST,Memory channel source offset register"
hexmask.long 0x08 5.--31. 1. "OFST,Line offset programmed in bytes"
group.long 0x1D4++0x03
line.long 0x00 "CCP2_LCM_VSIZE,Memory channel vertical framing register"
hexmask.long.word 0x00 16.--28. 1. "COUNT,Defines the line count to be read from memory"
rgroup.long 0x00++0x0B
line.long 0x00 "CCP2_REVISION,IP Revision Identifier (X.Y.R) Used by software to track features. bugs. and compatibility"
line.long 0x04 "CCP2_SYSCONFIG,SYSTEM CONFIGURATION REGISTER This register is the OCP-socket system configuration register"
bitfld.long 0x04 12.--13. "MSTANDBY_MODE,Sets the behavior of the master port power management signals" "MSTANDBY_MODE_0,MSTANDBY_MODE_1,MSTANDBY_MODE_2,?"
bitfld.long 0x04 1. "SOFT_RESET,Software reset" "SOFT_RESET_0,SOFT_RESET_1"
bitfld.long 0x04 0. "AUTO_IDLE,Internal OCP clock gating strategy" "AUTO_IDLE_0,AUTO_IDLE_1"
line.long 0x08 "CCP2_SYSSTATUS,SYSTEM STATUS REGISTER This register provides status information about the module. excluding the interrupt status register"
bitfld.long 0x08 0. "RESET_DONE,Internal reset monitoring" "RESET_DONE_0_r,RESET_DONE_1_r"
tree "Channel_0"
group.long 0x54++0x03
line.long 0x00 "CCP2_LCx_CODE_0,CODE REGISTER - LOG CHAN 0 This register sets the codes that are used in the 32-bit synchronization codes to recognize the logical channel. frame start. frame end. line start and line end codes"
bitfld.long 0x00 16.--19. "CHAN_ID,Log chan 0 identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "FEC,Log chan 0 frame end sync code identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "FSC,Log chan 0 frame start sync code identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 4.--7. "LEC,Log chan 0 line end sync code identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "LSC,Log chan 0 line start sync code identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x50++0x03
line.long 0x00 "CCP2_LCx_CTRL_0,CONTROL REGISTER - LOG CHAN 0 This register controls the logical channel 0"
abitfld.long 0x00 24.--31. "COUNT,Sets the number of frame to acquire" "0x00=Infinite number of frames (no count),0x01=1 frame to acquire,0xFF=255 frames to acquire"
bitfld.long 0x00 19. "CRC_EN,Enables the cyclic redundancy check" "CRC_EN_0,CRC_EN_1"
bitfld.long 0x00 18. "DPCM_PRED,Selects the DPCM predictor to be used for the RAW6+DPCM10 RAW7+DPCM10 and RAW8+DPCM12 data formats" "DPCM_PRED_0,DPCM_PRED_1"
newline
rbitfld.long 0x00 17. "PING_PONG,Indicates whether the PING or PONG destination address (CCP2_LC0_DAT_PING_ADDR or CCP2_LC0_DAT_PONG_ADDR) was used to write the last frame" "PING_PONG_0_r,PING_PONG_1_r"
bitfld.long 0x00 16. "COUNT_UNLOCK,Unlock writes to the COUNT bit field" "COUNT_UNLOCK_0_w,COUNT_UNLOCK_1_w"
hexmask.long.byte 0x00 8.--15. 1. "ALPHA,Alpha value for RGB888 and RBG444"
newline
bitfld.long 0x00 2.--7. "FORMAT,Data format selection" "FORMAT_0,FORMAT_1,FORMAT_2,FORMAT_3,FORMAT_4,FORMAT_5,FORMAT_6,FORMAT_7,FORMAT_8,FORMAT_9,FORMAT_10,FORMAT_11,FORMAT_12,FORMAT_13,FORMAT_14,FORMAT_15,FORMAT_16,FORMAT_17,FORMAT_18,FORMAT_19,FORMAT_20,FORMAT_21,FORMAT_22,FORMAT_23,FORMAT_24,FORMAT_25,FORMAT_26,FORMAT_27,FORMAT_28,FORMAT_29,FORMAT_30,FORMAT_31,FORMAT_32,FORMAT_33,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 1. "REGION_EN,Enables the setting of regions of interest in the frame: SOF region EOF region and DAT region" "REGION_EN_0,REGION_EN_1"
bitfld.long 0x00 0. "CHAN_EN,Enables the logical" "0,1"
group.long 0x78++0x03
line.long 0x00 "CCP2_LCx_DAT_OFST_0,DATA MEM ADDRESS OFFSET REGISTER - LOG CHAN 0 This register sets the offset. which is applied on the destination address after each line is written to memory"
hexmask.long 0x00 5.--31. 1. "OFST,Line offset programmed in bytes"
group.long 0x70++0x07
line.long 0x00 "CCP2_LCx_DAT_PING_ADDR_0,DATA MEM PING ADDRESS REGISTER - LOG CHAN 0 This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x00 5.--31. 1. "ADDR,27 most significant bits of the 32-bit address"
line.long 0x04 "CCP2_LCx_DAT_PONG_ADDR_0,DATA MEM PONG ADDRESS REGISTER - LOG CHAN 0 This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x04 5.--31. 1. "ADDR,27 most significant bits of the 32-bit address"
group.long 0x6C++0x03
line.long 0x00 "CCP2_LCx_DAT_SIZE_0,DATA SIZE REGISTER - LOG CHAN 0 This register is shadowed: modifications are taken into account after the next FSC sync code"
hexmask.long.word 0x00 16.--27. 1. "VERT,Sets the vertical size of the data window"
group.long 0x68++0x03
line.long 0x00 "CCP2_LCx_DAT_START_0,DATA START REGISTER - LOG CHAN 0 This register is shadowed: modifications are taken into account after the next FSC sync code"
hexmask.long.word 0x00 16.--27. 1. "VERT,Sets the vertical position of the data in regards of the FSC sync code"
group.long 0x64++0x03
line.long 0x00 "CCP2_LCx_EOF_ADDR_0,EOF STATUS LINE MEM ADDRESS REGISTER - LOG CHAN 0 This register sets the 32-bit memory address where the EOF data are stored"
hexmask.long 0x00 5.--31. 1. "ADDR,27 most significant bits of the 32-bit address"
group.long 0x60++0x03
line.long 0x00 "CCP2_LCx_SOF_ADDR_0,SOF STATUS LINE MEM ADDRESS REGISTER - LOG CHAN 0 This register sets the 32-bit memory address where the SOF data are stored"
hexmask.long 0x00 5.--31. 1. "ADDR,27 most significant bits of the 32-bit address"
group.long 0x5C++0x03
line.long 0x00 "CCP2_LCx_STAT_SIZE_0,STATUS LINE SIZE REGISTER - LOG CHAN 0 This register is shadowed: modifications are taken into account after the next FSC sync code"
hexmask.long.word 0x00 16.--27. 1. "EOF,Sets the number of EOF status lines From 0 to 4095"
hexmask.long.word 0x00 0.--11. 1. "SOF,Sets the number of SOF status line(s) From 0 to 4095"
group.long 0x58++0x03
line.long 0x00 "CCP2_LCx_STAT_START_0,STATUS LINE START REGISTER - LOG CHAN 0 This register is shadowed: modifications are taken into account after the next FSC sync code"
hexmask.long.word 0x00 16.--27. 1. "EOF,Sets the vertical position of the EOF status lines in regards of the FSC sync code"
hexmask.long.word 0x00 0.--11. 1. "SOF,Sets the vertical position of the EOF status lines in regards of the FSC sync code"
tree.end
tree "Channel_1"
group.long 0x84++0x03
line.long 0x00 "CCP2_LCx_CODE_1,CODE REGISTER - LOG CHAN 0 This register sets the codes that are used in the 32-bit synchronization codes to recognize the logical channel. frame start. frame end. line start and line end codes"
bitfld.long 0x00 16.--19. "CHAN_ID,Log chan 0 identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "FEC,Log chan 0 frame end sync code identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "FSC,Log chan 0 frame start sync code identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 4.--7. "LEC,Log chan 0 line end sync code identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "LSC,Log chan 0 line start sync code identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80++0x03
line.long 0x00 "CCP2_LCx_CTRL_1,CONTROL REGISTER - LOG CHAN 0 This register controls the logical channel 0"
abitfld.long 0x00 24.--31. "COUNT,Sets the number of frame to acquire" "0x00=Infinite number of frames (no count),0x01=1 frame to acquire,0xFF=255 frames to acquire"
bitfld.long 0x00 19. "CRC_EN,Enables the cyclic redundancy check" "CRC_EN_0,CRC_EN_1"
bitfld.long 0x00 18. "DPCM_PRED,Selects the DPCM predictor to be used for the RAW6+DPCM10 RAW7+DPCM10 and RAW8+DPCM12 data formats" "DPCM_PRED_0,DPCM_PRED_1"
newline
rbitfld.long 0x00 17. "PING_PONG,Indicates whether the PING or PONG destination address (CCP2_LC0_DAT_PING_ADDR or CCP2_LC0_DAT_PONG_ADDR) was used to write the last frame" "PING_PONG_0_r,PING_PONG_1_r"
bitfld.long 0x00 16. "COUNT_UNLOCK,Unlock writes to the COUNT bit field" "COUNT_UNLOCK_0_w,COUNT_UNLOCK_1_w"
hexmask.long.byte 0x00 8.--15. 1. "ALPHA,Alpha value for RGB888 and RBG444"
newline
bitfld.long 0x00 2.--7. "FORMAT,Data format selection" "FORMAT_0,FORMAT_1,FORMAT_2,FORMAT_3,FORMAT_4,FORMAT_5,FORMAT_6,FORMAT_7,FORMAT_8,FORMAT_9,FORMAT_10,FORMAT_11,FORMAT_12,FORMAT_13,FORMAT_14,FORMAT_15,FORMAT_16,FORMAT_17,FORMAT_18,FORMAT_19,FORMAT_20,FORMAT_21,FORMAT_22,FORMAT_23,FORMAT_24,FORMAT_25,FORMAT_26,FORMAT_27,FORMAT_28,FORMAT_29,FORMAT_30,FORMAT_31,FORMAT_32,FORMAT_33,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 1. "REGION_EN,Enables the setting of regions of interest in the frame: SOF region EOF region and DAT region" "REGION_EN_0,REGION_EN_1"
bitfld.long 0x00 0. "CHAN_EN,Enables the logical" "0,1"
group.long 0xA8++0x03
line.long 0x00 "CCP2_LCx_DAT_OFST_1,DATA MEM ADDRESS OFFSET REGISTER - LOG CHAN 0 This register sets the offset. which is applied on the destination address after each line is written to memory"
hexmask.long 0x00 5.--31. 1. "OFST,Line offset programmed in bytes"
group.long 0xA0++0x07
line.long 0x00 "CCP2_LCx_DAT_PING_ADDR_1,DATA MEM PING ADDRESS REGISTER - LOG CHAN 0 This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x00 5.--31. 1. "ADDR,27 most significant bits of the 32-bit address"
line.long 0x04 "CCP2_LCx_DAT_PONG_ADDR_1,DATA MEM PONG ADDRESS REGISTER - LOG CHAN 0 This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x04 5.--31. 1. "ADDR,27 most significant bits of the 32-bit address"
group.long 0x9C++0x03
line.long 0x00 "CCP2_LCx_DAT_SIZE_1,DATA SIZE REGISTER - LOG CHAN 0 This register is shadowed: modifications are taken into account after the next FSC sync code"
hexmask.long.word 0x00 16.--27. 1. "VERT,Sets the vertical size of the data window"
group.long 0x98++0x03
line.long 0x00 "CCP2_LCx_DAT_START_1,DATA START REGISTER - LOG CHAN 0 This register is shadowed: modifications are taken into account after the next FSC sync code"
hexmask.long.word 0x00 16.--27. 1. "VERT,Sets the vertical position of the data in regards of the FSC sync code"
group.long 0x94++0x03
line.long 0x00 "CCP2_LCx_EOF_ADDR_1,EOF STATUS LINE MEM ADDRESS REGISTER - LOG CHAN 0 This register sets the 32-bit memory address where the EOF data are stored"
hexmask.long 0x00 5.--31. 1. "ADDR,27 most significant bits of the 32-bit address"
group.long 0x90++0x03
line.long 0x00 "CCP2_LCx_SOF_ADDR_1,SOF STATUS LINE MEM ADDRESS REGISTER - LOG CHAN 0 This register sets the 32-bit memory address where the SOF data are stored"
hexmask.long 0x00 5.--31. 1. "ADDR,27 most significant bits of the 32-bit address"
group.long 0x8C++0x03
line.long 0x00 "CCP2_LCx_STAT_SIZE_1,STATUS LINE SIZE REGISTER - LOG CHAN 0 This register is shadowed: modifications are taken into account after the next FSC sync code"
hexmask.long.word 0x00 16.--27. 1. "EOF,Sets the number of EOF status lines From 0 to 4095"
hexmask.long.word 0x00 0.--11. 1. "SOF,Sets the number of SOF status line(s) From 0 to 4095"
group.long 0x88++0x03
line.long 0x00 "CCP2_LCx_STAT_START_1,STATUS LINE START REGISTER - LOG CHAN 0 This register is shadowed: modifications are taken into account after the next FSC sync code"
hexmask.long.word 0x00 16.--27. 1. "EOF,Sets the vertical position of the EOF status lines in regards of the FSC sync code"
hexmask.long.word 0x00 0.--11. 1. "SOF,Sets the vertical position of the EOF status lines in regards of the FSC sync code"
tree.end
tree "Channel_2"
group.long 0xB4++0x03
line.long 0x00 "CCP2_LCx_CODE_2,CODE REGISTER - LOG CHAN 0 This register sets the codes that are used in the 32-bit synchronization codes to recognize the logical channel. frame start. frame end. line start and line end codes"
bitfld.long 0x00 16.--19. "CHAN_ID,Log chan 0 identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "FEC,Log chan 0 frame end sync code identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "FSC,Log chan 0 frame start sync code identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 4.--7. "LEC,Log chan 0 line end sync code identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "LSC,Log chan 0 line start sync code identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xB0++0x03
line.long 0x00 "CCP2_LCx_CTRL_2,CONTROL REGISTER - LOG CHAN 0 This register controls the logical channel 0"
abitfld.long 0x00 24.--31. "COUNT,Sets the number of frame to acquire" "0x00=Infinite number of frames (no count),0x01=1 frame to acquire,0xFF=255 frames to acquire"
bitfld.long 0x00 19. "CRC_EN,Enables the cyclic redundancy check" "CRC_EN_0,CRC_EN_1"
bitfld.long 0x00 18. "DPCM_PRED,Selects the DPCM predictor to be used for the RAW6+DPCM10 RAW7+DPCM10 and RAW8+DPCM12 data formats" "DPCM_PRED_0,DPCM_PRED_1"
newline
rbitfld.long 0x00 17. "PING_PONG,Indicates whether the PING or PONG destination address (CCP2_LC0_DAT_PING_ADDR or CCP2_LC0_DAT_PONG_ADDR) was used to write the last frame" "PING_PONG_0_r,PING_PONG_1_r"
bitfld.long 0x00 16. "COUNT_UNLOCK,Unlock writes to the COUNT bit field" "COUNT_UNLOCK_0_w,COUNT_UNLOCK_1_w"
hexmask.long.byte 0x00 8.--15. 1. "ALPHA,Alpha value for RGB888 and RBG444"
newline
bitfld.long 0x00 2.--7. "FORMAT,Data format selection" "FORMAT_0,FORMAT_1,FORMAT_2,FORMAT_3,FORMAT_4,FORMAT_5,FORMAT_6,FORMAT_7,FORMAT_8,FORMAT_9,FORMAT_10,FORMAT_11,FORMAT_12,FORMAT_13,FORMAT_14,FORMAT_15,FORMAT_16,FORMAT_17,FORMAT_18,FORMAT_19,FORMAT_20,FORMAT_21,FORMAT_22,FORMAT_23,FORMAT_24,FORMAT_25,FORMAT_26,FORMAT_27,FORMAT_28,FORMAT_29,FORMAT_30,FORMAT_31,FORMAT_32,FORMAT_33,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 1. "REGION_EN,Enables the setting of regions of interest in the frame: SOF region EOF region and DAT region" "REGION_EN_0,REGION_EN_1"
bitfld.long 0x00 0. "CHAN_EN,Enables the logical" "0,1"
group.long 0xD8++0x03
line.long 0x00 "CCP2_LCx_DAT_OFST_2,DATA MEM ADDRESS OFFSET REGISTER - LOG CHAN 0 This register sets the offset. which is applied on the destination address after each line is written to memory"
hexmask.long 0x00 5.--31. 1. "OFST,Line offset programmed in bytes"
group.long 0xD0++0x07
line.long 0x00 "CCP2_LCx_DAT_PING_ADDR_2,DATA MEM PING ADDRESS REGISTER - LOG CHAN 0 This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x00 5.--31. 1. "ADDR,27 most significant bits of the 32-bit address"
line.long 0x04 "CCP2_LCx_DAT_PONG_ADDR_2,DATA MEM PONG ADDRESS REGISTER - LOG CHAN 0 This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x04 5.--31. 1. "ADDR,27 most significant bits of the 32-bit address"
group.long 0xCC++0x03
line.long 0x00 "CCP2_LCx_DAT_SIZE_2,DATA SIZE REGISTER - LOG CHAN 0 This register is shadowed: modifications are taken into account after the next FSC sync code"
hexmask.long.word 0x00 16.--27. 1. "VERT,Sets the vertical size of the data window"
group.long 0xC8++0x03
line.long 0x00 "CCP2_LCx_DAT_START_2,DATA START REGISTER - LOG CHAN 0 This register is shadowed: modifications are taken into account after the next FSC sync code"
hexmask.long.word 0x00 16.--27. 1. "VERT,Sets the vertical position of the data in regards of the FSC sync code"
group.long 0xC4++0x03
line.long 0x00 "CCP2_LCx_EOF_ADDR_2,EOF STATUS LINE MEM ADDRESS REGISTER - LOG CHAN 0 This register sets the 32-bit memory address where the EOF data are stored"
hexmask.long 0x00 5.--31. 1. "ADDR,27 most significant bits of the 32-bit address"
group.long 0xC0++0x03
line.long 0x00 "CCP2_LCx_SOF_ADDR_2,SOF STATUS LINE MEM ADDRESS REGISTER - LOG CHAN 0 This register sets the 32-bit memory address where the SOF data are stored"
hexmask.long 0x00 5.--31. 1. "ADDR,27 most significant bits of the 32-bit address"
group.long 0xBC++0x03
line.long 0x00 "CCP2_LCx_STAT_SIZE_2,STATUS LINE SIZE REGISTER - LOG CHAN 0 This register is shadowed: modifications are taken into account after the next FSC sync code"
hexmask.long.word 0x00 16.--27. 1. "EOF,Sets the number of EOF status lines From 0 to 4095"
hexmask.long.word 0x00 0.--11. 1. "SOF,Sets the number of SOF status line(s) From 0 to 4095"
group.long 0xB8++0x03
line.long 0x00 "CCP2_LCx_STAT_START_2,STATUS LINE START REGISTER - LOG CHAN 0 This register is shadowed: modifications are taken into account after the next FSC sync code"
hexmask.long.word 0x00 16.--27. 1. "EOF,Sets the vertical position of the EOF status lines in regards of the FSC sync code"
hexmask.long.word 0x00 0.--11. 1. "SOF,Sets the vertical position of the EOF status lines in regards of the FSC sync code"
tree.end
tree "Channel_3"
group.long 0xE4++0x03
line.long 0x00 "CCP2_LCx_CODE_3,CODE REGISTER - LOG CHAN 0 This register sets the codes that are used in the 32-bit synchronization codes to recognize the logical channel. frame start. frame end. line start and line end codes"
bitfld.long 0x00 16.--19. "CHAN_ID,Log chan 0 identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "FEC,Log chan 0 frame end sync code identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "FSC,Log chan 0 frame start sync code identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
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bitfld.long 0x00 4.--7. "LEC,Log chan 0 line end sync code identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "LSC,Log chan 0 line start sync code identifier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xE0++0x03
line.long 0x00 "CCP2_LCx_CTRL_3,CONTROL REGISTER - LOG CHAN 0 This register controls the logical channel 0"
abitfld.long 0x00 24.--31. "COUNT,Sets the number of frame to acquire" "0x00=Infinite number of frames (no count),0x01=1 frame to acquire,0xFF=255 frames to acquire"
bitfld.long 0x00 19. "CRC_EN,Enables the cyclic redundancy check" "CRC_EN_0,CRC_EN_1"
bitfld.long 0x00 18. "DPCM_PRED,Selects the DPCM predictor to be used for the RAW6+DPCM10 RAW7+DPCM10 and RAW8+DPCM12 data formats" "DPCM_PRED_0,DPCM_PRED_1"
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rbitfld.long 0x00 17. "PING_PONG,Indicates whether the PING or PONG destination address (CCP2_LC0_DAT_PING_ADDR or CCP2_LC0_DAT_PONG_ADDR) was used to write the last frame" "PING_PONG_0_r,PING_PONG_1_r"
bitfld.long 0x00 16. "COUNT_UNLOCK,Unlock writes to the COUNT bit field" "COUNT_UNLOCK_0_w,COUNT_UNLOCK_1_w"
hexmask.long.byte 0x00 8.--15. 1. "ALPHA,Alpha value for RGB888 and RBG444"
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bitfld.long 0x00 2.--7. "FORMAT,Data format selection" "FORMAT_0,FORMAT_1,FORMAT_2,FORMAT_3,FORMAT_4,FORMAT_5,FORMAT_6,FORMAT_7,FORMAT_8,FORMAT_9,FORMAT_10,FORMAT_11,FORMAT_12,FORMAT_13,FORMAT_14,FORMAT_15,FORMAT_16,FORMAT_17,FORMAT_18,FORMAT_19,FORMAT_20,FORMAT_21,FORMAT_22,FORMAT_23,FORMAT_24,FORMAT_25,FORMAT_26,FORMAT_27,FORMAT_28,FORMAT_29,FORMAT_30,FORMAT_31,FORMAT_32,FORMAT_33,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 1. "REGION_EN,Enables the setting of regions of interest in the frame: SOF region EOF region and DAT region" "REGION_EN_0,REGION_EN_1"
bitfld.long 0x00 0. "CHAN_EN,Enables the logical" "0,1"
group.long 0x108++0x03
line.long 0x00 "CCP2_LCx_DAT_OFST_3,DATA MEM ADDRESS OFFSET REGISTER - LOG CHAN 0 This register sets the offset. which is applied on the destination address after each line is written to memory"
hexmask.long 0x00 5.--31. 1. "OFST,Line offset programmed in bytes"
group.long 0x100++0x07
line.long 0x00 "CCP2_LCx_DAT_PING_ADDR_3,DATA MEM PING ADDRESS REGISTER - LOG CHAN 0 This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x00 5.--31. 1. "ADDR,27 most significant bits of the 32-bit address"
line.long 0x04 "CCP2_LCx_DAT_PONG_ADDR_3,DATA MEM PONG ADDRESS REGISTER - LOG CHAN 0 This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x04 5.--31. 1. "ADDR,27 most significant bits of the 32-bit address"
group.long 0xFC++0x03
line.long 0x00 "CCP2_LCx_DAT_SIZE_3,DATA SIZE REGISTER - LOG CHAN 0 This register is shadowed: modifications are taken into account after the next FSC sync code"
hexmask.long.word 0x00 16.--27. 1. "VERT,Sets the vertical size of the data window"
group.long 0xF8++0x03
line.long 0x00 "CCP2_LCx_DAT_START_3,DATA START REGISTER - LOG CHAN 0 This register is shadowed: modifications are taken into account after the next FSC sync code"
hexmask.long.word 0x00 16.--27. 1. "VERT,Sets the vertical position of the data in regards of the FSC sync code"
group.long 0xF4++0x03
line.long 0x00 "CCP2_LCx_EOF_ADDR_3,EOF STATUS LINE MEM ADDRESS REGISTER - LOG CHAN 0 This register sets the 32-bit memory address where the EOF data are stored"
hexmask.long 0x00 5.--31. 1. "ADDR,27 most significant bits of the 32-bit address"
group.long 0xF0++0x03
line.long 0x00 "CCP2_LCx_SOF_ADDR_3,SOF STATUS LINE MEM ADDRESS REGISTER - LOG CHAN 0 This register sets the 32-bit memory address where the SOF data are stored"
hexmask.long 0x00 5.--31. 1. "ADDR,27 most significant bits of the 32-bit address"
group.long 0xEC++0x03
line.long 0x00 "CCP2_LCx_STAT_SIZE_3,STATUS LINE SIZE REGISTER - LOG CHAN 0 This register is shadowed: modifications are taken into account after the next FSC sync code"
hexmask.long.word 0x00 16.--27. 1. "EOF,Sets the number of EOF status lines From 0 to 4095"
hexmask.long.word 0x00 0.--11. 1. "SOF,Sets the number of SOF status line(s) From 0 to 4095"
group.long 0xE8++0x03
line.long 0x00 "CCP2_LCx_STAT_START_3,STATUS LINE START REGISTER - LOG CHAN 0 This register is shadowed: modifications are taken into account after the next FSC sync code"
hexmask.long.word 0x00 16.--27. 1. "EOF,Sets the vertical position of the EOF status lines in regards of the FSC sync code"
hexmask.long.word 0x00 0.--11. 1. "SOF,Sets the vertical position of the EOF status lines in regards of the FSC sync code"
tree.end
tree.end
tree "ISS_CSI2_A_REGS1"
base ansd:0x52001000
group.long 0x50++0x03
line.long 0x00 "CSI2_COMPLEXIO_CFG,COMPLEXIO CONFIGURATION REGISTER for the complex I/O This register contains the lane configuration for the order and position of the lanes (clock and data) and the polarity order for the control of the PHY differential signals in.."
bitfld.long 0x00 30. "RESET_CTRL,Controls the reset of the complex I/O" "RESET_CTRL_0,RESET_CTRL_1"
rbitfld.long 0x00 29. "RESET_DONE,Internal reset monitoring of the power domain using the byte clock provided by the associated CSIPHY (see .Caution: For the [29] RESET_DONE bit to be set to 0x1 (reset completed) the external sensor must to be active and sending the MIPI HS.." "RESET_DONE_0_r,RESET_DONE_1_r"
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bitfld.long 0x00 27.--28. "PWR_CMD,Command for power control of the complex I/O" "PWR_CMD_0,PWR_CMD_1,PWR_CMD_2,?"
rbitfld.long 0x00 25.--26. "PWR_STATUS,Status of the power control of the complex I/O" "PWR_STATUS_0_r,PWR_STATUS_1_r,PWR_STATUS_2_r,?"
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bitfld.long 0x00 24. "PWR_AUTO,Automatic switch between ULP and ON states based on ULPM signals from complex I/O" "PWR_AUTO_0,PWR_AUTO_1"
bitfld.long 0x00 19. "DATA4_POL,+/- differential pin order of data lane 4" "DATA4_POL_0,DATA4_POL_1"
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bitfld.long 0x00 16.--18. "DATA4_POSITION,Position and order of the data lane 4" "DATA4_POSITION_0,DATA4_POSITION_1,DATA4_POSITION_2,DATA4_POSITION_3,DATA4_POSITION_4,DATA4_POSITION_5,DATA4_POSITION_6,DATA4_POSITION_7"
bitfld.long 0x00 15. "DATA3_POL,+/- differential pin order of data lane 3" "DATA3_POL_0,DATA3_POL_1"
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bitfld.long 0x00 12.--14. "DATA3_POSITION,Position and order of the data lane 3" "DATA3_POSITION_0,DATA3_POSITION_1,DATA3_POSITION_2,DATA3_POSITION_3,DATA3_POSITION_4,DATA3_POSITION_5,DATA3_POSITION_6,DATA3_POSITION_7"
bitfld.long 0x00 11. "DATA2_POL,+/- differential pin order of DATA lane 2" "DATA2_POL_0,DATA2_POL_1"
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bitfld.long 0x00 8.--10. "DATA2_POSITION,Position and order of the data lane 2" "DATA2_POSITION_0,DATA2_POSITION_1,DATA2_POSITION_2,DATA2_POSITION_3,DATA2_POSITION_4,DATA2_POSITION_5,DATA2_POSITION_6,DATA2_POSITION_7"
bitfld.long 0x00 7. "DATA1_POL,+/- differential pin order of data lane 1" "DATA1_POL_0,DATA1_POL_1"
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bitfld.long 0x00 4.--6. "DATA1_POSITION,Position and order of the DATA lane 1" "DATA1_POSITION_0,DATA1_POSITION_1,?,DATA1_POSITION_3,DATA1_POSITION_4,DATA1_POSITION_5,DATA1_POSITION_6,DATA1_POSITION_7"
bitfld.long 0x00 3. "CLOCK_POL,+/- differential pin order of clock lane" "CLOCK_POL_0,CLOCK_POL_1"
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bitfld.long 0x00 0.--2. "CLOCK_POSITION,Position and order of the clock lane" "CLOCK_POSITION_0,CLOCK_POSITION_1,CLOCK_POSITION_2,CLOCK_POSITION_3,CLOCK_POSITION_4,CLOCK_POSITION_5,CLOCK_POSITION_6,CLOCK_POSITION_7"
group.long 0x60++0x03
line.long 0x00 "CSI2_COMPLEXIO_IRQENABLE,INTERRUPT ENABLE REGISTER - All errors from complex I/O"
bitfld.long 0x00 26. "STATEALLULPMEXIT,At least one of the active lanes has exit the ULPM" "STATEALLULPMEXIT_0,STATEALLULPMEXIT_1"
bitfld.long 0x00 25. "STATEALLULPMENTER,All active lanes are entering in ULPM" "STATEALLULPMENTER_0,STATEALLULPMENTER_1"
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bitfld.long 0x00 24. "STATEULPM5,Lane 5 in ULPM" "STATEULPM5_0,STATEULPM5_1"
bitfld.long 0x00 23. "STATEULPM4,Lane 4 in ULPM" "STATEULPM4_0,STATEULPM4_1"
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bitfld.long 0x00 22. "STATEULPM3,Lane 3 in ULPM" "STATEULPM3_0,STATEULPM3_1"
bitfld.long 0x00 21. "STATEULPM2,Lane 2 in ULPM" "STATEULPM2_0,STATEULPM2_1"
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bitfld.long 0x00 20. "STATEULPM1,Lane 1 in ULPM" "STATEULPM1_0,STATEULPM1_1"
bitfld.long 0x00 19. "ERRCONTROL5,Control error for lane" "ERRCONTROL5_0,ERRCONTROL5_1"
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bitfld.long 0x00 18. "ERRCONTROL4,Control error for lane" "ERRCONTROL4_0,ERRCONTROL4_1"
bitfld.long 0x00 17. "ERRCONTROL3,Control error for lane" "ERRCONTROL3_0,ERRCONTROL3_1"
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bitfld.long 0x00 16. "ERRCONTROL2,Control error for lane" "ERRCONTROL2_0,ERRCONTROL2_1"
bitfld.long 0x00 15. "ERRCONTROL1,Control error for lane" "ERRCONTROL1_0,ERRCONTROL1_1"
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bitfld.long 0x00 14. "ERRESC5,Escape entry error for lane" "ERRESC5_0,ERRESC5_1"
bitfld.long 0x00 13. "ERRESC4,Escape entry error for lane" "ERRESC4_0,ERRESC4_1"
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bitfld.long 0x00 12. "ERRESC3,Escape entry error for lane" "ERRESC3_0,ERRESC3_1"
bitfld.long 0x00 11. "ERRESC2,Escape entry error for lane" "ERRESC2_0,ERRESC2_1"
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bitfld.long 0x00 10. "ERRESC1,Escape entry error for lane" "ERRESC1_0,ERRESC1_1"
bitfld.long 0x00 9. "ERRSOTSYNCHS5,Start of transmission sync error for lane" "ERRSOTSYNCHS5_0,ERRSOTSYNCHS5_1"
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bitfld.long 0x00 8. "ERRSOTSYNCHS4,Start of transmission sync error for lane" "ERRSOTSYNCHS4_0,ERRSOTSYNCHS4_1"
bitfld.long 0x00 7. "ERRSOTSYNCHS3,Start of transmission sync error for lane" "ERRSOTSYNCHS3_0,ERRSOTSYNCHS3_1"
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bitfld.long 0x00 6. "ERRSOTSYNCHS2,Start of transmission sync error for lane" "ERRSOTSYNCHS2_0,ERRSOTSYNCHS2_1"
bitfld.long 0x00 5. "ERRSOTSYNCHS1,Start of transmission sync error for lane" "ERRSOTSYNCHS1_0,ERRSOTSYNCHS1_1"
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bitfld.long 0x00 4. "ERRSOTHS5,Start of transmission error for lane" "ERRSOTHS5_0,ERRSOTHS5_1"
bitfld.long 0x00 3. "ERRSOTHS4,Start of transmission error for lane" "ERRSOTHS4_0,ERRSOTHS4_1"
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bitfld.long 0x00 2. "ERRSOTHS3,Start of transmission error for lane" "ERRSOTHS3_0,ERRSOTHS3_1"
bitfld.long 0x00 1. "ERRSOTHS2,Start of transmission error for lane" "ERRSOTHS2_0,ERRSOTHS2_1"
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bitfld.long 0x00 0. "ERRSOTHS1,Start of transmission error for lane" "ERRSOTHS1_0,ERRSOTHS1_1"
group.long 0x54++0x03
line.long 0x00 "CSI2_COMPLEXIO_IRQSTATUS,INTERRUPT STATUS REGISTER - All errors from complex I/O #1"
bitfld.long 0x00 26. "STATEALLULPMEXIT,At least one of the active lanes has exit the ULPM" "STATEALLULPMEXIT_0,STATEALLULPMEXIT_1"
bitfld.long 0x00 25. "STATEALLULPMENTER,All active lanes are entering in ULPM" "STATEALLULPMENTER_0,STATEALLULPMENTER_1"
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bitfld.long 0x00 24. "STATEULPM5,Lane 5 in ULPM" "STATEULPM5_0,STATEULPM5_1"
bitfld.long 0x00 23. "STATEULPM4,Lane 4 in ULPM" "STATEULPM4_0,STATEULPM4_1"
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bitfld.long 0x00 22. "STATEULPM3,Lane 3 in ULPM" "STATEULPM3_0,STATEULPM3_1"
bitfld.long 0x00 21. "STATEULPM2,Lane 2 in ULPM" "STATEULPM2_0,STATEULPM2_1"
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bitfld.long 0x00 20. "STATEULPM1,Lane 1 in ULPM" "STATEULPM1_0,STATEULPM1_1"
bitfld.long 0x00 19. "ERRCONTROL5,Control error for lane" "ERRCONTROL5_0,ERRCONTROL5_1"
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bitfld.long 0x00 18. "ERRCONTROL4,Control error for lane" "ERRCONTROL4_0,ERRCONTROL4_1"
bitfld.long 0x00 17. "ERRCONTROL3,Control error for lane" "ERRCONTROL3_0,ERRCONTROL3_1"
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bitfld.long 0x00 16. "ERRCONTROL2,Control error for lane" "ERRCONTROL2_0,ERRCONTROL2_1"
bitfld.long 0x00 15. "ERRCONTROL1,Control error for lane" "ERRCONTROL1_0,ERRCONTROL1_1"
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bitfld.long 0x00 14. "ERRESC5,Escape entry error for lane" "ERRESC5_0,ERRESC5_1"
bitfld.long 0x00 13. "ERRESC4,Escape entry error for lane" "ERRESC4_0,ERRESC4_1"
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bitfld.long 0x00 12. "ERRESC3,Escape entry error for lane" "ERRESC3_0,ERRESC3_1"
bitfld.long 0x00 11. "ERRESC2,Escape entry error for lane" "ERRESC2_0,ERRESC2_1"
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bitfld.long 0x00 10. "ERRESC1,Escape entry error for lane" "ERRESC1_0,ERRESC1_1"
bitfld.long 0x00 9. "ERRSOTSYNCHS5,Start of transmission sync error for lane" "ERRSOTSYNCHS5_0,ERRSOTSYNCHS5_1"
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bitfld.long 0x00 8. "ERRSOTSYNCHS4,Start of transmission sync error for lane" "ERRSOTSYNCHS4_0,ERRSOTSYNCHS4_1"
bitfld.long 0x00 7. "ERRSOTSYNCHS3,Start of transmission sync error for lane" "ERRSOTSYNCHS3_0,ERRSOTSYNCHS3_1"
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bitfld.long 0x00 6. "ERRSOTSYNCHS2,Start of transmission sync error for lane" "ERRSOTSYNCHS2_0,ERRSOTSYNCHS2_1"
bitfld.long 0x00 5. "ERRSOTSYNCHS1,Start of transmission sync error for lane" "ERRSOTSYNCHS1_0,ERRSOTSYNCHS1_1"
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bitfld.long 0x00 4. "ERRSOTHS5,Start of transmission error for lane" "ERRSOTHS5_0,ERRSOTHS5_1"
bitfld.long 0x00 3. "ERRSOTHS4,Start of transmission error for lane" "ERRSOTHS4_0,ERRSOTHS4_1"
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bitfld.long 0x00 2. "ERRSOTHS3,Start of transmission error for lane" "ERRSOTHS3_0,ERRSOTHS3_1"
bitfld.long 0x00 1. "ERRSOTHS2,Start of transmission error for lane" "ERRSOTHS2_0,ERRSOTHS2_1"
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bitfld.long 0x00 0. "ERRSOTHS1,Start of transmission error for lane" "ERRSOTHS1_0,ERRSOTHS1_1"
group.long 0x40++0x07
line.long 0x00 "CSI2_CTRL,GLOBAL CONTROL REGISTER This register controls the CSI2 RECEIVER module"
bitfld.long 0x00 16. "BURST_SIZE_EXPAND,Sets the DMA burst size on the L3 interconnect" "BURST_SIZE_EXPAND_0,BURST_SIZE_EXPAND_1"
bitfld.long 0x00 15. "VP_CLK_EN,VP clock enable" "VP_CLK_EN_0,VP_CLK_EN_1"
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bitfld.long 0x00 13. "NON_POSTED_WRITE,Not posted writes" "NON_POSTED_WRITE_0,NON_POSTED_WRITE_1"
bitfld.long 0x00 11. "VP_ONLY_EN,VP only enable" "VP_ONLY_EN_0,VP_ONLY_EN_1"
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bitfld.long 0x00 10. "STREAMING_32_BIT,Indicates if 64-bit or 32-bit streaming burst is used" "STREAMING_32_BIT_0,STREAMING_32_BIT_1"
bitfld.long 0x00 8.--9. "VP_OUT_CTRL,VP_PCLK control" "VP_OUT_CTRL_0,VP_OUT_CTRL_1,VP_OUT_CTRL_2,VP_OUT_CTRL_3"
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bitfld.long 0x00 7. "DBG_EN,Enables the debug mode" "DBG_EN_0,DBG_EN_1"
bitfld.long 0x00 5.--6. "BURST_SIZE,Sets the DMA burst size on the L3 interconnect" "BURST_SIZE_0,BURST_SIZE_1,BURST_SIZE_2,BURST_SIZE_3"
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bitfld.long 0x00 4. "ENDIANNESS,Select endianness for YUV4:2:2 8 bit and YUV4:2:0 legacy formats" "ENDIANNESS_0,ENDIANNESS_1"
bitfld.long 0x00 3. "FRAME,Set the modality in which IF_EN works" "FRAME_0,FRAME_1"
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bitfld.long 0x00 2. "ECC_EN,Enables the Error Correction Code check for the received header (short and long packets for all virtual channel ids)" "ECC_EN_0,ECC_EN_1"
bitfld.long 0x00 0. "IF_EN,Enables the physical interface to the module" "IF_EN_0,IF_EN_1"
line.long 0x04 "CSI2_DBG_H,DEBUG REGISTER (Header) This register provides a way to debug the CSI2 RECEIVER module with no image sensor connected to the module"
group.long 0x68++0x03
line.long 0x00 "CSI2_DBG_P,DEBUG REGISTER (Payload) This register provides a way to debug the CSI2 RECEIVER module with no image sensor connected to the module"
group.long 0x1C++0x03
line.long 0x00 "CSI2_IRQENABLE,INTERRUPT ENABLE REGISTER - All contexts This register associates one bit for each context in order to enable/disable each context individually"
bitfld.long 0x00 14. "OCP_ERR_IRQ,OCP Error Interrupt" "OCP_ERR_IRQ_0,OCP_ERR_IRQ_1"
bitfld.long 0x00 13. "SHORT_PACKET_IRQ,Short packet reception (other than synch events: Line Start Line End Frame Start and Frame End: data type between 0x8 and x0F only shall be considered)" "SHORT_PACKET_IRQ_0,SHORT_PACKET_IRQ_1"
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bitfld.long 0x00 12. "ECC_CORRECTION_IRQ,ECC has been used to correct the only 1-bit error (short packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x00 11. "ECC_NO_CORRECTION_IRQ,ECC error (short and long packets)" "ECC_NO_CORRECTION_IRQ_0,ECC_NO_CORRECTION_IRQ_1"
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bitfld.long 0x00 9. "COMPLEXIO_ERR_IRQ,Error signaling from complex I/O: the interrupt is triggered when any error is received from the complex I/O (events are defined inCSI2_COMPLEXIO_IRQSTATUS for the complex I/O)" "COMPLEXIO_ERR_IRQ_0,COMPLEXIO_ERR_IRQ_1"
bitfld.long 0x00 8. "FIFO_OVF_IRQ,FIFO overflow enable" "FIFO_OVF_IRQ_0,FIFO_OVF_IRQ_1"
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bitfld.long 0x00 7. "CONTEXT7,Context" "CONTEXT7_0,CONTEXT7_1"
bitfld.long 0x00 6. "CONTEXT6,Context" "CONTEXT6_0,CONTEXT6_1"
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bitfld.long 0x00 5. "CONTEXT5,Context" "CONTEXT5_0,CONTEXT5_1"
bitfld.long 0x00 4. "CONTEXT4,Context" "CONTEXT4_0,CONTEXT4_1"
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bitfld.long 0x00 3. "CONTEXT3,Context" "CONTEXT3_0,CONTEXT3_1"
bitfld.long 0x00 2. "CONTEXT2,Context" "CONTEXT2_0,CONTEXT2_1"
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bitfld.long 0x00 1. "CONTEXT1,Context" "CONTEXT1_0,CONTEXT1_1"
bitfld.long 0x00 0. "CONTEXT0,Context" "CONTEXT0_0,CONTEXT0_1"
group.long 0x18++0x03
line.long 0x00 "CSI2_IRQSTATUS,INTERRUPT STATUS REGISTER - All contexts This register associates one bit for each context in order to determine which context has generated the interrupt"
bitfld.long 0x00 14. "OCP_ERR_IRQ,OCP Error Interrupt" "OCP_ERR_IRQ_0,OCP_ERR_IRQ_1"
bitfld.long 0x00 13. "SHORT_PACKET_IRQ,Short packet reception status (other than synch events: Line Start Line End Frame Start and Frame End: data type between 0x8 and x0F only shall be considered)" "SHORT_PACKET_IRQ_0,SHORT_PACKET_IRQ_1"
newline
bitfld.long 0x00 12. "ECC_CORRECTION_IRQ,ECC has been used to do the correction of the only 1-bit error status (short packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x00 11. "ECC_NO_CORRECTION_IRQ,ECC error status (short and long packets)" "ECC_NO_CORRECTION_IRQ_0,ECC_NO_CORRECTION_IRQ_1"
newline
rbitfld.long 0x00 9. "COMPLEXIO_ERR_IRQ,Error signaling from complex I/O: status of the PHY errors received from the complex I/O (events are defined inCSI2_COMPLEXIO_IRQSTATUS for the complex I/O)" "COMPLEXIO_ERR_IRQ_0_r,COMPLEXIO_ERR_IRQ_1_r"
bitfld.long 0x00 8. "FIFO_OVF_IRQ,FIFO overflow error status" "FIFO_OVF_IRQ_0,FIFO_OVF_IRQ_1"
newline
rbitfld.long 0x00 7. "CONTEXT7,Context" "CONTEXT7_0_r,CONTEXT7_1_r"
rbitfld.long 0x00 6. "CONTEXT6,Context" "CONTEXT6_0_r,CONTEXT6_1_r"
newline
rbitfld.long 0x00 5. "CONTEXT5,Context" "CONTEXT5_0_r,CONTEXT5_1_r"
rbitfld.long 0x00 4. "CONTEXT4,Context" "CONTEXT4_0_r,CONTEXT4_1_r"
newline
rbitfld.long 0x00 3. "CONTEXT3,Context" "CONTEXT3_0_r,CONTEXT3_1_r"
rbitfld.long 0x00 2. "CONTEXT2,Context" "CONTEXT2_0_r,CONTEXT2_1_r"
newline
rbitfld.long 0x00 1. "CONTEXT1,Context" "CONTEXT1_0_r,CONTEXT1_1_r"
rbitfld.long 0x00 0. "CONTEXT0,Context" "CONTEXT0_0_r,CONTEXT0_1_r"
rgroup.long 0x00++0x03
line.long 0x00 "CSI2_REVISION,IP Revision Identifier (X.Y.R) Used by software to track features. bugs. and compatibility"
rgroup.long 0x5C++0x03
line.long 0x00 "CSI2_SHORT_PACKET,SHORT PACKET INFORMATION - This register sets the 24-bit DATA_ID + Short Packet Data Field when the data type is between 0x8 and x0F"
hexmask.long.tbyte 0x00 0.--23. 1. "SHORT_PACKET,Short Packet information: DATA ID + DATA FIELD"
group.long 0x10++0x07
line.long 0x00 "CSI2_SYSCONFIG,SYSTEM CONFIGURATION REGISTER This register is the OCP-socket system configuration register"
bitfld.long 0x00 12.--13. "MSTANDBY_MODE,Sets the behavior of the master port power management signals" "MSTANDBY_MODE_0,MSTANDBY_MODE_1,MSTANDBY_MODE_2,?"
bitfld.long 0x00 1. "SOFT_RESET,Software reset" "SOFT_RESET_0,SOFT_RESET_1"
newline
bitfld.long 0x00 0. "AUTO_IDLE,Internal OCP gating strategy" "AUTO_IDLE_0,AUTO_IDLE_1"
line.long 0x04 "CSI2_SYSSTATUS,SYSTEM STATUS REGISTER This register provides status information about the module. excluding the interrupt status register"
bitfld.long 0x04 0. "RESET_DONE,Internal reset monitoring" "RESET_DONE_0_r,RESET_DONE_1_r"
group.long 0x6C++0x03
line.long 0x00 "CSI2_TIMING,TIMING REGISTER This register controls the CSI2 RECEIVER module"
bitfld.long 0x00 15. "FORCE_RX_MODE_IO1,Control of ForceRxMode signal" "FORCE_RX_MODE_IO1_0,FORCE_RX_MODE_IO1_1"
bitfld.long 0x00 14. "STOP_STATE_X16_IO1,Multiplication factor for the number of L3 cycles defined in STOP_STATE_COUNTER bit field" "STOP_STATE_X16_IO1_0,STOP_STATE_X16_IO1_1"
newline
bitfld.long 0x00 13. "STOP_STATE_X4_IO1,Multiplication factor for the number of L3 cycles defined in STOP_STATE_COUNTER bit field" "STOP_STATE_X4_IO1_0,STOP_STATE_X4_IO1_1"
hexmask.long.word 0x00 0.--12. 1. "STOP_STATE_COUNTER_IO1,Stop State counter for monitoring"
tree "CTX_Line_0"
group.long 0x70++0x07
line.long 0x00 "CSI2_CTX_CTRL1_i_0,CONTROL REGISTER - Context This register controls the Context"
bitfld.long 0x00 31. "BYTESWAP,Allows swapping bytes two by two in the payload data" "BYTESWAP_0,BYTESWAP_1"
bitfld.long 0x00 30. "GENERIC,Enables the generic mode" "GENERIC_0,GENERIC_1"
newline
bitfld.long 0x00 28. "HSCALE,Enable horizontal downscaling by a factor of two" "Disable,Enable"
bitfld.long 0x00 24.--27. "TRANSCODE,Enables image transcoding" "TRANSCODE_0,TRANSCODE_1,TRANSCODE_2,TRANSCODE_3,TRANSCODE_4,TRANSCODE_5,TRANSCODE_6,TRANSCODE_7,TRANSCODE_8,TRANSCODE_9,?,?,?,?,?,?"
newline
hexmask.long.byte 0x00 16.--23. 1. "FEC_NUMBER,Number of FEC to receive between using swap of CSI2_CTX_DAT_PING_ADDR and CSI2_CTX_DAT_PONG_ADDR for the calculation of the address in memory (must be used only in interlace mode otherwise set to 1)"
abitfld.long 0x00 8.--15. "COUNT,Sets the number of frame to acquire" "0x00=Infinite number of frames (no count),0x01=1 frame to acquire,0xFF=255 frames to acquire"
newline
bitfld.long 0x00 7. "EOF_EN,Indicates if the end of frame signal shall be asserted at the end of the line" "EOF_EN_0_r,EOF_EN_1_r"
bitfld.long 0x00 6. "EOL_EN,Indicates if the end of line signal shall be asserted at the end of the line" "EOL_EN_0_r,EOL_EN_1_r"
newline
bitfld.long 0x00 5. "CS_EN,Enables the checksum check for the received payload (long packet only)" "CS_EN_0,CS_EN_1"
bitfld.long 0x00 4. "COUNT_UNLOCK,Unlock writes to the COUNT bit field" "COUNT_UNLOCK_0_w,COUNT_UNLOCK_1_w"
newline
rbitfld.long 0x00 3. "PING_PONG,Indicates whether the PING or PONG destination address (CSI2_CTX_DAT_PING_ADDR or CSI2_CTX_DAT_PONG_ADDR) was used to write the last frame" "PING_PONG_0_r,PING_PONG_1_r"
bitfld.long 0x00 2. "VP_FORCE,Forces sending of the data to both VPORT and OCP" "VP_FORCE_0,VP_FORCE_1"
newline
bitfld.long 0x00 1. "LINE_MODULO,Line modulo configuration" "LINE_MODULO_0,LINE_MODULO_1"
bitfld.long 0x00 0. "CTX_EN,Enables the context" "CTX_EN_0,CTX_EN_1"
line.long 0x04 "CSI2_CTX_CTRL2_i_0,CONTROL REGISTER - Context This register controls the Context"
hexmask.long.word 0x04 16.--31. 1. "FRAME,Frame number received"
bitfld.long 0x04 13.--14. "USER_DEF_MAPPING,Selects the pixel format of USER_DEFINED in FORMAT" "USER_DEF_MAPPING_0,USER_DEF_MAPPING_1,USER_DEF_MAPPING_2,?"
newline
bitfld.long 0x04 11.--12. "VIRTUAL_ID,Virtual channel ID" "VIRTUAL_ID_0,VIRTUAL_ID_1,VIRTUAL_ID_2,VIRTUAL_ID_3"
bitfld.long 0x04 10. "DPCM_PRED,Selects the DPCM predictor" "DPCM_PRED_0,DPCM_PRED_1"
newline
hexmask.long.word 0x04 0.--9. 1. "FORMAT,Data format selection"
group.long 0x8C++0x03
line.long 0x00 "CSI2_CTX_CTRL3_i_0,CONTROL REGISTER - Context This register controls the Context"
hexmask.long.word 0x00 16.--29. 1. "ALPHA,Alpha value for RGB888 RGB666 and RBG444"
hexmask.long.word 0x00 0.--15. 1. "LINE_NUMBER,Line number for the interrupt generation"
group.long 0x78++0x13
line.long 0x00 "CSI2_CTX_DAT_OFST_i_0,DATA MEM ADDRESS OFFSET REGISTER - Context This register sets the offset. which is applied on the destination address after each line is written to memory"
hexmask.long.word 0x00 5.--16. 1. "OFST,Line offset programmed in bytes (signed value 2s complement)"
line.long 0x04 "CSI2_CTX_DAT_PING_ADDR_i_0,DATA MEM PING ADDRESS REGISTER - Context This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x04 5.--31. 1. "ADDR,27 most-significant bits of the 32-bit address"
line.long 0x08 "CSI2_CTX_DAT_PONG_ADDR_i_0,DATA MEM PONG ADDRESS REGISTER - Context This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x08 5.--31. 1. "ADDR,27 most-significant bits of the 32-bit address"
line.long 0x0C "CSI2_CTX_IRQENABLE_i_0,INTERRUPT ENABLE REGISTER - Context This register regroups all the events related to context"
bitfld.long 0x0C 8. "ECC_CORRECTION_IRQ,Context - ECC has been used to correct the only 1-bit error (long packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x0C 7. "LINE_NUMBER_IRQ,Context - Line number is reached" "LINE_NUMBER_IRQ_0,LINE_NUMBER_IRQ_1"
newline
bitfld.long 0x0C 6. "FRAME_NUMBER_IRQ,Context - Frame counter reached" "FRAME_NUMBER_IRQ_0,FRAME_NUMBER_IRQ_1"
bitfld.long 0x0C 5. "CS_IRQ,Context - Check-Sum of the payload mismatch detection" "CS_IRQ_0,CS_IRQ_1"
newline
bitfld.long 0x0C 3. "LE_IRQ,Context - Line end sync code detection" "LE_IRQ_0,LE_IRQ_1"
bitfld.long 0x0C 2. "LS_IRQ,Context - Line start sync code detection" "LS_IRQ_0,LS_IRQ_1"
newline
bitfld.long 0x0C 1. "FE_IRQ,Context - Frame end sync code detection" "FE_IRQ_0,FE_IRQ_1"
bitfld.long 0x0C 0. "FS_IRQ,Context - Frame start sync code detection" "FS_IRQ_0,FS_IRQ_1"
line.long 0x10 "CSI2_CTX_IRQSTATUS_i_0,INTERRUPT STATUS REGISTER - Context This register regroups all the events related to Context"
bitfld.long 0x10 8. "ECC_CORRECTION_IRQ,Context - ECC has been used to do the correction of the only 1-bit error status (long packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x10 7. "LINE_NUMBER_IRQ,Context - Line number reached status" "LINE_NUMBER_IRQ_0,LINE_NUMBER_IRQ_1"
newline
bitfld.long 0x10 6. "FRAME_NUMBER_IRQ,Context - Frame counter reached status" "FRAME_NUMBER_IRQ_0,FRAME_NUMBER_IRQ_1"
bitfld.long 0x10 5. "CS_IRQ,Context - Check-Sum mismatch status" "CS_IRQ_0,CS_IRQ_1"
newline
bitfld.long 0x10 3. "LE_IRQ,Context - Line end sync code detection status" "LE_IRQ_0,LE_IRQ_1"
bitfld.long 0x10 2. "LS_IRQ,Context - Line start sync code detection status" "LS_IRQ_0,LS_IRQ_1"
newline
bitfld.long 0x10 1. "FE_IRQ,Context - Frame end sync code detection status" "FE_IRQ_0,FE_IRQ_1"
bitfld.long 0x10 0. "FS_IRQ,Context - Frame start sync code detection status" "FS_IRQ_0,FS_IRQ_1"
tree.end
tree "CTX_Line_1"
group.long 0x90++0x07
line.long 0x00 "CSI2_CTX_CTRL1_i_1,CONTROL REGISTER - Context This register controls the Context"
bitfld.long 0x00 31. "BYTESWAP,Allows swapping bytes two by two in the payload data" "BYTESWAP_0,BYTESWAP_1"
bitfld.long 0x00 30. "GENERIC,Enables the generic mode" "GENERIC_0,GENERIC_1"
newline
bitfld.long 0x00 28. "HSCALE,Enable horizontal downscaling by a factor of two" "Disable,Enable"
bitfld.long 0x00 24.--27. "TRANSCODE,Enables image transcoding" "TRANSCODE_0,TRANSCODE_1,TRANSCODE_2,TRANSCODE_3,TRANSCODE_4,TRANSCODE_5,TRANSCODE_6,TRANSCODE_7,TRANSCODE_8,TRANSCODE_9,?,?,?,?,?,?"
newline
hexmask.long.byte 0x00 16.--23. 1. "FEC_NUMBER,Number of FEC to receive between using swap of CSI2_CTX_DAT_PING_ADDR and CSI2_CTX_DAT_PONG_ADDR for the calculation of the address in memory (must be used only in interlace mode otherwise set to 1)"
abitfld.long 0x00 8.--15. "COUNT,Sets the number of frame to acquire" "0x00=Infinite number of frames (no count),0x01=1 frame to acquire,0xFF=255 frames to acquire"
newline
bitfld.long 0x00 7. "EOF_EN,Indicates if the end of frame signal shall be asserted at the end of the line" "EOF_EN_0_r,EOF_EN_1_r"
bitfld.long 0x00 6. "EOL_EN,Indicates if the end of line signal shall be asserted at the end of the line" "EOL_EN_0_r,EOL_EN_1_r"
newline
bitfld.long 0x00 5. "CS_EN,Enables the checksum check for the received payload (long packet only)" "CS_EN_0,CS_EN_1"
bitfld.long 0x00 4. "COUNT_UNLOCK,Unlock writes to the COUNT bit field" "COUNT_UNLOCK_0_w,COUNT_UNLOCK_1_w"
newline
rbitfld.long 0x00 3. "PING_PONG,Indicates whether the PING or PONG destination address (CSI2_CTX_DAT_PING_ADDR or CSI2_CTX_DAT_PONG_ADDR) was used to write the last frame" "PING_PONG_0_r,PING_PONG_1_r"
bitfld.long 0x00 2. "VP_FORCE,Forces sending of the data to both VPORT and OCP" "VP_FORCE_0,VP_FORCE_1"
newline
bitfld.long 0x00 1. "LINE_MODULO,Line modulo configuration" "LINE_MODULO_0,LINE_MODULO_1"
bitfld.long 0x00 0. "CTX_EN,Enables the context" "CTX_EN_0,CTX_EN_1"
line.long 0x04 "CSI2_CTX_CTRL2_i_1,CONTROL REGISTER - Context This register controls the Context"
hexmask.long.word 0x04 16.--31. 1. "FRAME,Frame number received"
bitfld.long 0x04 13.--14. "USER_DEF_MAPPING,Selects the pixel format of USER_DEFINED in FORMAT" "USER_DEF_MAPPING_0,USER_DEF_MAPPING_1,USER_DEF_MAPPING_2,?"
newline
bitfld.long 0x04 11.--12. "VIRTUAL_ID,Virtual channel ID" "VIRTUAL_ID_0,VIRTUAL_ID_1,VIRTUAL_ID_2,VIRTUAL_ID_3"
bitfld.long 0x04 10. "DPCM_PRED,Selects the DPCM predictor" "DPCM_PRED_0,DPCM_PRED_1"
newline
hexmask.long.word 0x04 0.--9. 1. "FORMAT,Data format selection"
group.long 0xAC++0x03
line.long 0x00 "CSI2_CTX_CTRL3_i_1,CONTROL REGISTER - Context This register controls the Context"
hexmask.long.word 0x00 16.--29. 1. "ALPHA,Alpha value for RGB888 RGB666 and RBG444"
hexmask.long.word 0x00 0.--15. 1. "LINE_NUMBER,Line number for the interrupt generation"
group.long 0x98++0x13
line.long 0x00 "CSI2_CTX_DAT_OFST_i_1,DATA MEM ADDRESS OFFSET REGISTER - Context This register sets the offset. which is applied on the destination address after each line is written to memory"
hexmask.long.word 0x00 5.--16. 1. "OFST,Line offset programmed in bytes (signed value 2s complement)"
line.long 0x04 "CSI2_CTX_DAT_PING_ADDR_i_1,DATA MEM PING ADDRESS REGISTER - Context This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x04 5.--31. 1. "ADDR,27 most-significant bits of the 32-bit address"
line.long 0x08 "CSI2_CTX_DAT_PONG_ADDR_i_1,DATA MEM PONG ADDRESS REGISTER - Context This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x08 5.--31. 1. "ADDR,27 most-significant bits of the 32-bit address"
line.long 0x0C "CSI2_CTX_IRQENABLE_i_1,INTERRUPT ENABLE REGISTER - Context This register regroups all the events related to context"
bitfld.long 0x0C 8. "ECC_CORRECTION_IRQ,Context - ECC has been used to correct the only 1-bit error (long packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x0C 7. "LINE_NUMBER_IRQ,Context - Line number is reached" "LINE_NUMBER_IRQ_0,LINE_NUMBER_IRQ_1"
newline
bitfld.long 0x0C 6. "FRAME_NUMBER_IRQ,Context - Frame counter reached" "FRAME_NUMBER_IRQ_0,FRAME_NUMBER_IRQ_1"
bitfld.long 0x0C 5. "CS_IRQ,Context - Check-Sum of the payload mismatch detection" "CS_IRQ_0,CS_IRQ_1"
newline
bitfld.long 0x0C 3. "LE_IRQ,Context - Line end sync code detection" "LE_IRQ_0,LE_IRQ_1"
bitfld.long 0x0C 2. "LS_IRQ,Context - Line start sync code detection" "LS_IRQ_0,LS_IRQ_1"
newline
bitfld.long 0x0C 1. "FE_IRQ,Context - Frame end sync code detection" "FE_IRQ_0,FE_IRQ_1"
bitfld.long 0x0C 0. "FS_IRQ,Context - Frame start sync code detection" "FS_IRQ_0,FS_IRQ_1"
line.long 0x10 "CSI2_CTX_IRQSTATUS_i_1,INTERRUPT STATUS REGISTER - Context This register regroups all the events related to Context"
bitfld.long 0x10 8. "ECC_CORRECTION_IRQ,Context - ECC has been used to do the correction of the only 1-bit error status (long packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x10 7. "LINE_NUMBER_IRQ,Context - Line number reached status" "LINE_NUMBER_IRQ_0,LINE_NUMBER_IRQ_1"
newline
bitfld.long 0x10 6. "FRAME_NUMBER_IRQ,Context - Frame counter reached status" "FRAME_NUMBER_IRQ_0,FRAME_NUMBER_IRQ_1"
bitfld.long 0x10 5. "CS_IRQ,Context - Check-Sum mismatch status" "CS_IRQ_0,CS_IRQ_1"
newline
bitfld.long 0x10 3. "LE_IRQ,Context - Line end sync code detection status" "LE_IRQ_0,LE_IRQ_1"
bitfld.long 0x10 2. "LS_IRQ,Context - Line start sync code detection status" "LS_IRQ_0,LS_IRQ_1"
newline
bitfld.long 0x10 1. "FE_IRQ,Context - Frame end sync code detection status" "FE_IRQ_0,FE_IRQ_1"
bitfld.long 0x10 0. "FS_IRQ,Context - Frame start sync code detection status" "FS_IRQ_0,FS_IRQ_1"
tree.end
tree "CTX_Line_2"
group.long 0xB0++0x07
line.long 0x00 "CSI2_CTX_CTRL1_i_2,CONTROL REGISTER - Context This register controls the Context"
bitfld.long 0x00 31. "BYTESWAP,Allows swapping bytes two by two in the payload data" "BYTESWAP_0,BYTESWAP_1"
bitfld.long 0x00 30. "GENERIC,Enables the generic mode" "GENERIC_0,GENERIC_1"
newline
bitfld.long 0x00 28. "HSCALE,Enable horizontal downscaling by a factor of two" "Disable,Enable"
bitfld.long 0x00 24.--27. "TRANSCODE,Enables image transcoding" "TRANSCODE_0,TRANSCODE_1,TRANSCODE_2,TRANSCODE_3,TRANSCODE_4,TRANSCODE_5,TRANSCODE_6,TRANSCODE_7,TRANSCODE_8,TRANSCODE_9,?,?,?,?,?,?"
newline
hexmask.long.byte 0x00 16.--23. 1. "FEC_NUMBER,Number of FEC to receive between using swap of CSI2_CTX_DAT_PING_ADDR and CSI2_CTX_DAT_PONG_ADDR for the calculation of the address in memory (must be used only in interlace mode otherwise set to 1)"
abitfld.long 0x00 8.--15. "COUNT,Sets the number of frame to acquire" "0x00=Infinite number of frames (no count),0x01=1 frame to acquire,0xFF=255 frames to acquire"
newline
bitfld.long 0x00 7. "EOF_EN,Indicates if the end of frame signal shall be asserted at the end of the line" "EOF_EN_0_r,EOF_EN_1_r"
bitfld.long 0x00 6. "EOL_EN,Indicates if the end of line signal shall be asserted at the end of the line" "EOL_EN_0_r,EOL_EN_1_r"
newline
bitfld.long 0x00 5. "CS_EN,Enables the checksum check for the received payload (long packet only)" "CS_EN_0,CS_EN_1"
bitfld.long 0x00 4. "COUNT_UNLOCK,Unlock writes to the COUNT bit field" "COUNT_UNLOCK_0_w,COUNT_UNLOCK_1_w"
newline
rbitfld.long 0x00 3. "PING_PONG,Indicates whether the PING or PONG destination address (CSI2_CTX_DAT_PING_ADDR or CSI2_CTX_DAT_PONG_ADDR) was used to write the last frame" "PING_PONG_0_r,PING_PONG_1_r"
bitfld.long 0x00 2. "VP_FORCE,Forces sending of the data to both VPORT and OCP" "VP_FORCE_0,VP_FORCE_1"
newline
bitfld.long 0x00 1. "LINE_MODULO,Line modulo configuration" "LINE_MODULO_0,LINE_MODULO_1"
bitfld.long 0x00 0. "CTX_EN,Enables the context" "CTX_EN_0,CTX_EN_1"
line.long 0x04 "CSI2_CTX_CTRL2_i_2,CONTROL REGISTER - Context This register controls the Context"
hexmask.long.word 0x04 16.--31. 1. "FRAME,Frame number received"
bitfld.long 0x04 13.--14. "USER_DEF_MAPPING,Selects the pixel format of USER_DEFINED in FORMAT" "USER_DEF_MAPPING_0,USER_DEF_MAPPING_1,USER_DEF_MAPPING_2,?"
newline
bitfld.long 0x04 11.--12. "VIRTUAL_ID,Virtual channel ID" "VIRTUAL_ID_0,VIRTUAL_ID_1,VIRTUAL_ID_2,VIRTUAL_ID_3"
bitfld.long 0x04 10. "DPCM_PRED,Selects the DPCM predictor" "DPCM_PRED_0,DPCM_PRED_1"
newline
hexmask.long.word 0x04 0.--9. 1. "FORMAT,Data format selection"
group.long 0xCC++0x03
line.long 0x00 "CSI2_CTX_CTRL3_i_2,CONTROL REGISTER - Context This register controls the Context"
hexmask.long.word 0x00 16.--29. 1. "ALPHA,Alpha value for RGB888 RGB666 and RBG444"
hexmask.long.word 0x00 0.--15. 1. "LINE_NUMBER,Line number for the interrupt generation"
group.long 0xB8++0x13
line.long 0x00 "CSI2_CTX_DAT_OFST_i_2,DATA MEM ADDRESS OFFSET REGISTER - Context This register sets the offset. which is applied on the destination address after each line is written to memory"
hexmask.long.word 0x00 5.--16. 1. "OFST,Line offset programmed in bytes (signed value 2s complement)"
line.long 0x04 "CSI2_CTX_DAT_PING_ADDR_i_2,DATA MEM PING ADDRESS REGISTER - Context This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x04 5.--31. 1. "ADDR,27 most-significant bits of the 32-bit address"
line.long 0x08 "CSI2_CTX_DAT_PONG_ADDR_i_2,DATA MEM PONG ADDRESS REGISTER - Context This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x08 5.--31. 1. "ADDR,27 most-significant bits of the 32-bit address"
line.long 0x0C "CSI2_CTX_IRQENABLE_i_2,INTERRUPT ENABLE REGISTER - Context This register regroups all the events related to context"
bitfld.long 0x0C 8. "ECC_CORRECTION_IRQ,Context - ECC has been used to correct the only 1-bit error (long packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x0C 7. "LINE_NUMBER_IRQ,Context - Line number is reached" "LINE_NUMBER_IRQ_0,LINE_NUMBER_IRQ_1"
newline
bitfld.long 0x0C 6. "FRAME_NUMBER_IRQ,Context - Frame counter reached" "FRAME_NUMBER_IRQ_0,FRAME_NUMBER_IRQ_1"
bitfld.long 0x0C 5. "CS_IRQ,Context - Check-Sum of the payload mismatch detection" "CS_IRQ_0,CS_IRQ_1"
newline
bitfld.long 0x0C 3. "LE_IRQ,Context - Line end sync code detection" "LE_IRQ_0,LE_IRQ_1"
bitfld.long 0x0C 2. "LS_IRQ,Context - Line start sync code detection" "LS_IRQ_0,LS_IRQ_1"
newline
bitfld.long 0x0C 1. "FE_IRQ,Context - Frame end sync code detection" "FE_IRQ_0,FE_IRQ_1"
bitfld.long 0x0C 0. "FS_IRQ,Context - Frame start sync code detection" "FS_IRQ_0,FS_IRQ_1"
line.long 0x10 "CSI2_CTX_IRQSTATUS_i_2,INTERRUPT STATUS REGISTER - Context This register regroups all the events related to Context"
bitfld.long 0x10 8. "ECC_CORRECTION_IRQ,Context - ECC has been used to do the correction of the only 1-bit error status (long packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x10 7. "LINE_NUMBER_IRQ,Context - Line number reached status" "LINE_NUMBER_IRQ_0,LINE_NUMBER_IRQ_1"
newline
bitfld.long 0x10 6. "FRAME_NUMBER_IRQ,Context - Frame counter reached status" "FRAME_NUMBER_IRQ_0,FRAME_NUMBER_IRQ_1"
bitfld.long 0x10 5. "CS_IRQ,Context - Check-Sum mismatch status" "CS_IRQ_0,CS_IRQ_1"
newline
bitfld.long 0x10 3. "LE_IRQ,Context - Line end sync code detection status" "LE_IRQ_0,LE_IRQ_1"
bitfld.long 0x10 2. "LS_IRQ,Context - Line start sync code detection status" "LS_IRQ_0,LS_IRQ_1"
newline
bitfld.long 0x10 1. "FE_IRQ,Context - Frame end sync code detection status" "FE_IRQ_0,FE_IRQ_1"
bitfld.long 0x10 0. "FS_IRQ,Context - Frame start sync code detection status" "FS_IRQ_0,FS_IRQ_1"
tree.end
tree "CTX_Line_3"
group.long 0xD0++0x07
line.long 0x00 "CSI2_CTX_CTRL1_i_3,CONTROL REGISTER - Context This register controls the Context"
bitfld.long 0x00 31. "BYTESWAP,Allows swapping bytes two by two in the payload data" "BYTESWAP_0,BYTESWAP_1"
bitfld.long 0x00 30. "GENERIC,Enables the generic mode" "GENERIC_0,GENERIC_1"
newline
bitfld.long 0x00 28. "HSCALE,Enable horizontal downscaling by a factor of two" "Disable,Enable"
bitfld.long 0x00 24.--27. "TRANSCODE,Enables image transcoding" "TRANSCODE_0,TRANSCODE_1,TRANSCODE_2,TRANSCODE_3,TRANSCODE_4,TRANSCODE_5,TRANSCODE_6,TRANSCODE_7,TRANSCODE_8,TRANSCODE_9,?,?,?,?,?,?"
newline
hexmask.long.byte 0x00 16.--23. 1. "FEC_NUMBER,Number of FEC to receive between using swap of CSI2_CTX_DAT_PING_ADDR and CSI2_CTX_DAT_PONG_ADDR for the calculation of the address in memory (must be used only in interlace mode otherwise set to 1)"
abitfld.long 0x00 8.--15. "COUNT,Sets the number of frame to acquire" "0x00=Infinite number of frames (no count),0x01=1 frame to acquire,0xFF=255 frames to acquire"
newline
bitfld.long 0x00 7. "EOF_EN,Indicates if the end of frame signal shall be asserted at the end of the line" "EOF_EN_0_r,EOF_EN_1_r"
bitfld.long 0x00 6. "EOL_EN,Indicates if the end of line signal shall be asserted at the end of the line" "EOL_EN_0_r,EOL_EN_1_r"
newline
bitfld.long 0x00 5. "CS_EN,Enables the checksum check for the received payload (long packet only)" "CS_EN_0,CS_EN_1"
bitfld.long 0x00 4. "COUNT_UNLOCK,Unlock writes to the COUNT bit field" "COUNT_UNLOCK_0_w,COUNT_UNLOCK_1_w"
newline
rbitfld.long 0x00 3. "PING_PONG,Indicates whether the PING or PONG destination address (CSI2_CTX_DAT_PING_ADDR or CSI2_CTX_DAT_PONG_ADDR) was used to write the last frame" "PING_PONG_0_r,PING_PONG_1_r"
bitfld.long 0x00 2. "VP_FORCE,Forces sending of the data to both VPORT and OCP" "VP_FORCE_0,VP_FORCE_1"
newline
bitfld.long 0x00 1. "LINE_MODULO,Line modulo configuration" "LINE_MODULO_0,LINE_MODULO_1"
bitfld.long 0x00 0. "CTX_EN,Enables the context" "CTX_EN_0,CTX_EN_1"
line.long 0x04 "CSI2_CTX_CTRL2_i_3,CONTROL REGISTER - Context This register controls the Context"
hexmask.long.word 0x04 16.--31. 1. "FRAME,Frame number received"
bitfld.long 0x04 13.--14. "USER_DEF_MAPPING,Selects the pixel format of USER_DEFINED in FORMAT" "USER_DEF_MAPPING_0,USER_DEF_MAPPING_1,USER_DEF_MAPPING_2,?"
newline
bitfld.long 0x04 11.--12. "VIRTUAL_ID,Virtual channel ID" "VIRTUAL_ID_0,VIRTUAL_ID_1,VIRTUAL_ID_2,VIRTUAL_ID_3"
bitfld.long 0x04 10. "DPCM_PRED,Selects the DPCM predictor" "DPCM_PRED_0,DPCM_PRED_1"
newline
hexmask.long.word 0x04 0.--9. 1. "FORMAT,Data format selection"
group.long 0xEC++0x03
line.long 0x00 "CSI2_CTX_CTRL3_i_3,CONTROL REGISTER - Context This register controls the Context"
hexmask.long.word 0x00 16.--29. 1. "ALPHA,Alpha value for RGB888 RGB666 and RBG444"
hexmask.long.word 0x00 0.--15. 1. "LINE_NUMBER,Line number for the interrupt generation"
group.long 0xD8++0x13
line.long 0x00 "CSI2_CTX_DAT_OFST_i_3,DATA MEM ADDRESS OFFSET REGISTER - Context This register sets the offset. which is applied on the destination address after each line is written to memory"
hexmask.long.word 0x00 5.--16. 1. "OFST,Line offset programmed in bytes (signed value 2s complement)"
line.long 0x04 "CSI2_CTX_DAT_PING_ADDR_i_3,DATA MEM PING ADDRESS REGISTER - Context This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x04 5.--31. 1. "ADDR,27 most-significant bits of the 32-bit address"
line.long 0x08 "CSI2_CTX_DAT_PONG_ADDR_i_3,DATA MEM PONG ADDRESS REGISTER - Context This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x08 5.--31. 1. "ADDR,27 most-significant bits of the 32-bit address"
line.long 0x0C "CSI2_CTX_IRQENABLE_i_3,INTERRUPT ENABLE REGISTER - Context This register regroups all the events related to context"
bitfld.long 0x0C 8. "ECC_CORRECTION_IRQ,Context - ECC has been used to correct the only 1-bit error (long packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x0C 7. "LINE_NUMBER_IRQ,Context - Line number is reached" "LINE_NUMBER_IRQ_0,LINE_NUMBER_IRQ_1"
newline
bitfld.long 0x0C 6. "FRAME_NUMBER_IRQ,Context - Frame counter reached" "FRAME_NUMBER_IRQ_0,FRAME_NUMBER_IRQ_1"
bitfld.long 0x0C 5. "CS_IRQ,Context - Check-Sum of the payload mismatch detection" "CS_IRQ_0,CS_IRQ_1"
newline
bitfld.long 0x0C 3. "LE_IRQ,Context - Line end sync code detection" "LE_IRQ_0,LE_IRQ_1"
bitfld.long 0x0C 2. "LS_IRQ,Context - Line start sync code detection" "LS_IRQ_0,LS_IRQ_1"
newline
bitfld.long 0x0C 1. "FE_IRQ,Context - Frame end sync code detection" "FE_IRQ_0,FE_IRQ_1"
bitfld.long 0x0C 0. "FS_IRQ,Context - Frame start sync code detection" "FS_IRQ_0,FS_IRQ_1"
line.long 0x10 "CSI2_CTX_IRQSTATUS_i_3,INTERRUPT STATUS REGISTER - Context This register regroups all the events related to Context"
bitfld.long 0x10 8. "ECC_CORRECTION_IRQ,Context - ECC has been used to do the correction of the only 1-bit error status (long packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x10 7. "LINE_NUMBER_IRQ,Context - Line number reached status" "LINE_NUMBER_IRQ_0,LINE_NUMBER_IRQ_1"
newline
bitfld.long 0x10 6. "FRAME_NUMBER_IRQ,Context - Frame counter reached status" "FRAME_NUMBER_IRQ_0,FRAME_NUMBER_IRQ_1"
bitfld.long 0x10 5. "CS_IRQ,Context - Check-Sum mismatch status" "CS_IRQ_0,CS_IRQ_1"
newline
bitfld.long 0x10 3. "LE_IRQ,Context - Line end sync code detection status" "LE_IRQ_0,LE_IRQ_1"
bitfld.long 0x10 2. "LS_IRQ,Context - Line start sync code detection status" "LS_IRQ_0,LS_IRQ_1"
newline
bitfld.long 0x10 1. "FE_IRQ,Context - Frame end sync code detection status" "FE_IRQ_0,FE_IRQ_1"
bitfld.long 0x10 0. "FS_IRQ,Context - Frame start sync code detection status" "FS_IRQ_0,FS_IRQ_1"
tree.end
tree "CTX_Line_4"
group.long 0xF0++0x07
line.long 0x00 "CSI2_CTX_CTRL1_i_4,CONTROL REGISTER - Context This register controls the Context"
bitfld.long 0x00 31. "BYTESWAP,Allows swapping bytes two by two in the payload data" "BYTESWAP_0,BYTESWAP_1"
bitfld.long 0x00 30. "GENERIC,Enables the generic mode" "GENERIC_0,GENERIC_1"
newline
bitfld.long 0x00 28. "HSCALE,Enable horizontal downscaling by a factor of two" "Disable,Enable"
bitfld.long 0x00 24.--27. "TRANSCODE,Enables image transcoding" "TRANSCODE_0,TRANSCODE_1,TRANSCODE_2,TRANSCODE_3,TRANSCODE_4,TRANSCODE_5,TRANSCODE_6,TRANSCODE_7,TRANSCODE_8,TRANSCODE_9,?,?,?,?,?,?"
newline
hexmask.long.byte 0x00 16.--23. 1. "FEC_NUMBER,Number of FEC to receive between using swap of CSI2_CTX_DAT_PING_ADDR and CSI2_CTX_DAT_PONG_ADDR for the calculation of the address in memory (must be used only in interlace mode otherwise set to 1)"
abitfld.long 0x00 8.--15. "COUNT,Sets the number of frame to acquire" "0x00=Infinite number of frames (no count),0x01=1 frame to acquire,0xFF=255 frames to acquire"
newline
bitfld.long 0x00 7. "EOF_EN,Indicates if the end of frame signal shall be asserted at the end of the line" "EOF_EN_0_r,EOF_EN_1_r"
bitfld.long 0x00 6. "EOL_EN,Indicates if the end of line signal shall be asserted at the end of the line" "EOL_EN_0_r,EOL_EN_1_r"
newline
bitfld.long 0x00 5. "CS_EN,Enables the checksum check for the received payload (long packet only)" "CS_EN_0,CS_EN_1"
bitfld.long 0x00 4. "COUNT_UNLOCK,Unlock writes to the COUNT bit field" "COUNT_UNLOCK_0_w,COUNT_UNLOCK_1_w"
newline
rbitfld.long 0x00 3. "PING_PONG,Indicates whether the PING or PONG destination address (CSI2_CTX_DAT_PING_ADDR or CSI2_CTX_DAT_PONG_ADDR) was used to write the last frame" "PING_PONG_0_r,PING_PONG_1_r"
bitfld.long 0x00 2. "VP_FORCE,Forces sending of the data to both VPORT and OCP" "VP_FORCE_0,VP_FORCE_1"
newline
bitfld.long 0x00 1. "LINE_MODULO,Line modulo configuration" "LINE_MODULO_0,LINE_MODULO_1"
bitfld.long 0x00 0. "CTX_EN,Enables the context" "CTX_EN_0,CTX_EN_1"
line.long 0x04 "CSI2_CTX_CTRL2_i_4,CONTROL REGISTER - Context This register controls the Context"
hexmask.long.word 0x04 16.--31. 1. "FRAME,Frame number received"
bitfld.long 0x04 13.--14. "USER_DEF_MAPPING,Selects the pixel format of USER_DEFINED in FORMAT" "USER_DEF_MAPPING_0,USER_DEF_MAPPING_1,USER_DEF_MAPPING_2,?"
newline
bitfld.long 0x04 11.--12. "VIRTUAL_ID,Virtual channel ID" "VIRTUAL_ID_0,VIRTUAL_ID_1,VIRTUAL_ID_2,VIRTUAL_ID_3"
bitfld.long 0x04 10. "DPCM_PRED,Selects the DPCM predictor" "DPCM_PRED_0,DPCM_PRED_1"
newline
hexmask.long.word 0x04 0.--9. 1. "FORMAT,Data format selection"
group.long 0x10C++0x03
line.long 0x00 "CSI2_CTX_CTRL3_i_4,CONTROL REGISTER - Context This register controls the Context"
hexmask.long.word 0x00 16.--29. 1. "ALPHA,Alpha value for RGB888 RGB666 and RBG444"
hexmask.long.word 0x00 0.--15. 1. "LINE_NUMBER,Line number for the interrupt generation"
group.long 0xF8++0x13
line.long 0x00 "CSI2_CTX_DAT_OFST_i_4,DATA MEM ADDRESS OFFSET REGISTER - Context This register sets the offset. which is applied on the destination address after each line is written to memory"
hexmask.long.word 0x00 5.--16. 1. "OFST,Line offset programmed in bytes (signed value 2s complement)"
line.long 0x04 "CSI2_CTX_DAT_PING_ADDR_i_4,DATA MEM PING ADDRESS REGISTER - Context This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x04 5.--31. 1. "ADDR,27 most-significant bits of the 32-bit address"
line.long 0x08 "CSI2_CTX_DAT_PONG_ADDR_i_4,DATA MEM PONG ADDRESS REGISTER - Context This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x08 5.--31. 1. "ADDR,27 most-significant bits of the 32-bit address"
line.long 0x0C "CSI2_CTX_IRQENABLE_i_4,INTERRUPT ENABLE REGISTER - Context This register regroups all the events related to context"
bitfld.long 0x0C 8. "ECC_CORRECTION_IRQ,Context - ECC has been used to correct the only 1-bit error (long packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x0C 7. "LINE_NUMBER_IRQ,Context - Line number is reached" "LINE_NUMBER_IRQ_0,LINE_NUMBER_IRQ_1"
newline
bitfld.long 0x0C 6. "FRAME_NUMBER_IRQ,Context - Frame counter reached" "FRAME_NUMBER_IRQ_0,FRAME_NUMBER_IRQ_1"
bitfld.long 0x0C 5. "CS_IRQ,Context - Check-Sum of the payload mismatch detection" "CS_IRQ_0,CS_IRQ_1"
newline
bitfld.long 0x0C 3. "LE_IRQ,Context - Line end sync code detection" "LE_IRQ_0,LE_IRQ_1"
bitfld.long 0x0C 2. "LS_IRQ,Context - Line start sync code detection" "LS_IRQ_0,LS_IRQ_1"
newline
bitfld.long 0x0C 1. "FE_IRQ,Context - Frame end sync code detection" "FE_IRQ_0,FE_IRQ_1"
bitfld.long 0x0C 0. "FS_IRQ,Context - Frame start sync code detection" "FS_IRQ_0,FS_IRQ_1"
line.long 0x10 "CSI2_CTX_IRQSTATUS_i_4,INTERRUPT STATUS REGISTER - Context This register regroups all the events related to Context"
bitfld.long 0x10 8. "ECC_CORRECTION_IRQ,Context - ECC has been used to do the correction of the only 1-bit error status (long packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x10 7. "LINE_NUMBER_IRQ,Context - Line number reached status" "LINE_NUMBER_IRQ_0,LINE_NUMBER_IRQ_1"
newline
bitfld.long 0x10 6. "FRAME_NUMBER_IRQ,Context - Frame counter reached status" "FRAME_NUMBER_IRQ_0,FRAME_NUMBER_IRQ_1"
bitfld.long 0x10 5. "CS_IRQ,Context - Check-Sum mismatch status" "CS_IRQ_0,CS_IRQ_1"
newline
bitfld.long 0x10 3. "LE_IRQ,Context - Line end sync code detection status" "LE_IRQ_0,LE_IRQ_1"
bitfld.long 0x10 2. "LS_IRQ,Context - Line start sync code detection status" "LS_IRQ_0,LS_IRQ_1"
newline
bitfld.long 0x10 1. "FE_IRQ,Context - Frame end sync code detection status" "FE_IRQ_0,FE_IRQ_1"
bitfld.long 0x10 0. "FS_IRQ,Context - Frame start sync code detection status" "FS_IRQ_0,FS_IRQ_1"
tree.end
tree "CTX_Line_5"
group.long 0x110++0x07
line.long 0x00 "CSI2_CTX_CTRL1_i_5,CONTROL REGISTER - Context This register controls the Context"
bitfld.long 0x00 31. "BYTESWAP,Allows swapping bytes two by two in the payload data" "BYTESWAP_0,BYTESWAP_1"
bitfld.long 0x00 30. "GENERIC,Enables the generic mode" "GENERIC_0,GENERIC_1"
newline
bitfld.long 0x00 28. "HSCALE,Enable horizontal downscaling by a factor of two" "Disable,Enable"
bitfld.long 0x00 24.--27. "TRANSCODE,Enables image transcoding" "TRANSCODE_0,TRANSCODE_1,TRANSCODE_2,TRANSCODE_3,TRANSCODE_4,TRANSCODE_5,TRANSCODE_6,TRANSCODE_7,TRANSCODE_8,TRANSCODE_9,?,?,?,?,?,?"
newline
hexmask.long.byte 0x00 16.--23. 1. "FEC_NUMBER,Number of FEC to receive between using swap of CSI2_CTX_DAT_PING_ADDR and CSI2_CTX_DAT_PONG_ADDR for the calculation of the address in memory (must be used only in interlace mode otherwise set to 1)"
abitfld.long 0x00 8.--15. "COUNT,Sets the number of frame to acquire" "0x00=Infinite number of frames (no count),0x01=1 frame to acquire,0xFF=255 frames to acquire"
newline
bitfld.long 0x00 7. "EOF_EN,Indicates if the end of frame signal shall be asserted at the end of the line" "EOF_EN_0_r,EOF_EN_1_r"
bitfld.long 0x00 6. "EOL_EN,Indicates if the end of line signal shall be asserted at the end of the line" "EOL_EN_0_r,EOL_EN_1_r"
newline
bitfld.long 0x00 5. "CS_EN,Enables the checksum check for the received payload (long packet only)" "CS_EN_0,CS_EN_1"
bitfld.long 0x00 4. "COUNT_UNLOCK,Unlock writes to the COUNT bit field" "COUNT_UNLOCK_0_w,COUNT_UNLOCK_1_w"
newline
rbitfld.long 0x00 3. "PING_PONG,Indicates whether the PING or PONG destination address (CSI2_CTX_DAT_PING_ADDR or CSI2_CTX_DAT_PONG_ADDR) was used to write the last frame" "PING_PONG_0_r,PING_PONG_1_r"
bitfld.long 0x00 2. "VP_FORCE,Forces sending of the data to both VPORT and OCP" "VP_FORCE_0,VP_FORCE_1"
newline
bitfld.long 0x00 1. "LINE_MODULO,Line modulo configuration" "LINE_MODULO_0,LINE_MODULO_1"
bitfld.long 0x00 0. "CTX_EN,Enables the context" "CTX_EN_0,CTX_EN_1"
line.long 0x04 "CSI2_CTX_CTRL2_i_5,CONTROL REGISTER - Context This register controls the Context"
hexmask.long.word 0x04 16.--31. 1. "FRAME,Frame number received"
bitfld.long 0x04 13.--14. "USER_DEF_MAPPING,Selects the pixel format of USER_DEFINED in FORMAT" "USER_DEF_MAPPING_0,USER_DEF_MAPPING_1,USER_DEF_MAPPING_2,?"
newline
bitfld.long 0x04 11.--12. "VIRTUAL_ID,Virtual channel ID" "VIRTUAL_ID_0,VIRTUAL_ID_1,VIRTUAL_ID_2,VIRTUAL_ID_3"
bitfld.long 0x04 10. "DPCM_PRED,Selects the DPCM predictor" "DPCM_PRED_0,DPCM_PRED_1"
newline
hexmask.long.word 0x04 0.--9. 1. "FORMAT,Data format selection"
group.long 0x12C++0x03
line.long 0x00 "CSI2_CTX_CTRL3_i_5,CONTROL REGISTER - Context This register controls the Context"
hexmask.long.word 0x00 16.--29. 1. "ALPHA,Alpha value for RGB888 RGB666 and RBG444"
hexmask.long.word 0x00 0.--15. 1. "LINE_NUMBER,Line number for the interrupt generation"
group.long 0x118++0x13
line.long 0x00 "CSI2_CTX_DAT_OFST_i_5,DATA MEM ADDRESS OFFSET REGISTER - Context This register sets the offset. which is applied on the destination address after each line is written to memory"
hexmask.long.word 0x00 5.--16. 1. "OFST,Line offset programmed in bytes (signed value 2s complement)"
line.long 0x04 "CSI2_CTX_DAT_PING_ADDR_i_5,DATA MEM PING ADDRESS REGISTER - Context This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x04 5.--31. 1. "ADDR,27 most-significant bits of the 32-bit address"
line.long 0x08 "CSI2_CTX_DAT_PONG_ADDR_i_5,DATA MEM PONG ADDRESS REGISTER - Context This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x08 5.--31. 1. "ADDR,27 most-significant bits of the 32-bit address"
line.long 0x0C "CSI2_CTX_IRQENABLE_i_5,INTERRUPT ENABLE REGISTER - Context This register regroups all the events related to context"
bitfld.long 0x0C 8. "ECC_CORRECTION_IRQ,Context - ECC has been used to correct the only 1-bit error (long packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x0C 7. "LINE_NUMBER_IRQ,Context - Line number is reached" "LINE_NUMBER_IRQ_0,LINE_NUMBER_IRQ_1"
newline
bitfld.long 0x0C 6. "FRAME_NUMBER_IRQ,Context - Frame counter reached" "FRAME_NUMBER_IRQ_0,FRAME_NUMBER_IRQ_1"
bitfld.long 0x0C 5. "CS_IRQ,Context - Check-Sum of the payload mismatch detection" "CS_IRQ_0,CS_IRQ_1"
newline
bitfld.long 0x0C 3. "LE_IRQ,Context - Line end sync code detection" "LE_IRQ_0,LE_IRQ_1"
bitfld.long 0x0C 2. "LS_IRQ,Context - Line start sync code detection" "LS_IRQ_0,LS_IRQ_1"
newline
bitfld.long 0x0C 1. "FE_IRQ,Context - Frame end sync code detection" "FE_IRQ_0,FE_IRQ_1"
bitfld.long 0x0C 0. "FS_IRQ,Context - Frame start sync code detection" "FS_IRQ_0,FS_IRQ_1"
line.long 0x10 "CSI2_CTX_IRQSTATUS_i_5,INTERRUPT STATUS REGISTER - Context This register regroups all the events related to Context"
bitfld.long 0x10 8. "ECC_CORRECTION_IRQ,Context - ECC has been used to do the correction of the only 1-bit error status (long packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x10 7. "LINE_NUMBER_IRQ,Context - Line number reached status" "LINE_NUMBER_IRQ_0,LINE_NUMBER_IRQ_1"
newline
bitfld.long 0x10 6. "FRAME_NUMBER_IRQ,Context - Frame counter reached status" "FRAME_NUMBER_IRQ_0,FRAME_NUMBER_IRQ_1"
bitfld.long 0x10 5. "CS_IRQ,Context - Check-Sum mismatch status" "CS_IRQ_0,CS_IRQ_1"
newline
bitfld.long 0x10 3. "LE_IRQ,Context - Line end sync code detection status" "LE_IRQ_0,LE_IRQ_1"
bitfld.long 0x10 2. "LS_IRQ,Context - Line start sync code detection status" "LS_IRQ_0,LS_IRQ_1"
newline
bitfld.long 0x10 1. "FE_IRQ,Context - Frame end sync code detection status" "FE_IRQ_0,FE_IRQ_1"
bitfld.long 0x10 0. "FS_IRQ,Context - Frame start sync code detection status" "FS_IRQ_0,FS_IRQ_1"
tree.end
tree "CTX_Line_6"
group.long 0x130++0x07
line.long 0x00 "CSI2_CTX_CTRL1_i_6,CONTROL REGISTER - Context This register controls the Context"
bitfld.long 0x00 31. "BYTESWAP,Allows swapping bytes two by two in the payload data" "BYTESWAP_0,BYTESWAP_1"
bitfld.long 0x00 30. "GENERIC,Enables the generic mode" "GENERIC_0,GENERIC_1"
newline
bitfld.long 0x00 28. "HSCALE,Enable horizontal downscaling by a factor of two" "Disable,Enable"
bitfld.long 0x00 24.--27. "TRANSCODE,Enables image transcoding" "TRANSCODE_0,TRANSCODE_1,TRANSCODE_2,TRANSCODE_3,TRANSCODE_4,TRANSCODE_5,TRANSCODE_6,TRANSCODE_7,TRANSCODE_8,TRANSCODE_9,?,?,?,?,?,?"
newline
hexmask.long.byte 0x00 16.--23. 1. "FEC_NUMBER,Number of FEC to receive between using swap of CSI2_CTX_DAT_PING_ADDR and CSI2_CTX_DAT_PONG_ADDR for the calculation of the address in memory (must be used only in interlace mode otherwise set to 1)"
abitfld.long 0x00 8.--15. "COUNT,Sets the number of frame to acquire" "0x00=Infinite number of frames (no count),0x01=1 frame to acquire,0xFF=255 frames to acquire"
newline
bitfld.long 0x00 7. "EOF_EN,Indicates if the end of frame signal shall be asserted at the end of the line" "EOF_EN_0_r,EOF_EN_1_r"
bitfld.long 0x00 6. "EOL_EN,Indicates if the end of line signal shall be asserted at the end of the line" "EOL_EN_0_r,EOL_EN_1_r"
newline
bitfld.long 0x00 5. "CS_EN,Enables the checksum check for the received payload (long packet only)" "CS_EN_0,CS_EN_1"
bitfld.long 0x00 4. "COUNT_UNLOCK,Unlock writes to the COUNT bit field" "COUNT_UNLOCK_0_w,COUNT_UNLOCK_1_w"
newline
rbitfld.long 0x00 3. "PING_PONG,Indicates whether the PING or PONG destination address (CSI2_CTX_DAT_PING_ADDR or CSI2_CTX_DAT_PONG_ADDR) was used to write the last frame" "PING_PONG_0_r,PING_PONG_1_r"
bitfld.long 0x00 2. "VP_FORCE,Forces sending of the data to both VPORT and OCP" "VP_FORCE_0,VP_FORCE_1"
newline
bitfld.long 0x00 1. "LINE_MODULO,Line modulo configuration" "LINE_MODULO_0,LINE_MODULO_1"
bitfld.long 0x00 0. "CTX_EN,Enables the context" "CTX_EN_0,CTX_EN_1"
line.long 0x04 "CSI2_CTX_CTRL2_i_6,CONTROL REGISTER - Context This register controls the Context"
hexmask.long.word 0x04 16.--31. 1. "FRAME,Frame number received"
bitfld.long 0x04 13.--14. "USER_DEF_MAPPING,Selects the pixel format of USER_DEFINED in FORMAT" "USER_DEF_MAPPING_0,USER_DEF_MAPPING_1,USER_DEF_MAPPING_2,?"
newline
bitfld.long 0x04 11.--12. "VIRTUAL_ID,Virtual channel ID" "VIRTUAL_ID_0,VIRTUAL_ID_1,VIRTUAL_ID_2,VIRTUAL_ID_3"
bitfld.long 0x04 10. "DPCM_PRED,Selects the DPCM predictor" "DPCM_PRED_0,DPCM_PRED_1"
newline
hexmask.long.word 0x04 0.--9. 1. "FORMAT,Data format selection"
group.long 0x14C++0x03
line.long 0x00 "CSI2_CTX_CTRL3_i_6,CONTROL REGISTER - Context This register controls the Context"
hexmask.long.word 0x00 16.--29. 1. "ALPHA,Alpha value for RGB888 RGB666 and RBG444"
hexmask.long.word 0x00 0.--15. 1. "LINE_NUMBER,Line number for the interrupt generation"
group.long 0x138++0x13
line.long 0x00 "CSI2_CTX_DAT_OFST_i_6,DATA MEM ADDRESS OFFSET REGISTER - Context This register sets the offset. which is applied on the destination address after each line is written to memory"
hexmask.long.word 0x00 5.--16. 1. "OFST,Line offset programmed in bytes (signed value 2s complement)"
line.long 0x04 "CSI2_CTX_DAT_PING_ADDR_i_6,DATA MEM PING ADDRESS REGISTER - Context This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x04 5.--31. 1. "ADDR,27 most-significant bits of the 32-bit address"
line.long 0x08 "CSI2_CTX_DAT_PONG_ADDR_i_6,DATA MEM PONG ADDRESS REGISTER - Context This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x08 5.--31. 1. "ADDR,27 most-significant bits of the 32-bit address"
line.long 0x0C "CSI2_CTX_IRQENABLE_i_6,INTERRUPT ENABLE REGISTER - Context This register regroups all the events related to context"
bitfld.long 0x0C 8. "ECC_CORRECTION_IRQ,Context - ECC has been used to correct the only 1-bit error (long packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x0C 7. "LINE_NUMBER_IRQ,Context - Line number is reached" "LINE_NUMBER_IRQ_0,LINE_NUMBER_IRQ_1"
newline
bitfld.long 0x0C 6. "FRAME_NUMBER_IRQ,Context - Frame counter reached" "FRAME_NUMBER_IRQ_0,FRAME_NUMBER_IRQ_1"
bitfld.long 0x0C 5. "CS_IRQ,Context - Check-Sum of the payload mismatch detection" "CS_IRQ_0,CS_IRQ_1"
newline
bitfld.long 0x0C 3. "LE_IRQ,Context - Line end sync code detection" "LE_IRQ_0,LE_IRQ_1"
bitfld.long 0x0C 2. "LS_IRQ,Context - Line start sync code detection" "LS_IRQ_0,LS_IRQ_1"
newline
bitfld.long 0x0C 1. "FE_IRQ,Context - Frame end sync code detection" "FE_IRQ_0,FE_IRQ_1"
bitfld.long 0x0C 0. "FS_IRQ,Context - Frame start sync code detection" "FS_IRQ_0,FS_IRQ_1"
line.long 0x10 "CSI2_CTX_IRQSTATUS_i_6,INTERRUPT STATUS REGISTER - Context This register regroups all the events related to Context"
bitfld.long 0x10 8. "ECC_CORRECTION_IRQ,Context - ECC has been used to do the correction of the only 1-bit error status (long packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x10 7. "LINE_NUMBER_IRQ,Context - Line number reached status" "LINE_NUMBER_IRQ_0,LINE_NUMBER_IRQ_1"
newline
bitfld.long 0x10 6. "FRAME_NUMBER_IRQ,Context - Frame counter reached status" "FRAME_NUMBER_IRQ_0,FRAME_NUMBER_IRQ_1"
bitfld.long 0x10 5. "CS_IRQ,Context - Check-Sum mismatch status" "CS_IRQ_0,CS_IRQ_1"
newline
bitfld.long 0x10 3. "LE_IRQ,Context - Line end sync code detection status" "LE_IRQ_0,LE_IRQ_1"
bitfld.long 0x10 2. "LS_IRQ,Context - Line start sync code detection status" "LS_IRQ_0,LS_IRQ_1"
newline
bitfld.long 0x10 1. "FE_IRQ,Context - Frame end sync code detection status" "FE_IRQ_0,FE_IRQ_1"
bitfld.long 0x10 0. "FS_IRQ,Context - Frame start sync code detection status" "FS_IRQ_0,FS_IRQ_1"
tree.end
tree "CTX_Line_7"
group.long 0x150++0x07
line.long 0x00 "CSI2_CTX_CTRL1_i_7,CONTROL REGISTER - Context This register controls the Context"
bitfld.long 0x00 31. "BYTESWAP,Allows swapping bytes two by two in the payload data" "BYTESWAP_0,BYTESWAP_1"
bitfld.long 0x00 30. "GENERIC,Enables the generic mode" "GENERIC_0,GENERIC_1"
newline
bitfld.long 0x00 28. "HSCALE,Enable horizontal downscaling by a factor of two" "Disable,Enable"
bitfld.long 0x00 24.--27. "TRANSCODE,Enables image transcoding" "TRANSCODE_0,TRANSCODE_1,TRANSCODE_2,TRANSCODE_3,TRANSCODE_4,TRANSCODE_5,TRANSCODE_6,TRANSCODE_7,TRANSCODE_8,TRANSCODE_9,?,?,?,?,?,?"
newline
hexmask.long.byte 0x00 16.--23. 1. "FEC_NUMBER,Number of FEC to receive between using swap of CSI2_CTX_DAT_PING_ADDR and CSI2_CTX_DAT_PONG_ADDR for the calculation of the address in memory (must be used only in interlace mode otherwise set to 1)"
abitfld.long 0x00 8.--15. "COUNT,Sets the number of frame to acquire" "0x00=Infinite number of frames (no count),0x01=1 frame to acquire,0xFF=255 frames to acquire"
newline
bitfld.long 0x00 7. "EOF_EN,Indicates if the end of frame signal shall be asserted at the end of the line" "EOF_EN_0_r,EOF_EN_1_r"
bitfld.long 0x00 6. "EOL_EN,Indicates if the end of line signal shall be asserted at the end of the line" "EOL_EN_0_r,EOL_EN_1_r"
newline
bitfld.long 0x00 5. "CS_EN,Enables the checksum check for the received payload (long packet only)" "CS_EN_0,CS_EN_1"
bitfld.long 0x00 4. "COUNT_UNLOCK,Unlock writes to the COUNT bit field" "COUNT_UNLOCK_0_w,COUNT_UNLOCK_1_w"
newline
rbitfld.long 0x00 3. "PING_PONG,Indicates whether the PING or PONG destination address (CSI2_CTX_DAT_PING_ADDR or CSI2_CTX_DAT_PONG_ADDR) was used to write the last frame" "PING_PONG_0_r,PING_PONG_1_r"
bitfld.long 0x00 2. "VP_FORCE,Forces sending of the data to both VPORT and OCP" "VP_FORCE_0,VP_FORCE_1"
newline
bitfld.long 0x00 1. "LINE_MODULO,Line modulo configuration" "LINE_MODULO_0,LINE_MODULO_1"
bitfld.long 0x00 0. "CTX_EN,Enables the context" "CTX_EN_0,CTX_EN_1"
line.long 0x04 "CSI2_CTX_CTRL2_i_7,CONTROL REGISTER - Context This register controls the Context"
hexmask.long.word 0x04 16.--31. 1. "FRAME,Frame number received"
bitfld.long 0x04 13.--14. "USER_DEF_MAPPING,Selects the pixel format of USER_DEFINED in FORMAT" "USER_DEF_MAPPING_0,USER_DEF_MAPPING_1,USER_DEF_MAPPING_2,?"
newline
bitfld.long 0x04 11.--12. "VIRTUAL_ID,Virtual channel ID" "VIRTUAL_ID_0,VIRTUAL_ID_1,VIRTUAL_ID_2,VIRTUAL_ID_3"
bitfld.long 0x04 10. "DPCM_PRED,Selects the DPCM predictor" "DPCM_PRED_0,DPCM_PRED_1"
newline
hexmask.long.word 0x04 0.--9. 1. "FORMAT,Data format selection"
group.long 0x16C++0x03
line.long 0x00 "CSI2_CTX_CTRL3_i_7,CONTROL REGISTER - Context This register controls the Context"
hexmask.long.word 0x00 16.--29. 1. "ALPHA,Alpha value for RGB888 RGB666 and RBG444"
hexmask.long.word 0x00 0.--15. 1. "LINE_NUMBER,Line number for the interrupt generation"
group.long 0x158++0x13
line.long 0x00 "CSI2_CTX_DAT_OFST_i_7,DATA MEM ADDRESS OFFSET REGISTER - Context This register sets the offset. which is applied on the destination address after each line is written to memory"
hexmask.long.word 0x00 5.--16. 1. "OFST,Line offset programmed in bytes (signed value 2s complement)"
line.long 0x04 "CSI2_CTX_DAT_PING_ADDR_i_7,DATA MEM PING ADDRESS REGISTER - Context This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x04 5.--31. 1. "ADDR,27 most-significant bits of the 32-bit address"
line.long 0x08 "CSI2_CTX_DAT_PONG_ADDR_i_7,DATA MEM PONG ADDRESS REGISTER - Context This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x08 5.--31. 1. "ADDR,27 most-significant bits of the 32-bit address"
line.long 0x0C "CSI2_CTX_IRQENABLE_i_7,INTERRUPT ENABLE REGISTER - Context This register regroups all the events related to context"
bitfld.long 0x0C 8. "ECC_CORRECTION_IRQ,Context - ECC has been used to correct the only 1-bit error (long packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x0C 7. "LINE_NUMBER_IRQ,Context - Line number is reached" "LINE_NUMBER_IRQ_0,LINE_NUMBER_IRQ_1"
newline
bitfld.long 0x0C 6. "FRAME_NUMBER_IRQ,Context - Frame counter reached" "FRAME_NUMBER_IRQ_0,FRAME_NUMBER_IRQ_1"
bitfld.long 0x0C 5. "CS_IRQ,Context - Check-Sum of the payload mismatch detection" "CS_IRQ_0,CS_IRQ_1"
newline
bitfld.long 0x0C 3. "LE_IRQ,Context - Line end sync code detection" "LE_IRQ_0,LE_IRQ_1"
bitfld.long 0x0C 2. "LS_IRQ,Context - Line start sync code detection" "LS_IRQ_0,LS_IRQ_1"
newline
bitfld.long 0x0C 1. "FE_IRQ,Context - Frame end sync code detection" "FE_IRQ_0,FE_IRQ_1"
bitfld.long 0x0C 0. "FS_IRQ,Context - Frame start sync code detection" "FS_IRQ_0,FS_IRQ_1"
line.long 0x10 "CSI2_CTX_IRQSTATUS_i_7,INTERRUPT STATUS REGISTER - Context This register regroups all the events related to Context"
bitfld.long 0x10 8. "ECC_CORRECTION_IRQ,Context - ECC has been used to do the correction of the only 1-bit error status (long packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x10 7. "LINE_NUMBER_IRQ,Context - Line number reached status" "LINE_NUMBER_IRQ_0,LINE_NUMBER_IRQ_1"
newline
bitfld.long 0x10 6. "FRAME_NUMBER_IRQ,Context - Frame counter reached status" "FRAME_NUMBER_IRQ_0,FRAME_NUMBER_IRQ_1"
bitfld.long 0x10 5. "CS_IRQ,Context - Check-Sum mismatch status" "CS_IRQ_0,CS_IRQ_1"
newline
bitfld.long 0x10 3. "LE_IRQ,Context - Line end sync code detection status" "LE_IRQ_0,LE_IRQ_1"
bitfld.long 0x10 2. "LS_IRQ,Context - Line start sync code detection status" "LS_IRQ_0,LS_IRQ_1"
newline
bitfld.long 0x10 1. "FE_IRQ,Context - Frame end sync code detection status" "FE_IRQ_0,FE_IRQ_1"
bitfld.long 0x10 0. "FS_IRQ,Context - Frame start sync code detection status" "FS_IRQ_0,FS_IRQ_1"
tree.end
tree.end
tree "ISS_CSI2_B_REGS1"
base ansd:0x52001400
group.long 0x50++0x03
line.long 0x00 "CSI2_COMPLEXIO_CFG,COMPLEXIO CONFIGURATION REGISTER for the complex I/O This register contains the lane configuration for the order and position of the lanes (clock and data) and the polarity order for the control of the PHY differential signals in.."
bitfld.long 0x00 30. "RESET_CTRL,Controls the reset of the complex I/O" "RESET_CTRL_0,RESET_CTRL_1"
rbitfld.long 0x00 29. "RESET_DONE,Internal reset monitoring of the power domain using the byte clock provided by the associated CSIPHY (see .Caution: For the [29] RESET_DONE bit to be set to 0x1 (reset completed) the external sensor must to be active and sending the MIPI HS.." "RESET_DONE_0_r,RESET_DONE_1_r"
newline
bitfld.long 0x00 27.--28. "PWR_CMD,Command for power control of the complex I/O" "PWR_CMD_0,PWR_CMD_1,PWR_CMD_2,?"
rbitfld.long 0x00 25.--26. "PWR_STATUS,Status of the power control of the complex I/O" "PWR_STATUS_0_r,PWR_STATUS_1_r,PWR_STATUS_2_r,?"
newline
bitfld.long 0x00 24. "PWR_AUTO,Automatic switch between ULP and ON states based on ULPM signals from complex I/O" "PWR_AUTO_0,PWR_AUTO_1"
bitfld.long 0x00 19. "DATA4_POL,+/- differential pin order of data lane 4" "DATA4_POL_0,DATA4_POL_1"
newline
bitfld.long 0x00 16.--18. "DATA4_POSITION,Position and order of the data lane 4" "DATA4_POSITION_0,DATA4_POSITION_1,DATA4_POSITION_2,DATA4_POSITION_3,DATA4_POSITION_4,DATA4_POSITION_5,DATA4_POSITION_6,DATA4_POSITION_7"
bitfld.long 0x00 15. "DATA3_POL,+/- differential pin order of data lane 3" "DATA3_POL_0,DATA3_POL_1"
newline
bitfld.long 0x00 12.--14. "DATA3_POSITION,Position and order of the data lane 3" "DATA3_POSITION_0,DATA3_POSITION_1,DATA3_POSITION_2,DATA3_POSITION_3,DATA3_POSITION_4,DATA3_POSITION_5,DATA3_POSITION_6,DATA3_POSITION_7"
bitfld.long 0x00 11. "DATA2_POL,+/- differential pin order of DATA lane 2" "DATA2_POL_0,DATA2_POL_1"
newline
bitfld.long 0x00 8.--10. "DATA2_POSITION,Position and order of the data lane 2" "DATA2_POSITION_0,DATA2_POSITION_1,DATA2_POSITION_2,DATA2_POSITION_3,DATA2_POSITION_4,DATA2_POSITION_5,DATA2_POSITION_6,DATA2_POSITION_7"
bitfld.long 0x00 7. "DATA1_POL,+/- differential pin order of data lane 1" "DATA1_POL_0,DATA1_POL_1"
newline
bitfld.long 0x00 4.--6. "DATA1_POSITION,Position and order of the DATA lane 1" "DATA1_POSITION_0,DATA1_POSITION_1,?,DATA1_POSITION_3,DATA1_POSITION_4,DATA1_POSITION_5,DATA1_POSITION_6,DATA1_POSITION_7"
bitfld.long 0x00 3. "CLOCK_POL,+/- differential pin order of clock lane" "CLOCK_POL_0,CLOCK_POL_1"
newline
bitfld.long 0x00 0.--2. "CLOCK_POSITION,Position and order of the clock lane" "CLOCK_POSITION_0,CLOCK_POSITION_1,CLOCK_POSITION_2,CLOCK_POSITION_3,CLOCK_POSITION_4,CLOCK_POSITION_5,CLOCK_POSITION_6,CLOCK_POSITION_7"
group.long 0x60++0x03
line.long 0x00 "CSI2_COMPLEXIO_IRQENABLE,INTERRUPT ENABLE REGISTER - All errors from complex I/O"
bitfld.long 0x00 26. "STATEALLULPMEXIT,At least one of the active lanes has exit the ULPM" "STATEALLULPMEXIT_0,STATEALLULPMEXIT_1"
bitfld.long 0x00 25. "STATEALLULPMENTER,All active lanes are entering in ULPM" "STATEALLULPMENTER_0,STATEALLULPMENTER_1"
newline
bitfld.long 0x00 24. "STATEULPM5,Lane 5 in ULPM" "STATEULPM5_0,STATEULPM5_1"
bitfld.long 0x00 23. "STATEULPM4,Lane 4 in ULPM" "STATEULPM4_0,STATEULPM4_1"
newline
bitfld.long 0x00 22. "STATEULPM3,Lane 3 in ULPM" "STATEULPM3_0,STATEULPM3_1"
bitfld.long 0x00 21. "STATEULPM2,Lane 2 in ULPM" "STATEULPM2_0,STATEULPM2_1"
newline
bitfld.long 0x00 20. "STATEULPM1,Lane 1 in ULPM" "STATEULPM1_0,STATEULPM1_1"
bitfld.long 0x00 19. "ERRCONTROL5,Control error for lane" "ERRCONTROL5_0,ERRCONTROL5_1"
newline
bitfld.long 0x00 18. "ERRCONTROL4,Control error for lane" "ERRCONTROL4_0,ERRCONTROL4_1"
bitfld.long 0x00 17. "ERRCONTROL3,Control error for lane" "ERRCONTROL3_0,ERRCONTROL3_1"
newline
bitfld.long 0x00 16. "ERRCONTROL2,Control error for lane" "ERRCONTROL2_0,ERRCONTROL2_1"
bitfld.long 0x00 15. "ERRCONTROL1,Control error for lane" "ERRCONTROL1_0,ERRCONTROL1_1"
newline
bitfld.long 0x00 14. "ERRESC5,Escape entry error for lane" "ERRESC5_0,ERRESC5_1"
bitfld.long 0x00 13. "ERRESC4,Escape entry error for lane" "ERRESC4_0,ERRESC4_1"
newline
bitfld.long 0x00 12. "ERRESC3,Escape entry error for lane" "ERRESC3_0,ERRESC3_1"
bitfld.long 0x00 11. "ERRESC2,Escape entry error for lane" "ERRESC2_0,ERRESC2_1"
newline
bitfld.long 0x00 10. "ERRESC1,Escape entry error for lane" "ERRESC1_0,ERRESC1_1"
bitfld.long 0x00 9. "ERRSOTSYNCHS5,Start of transmission sync error for lane" "ERRSOTSYNCHS5_0,ERRSOTSYNCHS5_1"
newline
bitfld.long 0x00 8. "ERRSOTSYNCHS4,Start of transmission sync error for lane" "ERRSOTSYNCHS4_0,ERRSOTSYNCHS4_1"
bitfld.long 0x00 7. "ERRSOTSYNCHS3,Start of transmission sync error for lane" "ERRSOTSYNCHS3_0,ERRSOTSYNCHS3_1"
newline
bitfld.long 0x00 6. "ERRSOTSYNCHS2,Start of transmission sync error for lane" "ERRSOTSYNCHS2_0,ERRSOTSYNCHS2_1"
bitfld.long 0x00 5. "ERRSOTSYNCHS1,Start of transmission sync error for lane" "ERRSOTSYNCHS1_0,ERRSOTSYNCHS1_1"
newline
bitfld.long 0x00 4. "ERRSOTHS5,Start of transmission error for lane" "ERRSOTHS5_0,ERRSOTHS5_1"
bitfld.long 0x00 3. "ERRSOTHS4,Start of transmission error for lane" "ERRSOTHS4_0,ERRSOTHS4_1"
newline
bitfld.long 0x00 2. "ERRSOTHS3,Start of transmission error for lane" "ERRSOTHS3_0,ERRSOTHS3_1"
bitfld.long 0x00 1. "ERRSOTHS2,Start of transmission error for lane" "ERRSOTHS2_0,ERRSOTHS2_1"
newline
bitfld.long 0x00 0. "ERRSOTHS1,Start of transmission error for lane" "ERRSOTHS1_0,ERRSOTHS1_1"
group.long 0x54++0x03
line.long 0x00 "CSI2_COMPLEXIO_IRQSTATUS,INTERRUPT STATUS REGISTER - All errors from complex I/O #1"
bitfld.long 0x00 26. "STATEALLULPMEXIT,At least one of the active lanes has exit the ULPM" "STATEALLULPMEXIT_0,STATEALLULPMEXIT_1"
bitfld.long 0x00 25. "STATEALLULPMENTER,All active lanes are entering in ULPM" "STATEALLULPMENTER_0,STATEALLULPMENTER_1"
newline
bitfld.long 0x00 24. "STATEULPM5,Lane 5 in ULPM" "STATEULPM5_0,STATEULPM5_1"
bitfld.long 0x00 23. "STATEULPM4,Lane 4 in ULPM" "STATEULPM4_0,STATEULPM4_1"
newline
bitfld.long 0x00 22. "STATEULPM3,Lane 3 in ULPM" "STATEULPM3_0,STATEULPM3_1"
bitfld.long 0x00 21. "STATEULPM2,Lane 2 in ULPM" "STATEULPM2_0,STATEULPM2_1"
newline
bitfld.long 0x00 20. "STATEULPM1,Lane 1 in ULPM" "STATEULPM1_0,STATEULPM1_1"
bitfld.long 0x00 19. "ERRCONTROL5,Control error for lane" "ERRCONTROL5_0,ERRCONTROL5_1"
newline
bitfld.long 0x00 18. "ERRCONTROL4,Control error for lane" "ERRCONTROL4_0,ERRCONTROL4_1"
bitfld.long 0x00 17. "ERRCONTROL3,Control error for lane" "ERRCONTROL3_0,ERRCONTROL3_1"
newline
bitfld.long 0x00 16. "ERRCONTROL2,Control error for lane" "ERRCONTROL2_0,ERRCONTROL2_1"
bitfld.long 0x00 15. "ERRCONTROL1,Control error for lane" "ERRCONTROL1_0,ERRCONTROL1_1"
newline
bitfld.long 0x00 14. "ERRESC5,Escape entry error for lane" "ERRESC5_0,ERRESC5_1"
bitfld.long 0x00 13. "ERRESC4,Escape entry error for lane" "ERRESC4_0,ERRESC4_1"
newline
bitfld.long 0x00 12. "ERRESC3,Escape entry error for lane" "ERRESC3_0,ERRESC3_1"
bitfld.long 0x00 11. "ERRESC2,Escape entry error for lane" "ERRESC2_0,ERRESC2_1"
newline
bitfld.long 0x00 10. "ERRESC1,Escape entry error for lane" "ERRESC1_0,ERRESC1_1"
bitfld.long 0x00 9. "ERRSOTSYNCHS5,Start of transmission sync error for lane" "ERRSOTSYNCHS5_0,ERRSOTSYNCHS5_1"
newline
bitfld.long 0x00 8. "ERRSOTSYNCHS4,Start of transmission sync error for lane" "ERRSOTSYNCHS4_0,ERRSOTSYNCHS4_1"
bitfld.long 0x00 7. "ERRSOTSYNCHS3,Start of transmission sync error for lane" "ERRSOTSYNCHS3_0,ERRSOTSYNCHS3_1"
newline
bitfld.long 0x00 6. "ERRSOTSYNCHS2,Start of transmission sync error for lane" "ERRSOTSYNCHS2_0,ERRSOTSYNCHS2_1"
bitfld.long 0x00 5. "ERRSOTSYNCHS1,Start of transmission sync error for lane" "ERRSOTSYNCHS1_0,ERRSOTSYNCHS1_1"
newline
bitfld.long 0x00 4. "ERRSOTHS5,Start of transmission error for lane" "ERRSOTHS5_0,ERRSOTHS5_1"
bitfld.long 0x00 3. "ERRSOTHS4,Start of transmission error for lane" "ERRSOTHS4_0,ERRSOTHS4_1"
newline
bitfld.long 0x00 2. "ERRSOTHS3,Start of transmission error for lane" "ERRSOTHS3_0,ERRSOTHS3_1"
bitfld.long 0x00 1. "ERRSOTHS2,Start of transmission error for lane" "ERRSOTHS2_0,ERRSOTHS2_1"
newline
bitfld.long 0x00 0. "ERRSOTHS1,Start of transmission error for lane" "ERRSOTHS1_0,ERRSOTHS1_1"
group.long 0x40++0x07
line.long 0x00 "CSI2_CTRL,GLOBAL CONTROL REGISTER This register controls the CSI2 RECEIVER module"
bitfld.long 0x00 16. "BURST_SIZE_EXPAND,Sets the DMA burst size on the L3 interconnect" "BURST_SIZE_EXPAND_0,BURST_SIZE_EXPAND_1"
bitfld.long 0x00 15. "VP_CLK_EN,VP clock enable" "VP_CLK_EN_0,VP_CLK_EN_1"
newline
bitfld.long 0x00 13. "NON_POSTED_WRITE,Not posted writes" "NON_POSTED_WRITE_0,NON_POSTED_WRITE_1"
bitfld.long 0x00 11. "VP_ONLY_EN,VP only enable" "VP_ONLY_EN_0,VP_ONLY_EN_1"
newline
bitfld.long 0x00 10. "STREAMING_32_BIT,Indicates if 64-bit or 32-bit streaming burst is used" "STREAMING_32_BIT_0,STREAMING_32_BIT_1"
bitfld.long 0x00 8.--9. "VP_OUT_CTRL,VP_PCLK control" "VP_OUT_CTRL_0,VP_OUT_CTRL_1,VP_OUT_CTRL_2,VP_OUT_CTRL_3"
newline
bitfld.long 0x00 7. "DBG_EN,Enables the debug mode" "DBG_EN_0,DBG_EN_1"
bitfld.long 0x00 5.--6. "BURST_SIZE,Sets the DMA burst size on the L3 interconnect" "BURST_SIZE_0,BURST_SIZE_1,BURST_SIZE_2,BURST_SIZE_3"
newline
bitfld.long 0x00 4. "ENDIANNESS,Select endianness for YUV4:2:2 8 bit and YUV4:2:0 legacy formats" "ENDIANNESS_0,ENDIANNESS_1"
bitfld.long 0x00 3. "FRAME,Set the modality in which IF_EN works" "FRAME_0,FRAME_1"
newline
bitfld.long 0x00 2. "ECC_EN,Enables the Error Correction Code check for the received header (short and long packets for all virtual channel ids)" "ECC_EN_0,ECC_EN_1"
bitfld.long 0x00 0. "IF_EN,Enables the physical interface to the module" "IF_EN_0,IF_EN_1"
line.long 0x04 "CSI2_DBG_H,DEBUG REGISTER (Header) This register provides a way to debug the CSI2 RECEIVER module with no image sensor connected to the module"
group.long 0x68++0x03
line.long 0x00 "CSI2_DBG_P,DEBUG REGISTER (Payload) This register provides a way to debug the CSI2 RECEIVER module with no image sensor connected to the module"
group.long 0x1C++0x03
line.long 0x00 "CSI2_IRQENABLE,INTERRUPT ENABLE REGISTER - All contexts This register associates one bit for each context in order to enable/disable each context individually"
bitfld.long 0x00 14. "OCP_ERR_IRQ,OCP Error Interrupt" "OCP_ERR_IRQ_0,OCP_ERR_IRQ_1"
bitfld.long 0x00 13. "SHORT_PACKET_IRQ,Short packet reception (other than synch events: Line Start Line End Frame Start and Frame End: data type between 0x8 and x0F only shall be considered)" "SHORT_PACKET_IRQ_0,SHORT_PACKET_IRQ_1"
newline
bitfld.long 0x00 12. "ECC_CORRECTION_IRQ,ECC has been used to correct the only 1-bit error (short packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x00 11. "ECC_NO_CORRECTION_IRQ,ECC error (short and long packets)" "ECC_NO_CORRECTION_IRQ_0,ECC_NO_CORRECTION_IRQ_1"
newline
bitfld.long 0x00 9. "COMPLEXIO_ERR_IRQ,Error signaling from complex I/O: the interrupt is triggered when any error is received from the complex I/O (events are defined inCSI2_COMPLEXIO_IRQSTATUS for the complex I/O)" "COMPLEXIO_ERR_IRQ_0,COMPLEXIO_ERR_IRQ_1"
bitfld.long 0x00 8. "FIFO_OVF_IRQ,FIFO overflow enable" "FIFO_OVF_IRQ_0,FIFO_OVF_IRQ_1"
newline
bitfld.long 0x00 7. "CONTEXT7,Context" "CONTEXT7_0,CONTEXT7_1"
bitfld.long 0x00 6. "CONTEXT6,Context" "CONTEXT6_0,CONTEXT6_1"
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bitfld.long 0x00 5. "CONTEXT5,Context" "CONTEXT5_0,CONTEXT5_1"
bitfld.long 0x00 4. "CONTEXT4,Context" "CONTEXT4_0,CONTEXT4_1"
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bitfld.long 0x00 3. "CONTEXT3,Context" "CONTEXT3_0,CONTEXT3_1"
bitfld.long 0x00 2. "CONTEXT2,Context" "CONTEXT2_0,CONTEXT2_1"
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bitfld.long 0x00 1. "CONTEXT1,Context" "CONTEXT1_0,CONTEXT1_1"
bitfld.long 0x00 0. "CONTEXT0,Context" "CONTEXT0_0,CONTEXT0_1"
group.long 0x18++0x03
line.long 0x00 "CSI2_IRQSTATUS,INTERRUPT STATUS REGISTER - All contexts This register associates one bit for each context in order to determine which context has generated the interrupt"
bitfld.long 0x00 14. "OCP_ERR_IRQ,OCP Error Interrupt" "OCP_ERR_IRQ_0,OCP_ERR_IRQ_1"
bitfld.long 0x00 13. "SHORT_PACKET_IRQ,Short packet reception status (other than synch events: Line Start Line End Frame Start and Frame End: data type between 0x8 and x0F only shall be considered)" "SHORT_PACKET_IRQ_0,SHORT_PACKET_IRQ_1"
newline
bitfld.long 0x00 12. "ECC_CORRECTION_IRQ,ECC has been used to do the correction of the only 1-bit error status (short packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x00 11. "ECC_NO_CORRECTION_IRQ,ECC error status (short and long packets)" "ECC_NO_CORRECTION_IRQ_0,ECC_NO_CORRECTION_IRQ_1"
newline
rbitfld.long 0x00 9. "COMPLEXIO_ERR_IRQ,Error signaling from complex I/O: status of the PHY errors received from the complex I/O (events are defined inCSI2_COMPLEXIO_IRQSTATUS for the complex I/O)" "COMPLEXIO_ERR_IRQ_0_r,COMPLEXIO_ERR_IRQ_1_r"
bitfld.long 0x00 8. "FIFO_OVF_IRQ,FIFO overflow error status" "FIFO_OVF_IRQ_0,FIFO_OVF_IRQ_1"
newline
rbitfld.long 0x00 7. "CONTEXT7,Context" "CONTEXT7_0_r,CONTEXT7_1_r"
rbitfld.long 0x00 6. "CONTEXT6,Context" "CONTEXT6_0_r,CONTEXT6_1_r"
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rbitfld.long 0x00 5. "CONTEXT5,Context" "CONTEXT5_0_r,CONTEXT5_1_r"
rbitfld.long 0x00 4. "CONTEXT4,Context" "CONTEXT4_0_r,CONTEXT4_1_r"
newline
rbitfld.long 0x00 3. "CONTEXT3,Context" "CONTEXT3_0_r,CONTEXT3_1_r"
rbitfld.long 0x00 2. "CONTEXT2,Context" "CONTEXT2_0_r,CONTEXT2_1_r"
newline
rbitfld.long 0x00 1. "CONTEXT1,Context" "CONTEXT1_0_r,CONTEXT1_1_r"
rbitfld.long 0x00 0. "CONTEXT0,Context" "CONTEXT0_0_r,CONTEXT0_1_r"
rgroup.long 0x00++0x03
line.long 0x00 "CSI2_REVISION,IP Revision Identifier (X.Y.R) Used by software to track features. bugs. and compatibility"
rgroup.long 0x5C++0x03
line.long 0x00 "CSI2_SHORT_PACKET,SHORT PACKET INFORMATION - This register sets the 24-bit DATA_ID + Short Packet Data Field when the data type is between 0x8 and x0F"
hexmask.long.tbyte 0x00 0.--23. 1. "SHORT_PACKET,Short Packet information: DATA ID + DATA FIELD"
group.long 0x10++0x07
line.long 0x00 "CSI2_SYSCONFIG,SYSTEM CONFIGURATION REGISTER This register is the OCP-socket system configuration register"
bitfld.long 0x00 12.--13. "MSTANDBY_MODE,Sets the behavior of the master port power management signals" "MSTANDBY_MODE_0,MSTANDBY_MODE_1,MSTANDBY_MODE_2,?"
bitfld.long 0x00 1. "SOFT_RESET,Software reset" "SOFT_RESET_0,SOFT_RESET_1"
newline
bitfld.long 0x00 0. "AUTO_IDLE,Internal OCP gating strategy" "AUTO_IDLE_0,AUTO_IDLE_1"
line.long 0x04 "CSI2_SYSSTATUS,SYSTEM STATUS REGISTER This register provides status information about the module. excluding the interrupt status register"
bitfld.long 0x04 0. "RESET_DONE,Internal reset monitoring" "RESET_DONE_0_r,RESET_DONE_1_r"
group.long 0x6C++0x03
line.long 0x00 "CSI2_TIMING,TIMING REGISTER This register controls the CSI2 RECEIVER module"
bitfld.long 0x00 15. "FORCE_RX_MODE_IO1,Control of ForceRxMode signal" "FORCE_RX_MODE_IO1_0,FORCE_RX_MODE_IO1_1"
bitfld.long 0x00 14. "STOP_STATE_X16_IO1,Multiplication factor for the number of L3 cycles defined in STOP_STATE_COUNTER bit field" "STOP_STATE_X16_IO1_0,STOP_STATE_X16_IO1_1"
newline
bitfld.long 0x00 13. "STOP_STATE_X4_IO1,Multiplication factor for the number of L3 cycles defined in STOP_STATE_COUNTER bit field" "STOP_STATE_X4_IO1_0,STOP_STATE_X4_IO1_1"
hexmask.long.word 0x00 0.--12. 1. "STOP_STATE_COUNTER_IO1,Stop State counter for monitoring"
tree "CTX_Line_0"
group.long 0x70++0x07
line.long 0x00 "CSI2_CTX_CTRL1_i_0,CONTROL REGISTER - Context This register controls the Context"
bitfld.long 0x00 31. "BYTESWAP,Allows swapping bytes two by two in the payload data" "BYTESWAP_0,BYTESWAP_1"
bitfld.long 0x00 30. "GENERIC,Enables the generic mode" "GENERIC_0,GENERIC_1"
newline
bitfld.long 0x00 28. "HSCALE,Enable horizontal downscaling by a factor of two" "Disable,Enable"
bitfld.long 0x00 24.--27. "TRANSCODE,Enables image transcoding" "TRANSCODE_0,TRANSCODE_1,TRANSCODE_2,TRANSCODE_3,TRANSCODE_4,TRANSCODE_5,TRANSCODE_6,TRANSCODE_7,TRANSCODE_8,TRANSCODE_9,?,?,?,?,?,?"
newline
hexmask.long.byte 0x00 16.--23. 1. "FEC_NUMBER,Number of FEC to receive between using swap of CSI2_CTX_DAT_PING_ADDR and CSI2_CTX_DAT_PONG_ADDR for the calculation of the address in memory (must be used only in interlace mode otherwise set to 1)"
abitfld.long 0x00 8.--15. "COUNT,Sets the number of frame to acquire" "0x00=Infinite number of frames (no count),0x01=1 frame to acquire,0xFF=255 frames to acquire"
newline
bitfld.long 0x00 7. "EOF_EN,Indicates if the end of frame signal shall be asserted at the end of the line" "EOF_EN_0_r,EOF_EN_1_r"
bitfld.long 0x00 6. "EOL_EN,Indicates if the end of line signal shall be asserted at the end of the line" "EOL_EN_0_r,EOL_EN_1_r"
newline
bitfld.long 0x00 5. "CS_EN,Enables the checksum check for the received payload (long packet only)" "CS_EN_0,CS_EN_1"
bitfld.long 0x00 4. "COUNT_UNLOCK,Unlock writes to the COUNT bit field" "COUNT_UNLOCK_0_w,COUNT_UNLOCK_1_w"
newline
rbitfld.long 0x00 3. "PING_PONG,Indicates whether the PING or PONG destination address (CSI2_CTX_DAT_PING_ADDR or CSI2_CTX_DAT_PONG_ADDR) was used to write the last frame" "PING_PONG_0_r,PING_PONG_1_r"
bitfld.long 0x00 2. "VP_FORCE,Forces sending of the data to both VPORT and OCP" "VP_FORCE_0,VP_FORCE_1"
newline
bitfld.long 0x00 1. "LINE_MODULO,Line modulo configuration" "LINE_MODULO_0,LINE_MODULO_1"
bitfld.long 0x00 0. "CTX_EN,Enables the context" "CTX_EN_0,CTX_EN_1"
line.long 0x04 "CSI2_CTX_CTRL2_i_0,CONTROL REGISTER - Context This register controls the Context"
hexmask.long.word 0x04 16.--31. 1. "FRAME,Frame number received"
bitfld.long 0x04 13.--14. "USER_DEF_MAPPING,Selects the pixel format of USER_DEFINED in FORMAT" "USER_DEF_MAPPING_0,USER_DEF_MAPPING_1,USER_DEF_MAPPING_2,?"
newline
bitfld.long 0x04 11.--12. "VIRTUAL_ID,Virtual channel ID" "VIRTUAL_ID_0,VIRTUAL_ID_1,VIRTUAL_ID_2,VIRTUAL_ID_3"
bitfld.long 0x04 10. "DPCM_PRED,Selects the DPCM predictor" "DPCM_PRED_0,DPCM_PRED_1"
newline
hexmask.long.word 0x04 0.--9. 1. "FORMAT,Data format selection"
group.long 0x8C++0x03
line.long 0x00 "CSI2_CTX_CTRL3_i_0,CONTROL REGISTER - Context This register controls the Context"
hexmask.long.word 0x00 16.--29. 1. "ALPHA,Alpha value for RGB888 RGB666 and RBG444"
hexmask.long.word 0x00 0.--15. 1. "LINE_NUMBER,Line number for the interrupt generation"
group.long 0x78++0x13
line.long 0x00 "CSI2_CTX_DAT_OFST_i_0,DATA MEM ADDRESS OFFSET REGISTER - Context This register sets the offset. which is applied on the destination address after each line is written to memory"
hexmask.long.word 0x00 5.--16. 1. "OFST,Line offset programmed in bytes (signed value 2s complement)"
line.long 0x04 "CSI2_CTX_DAT_PING_ADDR_i_0,DATA MEM PING ADDRESS REGISTER - Context This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x04 5.--31. 1. "ADDR,27 most-significant bits of the 32-bit address"
line.long 0x08 "CSI2_CTX_DAT_PONG_ADDR_i_0,DATA MEM PONG ADDRESS REGISTER - Context This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x08 5.--31. 1. "ADDR,27 most-significant bits of the 32-bit address"
line.long 0x0C "CSI2_CTX_IRQENABLE_i_0,INTERRUPT ENABLE REGISTER - Context This register regroups all the events related to context"
bitfld.long 0x0C 8. "ECC_CORRECTION_IRQ,Context - ECC has been used to correct the only 1-bit error (long packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x0C 7. "LINE_NUMBER_IRQ,Context - Line number is reached" "LINE_NUMBER_IRQ_0,LINE_NUMBER_IRQ_1"
newline
bitfld.long 0x0C 6. "FRAME_NUMBER_IRQ,Context - Frame counter reached" "FRAME_NUMBER_IRQ_0,FRAME_NUMBER_IRQ_1"
bitfld.long 0x0C 5. "CS_IRQ,Context - Check-Sum of the payload mismatch detection" "CS_IRQ_0,CS_IRQ_1"
newline
bitfld.long 0x0C 3. "LE_IRQ,Context - Line end sync code detection" "LE_IRQ_0,LE_IRQ_1"
bitfld.long 0x0C 2. "LS_IRQ,Context - Line start sync code detection" "LS_IRQ_0,LS_IRQ_1"
newline
bitfld.long 0x0C 1. "FE_IRQ,Context - Frame end sync code detection" "FE_IRQ_0,FE_IRQ_1"
bitfld.long 0x0C 0. "FS_IRQ,Context - Frame start sync code detection" "FS_IRQ_0,FS_IRQ_1"
line.long 0x10 "CSI2_CTX_IRQSTATUS_i_0,INTERRUPT STATUS REGISTER - Context This register regroups all the events related to Context"
bitfld.long 0x10 8. "ECC_CORRECTION_IRQ,Context - ECC has been used to do the correction of the only 1-bit error status (long packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x10 7. "LINE_NUMBER_IRQ,Context - Line number reached status" "LINE_NUMBER_IRQ_0,LINE_NUMBER_IRQ_1"
newline
bitfld.long 0x10 6. "FRAME_NUMBER_IRQ,Context - Frame counter reached status" "FRAME_NUMBER_IRQ_0,FRAME_NUMBER_IRQ_1"
bitfld.long 0x10 5. "CS_IRQ,Context - Check-Sum mismatch status" "CS_IRQ_0,CS_IRQ_1"
newline
bitfld.long 0x10 3. "LE_IRQ,Context - Line end sync code detection status" "LE_IRQ_0,LE_IRQ_1"
bitfld.long 0x10 2. "LS_IRQ,Context - Line start sync code detection status" "LS_IRQ_0,LS_IRQ_1"
newline
bitfld.long 0x10 1. "FE_IRQ,Context - Frame end sync code detection status" "FE_IRQ_0,FE_IRQ_1"
bitfld.long 0x10 0. "FS_IRQ,Context - Frame start sync code detection status" "FS_IRQ_0,FS_IRQ_1"
tree.end
tree "CTX_Line_1"
group.long 0x90++0x07
line.long 0x00 "CSI2_CTX_CTRL1_i_1,CONTROL REGISTER - Context This register controls the Context"
bitfld.long 0x00 31. "BYTESWAP,Allows swapping bytes two by two in the payload data" "BYTESWAP_0,BYTESWAP_1"
bitfld.long 0x00 30. "GENERIC,Enables the generic mode" "GENERIC_0,GENERIC_1"
newline
bitfld.long 0x00 28. "HSCALE,Enable horizontal downscaling by a factor of two" "Disable,Enable"
bitfld.long 0x00 24.--27. "TRANSCODE,Enables image transcoding" "TRANSCODE_0,TRANSCODE_1,TRANSCODE_2,TRANSCODE_3,TRANSCODE_4,TRANSCODE_5,TRANSCODE_6,TRANSCODE_7,TRANSCODE_8,TRANSCODE_9,?,?,?,?,?,?"
newline
hexmask.long.byte 0x00 16.--23. 1. "FEC_NUMBER,Number of FEC to receive between using swap of CSI2_CTX_DAT_PING_ADDR and CSI2_CTX_DAT_PONG_ADDR for the calculation of the address in memory (must be used only in interlace mode otherwise set to 1)"
abitfld.long 0x00 8.--15. "COUNT,Sets the number of frame to acquire" "0x00=Infinite number of frames (no count),0x01=1 frame to acquire,0xFF=255 frames to acquire"
newline
bitfld.long 0x00 7. "EOF_EN,Indicates if the end of frame signal shall be asserted at the end of the line" "EOF_EN_0_r,EOF_EN_1_r"
bitfld.long 0x00 6. "EOL_EN,Indicates if the end of line signal shall be asserted at the end of the line" "EOL_EN_0_r,EOL_EN_1_r"
newline
bitfld.long 0x00 5. "CS_EN,Enables the checksum check for the received payload (long packet only)" "CS_EN_0,CS_EN_1"
bitfld.long 0x00 4. "COUNT_UNLOCK,Unlock writes to the COUNT bit field" "COUNT_UNLOCK_0_w,COUNT_UNLOCK_1_w"
newline
rbitfld.long 0x00 3. "PING_PONG,Indicates whether the PING or PONG destination address (CSI2_CTX_DAT_PING_ADDR or CSI2_CTX_DAT_PONG_ADDR) was used to write the last frame" "PING_PONG_0_r,PING_PONG_1_r"
bitfld.long 0x00 2. "VP_FORCE,Forces sending of the data to both VPORT and OCP" "VP_FORCE_0,VP_FORCE_1"
newline
bitfld.long 0x00 1. "LINE_MODULO,Line modulo configuration" "LINE_MODULO_0,LINE_MODULO_1"
bitfld.long 0x00 0. "CTX_EN,Enables the context" "CTX_EN_0,CTX_EN_1"
line.long 0x04 "CSI2_CTX_CTRL2_i_1,CONTROL REGISTER - Context This register controls the Context"
hexmask.long.word 0x04 16.--31. 1. "FRAME,Frame number received"
bitfld.long 0x04 13.--14. "USER_DEF_MAPPING,Selects the pixel format of USER_DEFINED in FORMAT" "USER_DEF_MAPPING_0,USER_DEF_MAPPING_1,USER_DEF_MAPPING_2,?"
newline
bitfld.long 0x04 11.--12. "VIRTUAL_ID,Virtual channel ID" "VIRTUAL_ID_0,VIRTUAL_ID_1,VIRTUAL_ID_2,VIRTUAL_ID_3"
bitfld.long 0x04 10. "DPCM_PRED,Selects the DPCM predictor" "DPCM_PRED_0,DPCM_PRED_1"
newline
hexmask.long.word 0x04 0.--9. 1. "FORMAT,Data format selection"
group.long 0xAC++0x03
line.long 0x00 "CSI2_CTX_CTRL3_i_1,CONTROL REGISTER - Context This register controls the Context"
hexmask.long.word 0x00 16.--29. 1. "ALPHA,Alpha value for RGB888 RGB666 and RBG444"
hexmask.long.word 0x00 0.--15. 1. "LINE_NUMBER,Line number for the interrupt generation"
group.long 0x98++0x13
line.long 0x00 "CSI2_CTX_DAT_OFST_i_1,DATA MEM ADDRESS OFFSET REGISTER - Context This register sets the offset. which is applied on the destination address after each line is written to memory"
hexmask.long.word 0x00 5.--16. 1. "OFST,Line offset programmed in bytes (signed value 2s complement)"
line.long 0x04 "CSI2_CTX_DAT_PING_ADDR_i_1,DATA MEM PING ADDRESS REGISTER - Context This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x04 5.--31. 1. "ADDR,27 most-significant bits of the 32-bit address"
line.long 0x08 "CSI2_CTX_DAT_PONG_ADDR_i_1,DATA MEM PONG ADDRESS REGISTER - Context This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x08 5.--31. 1. "ADDR,27 most-significant bits of the 32-bit address"
line.long 0x0C "CSI2_CTX_IRQENABLE_i_1,INTERRUPT ENABLE REGISTER - Context This register regroups all the events related to context"
bitfld.long 0x0C 8. "ECC_CORRECTION_IRQ,Context - ECC has been used to correct the only 1-bit error (long packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x0C 7. "LINE_NUMBER_IRQ,Context - Line number is reached" "LINE_NUMBER_IRQ_0,LINE_NUMBER_IRQ_1"
newline
bitfld.long 0x0C 6. "FRAME_NUMBER_IRQ,Context - Frame counter reached" "FRAME_NUMBER_IRQ_0,FRAME_NUMBER_IRQ_1"
bitfld.long 0x0C 5. "CS_IRQ,Context - Check-Sum of the payload mismatch detection" "CS_IRQ_0,CS_IRQ_1"
newline
bitfld.long 0x0C 3. "LE_IRQ,Context - Line end sync code detection" "LE_IRQ_0,LE_IRQ_1"
bitfld.long 0x0C 2. "LS_IRQ,Context - Line start sync code detection" "LS_IRQ_0,LS_IRQ_1"
newline
bitfld.long 0x0C 1. "FE_IRQ,Context - Frame end sync code detection" "FE_IRQ_0,FE_IRQ_1"
bitfld.long 0x0C 0. "FS_IRQ,Context - Frame start sync code detection" "FS_IRQ_0,FS_IRQ_1"
line.long 0x10 "CSI2_CTX_IRQSTATUS_i_1,INTERRUPT STATUS REGISTER - Context This register regroups all the events related to Context"
bitfld.long 0x10 8. "ECC_CORRECTION_IRQ,Context - ECC has been used to do the correction of the only 1-bit error status (long packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x10 7. "LINE_NUMBER_IRQ,Context - Line number reached status" "LINE_NUMBER_IRQ_0,LINE_NUMBER_IRQ_1"
newline
bitfld.long 0x10 6. "FRAME_NUMBER_IRQ,Context - Frame counter reached status" "FRAME_NUMBER_IRQ_0,FRAME_NUMBER_IRQ_1"
bitfld.long 0x10 5. "CS_IRQ,Context - Check-Sum mismatch status" "CS_IRQ_0,CS_IRQ_1"
newline
bitfld.long 0x10 3. "LE_IRQ,Context - Line end sync code detection status" "LE_IRQ_0,LE_IRQ_1"
bitfld.long 0x10 2. "LS_IRQ,Context - Line start sync code detection status" "LS_IRQ_0,LS_IRQ_1"
newline
bitfld.long 0x10 1. "FE_IRQ,Context - Frame end sync code detection status" "FE_IRQ_0,FE_IRQ_1"
bitfld.long 0x10 0. "FS_IRQ,Context - Frame start sync code detection status" "FS_IRQ_0,FS_IRQ_1"
tree.end
tree "CTX_Line_2"
group.long 0xB0++0x07
line.long 0x00 "CSI2_CTX_CTRL1_i_2,CONTROL REGISTER - Context This register controls the Context"
bitfld.long 0x00 31. "BYTESWAP,Allows swapping bytes two by two in the payload data" "BYTESWAP_0,BYTESWAP_1"
bitfld.long 0x00 30. "GENERIC,Enables the generic mode" "GENERIC_0,GENERIC_1"
newline
bitfld.long 0x00 28. "HSCALE,Enable horizontal downscaling by a factor of two" "Disable,Enable"
bitfld.long 0x00 24.--27. "TRANSCODE,Enables image transcoding" "TRANSCODE_0,TRANSCODE_1,TRANSCODE_2,TRANSCODE_3,TRANSCODE_4,TRANSCODE_5,TRANSCODE_6,TRANSCODE_7,TRANSCODE_8,TRANSCODE_9,?,?,?,?,?,?"
newline
hexmask.long.byte 0x00 16.--23. 1. "FEC_NUMBER,Number of FEC to receive between using swap of CSI2_CTX_DAT_PING_ADDR and CSI2_CTX_DAT_PONG_ADDR for the calculation of the address in memory (must be used only in interlace mode otherwise set to 1)"
abitfld.long 0x00 8.--15. "COUNT,Sets the number of frame to acquire" "0x00=Infinite number of frames (no count),0x01=1 frame to acquire,0xFF=255 frames to acquire"
newline
bitfld.long 0x00 7. "EOF_EN,Indicates if the end of frame signal shall be asserted at the end of the line" "EOF_EN_0_r,EOF_EN_1_r"
bitfld.long 0x00 6. "EOL_EN,Indicates if the end of line signal shall be asserted at the end of the line" "EOL_EN_0_r,EOL_EN_1_r"
newline
bitfld.long 0x00 5. "CS_EN,Enables the checksum check for the received payload (long packet only)" "CS_EN_0,CS_EN_1"
bitfld.long 0x00 4. "COUNT_UNLOCK,Unlock writes to the COUNT bit field" "COUNT_UNLOCK_0_w,COUNT_UNLOCK_1_w"
newline
rbitfld.long 0x00 3. "PING_PONG,Indicates whether the PING or PONG destination address (CSI2_CTX_DAT_PING_ADDR or CSI2_CTX_DAT_PONG_ADDR) was used to write the last frame" "PING_PONG_0_r,PING_PONG_1_r"
bitfld.long 0x00 2. "VP_FORCE,Forces sending of the data to both VPORT and OCP" "VP_FORCE_0,VP_FORCE_1"
newline
bitfld.long 0x00 1. "LINE_MODULO,Line modulo configuration" "LINE_MODULO_0,LINE_MODULO_1"
bitfld.long 0x00 0. "CTX_EN,Enables the context" "CTX_EN_0,CTX_EN_1"
line.long 0x04 "CSI2_CTX_CTRL2_i_2,CONTROL REGISTER - Context This register controls the Context"
hexmask.long.word 0x04 16.--31. 1. "FRAME,Frame number received"
bitfld.long 0x04 13.--14. "USER_DEF_MAPPING,Selects the pixel format of USER_DEFINED in FORMAT" "USER_DEF_MAPPING_0,USER_DEF_MAPPING_1,USER_DEF_MAPPING_2,?"
newline
bitfld.long 0x04 11.--12. "VIRTUAL_ID,Virtual channel ID" "VIRTUAL_ID_0,VIRTUAL_ID_1,VIRTUAL_ID_2,VIRTUAL_ID_3"
bitfld.long 0x04 10. "DPCM_PRED,Selects the DPCM predictor" "DPCM_PRED_0,DPCM_PRED_1"
newline
hexmask.long.word 0x04 0.--9. 1. "FORMAT,Data format selection"
group.long 0xCC++0x03
line.long 0x00 "CSI2_CTX_CTRL3_i_2,CONTROL REGISTER - Context This register controls the Context"
hexmask.long.word 0x00 16.--29. 1. "ALPHA,Alpha value for RGB888 RGB666 and RBG444"
hexmask.long.word 0x00 0.--15. 1. "LINE_NUMBER,Line number for the interrupt generation"
group.long 0xB8++0x13
line.long 0x00 "CSI2_CTX_DAT_OFST_i_2,DATA MEM ADDRESS OFFSET REGISTER - Context This register sets the offset. which is applied on the destination address after each line is written to memory"
hexmask.long.word 0x00 5.--16. 1. "OFST,Line offset programmed in bytes (signed value 2s complement)"
line.long 0x04 "CSI2_CTX_DAT_PING_ADDR_i_2,DATA MEM PING ADDRESS REGISTER - Context This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x04 5.--31. 1. "ADDR,27 most-significant bits of the 32-bit address"
line.long 0x08 "CSI2_CTX_DAT_PONG_ADDR_i_2,DATA MEM PONG ADDRESS REGISTER - Context This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x08 5.--31. 1. "ADDR,27 most-significant bits of the 32-bit address"
line.long 0x0C "CSI2_CTX_IRQENABLE_i_2,INTERRUPT ENABLE REGISTER - Context This register regroups all the events related to context"
bitfld.long 0x0C 8. "ECC_CORRECTION_IRQ,Context - ECC has been used to correct the only 1-bit error (long packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x0C 7. "LINE_NUMBER_IRQ,Context - Line number is reached" "LINE_NUMBER_IRQ_0,LINE_NUMBER_IRQ_1"
newline
bitfld.long 0x0C 6. "FRAME_NUMBER_IRQ,Context - Frame counter reached" "FRAME_NUMBER_IRQ_0,FRAME_NUMBER_IRQ_1"
bitfld.long 0x0C 5. "CS_IRQ,Context - Check-Sum of the payload mismatch detection" "CS_IRQ_0,CS_IRQ_1"
newline
bitfld.long 0x0C 3. "LE_IRQ,Context - Line end sync code detection" "LE_IRQ_0,LE_IRQ_1"
bitfld.long 0x0C 2. "LS_IRQ,Context - Line start sync code detection" "LS_IRQ_0,LS_IRQ_1"
newline
bitfld.long 0x0C 1. "FE_IRQ,Context - Frame end sync code detection" "FE_IRQ_0,FE_IRQ_1"
bitfld.long 0x0C 0. "FS_IRQ,Context - Frame start sync code detection" "FS_IRQ_0,FS_IRQ_1"
line.long 0x10 "CSI2_CTX_IRQSTATUS_i_2,INTERRUPT STATUS REGISTER - Context This register regroups all the events related to Context"
bitfld.long 0x10 8. "ECC_CORRECTION_IRQ,Context - ECC has been used to do the correction of the only 1-bit error status (long packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x10 7. "LINE_NUMBER_IRQ,Context - Line number reached status" "LINE_NUMBER_IRQ_0,LINE_NUMBER_IRQ_1"
newline
bitfld.long 0x10 6. "FRAME_NUMBER_IRQ,Context - Frame counter reached status" "FRAME_NUMBER_IRQ_0,FRAME_NUMBER_IRQ_1"
bitfld.long 0x10 5. "CS_IRQ,Context - Check-Sum mismatch status" "CS_IRQ_0,CS_IRQ_1"
newline
bitfld.long 0x10 3. "LE_IRQ,Context - Line end sync code detection status" "LE_IRQ_0,LE_IRQ_1"
bitfld.long 0x10 2. "LS_IRQ,Context - Line start sync code detection status" "LS_IRQ_0,LS_IRQ_1"
newline
bitfld.long 0x10 1. "FE_IRQ,Context - Frame end sync code detection status" "FE_IRQ_0,FE_IRQ_1"
bitfld.long 0x10 0. "FS_IRQ,Context - Frame start sync code detection status" "FS_IRQ_0,FS_IRQ_1"
tree.end
tree "CTX_Line_3"
group.long 0xD0++0x07
line.long 0x00 "CSI2_CTX_CTRL1_i_3,CONTROL REGISTER - Context This register controls the Context"
bitfld.long 0x00 31. "BYTESWAP,Allows swapping bytes two by two in the payload data" "BYTESWAP_0,BYTESWAP_1"
bitfld.long 0x00 30. "GENERIC,Enables the generic mode" "GENERIC_0,GENERIC_1"
newline
bitfld.long 0x00 28. "HSCALE,Enable horizontal downscaling by a factor of two" "Disable,Enable"
bitfld.long 0x00 24.--27. "TRANSCODE,Enables image transcoding" "TRANSCODE_0,TRANSCODE_1,TRANSCODE_2,TRANSCODE_3,TRANSCODE_4,TRANSCODE_5,TRANSCODE_6,TRANSCODE_7,TRANSCODE_8,TRANSCODE_9,?,?,?,?,?,?"
newline
hexmask.long.byte 0x00 16.--23. 1. "FEC_NUMBER,Number of FEC to receive between using swap of CSI2_CTX_DAT_PING_ADDR and CSI2_CTX_DAT_PONG_ADDR for the calculation of the address in memory (must be used only in interlace mode otherwise set to 1)"
abitfld.long 0x00 8.--15. "COUNT,Sets the number of frame to acquire" "0x00=Infinite number of frames (no count),0x01=1 frame to acquire,0xFF=255 frames to acquire"
newline
bitfld.long 0x00 7. "EOF_EN,Indicates if the end of frame signal shall be asserted at the end of the line" "EOF_EN_0_r,EOF_EN_1_r"
bitfld.long 0x00 6. "EOL_EN,Indicates if the end of line signal shall be asserted at the end of the line" "EOL_EN_0_r,EOL_EN_1_r"
newline
bitfld.long 0x00 5. "CS_EN,Enables the checksum check for the received payload (long packet only)" "CS_EN_0,CS_EN_1"
bitfld.long 0x00 4. "COUNT_UNLOCK,Unlock writes to the COUNT bit field" "COUNT_UNLOCK_0_w,COUNT_UNLOCK_1_w"
newline
rbitfld.long 0x00 3. "PING_PONG,Indicates whether the PING or PONG destination address (CSI2_CTX_DAT_PING_ADDR or CSI2_CTX_DAT_PONG_ADDR) was used to write the last frame" "PING_PONG_0_r,PING_PONG_1_r"
bitfld.long 0x00 2. "VP_FORCE,Forces sending of the data to both VPORT and OCP" "VP_FORCE_0,VP_FORCE_1"
newline
bitfld.long 0x00 1. "LINE_MODULO,Line modulo configuration" "LINE_MODULO_0,LINE_MODULO_1"
bitfld.long 0x00 0. "CTX_EN,Enables the context" "CTX_EN_0,CTX_EN_1"
line.long 0x04 "CSI2_CTX_CTRL2_i_3,CONTROL REGISTER - Context This register controls the Context"
hexmask.long.word 0x04 16.--31. 1. "FRAME,Frame number received"
bitfld.long 0x04 13.--14. "USER_DEF_MAPPING,Selects the pixel format of USER_DEFINED in FORMAT" "USER_DEF_MAPPING_0,USER_DEF_MAPPING_1,USER_DEF_MAPPING_2,?"
newline
bitfld.long 0x04 11.--12. "VIRTUAL_ID,Virtual channel ID" "VIRTUAL_ID_0,VIRTUAL_ID_1,VIRTUAL_ID_2,VIRTUAL_ID_3"
bitfld.long 0x04 10. "DPCM_PRED,Selects the DPCM predictor" "DPCM_PRED_0,DPCM_PRED_1"
newline
hexmask.long.word 0x04 0.--9. 1. "FORMAT,Data format selection"
group.long 0xEC++0x03
line.long 0x00 "CSI2_CTX_CTRL3_i_3,CONTROL REGISTER - Context This register controls the Context"
hexmask.long.word 0x00 16.--29. 1. "ALPHA,Alpha value for RGB888 RGB666 and RBG444"
hexmask.long.word 0x00 0.--15. 1. "LINE_NUMBER,Line number for the interrupt generation"
group.long 0xD8++0x13
line.long 0x00 "CSI2_CTX_DAT_OFST_i_3,DATA MEM ADDRESS OFFSET REGISTER - Context This register sets the offset. which is applied on the destination address after each line is written to memory"
hexmask.long.word 0x00 5.--16. 1. "OFST,Line offset programmed in bytes (signed value 2s complement)"
line.long 0x04 "CSI2_CTX_DAT_PING_ADDR_i_3,DATA MEM PING ADDRESS REGISTER - Context This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x04 5.--31. 1. "ADDR,27 most-significant bits of the 32-bit address"
line.long 0x08 "CSI2_CTX_DAT_PONG_ADDR_i_3,DATA MEM PONG ADDRESS REGISTER - Context This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x08 5.--31. 1. "ADDR,27 most-significant bits of the 32-bit address"
line.long 0x0C "CSI2_CTX_IRQENABLE_i_3,INTERRUPT ENABLE REGISTER - Context This register regroups all the events related to context"
bitfld.long 0x0C 8. "ECC_CORRECTION_IRQ,Context - ECC has been used to correct the only 1-bit error (long packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x0C 7. "LINE_NUMBER_IRQ,Context - Line number is reached" "LINE_NUMBER_IRQ_0,LINE_NUMBER_IRQ_1"
newline
bitfld.long 0x0C 6. "FRAME_NUMBER_IRQ,Context - Frame counter reached" "FRAME_NUMBER_IRQ_0,FRAME_NUMBER_IRQ_1"
bitfld.long 0x0C 5. "CS_IRQ,Context - Check-Sum of the payload mismatch detection" "CS_IRQ_0,CS_IRQ_1"
newline
bitfld.long 0x0C 3. "LE_IRQ,Context - Line end sync code detection" "LE_IRQ_0,LE_IRQ_1"
bitfld.long 0x0C 2. "LS_IRQ,Context - Line start sync code detection" "LS_IRQ_0,LS_IRQ_1"
newline
bitfld.long 0x0C 1. "FE_IRQ,Context - Frame end sync code detection" "FE_IRQ_0,FE_IRQ_1"
bitfld.long 0x0C 0. "FS_IRQ,Context - Frame start sync code detection" "FS_IRQ_0,FS_IRQ_1"
line.long 0x10 "CSI2_CTX_IRQSTATUS_i_3,INTERRUPT STATUS REGISTER - Context This register regroups all the events related to Context"
bitfld.long 0x10 8. "ECC_CORRECTION_IRQ,Context - ECC has been used to do the correction of the only 1-bit error status (long packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x10 7. "LINE_NUMBER_IRQ,Context - Line number reached status" "LINE_NUMBER_IRQ_0,LINE_NUMBER_IRQ_1"
newline
bitfld.long 0x10 6. "FRAME_NUMBER_IRQ,Context - Frame counter reached status" "FRAME_NUMBER_IRQ_0,FRAME_NUMBER_IRQ_1"
bitfld.long 0x10 5. "CS_IRQ,Context - Check-Sum mismatch status" "CS_IRQ_0,CS_IRQ_1"
newline
bitfld.long 0x10 3. "LE_IRQ,Context - Line end sync code detection status" "LE_IRQ_0,LE_IRQ_1"
bitfld.long 0x10 2. "LS_IRQ,Context - Line start sync code detection status" "LS_IRQ_0,LS_IRQ_1"
newline
bitfld.long 0x10 1. "FE_IRQ,Context - Frame end sync code detection status" "FE_IRQ_0,FE_IRQ_1"
bitfld.long 0x10 0. "FS_IRQ,Context - Frame start sync code detection status" "FS_IRQ_0,FS_IRQ_1"
tree.end
tree "CTX_Line_4"
group.long 0xF0++0x07
line.long 0x00 "CSI2_CTX_CTRL1_i_4,CONTROL REGISTER - Context This register controls the Context"
bitfld.long 0x00 31. "BYTESWAP,Allows swapping bytes two by two in the payload data" "BYTESWAP_0,BYTESWAP_1"
bitfld.long 0x00 30. "GENERIC,Enables the generic mode" "GENERIC_0,GENERIC_1"
newline
bitfld.long 0x00 28. "HSCALE,Enable horizontal downscaling by a factor of two" "Disable,Enable"
bitfld.long 0x00 24.--27. "TRANSCODE,Enables image transcoding" "TRANSCODE_0,TRANSCODE_1,TRANSCODE_2,TRANSCODE_3,TRANSCODE_4,TRANSCODE_5,TRANSCODE_6,TRANSCODE_7,TRANSCODE_8,TRANSCODE_9,?,?,?,?,?,?"
newline
hexmask.long.byte 0x00 16.--23. 1. "FEC_NUMBER,Number of FEC to receive between using swap of CSI2_CTX_DAT_PING_ADDR and CSI2_CTX_DAT_PONG_ADDR for the calculation of the address in memory (must be used only in interlace mode otherwise set to 1)"
abitfld.long 0x00 8.--15. "COUNT,Sets the number of frame to acquire" "0x00=Infinite number of frames (no count),0x01=1 frame to acquire,0xFF=255 frames to acquire"
newline
bitfld.long 0x00 7. "EOF_EN,Indicates if the end of frame signal shall be asserted at the end of the line" "EOF_EN_0_r,EOF_EN_1_r"
bitfld.long 0x00 6. "EOL_EN,Indicates if the end of line signal shall be asserted at the end of the line" "EOL_EN_0_r,EOL_EN_1_r"
newline
bitfld.long 0x00 5. "CS_EN,Enables the checksum check for the received payload (long packet only)" "CS_EN_0,CS_EN_1"
bitfld.long 0x00 4. "COUNT_UNLOCK,Unlock writes to the COUNT bit field" "COUNT_UNLOCK_0_w,COUNT_UNLOCK_1_w"
newline
rbitfld.long 0x00 3. "PING_PONG,Indicates whether the PING or PONG destination address (CSI2_CTX_DAT_PING_ADDR or CSI2_CTX_DAT_PONG_ADDR) was used to write the last frame" "PING_PONG_0_r,PING_PONG_1_r"
bitfld.long 0x00 2. "VP_FORCE,Forces sending of the data to both VPORT and OCP" "VP_FORCE_0,VP_FORCE_1"
newline
bitfld.long 0x00 1. "LINE_MODULO,Line modulo configuration" "LINE_MODULO_0,LINE_MODULO_1"
bitfld.long 0x00 0. "CTX_EN,Enables the context" "CTX_EN_0,CTX_EN_1"
line.long 0x04 "CSI2_CTX_CTRL2_i_4,CONTROL REGISTER - Context This register controls the Context"
hexmask.long.word 0x04 16.--31. 1. "FRAME,Frame number received"
bitfld.long 0x04 13.--14. "USER_DEF_MAPPING,Selects the pixel format of USER_DEFINED in FORMAT" "USER_DEF_MAPPING_0,USER_DEF_MAPPING_1,USER_DEF_MAPPING_2,?"
newline
bitfld.long 0x04 11.--12. "VIRTUAL_ID,Virtual channel ID" "VIRTUAL_ID_0,VIRTUAL_ID_1,VIRTUAL_ID_2,VIRTUAL_ID_3"
bitfld.long 0x04 10. "DPCM_PRED,Selects the DPCM predictor" "DPCM_PRED_0,DPCM_PRED_1"
newline
hexmask.long.word 0x04 0.--9. 1. "FORMAT,Data format selection"
group.long 0x10C++0x03
line.long 0x00 "CSI2_CTX_CTRL3_i_4,CONTROL REGISTER - Context This register controls the Context"
hexmask.long.word 0x00 16.--29. 1. "ALPHA,Alpha value for RGB888 RGB666 and RBG444"
hexmask.long.word 0x00 0.--15. 1. "LINE_NUMBER,Line number for the interrupt generation"
group.long 0xF8++0x13
line.long 0x00 "CSI2_CTX_DAT_OFST_i_4,DATA MEM ADDRESS OFFSET REGISTER - Context This register sets the offset. which is applied on the destination address after each line is written to memory"
hexmask.long.word 0x00 5.--16. 1. "OFST,Line offset programmed in bytes (signed value 2s complement)"
line.long 0x04 "CSI2_CTX_DAT_PING_ADDR_i_4,DATA MEM PING ADDRESS REGISTER - Context This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x04 5.--31. 1. "ADDR,27 most-significant bits of the 32-bit address"
line.long 0x08 "CSI2_CTX_DAT_PONG_ADDR_i_4,DATA MEM PONG ADDRESS REGISTER - Context This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x08 5.--31. 1. "ADDR,27 most-significant bits of the 32-bit address"
line.long 0x0C "CSI2_CTX_IRQENABLE_i_4,INTERRUPT ENABLE REGISTER - Context This register regroups all the events related to context"
bitfld.long 0x0C 8. "ECC_CORRECTION_IRQ,Context - ECC has been used to correct the only 1-bit error (long packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x0C 7. "LINE_NUMBER_IRQ,Context - Line number is reached" "LINE_NUMBER_IRQ_0,LINE_NUMBER_IRQ_1"
newline
bitfld.long 0x0C 6. "FRAME_NUMBER_IRQ,Context - Frame counter reached" "FRAME_NUMBER_IRQ_0,FRAME_NUMBER_IRQ_1"
bitfld.long 0x0C 5. "CS_IRQ,Context - Check-Sum of the payload mismatch detection" "CS_IRQ_0,CS_IRQ_1"
newline
bitfld.long 0x0C 3. "LE_IRQ,Context - Line end sync code detection" "LE_IRQ_0,LE_IRQ_1"
bitfld.long 0x0C 2. "LS_IRQ,Context - Line start sync code detection" "LS_IRQ_0,LS_IRQ_1"
newline
bitfld.long 0x0C 1. "FE_IRQ,Context - Frame end sync code detection" "FE_IRQ_0,FE_IRQ_1"
bitfld.long 0x0C 0. "FS_IRQ,Context - Frame start sync code detection" "FS_IRQ_0,FS_IRQ_1"
line.long 0x10 "CSI2_CTX_IRQSTATUS_i_4,INTERRUPT STATUS REGISTER - Context This register regroups all the events related to Context"
bitfld.long 0x10 8. "ECC_CORRECTION_IRQ,Context - ECC has been used to do the correction of the only 1-bit error status (long packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x10 7. "LINE_NUMBER_IRQ,Context - Line number reached status" "LINE_NUMBER_IRQ_0,LINE_NUMBER_IRQ_1"
newline
bitfld.long 0x10 6. "FRAME_NUMBER_IRQ,Context - Frame counter reached status" "FRAME_NUMBER_IRQ_0,FRAME_NUMBER_IRQ_1"
bitfld.long 0x10 5. "CS_IRQ,Context - Check-Sum mismatch status" "CS_IRQ_0,CS_IRQ_1"
newline
bitfld.long 0x10 3. "LE_IRQ,Context - Line end sync code detection status" "LE_IRQ_0,LE_IRQ_1"
bitfld.long 0x10 2. "LS_IRQ,Context - Line start sync code detection status" "LS_IRQ_0,LS_IRQ_1"
newline
bitfld.long 0x10 1. "FE_IRQ,Context - Frame end sync code detection status" "FE_IRQ_0,FE_IRQ_1"
bitfld.long 0x10 0. "FS_IRQ,Context - Frame start sync code detection status" "FS_IRQ_0,FS_IRQ_1"
tree.end
tree "CTX_Line_5"
group.long 0x110++0x07
line.long 0x00 "CSI2_CTX_CTRL1_i_5,CONTROL REGISTER - Context This register controls the Context"
bitfld.long 0x00 31. "BYTESWAP,Allows swapping bytes two by two in the payload data" "BYTESWAP_0,BYTESWAP_1"
bitfld.long 0x00 30. "GENERIC,Enables the generic mode" "GENERIC_0,GENERIC_1"
newline
bitfld.long 0x00 28. "HSCALE,Enable horizontal downscaling by a factor of two" "Disable,Enable"
bitfld.long 0x00 24.--27. "TRANSCODE,Enables image transcoding" "TRANSCODE_0,TRANSCODE_1,TRANSCODE_2,TRANSCODE_3,TRANSCODE_4,TRANSCODE_5,TRANSCODE_6,TRANSCODE_7,TRANSCODE_8,TRANSCODE_9,?,?,?,?,?,?"
newline
hexmask.long.byte 0x00 16.--23. 1. "FEC_NUMBER,Number of FEC to receive between using swap of CSI2_CTX_DAT_PING_ADDR and CSI2_CTX_DAT_PONG_ADDR for the calculation of the address in memory (must be used only in interlace mode otherwise set to 1)"
abitfld.long 0x00 8.--15. "COUNT,Sets the number of frame to acquire" "0x00=Infinite number of frames (no count),0x01=1 frame to acquire,0xFF=255 frames to acquire"
newline
bitfld.long 0x00 7. "EOF_EN,Indicates if the end of frame signal shall be asserted at the end of the line" "EOF_EN_0_r,EOF_EN_1_r"
bitfld.long 0x00 6. "EOL_EN,Indicates if the end of line signal shall be asserted at the end of the line" "EOL_EN_0_r,EOL_EN_1_r"
newline
bitfld.long 0x00 5. "CS_EN,Enables the checksum check for the received payload (long packet only)" "CS_EN_0,CS_EN_1"
bitfld.long 0x00 4. "COUNT_UNLOCK,Unlock writes to the COUNT bit field" "COUNT_UNLOCK_0_w,COUNT_UNLOCK_1_w"
newline
rbitfld.long 0x00 3. "PING_PONG,Indicates whether the PING or PONG destination address (CSI2_CTX_DAT_PING_ADDR or CSI2_CTX_DAT_PONG_ADDR) was used to write the last frame" "PING_PONG_0_r,PING_PONG_1_r"
bitfld.long 0x00 2. "VP_FORCE,Forces sending of the data to both VPORT and OCP" "VP_FORCE_0,VP_FORCE_1"
newline
bitfld.long 0x00 1. "LINE_MODULO,Line modulo configuration" "LINE_MODULO_0,LINE_MODULO_1"
bitfld.long 0x00 0. "CTX_EN,Enables the context" "CTX_EN_0,CTX_EN_1"
line.long 0x04 "CSI2_CTX_CTRL2_i_5,CONTROL REGISTER - Context This register controls the Context"
hexmask.long.word 0x04 16.--31. 1. "FRAME,Frame number received"
bitfld.long 0x04 13.--14. "USER_DEF_MAPPING,Selects the pixel format of USER_DEFINED in FORMAT" "USER_DEF_MAPPING_0,USER_DEF_MAPPING_1,USER_DEF_MAPPING_2,?"
newline
bitfld.long 0x04 11.--12. "VIRTUAL_ID,Virtual channel ID" "VIRTUAL_ID_0,VIRTUAL_ID_1,VIRTUAL_ID_2,VIRTUAL_ID_3"
bitfld.long 0x04 10. "DPCM_PRED,Selects the DPCM predictor" "DPCM_PRED_0,DPCM_PRED_1"
newline
hexmask.long.word 0x04 0.--9. 1. "FORMAT,Data format selection"
group.long 0x12C++0x03
line.long 0x00 "CSI2_CTX_CTRL3_i_5,CONTROL REGISTER - Context This register controls the Context"
hexmask.long.word 0x00 16.--29. 1. "ALPHA,Alpha value for RGB888 RGB666 and RBG444"
hexmask.long.word 0x00 0.--15. 1. "LINE_NUMBER,Line number for the interrupt generation"
group.long 0x118++0x13
line.long 0x00 "CSI2_CTX_DAT_OFST_i_5,DATA MEM ADDRESS OFFSET REGISTER - Context This register sets the offset. which is applied on the destination address after each line is written to memory"
hexmask.long.word 0x00 5.--16. 1. "OFST,Line offset programmed in bytes (signed value 2s complement)"
line.long 0x04 "CSI2_CTX_DAT_PING_ADDR_i_5,DATA MEM PING ADDRESS REGISTER - Context This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x04 5.--31. 1. "ADDR,27 most-significant bits of the 32-bit address"
line.long 0x08 "CSI2_CTX_DAT_PONG_ADDR_i_5,DATA MEM PONG ADDRESS REGISTER - Context This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x08 5.--31. 1. "ADDR,27 most-significant bits of the 32-bit address"
line.long 0x0C "CSI2_CTX_IRQENABLE_i_5,INTERRUPT ENABLE REGISTER - Context This register regroups all the events related to context"
bitfld.long 0x0C 8. "ECC_CORRECTION_IRQ,Context - ECC has been used to correct the only 1-bit error (long packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x0C 7. "LINE_NUMBER_IRQ,Context - Line number is reached" "LINE_NUMBER_IRQ_0,LINE_NUMBER_IRQ_1"
newline
bitfld.long 0x0C 6. "FRAME_NUMBER_IRQ,Context - Frame counter reached" "FRAME_NUMBER_IRQ_0,FRAME_NUMBER_IRQ_1"
bitfld.long 0x0C 5. "CS_IRQ,Context - Check-Sum of the payload mismatch detection" "CS_IRQ_0,CS_IRQ_1"
newline
bitfld.long 0x0C 3. "LE_IRQ,Context - Line end sync code detection" "LE_IRQ_0,LE_IRQ_1"
bitfld.long 0x0C 2. "LS_IRQ,Context - Line start sync code detection" "LS_IRQ_0,LS_IRQ_1"
newline
bitfld.long 0x0C 1. "FE_IRQ,Context - Frame end sync code detection" "FE_IRQ_0,FE_IRQ_1"
bitfld.long 0x0C 0. "FS_IRQ,Context - Frame start sync code detection" "FS_IRQ_0,FS_IRQ_1"
line.long 0x10 "CSI2_CTX_IRQSTATUS_i_5,INTERRUPT STATUS REGISTER - Context This register regroups all the events related to Context"
bitfld.long 0x10 8. "ECC_CORRECTION_IRQ,Context - ECC has been used to do the correction of the only 1-bit error status (long packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x10 7. "LINE_NUMBER_IRQ,Context - Line number reached status" "LINE_NUMBER_IRQ_0,LINE_NUMBER_IRQ_1"
newline
bitfld.long 0x10 6. "FRAME_NUMBER_IRQ,Context - Frame counter reached status" "FRAME_NUMBER_IRQ_0,FRAME_NUMBER_IRQ_1"
bitfld.long 0x10 5. "CS_IRQ,Context - Check-Sum mismatch status" "CS_IRQ_0,CS_IRQ_1"
newline
bitfld.long 0x10 3. "LE_IRQ,Context - Line end sync code detection status" "LE_IRQ_0,LE_IRQ_1"
bitfld.long 0x10 2. "LS_IRQ,Context - Line start sync code detection status" "LS_IRQ_0,LS_IRQ_1"
newline
bitfld.long 0x10 1. "FE_IRQ,Context - Frame end sync code detection status" "FE_IRQ_0,FE_IRQ_1"
bitfld.long 0x10 0. "FS_IRQ,Context - Frame start sync code detection status" "FS_IRQ_0,FS_IRQ_1"
tree.end
tree "CTX_Line_6"
group.long 0x130++0x07
line.long 0x00 "CSI2_CTX_CTRL1_i_6,CONTROL REGISTER - Context This register controls the Context"
bitfld.long 0x00 31. "BYTESWAP,Allows swapping bytes two by two in the payload data" "BYTESWAP_0,BYTESWAP_1"
bitfld.long 0x00 30. "GENERIC,Enables the generic mode" "GENERIC_0,GENERIC_1"
newline
bitfld.long 0x00 28. "HSCALE,Enable horizontal downscaling by a factor of two" "Disable,Enable"
bitfld.long 0x00 24.--27. "TRANSCODE,Enables image transcoding" "TRANSCODE_0,TRANSCODE_1,TRANSCODE_2,TRANSCODE_3,TRANSCODE_4,TRANSCODE_5,TRANSCODE_6,TRANSCODE_7,TRANSCODE_8,TRANSCODE_9,?,?,?,?,?,?"
newline
hexmask.long.byte 0x00 16.--23. 1. "FEC_NUMBER,Number of FEC to receive between using swap of CSI2_CTX_DAT_PING_ADDR and CSI2_CTX_DAT_PONG_ADDR for the calculation of the address in memory (must be used only in interlace mode otherwise set to 1)"
abitfld.long 0x00 8.--15. "COUNT,Sets the number of frame to acquire" "0x00=Infinite number of frames (no count),0x01=1 frame to acquire,0xFF=255 frames to acquire"
newline
bitfld.long 0x00 7. "EOF_EN,Indicates if the end of frame signal shall be asserted at the end of the line" "EOF_EN_0_r,EOF_EN_1_r"
bitfld.long 0x00 6. "EOL_EN,Indicates if the end of line signal shall be asserted at the end of the line" "EOL_EN_0_r,EOL_EN_1_r"
newline
bitfld.long 0x00 5. "CS_EN,Enables the checksum check for the received payload (long packet only)" "CS_EN_0,CS_EN_1"
bitfld.long 0x00 4. "COUNT_UNLOCK,Unlock writes to the COUNT bit field" "COUNT_UNLOCK_0_w,COUNT_UNLOCK_1_w"
newline
rbitfld.long 0x00 3. "PING_PONG,Indicates whether the PING or PONG destination address (CSI2_CTX_DAT_PING_ADDR or CSI2_CTX_DAT_PONG_ADDR) was used to write the last frame" "PING_PONG_0_r,PING_PONG_1_r"
bitfld.long 0x00 2. "VP_FORCE,Forces sending of the data to both VPORT and OCP" "VP_FORCE_0,VP_FORCE_1"
newline
bitfld.long 0x00 1. "LINE_MODULO,Line modulo configuration" "LINE_MODULO_0,LINE_MODULO_1"
bitfld.long 0x00 0. "CTX_EN,Enables the context" "CTX_EN_0,CTX_EN_1"
line.long 0x04 "CSI2_CTX_CTRL2_i_6,CONTROL REGISTER - Context This register controls the Context"
hexmask.long.word 0x04 16.--31. 1. "FRAME,Frame number received"
bitfld.long 0x04 13.--14. "USER_DEF_MAPPING,Selects the pixel format of USER_DEFINED in FORMAT" "USER_DEF_MAPPING_0,USER_DEF_MAPPING_1,USER_DEF_MAPPING_2,?"
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bitfld.long 0x04 11.--12. "VIRTUAL_ID,Virtual channel ID" "VIRTUAL_ID_0,VIRTUAL_ID_1,VIRTUAL_ID_2,VIRTUAL_ID_3"
bitfld.long 0x04 10. "DPCM_PRED,Selects the DPCM predictor" "DPCM_PRED_0,DPCM_PRED_1"
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hexmask.long.word 0x04 0.--9. 1. "FORMAT,Data format selection"
group.long 0x14C++0x03
line.long 0x00 "CSI2_CTX_CTRL3_i_6,CONTROL REGISTER - Context This register controls the Context"
hexmask.long.word 0x00 16.--29. 1. "ALPHA,Alpha value for RGB888 RGB666 and RBG444"
hexmask.long.word 0x00 0.--15. 1. "LINE_NUMBER,Line number for the interrupt generation"
group.long 0x138++0x13
line.long 0x00 "CSI2_CTX_DAT_OFST_i_6,DATA MEM ADDRESS OFFSET REGISTER - Context This register sets the offset. which is applied on the destination address after each line is written to memory"
hexmask.long.word 0x00 5.--16. 1. "OFST,Line offset programmed in bytes (signed value 2s complement)"
line.long 0x04 "CSI2_CTX_DAT_PING_ADDR_i_6,DATA MEM PING ADDRESS REGISTER - Context This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x04 5.--31. 1. "ADDR,27 most-significant bits of the 32-bit address"
line.long 0x08 "CSI2_CTX_DAT_PONG_ADDR_i_6,DATA MEM PONG ADDRESS REGISTER - Context This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x08 5.--31. 1. "ADDR,27 most-significant bits of the 32-bit address"
line.long 0x0C "CSI2_CTX_IRQENABLE_i_6,INTERRUPT ENABLE REGISTER - Context This register regroups all the events related to context"
bitfld.long 0x0C 8. "ECC_CORRECTION_IRQ,Context - ECC has been used to correct the only 1-bit error (long packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x0C 7. "LINE_NUMBER_IRQ,Context - Line number is reached" "LINE_NUMBER_IRQ_0,LINE_NUMBER_IRQ_1"
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bitfld.long 0x0C 6. "FRAME_NUMBER_IRQ,Context - Frame counter reached" "FRAME_NUMBER_IRQ_0,FRAME_NUMBER_IRQ_1"
bitfld.long 0x0C 5. "CS_IRQ,Context - Check-Sum of the payload mismatch detection" "CS_IRQ_0,CS_IRQ_1"
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bitfld.long 0x0C 3. "LE_IRQ,Context - Line end sync code detection" "LE_IRQ_0,LE_IRQ_1"
bitfld.long 0x0C 2. "LS_IRQ,Context - Line start sync code detection" "LS_IRQ_0,LS_IRQ_1"
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bitfld.long 0x0C 1. "FE_IRQ,Context - Frame end sync code detection" "FE_IRQ_0,FE_IRQ_1"
bitfld.long 0x0C 0. "FS_IRQ,Context - Frame start sync code detection" "FS_IRQ_0,FS_IRQ_1"
line.long 0x10 "CSI2_CTX_IRQSTATUS_i_6,INTERRUPT STATUS REGISTER - Context This register regroups all the events related to Context"
bitfld.long 0x10 8. "ECC_CORRECTION_IRQ,Context - ECC has been used to do the correction of the only 1-bit error status (long packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x10 7. "LINE_NUMBER_IRQ,Context - Line number reached status" "LINE_NUMBER_IRQ_0,LINE_NUMBER_IRQ_1"
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bitfld.long 0x10 6. "FRAME_NUMBER_IRQ,Context - Frame counter reached status" "FRAME_NUMBER_IRQ_0,FRAME_NUMBER_IRQ_1"
bitfld.long 0x10 5. "CS_IRQ,Context - Check-Sum mismatch status" "CS_IRQ_0,CS_IRQ_1"
newline
bitfld.long 0x10 3. "LE_IRQ,Context - Line end sync code detection status" "LE_IRQ_0,LE_IRQ_1"
bitfld.long 0x10 2. "LS_IRQ,Context - Line start sync code detection status" "LS_IRQ_0,LS_IRQ_1"
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bitfld.long 0x10 1. "FE_IRQ,Context - Frame end sync code detection status" "FE_IRQ_0,FE_IRQ_1"
bitfld.long 0x10 0. "FS_IRQ,Context - Frame start sync code detection status" "FS_IRQ_0,FS_IRQ_1"
tree.end
tree "CTX_Line_7"
group.long 0x150++0x07
line.long 0x00 "CSI2_CTX_CTRL1_i_7,CONTROL REGISTER - Context This register controls the Context"
bitfld.long 0x00 31. "BYTESWAP,Allows swapping bytes two by two in the payload data" "BYTESWAP_0,BYTESWAP_1"
bitfld.long 0x00 30. "GENERIC,Enables the generic mode" "GENERIC_0,GENERIC_1"
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bitfld.long 0x00 28. "HSCALE,Enable horizontal downscaling by a factor of two" "Disable,Enable"
bitfld.long 0x00 24.--27. "TRANSCODE,Enables image transcoding" "TRANSCODE_0,TRANSCODE_1,TRANSCODE_2,TRANSCODE_3,TRANSCODE_4,TRANSCODE_5,TRANSCODE_6,TRANSCODE_7,TRANSCODE_8,TRANSCODE_9,?,?,?,?,?,?"
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hexmask.long.byte 0x00 16.--23. 1. "FEC_NUMBER,Number of FEC to receive between using swap of CSI2_CTX_DAT_PING_ADDR and CSI2_CTX_DAT_PONG_ADDR for the calculation of the address in memory (must be used only in interlace mode otherwise set to 1)"
abitfld.long 0x00 8.--15. "COUNT,Sets the number of frame to acquire" "0x00=Infinite number of frames (no count),0x01=1 frame to acquire,0xFF=255 frames to acquire"
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bitfld.long 0x00 7. "EOF_EN,Indicates if the end of frame signal shall be asserted at the end of the line" "EOF_EN_0_r,EOF_EN_1_r"
bitfld.long 0x00 6. "EOL_EN,Indicates if the end of line signal shall be asserted at the end of the line" "EOL_EN_0_r,EOL_EN_1_r"
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bitfld.long 0x00 5. "CS_EN,Enables the checksum check for the received payload (long packet only)" "CS_EN_0,CS_EN_1"
bitfld.long 0x00 4. "COUNT_UNLOCK,Unlock writes to the COUNT bit field" "COUNT_UNLOCK_0_w,COUNT_UNLOCK_1_w"
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rbitfld.long 0x00 3. "PING_PONG,Indicates whether the PING or PONG destination address (CSI2_CTX_DAT_PING_ADDR or CSI2_CTX_DAT_PONG_ADDR) was used to write the last frame" "PING_PONG_0_r,PING_PONG_1_r"
bitfld.long 0x00 2. "VP_FORCE,Forces sending of the data to both VPORT and OCP" "VP_FORCE_0,VP_FORCE_1"
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bitfld.long 0x00 1. "LINE_MODULO,Line modulo configuration" "LINE_MODULO_0,LINE_MODULO_1"
bitfld.long 0x00 0. "CTX_EN,Enables the context" "CTX_EN_0,CTX_EN_1"
line.long 0x04 "CSI2_CTX_CTRL2_i_7,CONTROL REGISTER - Context This register controls the Context"
hexmask.long.word 0x04 16.--31. 1. "FRAME,Frame number received"
bitfld.long 0x04 13.--14. "USER_DEF_MAPPING,Selects the pixel format of USER_DEFINED in FORMAT" "USER_DEF_MAPPING_0,USER_DEF_MAPPING_1,USER_DEF_MAPPING_2,?"
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bitfld.long 0x04 11.--12. "VIRTUAL_ID,Virtual channel ID" "VIRTUAL_ID_0,VIRTUAL_ID_1,VIRTUAL_ID_2,VIRTUAL_ID_3"
bitfld.long 0x04 10. "DPCM_PRED,Selects the DPCM predictor" "DPCM_PRED_0,DPCM_PRED_1"
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hexmask.long.word 0x04 0.--9. 1. "FORMAT,Data format selection"
group.long 0x16C++0x03
line.long 0x00 "CSI2_CTX_CTRL3_i_7,CONTROL REGISTER - Context This register controls the Context"
hexmask.long.word 0x00 16.--29. 1. "ALPHA,Alpha value for RGB888 RGB666 and RBG444"
hexmask.long.word 0x00 0.--15. 1. "LINE_NUMBER,Line number for the interrupt generation"
group.long 0x158++0x13
line.long 0x00 "CSI2_CTX_DAT_OFST_i_7,DATA MEM ADDRESS OFFSET REGISTER - Context This register sets the offset. which is applied on the destination address after each line is written to memory"
hexmask.long.word 0x00 5.--16. 1. "OFST,Line offset programmed in bytes (signed value 2s complement)"
line.long 0x04 "CSI2_CTX_DAT_PING_ADDR_i_7,DATA MEM PING ADDRESS REGISTER - Context This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x04 5.--31. 1. "ADDR,27 most-significant bits of the 32-bit address"
line.long 0x08 "CSI2_CTX_DAT_PONG_ADDR_i_7,DATA MEM PONG ADDRESS REGISTER - Context This register sets the 32-bit memory address where the pixel data are stored"
hexmask.long 0x08 5.--31. 1. "ADDR,27 most-significant bits of the 32-bit address"
line.long 0x0C "CSI2_CTX_IRQENABLE_i_7,INTERRUPT ENABLE REGISTER - Context This register regroups all the events related to context"
bitfld.long 0x0C 8. "ECC_CORRECTION_IRQ,Context - ECC has been used to correct the only 1-bit error (long packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x0C 7. "LINE_NUMBER_IRQ,Context - Line number is reached" "LINE_NUMBER_IRQ_0,LINE_NUMBER_IRQ_1"
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bitfld.long 0x0C 6. "FRAME_NUMBER_IRQ,Context - Frame counter reached" "FRAME_NUMBER_IRQ_0,FRAME_NUMBER_IRQ_1"
bitfld.long 0x0C 5. "CS_IRQ,Context - Check-Sum of the payload mismatch detection" "CS_IRQ_0,CS_IRQ_1"
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bitfld.long 0x0C 3. "LE_IRQ,Context - Line end sync code detection" "LE_IRQ_0,LE_IRQ_1"
bitfld.long 0x0C 2. "LS_IRQ,Context - Line start sync code detection" "LS_IRQ_0,LS_IRQ_1"
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bitfld.long 0x0C 1. "FE_IRQ,Context - Frame end sync code detection" "FE_IRQ_0,FE_IRQ_1"
bitfld.long 0x0C 0. "FS_IRQ,Context - Frame start sync code detection" "FS_IRQ_0,FS_IRQ_1"
line.long 0x10 "CSI2_CTX_IRQSTATUS_i_7,INTERRUPT STATUS REGISTER - Context This register regroups all the events related to Context"
bitfld.long 0x10 8. "ECC_CORRECTION_IRQ,Context - ECC has been used to do the correction of the only 1-bit error status (long packet only)" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
bitfld.long 0x10 7. "LINE_NUMBER_IRQ,Context - Line number reached status" "LINE_NUMBER_IRQ_0,LINE_NUMBER_IRQ_1"
newline
bitfld.long 0x10 6. "FRAME_NUMBER_IRQ,Context - Frame counter reached status" "FRAME_NUMBER_IRQ_0,FRAME_NUMBER_IRQ_1"
bitfld.long 0x10 5. "CS_IRQ,Context - Check-Sum mismatch status" "CS_IRQ_0,CS_IRQ_1"
newline
bitfld.long 0x10 3. "LE_IRQ,Context - Line end sync code detection status" "LE_IRQ_0,LE_IRQ_1"
bitfld.long 0x10 2. "LS_IRQ,Context - Line start sync code detection status" "LS_IRQ_0,LS_IRQ_1"
newline
bitfld.long 0x10 1. "FE_IRQ,Context - Frame end sync code detection status" "FE_IRQ_0,FE_IRQ_1"
bitfld.long 0x10 0. "FS_IRQ,Context - Frame start sync code detection status" "FS_IRQ_0,FS_IRQ_1"
tree.end
tree.end
tree "ISS_TCTRL"
base ansd:0x52000400
rgroup.long 0x00++0x0B
line.long 0x00 "TCTRL_REVISION,IP Revision Identifier (X.Y.R) Used by software to track features. bugs. and compatibility"
line.long 0x04 "TCTRL_SYSCONFIG,OCP-SOCKET SYSTEM CONFIGURATION REGISTER"
bitfld.long 0x04 1. "SOFT_RESET,Software reset" "SOFT_RESET_0,SOFT_RESET_1"
bitfld.long 0x04 0. "AUTO_IDLE,Internal OCP and functional clock gating strategy" "AUTO_IDLE_0,AUTO_IDLE_1"
line.long 0x08 "TCTRL_SYSSTATUS,OCP-SOCKET SYSTEM STATUS REGISTER"
bitfld.long 0x08 0. "RESET_DONE,Internal reset monitoring" "RESET_DONE_0_r,RESET_DONE_1_r"
group.long 0x10++0x1B
line.long 0x00 "TCTRL_STRB_LENGTH,TIMING CONTROL - STROBE LENGTH REGISTER This register is used by the TIMING CTRL module to generate the STROBE signal"
hexmask.long.tbyte 0x00 0.--23. 1. "LENGTH,Sets the length of the CAM_STROBE signal assertion in cycles of the CNTCLK clock"
line.long 0x04 "TCTRL_PSTRB_LENGTH,TIMING CONTROL - PRESTROBE LENGTH REGISTER This register is used by the TIMING CTRL module to generate the PRESTROBE signal"
hexmask.long.tbyte 0x04 0.--23. 1. "LENGTH,Sets the length of the CAM_PRESTROBE signal assertion in cycles of the CNTCLK clock"
line.long 0x08 "TCTRL_SHUT_LENGTH,TIMING CONTROL - SHUTTER LENGTH REGISTER This register is used by the TIMING CTRL module to generate the SHUTTER signal"
hexmask.long.tbyte 0x08 0.--23. 1. "LENGTH,Sets the length of the CAM_SHUTTER signal assertion in cycles of the CNTCLK clock"
line.long 0x0C "TCTRL_GRESET_LENGTH,TIMING CONTROL - GLOBAL SHUTTER LENGTH REGISTER This register is used by the TIMING CTRL module to generate the CAM.GRESET signal"
hexmask.long.tbyte 0x0C 0.--23. 1. "LENGTH,Sets the length of the CAM_GLOBAL_RESET signal assertion in cycles of the CNTCLK clock"
line.long 0x10 "TCTRL_STRB_DELAY,TIMING CONTROL - STROBE DELAY REGISTER This register is used by the TIMING CTRL module to generate the STROBE signal"
hexmask.long 0x10 0.--24. 1. "DELAY,Sets the delay for the CAM_STROBE signal assertion in cycles of the CNTCLK clock"
line.long 0x14 "TCTRL_PSTRB_DELAY,TIMING CONTROL - PRE STROBE DELAY REGISTER This register is used by the TIMING CTRL module to generate the PRESTROBE signal"
hexmask.long 0x14 0.--24. 1. "DELAY,Sets the delay for the CAM_PSTROBE signal assertion in cycles of the CNTCLK clock"
line.long 0x18 "TCTRL_SHUT_DELAY,TIMING CONTROL - SHUTTER DELAY REGISTER This register is used by the TIMING CTRL module to generate the SHUTTER signal"
hexmask.long 0x18 0.--24. 1. "DELAY,Sets the delay for the CAM_SHUTTER signal assertion in cycles of the CNTCLK clock"
group.long 0x30++0x0B
line.long 0x00 "TCTRL_CTRL,TIMING CONTROL - CONTROL REGISTER"
bitfld.long 0x00 31. "GRESETDIR,Sets the direction of the GLOBAL_RESET signal" "INPUT - GLOBAL_RESET is an input to the TIMING..,OUTPUT - GLOBAL_RESET is an output of the TIMING.."
bitfld.long 0x00 30. "GRESETPOL,Sets the polarity of the global reset signal: CAM_GLOBAL_RESET" "active high,active low"
bitfld.long 0x00 29. "GRESETEN,Triggers the generation of the CAM_GLOBAL_RESET signal" "GRESETEN_0,GRESETEN_1"
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bitfld.long 0x00 27.--28. "INSEL,Sets the mode that will trigger the SHUTTER PRESTROBE and STROBE signals" "INSEL_0,INSEL_1,INSEL_2,INSEL_3"
bitfld.long 0x00 26. "STRBPSTRBPOL,Sets the polarity of the strobe and prestrobe signals" "STRBPSTRBPOL_0,STRBPSTRBPOL_1"
bitfld.long 0x00 24. "SHUTPOL,Sets the polarity of the mechanical shutter signal: CAM_SHUTTER" "SHUTPOL_0,SHUTPOL_1"
newline
bitfld.long 0x00 23. "STRBEN,Flash strobe signal enable" "STRBEN_0,STRBEN_1"
bitfld.long 0x00 22. "PSTRBEN,Flash prestrobe signal enable" "PSTRBEN_0,PSTRBEN_1"
bitfld.long 0x00 21. "SHUTEN,Mechanical shutter signal enable" "SHUTEN_0,SHUTEN_1"
newline
hexmask.long.word 0x00 10.--18. 1. "DIVC,Sets the clock divisor value for the CNTCLK clock generation based on the CLK input clock"
line.long 0x04 "TCTRL_PSTRB_REPLAY,TIMING CONTROL - PRESTROBE REPLAY REGISTER This register is used by the TIMING CTRL module to generate the prestrobe signal"
hexmask.long.byte 0x04 25.--31. 1. "COUNTER,Sets the number of PRESTROBE pulses after the original pulse"
hexmask.long 0x04 0.--24. 1. "DELAY,Sets the delay for the PRESTROBE signal reassertion in cycles of the CNTCLK clock"
line.long 0x08 "TCTRL_FRAME,TIMING CONTROL - FRAME REGISTER This register is used by the TIMING CTRL module to generate the SHUTTER. PRESTROBE. and STROBE signals"
bitfld.long 0x08 12.--17. "STRB,Frame counter for the STROBE signal generation" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x08 6.--11. "PSTRB,Frame counter for the PRESTROBE signal generation" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x08 0.--5. "SHUT,Frame counter for the SHUTTER signal generation" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
tree.end
tree.end
tree "ISS_ISP"
tree "ISS_H3A"
base ansd:0x52011400
rgroup.long 0x00++0x7F
line.long 0x00 "H3A_PID,Peripheral Revision and Class Information"
bitfld.long 0x00 30.--31. "SCHEME," "SCHEME_0,SCHEME_1,SCHEME_2,SCHEME_3"
hexmask.long.word 0x00 16.--27. 1. "FUNC,"
bitfld.long 0x00 11.--15. "RTL," "RTL_0,RTL_1,RTL_2,RTL_3,RTL_4,RTL_5,RTL_6,RTL_7,RTL_8,RTL_9,RTL_10,RTL_11,RTL_12,RTL_13,RTL_14,RTL_15,RTL_16,RTL_17,RTL_18,RTL_19,RTL_20,RTL_21,RTL_22,RTL_23,RTL_24,RTL_25,RTL_26,RTL_27,RTL_28,RTL_29,RTL_30,RTL_31"
bitfld.long 0x00 8.--10. "MAJOR," "MAJOR_0,MAJOR_1,MAJOR_2,MAJOR_3,MAJOR_4,MAJOR_5,MAJOR_6,MAJOR_7"
newline
bitfld.long 0x00 0.--5. "MINOR," "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
line.long 0x04 "H3A_PCR,Peripheral Control Register"
hexmask.long.word 0x04 22.--31. 1. "AVE2LMT,AE/AWB Saturation Limit This is the value that all sub sampled pixels in the AE/AWB engine are compared to"
bitfld.long 0x04 21. "OVF,H3A module overflow status bit" "OVF_0,OVF_1"
bitfld.long 0x04 20. "AF_VF_EN,AF Vertical Focus Enable" "AF_VF_EN_0,AF_VF_EN_1"
bitfld.long 0x04 19. "AEW_MED_EN,AE/AWB Median filter Enable If the median filter is enabled then the 1st 2 and last 2 pixels in the frame are not filtered" "AEW_MED_EN_0,AEW_MED_EN_1"
newline
rbitfld.long 0x04 18. "BUSYAEAWB,Busy bit for AE/AWB" "BUSYAEAWB_0,BUSYAEAWB_1"
bitfld.long 0x04 17. "AEW_ALAW_EN,AE/AWB A-law Enable" "AEW_ALAW_EN_0,AEW_ALAW_EN_1"
bitfld.long 0x04 16. "AEW_EN,AE/AWB enable" "AEW_EN_0,AEW_EN_1"
rbitfld.long 0x04 15. "BUSYAF,Busy bit for AF" "BUSYAF_0,BUSYAF_1"
newline
bitfld.long 0x04 14. "FVMODE,Focus Value Accumulation Mode" "FVMODE_0,FVMODE_1"
bitfld.long 0x04 11.--13. "RGBPOS,Red Green and blue pixel location in the AF windows RGBPOS(0): GR and GB as Bayer pattern RGBPOS(1): RG and GB as Bayer pattern RGBPOS(2): GR and BG as Bayer pattern RGBPOS(3): RG and BG as Bayer pattern RGBPOS(4): GG and RB as custom pattern.." "RGBPOS_0,RGBPOS_1,RGBPOS_2,RGBPOS_3,RGBPOS_4,RGBPOS_5,RGBPOS_6,RGBPOS_7"
hexmask.long.byte 0x04 3.--10. 1. "MED_TH,Median filter threshold"
bitfld.long 0x04 2. "AF_MED_EN,Auto Focus Median filter Enable If the median filter is enabled then the 1st 2 and last 2 pixels in the frame are not in the valid region" "AF_MED_EN_0,AF_MED_EN_1"
newline
bitfld.long 0x04 1. "AF_ALAW_EN,AF A-law table enable" "AF_ALAW_EN_0,AF_ALAW_EN_1"
bitfld.long 0x04 0. "AF_EN,AF enable" "AF_EN_0,AF_EN_1"
line.long 0x08 "H3A_AFPAX1,Setup for the AF Engine Paxel Configuration"
hexmask.long.byte 0x08 16.--23. 1. "PAXW,AF Engine Paxel Width The width of the paxel is the value of this register plus 1 multiplied by 2"
hexmask.long.byte 0x08 0.--7. 1. "PAXH,AF Engine Paxel Height The height of the paxel is the value of this register plus 1 multiplied by 2 with a final value of 2-256 (even) * This value is shadowed and latched on the rising edge of VSYNC"
line.long 0x0C "H3A_AFPAX2,Setup for the AF Engine Paxel Configuration"
bitfld.long 0x0C 17.--20. "AFINCH,AF Engine Column Increments Number of columns to increment in a paxel plus 1 multiplied by 2" "AFINCH_0,AFINCH_1,AFINCH_2,AFINCH_3,AFINCH_4,AFINCH_5,AFINCH_6,AFINCH_7,AFINCH_8,AFINCH_9,AFINCH_10,AFINCH_11,AFINCH_12,AFINCH_13,AFINCH_14,AFINCH_15"
bitfld.long 0x0C 13.--16. "AFINCV,AF Engine Line Increments Number of lines to increment in a Paxel plus 1 multiplied by 2" "AFINCV_0,AFINCV_1,AFINCV_2,AFINCV_3,AFINCV_4,AFINCV_5,AFINCV_6,AFINCV_7,AFINCV_8,AFINCV_9,AFINCV_10,AFINCV_11,AFINCV_12,AFINCV_13,AFINCV_14,AFINCV_15"
hexmask.long.byte 0x0C 6.--12. 1. "PAXVC,AF Engine Vertical Paxel Count The number of paxels in the vertical direction plus 1"
bitfld.long 0x0C 0.--5. "PAXHC,AF Engine Horizontal Paxel Count The number of paxels in the horizontal direction plus 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"
line.long 0x10 "H3A_AFPAXSTART,Start Position for AF Engine Paxels"
hexmask.long.word 0x10 16.--27. 1. "PAXSH,AF Engine Paxel Horizontal start position Range: 2-4094 PAXSH must be equal to or greater than (IIRSH + 2) This value must be even if Vertical mode is not enabled"
hexmask.long.word 0x10 0.--11. 1. "PAXSV,AF Engine Paxel Vertical start position Range: 0-4095 Sets the vertical line for the first paxel"
line.long 0x14 "H3A_AFIIRSH,Start Position for IIRSH"
hexmask.long.word 0x14 0.--11. 1. "IIRSH,AF Engine IIR Horizontal Start Position Range from 0-4094"
line.long 0x18 "H3A_AFBUFST,SDRAM destination address for AF engine statistics"
hexmask.long 0x18 5.--31. 1. "AFBUFST,SDRAM destination address for AF engine statistics The SDRAM destination address for the AF statistics"
line.long 0x1C "H3A_AFCOEF010,IIR filter coefficient data for SET 0"
hexmask.long.word 0x1C 16.--27. 1. "COEFF1,AF Engine IIR filter Coefficient #1 (Set 0) The range is signed -32 <= value <= 31 +63/64"
hexmask.long.word 0x1C 0.--11. 1. "COEFF0,AF Engine IIR filter Coefficient #0 (Set 0) The range is signed -32 <= value <= 31 +63/64"
line.long 0x20 "H3A_AFCOEF032,IIR filter coefficient data for SET 0"
hexmask.long.word 0x20 16.--27. 1. "COEFF3,AF Engine IIR filter Coefficient #3 (Set 0) The range is signed -32 <= value <= 31 +63/64"
hexmask.long.word 0x20 0.--11. 1. "COEFF2,AF Engine IIR filter Coefficient #2 (Set 0) The range is signed -32 <= value <= 31 +63/64"
line.long 0x24 "H3A_AFCOEF054,IIR filter coefficient data for SET 0"
hexmask.long.word 0x24 16.--27. 1. "COEFF5,AF Engine IIR filter Coefficient #5 (Set 0) The range is signed -32 <= value <= 31 +63/64"
hexmask.long.word 0x24 0.--11. 1. "COEFF4,AF Engine IIR filter Coefficient #4 (Set 0) The range is signed -32 <= value <= 31 +63/64"
line.long 0x28 "H3A_AFCOEF076,IIR filter coefficient data for SET 0"
hexmask.long.word 0x28 16.--27. 1. "COEFF7,AF Engine IIR filter Coefficient #7 (Set 0) The range is signed -32 <= value <= 31 +63/64"
hexmask.long.word 0x28 0.--11. 1. "COEFF6,AF Engine IIR filter Coefficient #6 (Set 0) The range is signed -32 <= value <= 31 +63/64"
line.long 0x2C "H3A_AFCOEF098,IIR filter coefficient data for SET 0"
hexmask.long.word 0x2C 16.--27. 1. "COEFF9,AF Engine IIR filter Coefficient #9 (Set 0) The range is signed -32 <= value <= 31 +63/64"
hexmask.long.word 0x2C 0.--11. 1. "COEFF8,AF Engine IIR filter Coefficient #8 (Set 0) The range is signed -32 <= value <= 31 +63/64"
line.long 0x30 "H3A_AFCOEF0010,IIR filter coefficient data for SET 0"
hexmask.long.word 0x30 0.--11. 1. "COEFF10,AF Engine IIR filter Coefficient #10 (Set 0) The range is signed -32 <= value <= 31 +63/64"
line.long 0x34 "H3A_AFCOEF110,IIR filter coefficient data for SET 1"
hexmask.long.word 0x34 16.--27. 1. "COEFF1,AF Engine IIR filter Coefficient #1 (Set 1) The range is signed -32 <= value <= 31 +63/64"
hexmask.long.word 0x34 0.--11. 1. "COEFF0,AF Engine IIR filter Coefficient #0 (Set 1) The range is signed -32 <= value <= 31 +63/64"
line.long 0x38 "H3A_AFCOEF132,IIR filter coefficient data for SET 1"
hexmask.long.word 0x38 16.--27. 1. "COEFF3,AF Engine IIR filter Coefficient #3 (Set 1) The range is signed -32 <= value <= 31 +63/64"
hexmask.long.word 0x38 0.--11. 1. "COEFF2,AF Engine IIR filter Coefficient #2 (Set 1) The range is signed -32 <= value <= 31 +63/64"
line.long 0x3C "H3A_AFCOEF154,IIR filter coefficient data for SET 1"
hexmask.long.word 0x3C 16.--27. 1. "COEFF5,AF Engine IIR filter Coefficient #5 (Set 1) The range is signed -32 <= value <= 31 +63/64"
hexmask.long.word 0x3C 0.--11. 1. "COEFF4,AF Engine IIR filter Coefficient #4 (Set 1) The range is signed -32 <= value <= 31 +63/64"
line.long 0x40 "H3A_AFCOEF176,IIR filter coefficient data for SET 1"
hexmask.long.word 0x40 16.--27. 1. "COEFF7,AF Engine IIR filter Coefficient #7 (Set 1) The range is signed -32 <= value <= 31 +63/64"
hexmask.long.word 0x40 0.--11. 1. "COEFF6,AF Engine IIR filter Coefficient #6 (Set 1) The range is signed -32 <= value <= 31 +63/64"
line.long 0x44 "H3A_AFCOEF198,IIR filter coefficient data for SET 1"
hexmask.long.word 0x44 16.--27. 1. "COEFF9,AF Engine IIR filter Coefficient #9 (Set 1) The range is signed -32 <= value <= 31 +63/64"
hexmask.long.word 0x44 0.--11. 1. "COEFF8,AF Engine IIR filter Coefficient #8 (Set 1) The range is signed -32 <= value <= 31 +63/64"
line.long 0x48 "H3A_AFCOEF1010,IIR filter coefficient data for SET 1"
hexmask.long.word 0x48 0.--11. 1. "COEFF10,AF Engine IIR filter Coefficient #10 (Set 1) The range is signed -32 <= value <= 31 +63/64"
line.long 0x4C "H3A_AEWWIN1,Configuration for AE/AWB Windows"
hexmask.long.byte 0x4C 24.--31. 1. "WINH,AE/AWB Engine Window Height This specifies the window height in an even number of pixels the window height is the value plus 1 multiplied by 2"
hexmask.long.byte 0x4C 13.--20. 1. "WINW,AE/AWB Engine Window Width This specifies the window width in an even number of pixels the window width is the value plus 1 multiplied by 2"
hexmask.long.byte 0x4C 6.--12. 1. "WINVC,AE/AWB Engine Vertical Window Count The number of windows in the vertical direction plus 1"
bitfld.long 0x4C 0.--5. "WINHC,AE/AWB Engine Horizontal Window Count The number of horizontal windows plus 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"
line.long 0x50 "H3A_AEWINSTART,Start position for AE/AWB Windows"
hexmask.long.word 0x50 16.--27. 1. "WINSV,AE/AWB Engine Vertical Window Start Position Sets the first line for the first window"
hexmask.long.word 0x50 0.--11. 1. "WINSH,AE/AWB Engine Horizontal Window Start Position Sets the horizontal position for the first window on each line"
line.long 0x54 "H3A_AEWINBLK,Start position and height for black line of AE/AWB Windows"
hexmask.long.word 0x54 16.--27. 1. "WINSV,AE/AWB Engine Vertical Window Start Position for single black line of windows Sets the first line for the single black line of windows"
hexmask.long.byte 0x54 0.--6. 1. "WINH,AE/AWB Engine Window Height for the single black line of windows This specifies the window height in an even number of pixels the window height is the value plus 1 multiplied by 2"
line.long 0x58 "H3A_AEWSUBWIN,Configuration for subsample data in AE/AWB window"
bitfld.long 0x58 8.--11. "AEWINCV,AE/AWB Engine Vertical Sampling Point Increment Sets vertical distance between sub-samples within a window plus 1 multiplied by 2" "AEWINCV_0,AEWINCV_1,AEWINCV_2,AEWINCV_3,AEWINCV_4,AEWINCV_5,AEWINCV_6,AEWINCV_7,AEWINCV_8,AEWINCV_9,AEWINCV_10,AEWINCV_11,AEWINCV_12,AEWINCV_13,AEWINCV_14,AEWINCV_15"
bitfld.long 0x58 0.--3. "AEWINCH,AE/AWB Engine Horizontal Sampling Point Increment Sets horizontal distance between sub-samples within a window plus 1 multiplied by 2" "AEWINCH_0,AEWINCH_1,AEWINCH_2,AEWINCH_3,AEWINCH_4,AEWINCH_5,AEWINCH_6,AEWINCH_7,AEWINCH_8,AEWINCH_9,AEWINCH_10,AEWINCH_11,AEWINCH_12,AEWINCH_13,AEWINCH_14,AEWINCH_15"
line.long 0x5C "H3A_AEWBUFST,SDRAM destination address for AE/AWB engine statistics"
hexmask.long 0x5C 5.--31. 1. "AEWBUFST,SDRAM destination address for AE/AWB engine statistics The start location in SDRAM for the AE/AWB statistics"
line.long 0x60 "H3A_AEWCFG,Configuration for AE/AWB"
bitfld.long 0x60 8.--9. "AEFMT,AE/AWB output format" "sum of squares,min/max,sum only; no sum of squares..,?..."
bitfld.long 0x60 0.--3. "SUMSHFT,AE/AWB engine shift value for the accumulation of pixel values This bit field sets the right shift value which is applied on the result of the pixel accumulation before it is stored in the packet" "SUMSHFT_0,SUMSHFT_1,SUMSHFT_2,SUMSHFT_3,SUMSHFT_4,SUMSHFT_5,SUMSHFT_6,SUMSHFT_7,SUMSHFT_8,SUMSHFT_9,SUMSHFT_10,SUMSHFT_11,SUMSHFT_12,SUMSHFT_13,SUMSHFT_14,SUMSHFT_15"
line.long 0x64 "H3A_LINE_START,Line Framing Logic Register In certain cases the number of clock cycles between HD pulses will be greater than the line buffer included in the H3A module"
hexmask.long.word 0x64 16.--31. 1. "SLV,Start Line Vertical Specifies how many lines after the VD rising edge the real frame starts"
hexmask.long.word 0x64 0.--15. 1. "LINE_START,Line Start The framing module uses the LINE_START bit field to find the position of the first pixel to place into the line buffer"
line.long 0x68 "H3A_VFV_CFG1,Vertical focus value configuration 1"
hexmask.long.byte 0x68 24.--31. 1. "VCOEF1_3,Vertical FV FIR 1 coefficient 3"
hexmask.long.byte 0x68 16.--23. 1. "VCOEF1_2,Vertical FV FIR 1 coefficient 2"
hexmask.long.byte 0x68 8.--15. 1. "VCOEF1_1,Vertical FV FIR 1 coefficient 1"
hexmask.long.byte 0x68 0.--7. 1. "VCOEF1_0,Vertical FV FIR 1 coefficient 0"
line.long 0x6C "H3A_VFV_CFG2,Vertical focus value configuration 2"
hexmask.long.word 0x6C 16.--31. 1. "VTHR1,Threshold for vertical FV FIR 1"
hexmask.long.byte 0x6C 0.--7. 1. "VCOEF1_4,Vertical FV FIR 1 coefficient 4"
line.long 0x70 "H3A_VFV_CFG3,Vertical focus value configuration 4"
hexmask.long.byte 0x70 24.--31. 1. "VCOEF2_3,Vertical FV FIR 2 coefficient 3"
hexmask.long.byte 0x70 16.--23. 1. "VCOEF2_2,Vertical FV FIR 2 coefficient 2"
hexmask.long.byte 0x70 8.--15. 1. "VCOEF2_1,Vertical FV FIR 2 coefficient 1"
hexmask.long.byte 0x70 0.--7. 1. "VCOEF2_0,Vertical FV FIR 2 coefficient 0"
line.long 0x74 "H3A_VFV_CFG4,Vertical focus value configuration 4"
hexmask.long.word 0x74 16.--31. 1. "VTHR2,Threshold for vertical FV FIR 2"
hexmask.long.byte 0x74 0.--7. 1. "VCOEF2_4,Vertical FV FIR 2 coefficient 4"
line.long 0x78 "H3A_HVF_THR,Horizontal Focus Value Threshold"
hexmask.long.word 0x78 16.--31. 1. "HTHR2,Threshold for horizontal FV IIR 2"
hexmask.long.word 0x78 0.--15. 1. "HTHR1,Threshold for horizontal FV IIR 1"
line.long 0x7C "H3A_ADVANCED,Normal and Advanced AF stats collection mode"
hexmask.long.tbyte 0x7C 15.--31. 1. "ID,"
bitfld.long 0x7C 0. "AF_MODE,AF engine mode" "AF_MODE_0,AF_MODE_1"
tree.end
tree "ISS_IPIPE"
base ansd:0x52010800
group.long 0x00++0x2F
line.long 0x00 "IPIPE_SRC_EN,This register is not shadowed"
bitfld.long 0x00 0. "EN,The start flag of the IPIPE module" "EN_0,EN_1"
line.long 0x04 "IPIPE_SRC_MODE,"
bitfld.long 0x04 1. "WRT,The mode selection of the ipipeif_wrt which is an input port of the IPIPE module" "WRT_0,WRT_1"
bitfld.long 0x04 0. "OST,The processing mode selection of the IPIPE module" "OST_0,OST_1"
line.long 0x08 "IPIPE_SRC_FMT,"
bitfld.long 0x08 0.--1. "FMT,IPIPE module data path selection" "FMT_0,FMT_1,FMT_2,FMT_3"
line.long 0x0C "IPIPE_SRC_COL,"
bitfld.long 0x0C 6.--7. "OO,The color pattern of the odd line and odd pixel" "OO_0,OO_1,OO_2,OO_3"
bitfld.long 0x0C 4.--5. "OE,The color pattern of the odd line and even pixel" "OE_0,OE_1,OE_2,OE_3"
bitfld.long 0x0C 2.--3. "EO,The color pattern of the even line and odd pixel" "EO_0,EO_1,EO_2,EO_3"
bitfld.long 0x0C 0.--1. "EE,The color pattern of the even line and even pixel" "EE_0,EE_1,EE_2,EE_3"
line.long 0x10 "IPIPE_SRC_VPS,"
hexmask.long.word 0x10 0.--15. 1. "VAL,The vertical position of the global frame from the rising edge of the VD"
line.long 0x14 "IPIPE_SRC_VSZ,"
hexmask.long.word 0x14 0.--12. 1. "VAL,The vertical size of the processing area"
line.long 0x18 "IPIPE_SRC_HPS,"
hexmask.long.word 0x18 0.--15. 1. "VAL,The horizontal position of the global frame from the rising edge of the HD"
line.long 0x1C "IPIPE_SRC_HSZ,"
hexmask.long.word 0x1C 1.--12. 1. "VAL,The horizontal size of the processing area"
rbitfld.long 0x1C 0. "VAL_0,This is the LSB of the VAL[12:0]" "0,1"
line.long 0x20 "IPIPE_SEL_SBU,"
bitfld.long 0x20 0. "EDOF,EDOF port selection This bit must not be enabled since the EDOF module is not implemented" "EDOF_0,EDOF_1"
line.long 0x24 "IPIPE_SRC_STA,IPIPE STATUS REGISTER"
bitfld.long 0x24 4. "VAL4,Status of Histogram Process (busy status)" "VAL4_0,VAL4_1"
bitfld.long 0x24 3. "VAL3,Status of Histogram bank select" "VAL3_0,VAL3_1"
bitfld.long 0x24 2. "VAL2,Status of BSC process (busy status)" "VAL2_0,VAL2_1"
bitfld.long 0x24 1. "VAL1,Status of Boxcar process (busy status)" "VAL1_0,VAL1_1"
newline
bitfld.long 0x24 0. "VAL0,Status of Boxcar process (error status)" "VAL0_0,VAL0_1"
line.long 0x28 "IPIPE_GCK_MMR,"
bitfld.long 0x28 0. "REG,The on/off selection of the clk_arm_g0 which is used for some ARM register access" "REG_0,REG_1"
line.long 0x2C "IPIPE_GCK_PIX,This register is not shadowed"
bitfld.long 0x2C 3. "G3,The on/off selection of the clk_pix_g3 which is use for the IPIPE processes of EE and 'CAR'" "G3_0,G3_1"
bitfld.long 0x2C 2. "G2,The on/off selection of the clk_pix_g2 which is use for the IPIPE processes of CFA to '422' 'Histogram(YCbCr input)' and 'Boundary Signal Calculator'" "G2_0,G2_1"
bitfld.long 0x2C 1. "G1,The on/off selection of the clk_pix_g1 which is used for the IPIPE processes of 'DefectCorrection' to 'WhiteBalance' and 'Histogram(RAW input)'" "G1_0,G1_1"
bitfld.long 0x2C 0. "G0,The on/off selection of the clk_pix_g0 which is used for the IPIPE processing of 'Boxcar'" "G0_0,G0_1"
group.long 0x34++0x0F
line.long 0x00 "IPIPE_DPC_LUT_EN,"
bitfld.long 0x00 0. "EN,Enable of LUT defect pixel correction" "EN_0,EN_1"
line.long 0x04 "IPIPE_DPC_LUT_SEL,"
bitfld.long 0x04 1. "TBL,LUT table type selection" "TBL_0,TBL_1"
bitfld.long 0x04 0. "DOT,Replace dot selection on processing method 0" "DOT_0,DOT_1"
line.long 0x08 "IPIPE_DPC_LUT_ADR,"
hexmask.long.word 0x08 0.--9. 1. "ADR,The address of the first valid data in look-up-table"
line.long 0x0C "IPIPE_DPC_LUT_SIZ,"
hexmask.long.word 0x0C 0.--9. 1. "SIZ,The number of valid data in look-up-table"
group.long 0x90++0x03
line.long 0x00 "IPIPE_LSC_VOFT,LSC VOFT"
hexmask.long.word 0x00 0.--12. 1. "LSC_VOFT,"
group.long 0x9C++0x07
line.long 0x00 "IPIPE_LSC_VS,"
bitfld.long 0x00 4.--7. "VS2,LSC VS1" "VS2_0,VS2_1,VS2_2,VS2_3,VS2_4,VS2_5,VS2_6,VS2_7,VS2_8,VS2_9,VS2_10,VS2_11,VS2_12,VS2_13,VS2_14,VS2_15"
bitfld.long 0x00 0.--3. "VS1,LSC VS1" "VS1_0,VS1_1,VS1_2,VS1_3,VS1_4,VS1_5,VS1_6,VS1_7,VS1_8,VS1_9,VS1_10,VS1_11,VS1_12,VS1_13,VS1_14,VS1_15"
line.long 0x04 "IPIPE_LSC_HOFT,"
hexmask.long.word 0x04 0.--12. 1. "VAL,LSC HOFT"
group.long 0xAC++0x2B
line.long 0x00 "IPIPE_LSC_HS,"
bitfld.long 0x00 4.--7. "HS2,LSC HS1" "HS2_0,HS2_1,HS2_2,HS2_3,HS2_4,HS2_5,HS2_6,HS2_7,HS2_8,HS2_9,HS2_10,HS2_11,HS2_12,HS2_13,HS2_14,HS2_15"
bitfld.long 0x00 0.--3. "HS1,LSC HS1" "HS1_0,HS1_1,HS1_2,HS1_3,HS1_4,HS1_5,HS1_6,HS1_7,HS1_8,HS1_9,HS1_10,HS1_11,HS1_12,HS1_13,HS1_14,HS1_15"
line.long 0x04 "IPIPE_LSC_GAN_R,"
hexmask.long.byte 0x04 0.--7. 1. "VAL,GAN R"
line.long 0x08 "IPIPE_LSC_GAN_GR,"
hexmask.long.byte 0x08 0.--7. 1. "VAL,GAN GR"
line.long 0x0C "IPIPE_LSC_GAN_GB,"
hexmask.long.byte 0x0C 0.--7. 1. "VAL,GAN GB"
line.long 0x10 "IPIPE_LSC_GAN_B,"
hexmask.long.byte 0x10 0.--7. 1. "VAL,GAN B"
line.long 0x14 "IPIPE_LSC_OFT_R,"
hexmask.long.byte 0x14 0.--7. 1. "VAL,LSC OFT R"
line.long 0x18 "IPIPE_LSC_OFT_GR,"
hexmask.long.byte 0x18 0.--7. 1. "VAL,LSC OFT GR"
line.long 0x1C "IPIPE_LSC_OFT_GB,"
hexmask.long.byte 0x1C 0.--7. 1. "VAL,LSC OFT GB"
line.long 0x20 "IPIPE_LSC_OFT_B,"
hexmask.long.byte 0x20 0.--7. 1. "VAL,LSC OFT B"
line.long 0x24 "IPIPE_LSC_SHF,"
bitfld.long 0x24 0.--3. "VAL,LSC SHV" "VAL_0,VAL_1,VAL_2,VAL_3,VAL_4,VAL_5,VAL_6,VAL_7,VAL_8,VAL_9,VAL_10,VAL_11,VAL_12,VAL_13,VAL_14,VAL_15"
line.long 0x28 "IPIPE_LSC_MAX,"
hexmask.long.word 0x28 0.--8. 1. "VAL,LSC MAX"
group.long 0x1D0++0x1F
line.long 0x00 "IPIPE_WB2_OFT_R,White Balance Register"
hexmask.long.word 0x00 0.--11. 1. "VAL,Offset before white balance (S12) -2048 to +2047"
line.long 0x04 "IPIPE_WB2_OFT_GR,White Balance Register"
hexmask.long.word 0x04 0.--11. 1. "VAL,Offset before white balance (S12) -2048 to +2047"
line.long 0x08 "IPIPE_WB2_OFT_GB,White Balance Register"
hexmask.long.word 0x08 0.--11. 1. "VAL,Offset before white balance (S12) -2048 to +2047"
line.long 0x0C "IPIPE_WB2_OFT_B,White Balance Register"
hexmask.long.word 0x0C 0.--11. 1. "VAL,Offset before white balance (S12) -2048 to +2047"
line.long 0x10 "IPIPE_WB2_WGN_R,White Balance Register"
hexmask.long.word 0x10 0.--12. 1. "VAL,White balance gain for R in U4.9 format 0 to +15.998"
line.long 0x14 "IPIPE_WB2_WGN_GR,White Balance Register"
hexmask.long.word 0x14 0.--12. 1. "VAL,White balance gain for Gr in U4.9 format 0 to +15.998"
line.long 0x18 "IPIPE_WB2_WGN_GB,White Balance Register"
hexmask.long.word 0x18 0.--12. 1. "VAL,White balance gain for Gb in U4.9 format 0 to +15.998"
line.long 0x1C "IPIPE_WB2_WGN_B,White Balance Register"
hexmask.long.word 0x1C 0.--12. 1. "VAL,White balance gain for B in U4.9 format 0 to +15.998"
group.long 0x22C++0x63
line.long 0x00 "IPIPE_RGB1_MUL_RR,RGB to RGB Conversion Register"
abitfld.long 0x00 0.--11. "VAL,The matrix coefficient" "0xFFFFFFFFFFFFFFFF=-2048/256 = -8,0x000=0/256 = 0,0x001=1/256,0x0FF=255/256,0x100=256/256 = 1,0x101=257/256 [...],0x7FE=2046/256 [...],0x7FF=2047/256 = 7.99609375"
line.long 0x04 "IPIPE_RGB1_MUL_GR,RGB to RGB Conversion Register"
hexmask.long.word 0x04 0.--11. 1. "VAL,The matrix coefficient"
line.long 0x08 "IPIPE_RGB1_MUL_BR,RGB to RGB Conversion Register"
hexmask.long.word 0x08 0.--11. 1. "VAL,The matrix coefficient"
line.long 0x0C "IPIPE_RGB1_MUL_RG,RGB to RGB Conversion Register"
hexmask.long.word 0x0C 0.--11. 1. "VAL,The matrix coefficient"
line.long 0x10 "IPIPE_RGB1_MUL_GG,RGB to RGB Conversion Register"
hexmask.long.word 0x10 0.--11. 1. "VAL,The matrix coefficient"
line.long 0x14 "IPIPE_RGB1_MUL_BG,RGB to RGB Conversion Register"
hexmask.long.word 0x14 0.--11. 1. "VAL,The matrix coefficient"
line.long 0x18 "IPIPE_RGB1_MUL_RB,RGB to RGB Conversion Register"
hexmask.long.word 0x18 0.--11. 1. "VAL,The matrix coefficient"
line.long 0x1C "IPIPE_RGB1_MUL_GB,RGB to RGB Conversion Register"
hexmask.long.word 0x1C 0.--11. 1. "VAL,The matrix coefficient"
line.long 0x20 "IPIPE_RGB1_MUL_BB,RGB to RGB Conversion Register"
hexmask.long.word 0x20 0.--11. 1. "VAL,The matrix coefficient"
line.long 0x24 "IPIPE_RGB1_OFT_OR,RGB to RGB Conversion Register"
hexmask.long.word 0x24 0.--12. 1. "VAL,The output offset value for R"
line.long 0x28 "IPIPE_RGB1_OFT_OG,RGB to RGB Conversion Register"
hexmask.long.word 0x28 0.--12. 1. "VAL,The output offset value for G"
line.long 0x2C "IPIPE_RGB1_OFT_OB,RGB to RGB Conversion Register"
hexmask.long.word 0x2C 0.--12. 1. "VAL,The output offset value for B"
line.long 0x30 "IPIPE_GMM_CFG,RGB to RGB Conversion Register"
bitfld.long 0x30 5.--6. "SIZ,The size of the gamma table" "SIZ_0,SIZ_1,SIZ_2,SIZ_3"
bitfld.long 0x30 4. "TBL,Selection of Gamma table" "TBL_0,TBL_1"
bitfld.long 0x30 2. "BYPB,Gamma correction mode for B" "BYPB_0,BYPB_1"
bitfld.long 0x30 1. "BYPG,Gamma correction mode for G" "BYPG_0,BYPG_1"
newline
bitfld.long 0x30 0. "BYPR,Gamma correction mode for R" "BYPR_0,BYPR_1"
line.long 0x34 "IPIPE_RGB2_MUL_RR,RGB to RGB conversion after gamma"
abitfld.long 0x34 0.--10. "VAL,The matrix coefficient" "0xFFFFFFFFFFFFFFFF=-2048/256 = -8,0x000=0/256 = 0,0x001=1/256,0x0FF=255/256,0x100=256/256 = 1,0x101=257/256,0x7FE=2046/256,0x7FF=2047/256 = 7.99609375"
line.long 0x38 "IPIPE_RGB2_MUL_GR,RGB to RGB conversion after gamma"
hexmask.long.word 0x38 0.--10. 1. "VAL,The matrix coefficient"
line.long 0x3C "IPIPE_RGB2_MUL_BR,RGB to RGB conversion after gamma"
hexmask.long.word 0x3C 0.--10. 1. "VAL,The matrix coefficient"
line.long 0x40 "IPIPE_RGB2_MUL_RG,RGB to RGB conversion after gamma"
hexmask.long.word 0x40 0.--10. 1. "VAL,The matrix coefficient"
line.long 0x44 "IPIPE_RGB2_MUL_GG,RGB to RGB conversion after gamma"
hexmask.long.word 0x44 0.--10. 1. "VAL,The matrix coefficient"
line.long 0x48 "IPIPE_RGB2_MUL_BG,RGB to RGB conversion after gamma"
hexmask.long.word 0x48 0.--10. 1. "VAL,The matrix coefficient"
line.long 0x4C "IPIPE_RGB2_MUL_RB,RGB to RGB conversion after gamma"
hexmask.long.word 0x4C 0.--10. 1. "VAL,The matrix coefficient"
line.long 0x50 "IPIPE_RGB2_MUL_GB,RGB to RGB conversion after gamma"
hexmask.long.word 0x50 0.--10. 1. "VAL,The matrix coefficient"
line.long 0x54 "IPIPE_RGB2_MUL_BB,RGB to RGB conversion after gamma"
hexmask.long.word 0x54 0.--10. 1. "VAL,The matrix coefficient"
line.long 0x58 "IPIPE_RGB2_OFT_OR,RGB to RGB conversion after gamma"
hexmask.long.word 0x58 0.--10. 1. "VAL,The output offset value for R S10 number: -1024 to + 1023"
line.long 0x5C "IPIPE_RGB2_OFT_OG,RGB to RGB conversion after gamma"
hexmask.long.word 0x5C 0.--10. 1. "VAL,The output offset value for G S10 number: -1024 to + 1023"
line.long 0x60 "IPIPE_RGB2_OFT_OB,RGB to RGB conversion after gamma"
hexmask.long.word 0x60 0.--10. 1. "VAL,The output offset value for B S10 number: -1024 to + 1023"
group.long 0x294++0x37
line.long 0x00 "IPIPE_YUV_ADJ,RGB to YUV Conversion Register"
hexmask.long.byte 0x00 8.--15. 1. "BRT,The offset value for brightness control"
abitfld.long 0x00 0.--7. "CRT,The multiplier coefficient value for contrast control" "0x00=0/16 = 0,0x01=1/16,0x0F=15/16,0x10=16/16 = 1,0x11=17/16,0xFE=254/16,0xFF=255/16 = 15.9375"
line.long 0x04 "IPIPE_YUV_MUL_RY,RGB to YUV Conversion Register"
hexmask.long.word 0x04 0.--11. 1. "VAL,Matrix Coefficient for RY (S4.8 = -8 - +7.996)"
line.long 0x08 "IPIPE_YUV_MUL_GY,RGB to YUV Conversion Register"
hexmask.long.word 0x08 0.--11. 1. "VAL,Matrix Coefficient for GY (S4.8 = -8 - +7.996)"
line.long 0x0C "IPIPE_YUV_MUL_BY,RGB to YUV Conversion Register"
hexmask.long.word 0x0C 0.--11. 1. "VAL,Matrix Coefficient for BY (S4.8 = -8 - +7.996)"
line.long 0x10 "IPIPE_YUV_MUL_RCB,RGB to YUV Conversion Register"
hexmask.long.word 0x10 0.--11. 1. "VAL,The matrix coefficient"
line.long 0x14 "IPIPE_YUV_MUL_GCB,RGB to YUV Conversion Register"
hexmask.long.word 0x14 0.--11. 1. "VAL,The matrix coefficient"
line.long 0x18 "IPIPE_YUV_MUL_BCB,RGB to YUV Conversion Register"
hexmask.long.word 0x18 0.--11. 1. "VAL,The matrix coefficient"
line.long 0x1C "IPIPE_YUV_MUL_RCR,RGB to YUV Conversion Register"
hexmask.long.word 0x1C 0.--11. 1. "VAL,The matrix coefficient"
line.long 0x20 "IPIPE_YUV_MUL_GCR,RGB to YUV Conversion Register"
hexmask.long.word 0x20 0.--11. 1. "VAL,The matrix coefficient"
line.long 0x24 "IPIPE_YUV_MUL_BCR,RGB to YUV Conversion Register"
hexmask.long.word 0x24 0.--11. 1. "VAL,The matrix coefficient"
line.long 0x28 "IPIPE_YUV_OFT_Y,RGB to YUV Conversion Register"
hexmask.long.word 0x28 0.--10. 1. "VAL,The output offset value for Y"
line.long 0x2C "IPIPE_YUV_OFT_CB,RGB to YUV Conversion Register"
hexmask.long.word 0x2C 0.--10. 1. "VAL,The output offset value for Cb For Cb/Cr set (0x80 + offset value) here"
line.long 0x30 "IPIPE_YUV_OFT_CR,RGB to YUV Conversion Register"
hexmask.long.word 0x30 0.--10. 1. "VAL,The output offset value for Cr For Cb/Cr set (0x80 + offset value) here"
line.long 0x34 "IPIPE_YUV_PHS,YUV4:2:2 down sampling register"
bitfld.long 0x34 1. "LPF,121-LPF enable for chrominance samples" "LPF_0,LPF_1"
bitfld.long 0x34 0. "POS,This bit sets the output position of the chrominance sample with regards to the luma sample positions" "POS_0,POS_1"
group.long 0x2D4++0x47
line.long 0x00 "IPIPE_YEE_EN,Edge Enhancer Register"
bitfld.long 0x00 0. "EN,The on/off selection of the Edge enhancer" "EN_0,EN_1"
line.long 0x04 "IPIPE_YEE_TYP,Edge Enhancer Register"
bitfld.long 0x04 1. "HAL,Halo reduction in Edge Sharpener module" "HAL_0,HAL_1"
bitfld.long 0x04 0. "SEL,Merging method between Edge Enhancer and Edge Sharpener" "SEL_0,SEL_1"
line.long 0x08 "IPIPE_YEE_SHF,Edge Enhancer Register"
bitfld.long 0x08 0.--3. "SHF,Down shift length of high pass filter (HPF) in edge enhancer" "SHF_0,SHF_1,SHF_2,SHF_3,SHF_4,SHF_5,SHF_6,SHF_7,SHF_8,SHF_9,SHF_10,SHF_11,SHF_12,SHF_13,SHF_14,SHF_15"
line.long 0x0C "IPIPE_YEE_MUL_00,Edge Enhancer Register"
abitfld.long 0x0C 0.--9. "VAL,Multiplier coefficient in HPF" "0x000=0,0x001=1,0x1FE=510,0x1FF=511,0x200=-512,0x201=-511,0x3FF=-1"
line.long 0x10 "IPIPE_YEE_MUL_01,Edge Enhancer Register"
hexmask.long.word 0x10 0.--9. 1. "VAL,Multiplier coefficient in HPF"
line.long 0x14 "IPIPE_YEE_MUL_02,Edge Enhancer Register"
hexmask.long.word 0x14 0.--9. 1. "VAL,Multiplier coefficient in HPF"
line.long 0x18 "IPIPE_YEE_MUL_10,Edge Enhancer Register"
hexmask.long.word 0x18 0.--9. 1. "VAL,Multiplier coefficient in HPF"
line.long 0x1C "IPIPE_YEE_MUL_11,Edge Enhancer Register"
hexmask.long.word 0x1C 0.--9. 1. "VAL,Multiplier coefficient in HPF"
line.long 0x20 "IPIPE_YEE_MUL_12,Edge Enhancer Register"
hexmask.long.word 0x20 0.--9. 1. "VAL,Multiplier coefficient in HPF"
line.long 0x24 "IPIPE_YEE_MUL_20,Edge Enhancer Register"
hexmask.long.word 0x24 0.--9. 1. "VAL,Multiplier coefficient in HPF"
line.long 0x28 "IPIPE_YEE_MUL_21,Edge Enhancer Register"
hexmask.long.word 0x28 0.--9. 1. "VAL,Multiplier coefficient in HPF"
line.long 0x2C "IPIPE_YEE_MUL_22,Edge Enhancer Register"
hexmask.long.word 0x2C 0.--9. 1. "VAL,Multiplier coefficient in HPF"
line.long 0x30 "IPIPE_YEE_THR,Edge Enhancer Register"
bitfld.long 0x30 0.--5. "VAL,Edge Enhancer lower threshold before referring to LUT" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
line.long 0x34 "IPIPE_YEE_E_GAN,Edge Enhancer Register"
hexmask.long.word 0x34 0.--11. 1. "VAL,Edge sharpener gain"
line.long 0x38 "IPIPE_YEE_E_THR_1,Edge Enhancer Register"
hexmask.long.word 0x38 0.--11. 1. "VAL,Edge sharpener HPF value lower limit"
line.long 0x3C "IPIPE_YEE_E_THR_2,Edge Enhancer Register"
bitfld.long 0x3C 0.--5. "VAL,Edge sharpener HPF value upper limit (after 6 bit right shift)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
line.long 0x40 "IPIPE_YEE_G_GAN,Edge Enhancer Register"
hexmask.long.byte 0x40 0.--7. 1. "VAL,Edge sharpener gain value on gradient"
line.long 0x44 "IPIPE_YEE_G_OFT,Edge Enhancer Register"
bitfld.long 0x44 0.--5. "VAL,Edge sharpener offset value on gradient" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x380++0x17
line.long 0x00 "IPIPE_BOX_EN,Boxcar Register"
bitfld.long 0x00 0. "EN,This bit enables or disables the BOXCAR functionality" "EN_0,EN_1"
line.long 0x04 "IPIPE_BOX_MODE,Boxcar Register"
bitfld.long 0x04 0. "OST,The processing mode selection of the Boxcar function" "OST_0,OST_1"
line.long 0x08 "IPIPE_BOX_TYP,Boxcar Register"
bitfld.long 0x08 0. "SEL,Block size in boxcar sampling" "SEL_0,SEL_1"
line.long 0x0C "IPIPE_BOX_SHF,Boxcar Register"
bitfld.long 0x0C 0.--2. "VAL,The down shift value applied to the boxcar computation result" "VAL_0,VAL_1,VAL_2,VAL_3,VAL_4,VAL_5,VAL_6,VAL_7"
line.long 0x10 "IPIPE_BOX_SDR_SAD_H,Boxcar Register"
hexmask.long.word 0x10 0.--15. 1. "VAL,The higher 11 bits of the first address of output in memory"
line.long 0x14 "IPIPE_BOX_SDR_SAD_L,Boxcar Register"
hexmask.long.word 0x14 5.--15. 1. "VAL,The lower 16 bits of the first address of output in memory"
rbitfld.long 0x14 0.--4. "VAL_RESERVED,Ensures 32-byte alignment" "VAL_RESERVED_0,VAL_RESERVED_1,VAL_RESERVED_2,VAL_RESERVED_3,VAL_RESERVED_4,VAL_RESERVED_5,VAL_RESERVED_6,VAL_RESERVED_7,VAL_RESERVED_8,VAL_RESERVED_9,VAL_RESERVED_10,VAL_RESERVED_11,VAL_RESERVED_12,VAL_RESERVED_13,VAL_RESERVED_14,VAL_RESERVED_15,VAL_RESERVED_16,VAL_RESERVED_17,VAL_RESERVED_18,VAL_RESERVED_19,VAL_RESERVED_20,VAL_RESERVED_21,VAL_RESERVED_22,VAL_RESERVED_23,VAL_RESERVED_24,VAL_RESERVED_25,VAL_RESERVED_26,VAL_RESERVED_27,VAL_RESERVED_28,VAL_RESERVED_29,VAL_RESERVED_30,VAL_RESERVED_31"
group.long 0x39C++0x63
line.long 0x00 "IPIPE_HST_EN,Histogram"
bitfld.long 0x00 0. "EN,This bit enables or disables the HISTOGRAM functionality" "EN_0,EN_1"
line.long 0x04 "IPIPE_HST_MODE,Histogram"
bitfld.long 0x04 0. "OST,The processing mode selection of the Histogram module" "OST_0,OST_1"
line.long 0x08 "IPIPE_HST_SEL,Histogram"
bitfld.long 0x08 2. "SEL,Input selection" "SEL_0,SEL_1"
bitfld.long 0x08 0.--1. "TYP,G selection in Bayer mode (SEL0=0)" "TYP_0,TYP_1,TYP_2,TYP_3"
line.long 0x0C "IPIPE_HST_PARA,Histogram COL0. COL1. COL2. and COL3 should be set to 1"
bitfld.long 0x0C 12.--13. "BIN,The number of the bins" "BIN_0,BIN_1,BIN_2,BIN_3"
bitfld.long 0x0C 8.--11. "SHF,The shift length of the input data" "SHF_0,SHF_1,SHF_2,SHF_3,SHF_4,SHF_5,SHF_6,SHF_7,SHF_8,SHF_9,SHF_10,SHF_11,SHF_12,SHF_13,SHF_14,SHF_15"
bitfld.long 0x0C 7. "COL3,The on/off selection of the color pattern 3 (Y)" "COL3_0,COL3_1"
bitfld.long 0x0C 6. "COL2,The on/off selection of the color pattern 2 (B)" "COL2_0,COL2_1"
newline
bitfld.long 0x0C 5. "COL1,The on/off selection of the color pattern 1 (G)" "COL1_0,COL1_1"
bitfld.long 0x0C 4. "COL0,The on/off selection of the color pattern 0 (R)" "COL0_0,COL0_1"
bitfld.long 0x0C 3. "RGN3,The on/off selection of the region 3" "RGN3_0,RGN3_1"
bitfld.long 0x0C 2. "RGN2,The on/off selection of the region 2" "RGN2_0,RGN2_1"
newline
bitfld.long 0x0C 1. "RGN1,The on/off selection of the region 1" "RGN1_0,RGN1_1"
bitfld.long 0x0C 0. "RGN0,The on/off selection of the region 0" "RGN0_0,RGN0_1"
line.long 0x10 "IPIPE_HST_0_VPS,Histogram"
hexmask.long.word 0x10 1.--12. 1. "VAL,The vertical position of the region 0 from theIPIPE_SRC_VPS"
rbitfld.long 0x10 0. "VAL_RESERVED,The vertical position of the region 0 from theIPIPE_SRC_VPS" "VAL_RESERVED_0,VAL_RESERVED_1"
line.long 0x14 "IPIPE_HST_0_VSZ,Histogram"
hexmask.long.word 0x14 1.--12. 1. "VAL,The vertical size of the region 0"
bitfld.long 0x14 0. "VAL_RESERVED,The vertical size of the region 0" "VAL_RESERVED_0,VAL_RESERVED_1"
line.long 0x18 "IPIPE_HST_0_HPS,Histogram"
hexmask.long.word 0x18 1.--12. 1. "VAL,The horizontal position of the region 0 from theIPIPE_SRC_HPS"
rbitfld.long 0x18 0. "VAL_RESERVED,The horizontal position of the region 0 from theIPIPE_SRC_HPS" "VAL_RESERVED_0,VAL_RESERVED_1"
line.long 0x1C "IPIPE_HST_0_HSZ,Histogram"
hexmask.long.word 0x1C 1.--12. 1. "VAL,The horizontal size of the region 0"
bitfld.long 0x1C 0. "VAL_RESERVED,The horizontal size of the region 0" "VAL_RESERVED_0,VAL_RESERVED_1"
line.long 0x20 "IPIPE_HST_1_VPS,Histogram"
hexmask.long.word 0x20 1.--12. 1. "VAL,The vertical position of the region 0 from theIPIPE_SRC_VPS"
rbitfld.long 0x20 0. "VAL_RESERVED,The vertical position of the region 0 from theIPIPE_SRC_VPS" "VAL_RESERVED_0,VAL_RESERVED_1"
line.long 0x24 "IPIPE_HST_1_VSZ,Histogram"
hexmask.long.word 0x24 1.--12. 1. "VAL,The vertical size of the region 1"
bitfld.long 0x24 0. "VAL_RESERVED,The vertical size of the region 1" "VAL_RESERVED_0,VAL_RESERVED_1"
line.long 0x28 "IPIPE_HST_1_HPS,Histogram"
hexmask.long.word 0x28 1.--12. 1. "VAL,The horizontal position of the region 0 from theIPIPE_SRC_HPS"
rbitfld.long 0x28 0. "VAL_RESERVED,The horizontal position of the region 0 from theIPIPE_SRC_HPS" "VAL_RESERVED_0,VAL_RESERVED_1"
line.long 0x2C "IPIPE_HST_1_HSZ,Histogram"
hexmask.long.word 0x2C 1.--12. 1. "VAL,The horizontal size of the region 1"
bitfld.long 0x2C 0. "VAL_RESERVED,The horizontal size of the region 1" "VAL_RESERVED_0,VAL_RESERVED_1"
line.long 0x30 "IPIPE_HST_2_VPS,Histogram"
hexmask.long.word 0x30 1.--12. 1. "VAL,The vertical position of the region 0 from theIPIPE_SRC_VPS"
rbitfld.long 0x30 0. "VAL_RESERVED,The vertical position of the region 0 from theIPIPE_SRC_VPS" "VAL_RESERVED_0,VAL_RESERVED_1"
line.long 0x34 "IPIPE_HST_2_VSZ,Histogram"
hexmask.long.word 0x34 1.--12. 1. "VAL,The vertical size of the region 2"
bitfld.long 0x34 0. "VAL_RESERVED,The vertical size of the region 2" "VAL_RESERVED_0,VAL_RESERVED_1"
line.long 0x38 "IPIPE_HST_2_HPS,Histogram"
hexmask.long.word 0x38 1.--12. 1. "VAL,The horizontal position of the region 0 from theIPIPE_SRC_HPS"
rbitfld.long 0x38 0. "VAL_RESERVED,The horizontal position of the region 0 from theIPIPE_SRC_HPS" "VAL_RESERVED_0,VAL_RESERVED_1"
line.long 0x3C "IPIPE_HST_2_HSZ,Histogram"
hexmask.long.word 0x3C 1.--12. 1. "VAL,The horizontal size of the region 2"
bitfld.long 0x3C 0. "VAL_RESERVED,The horizontal size of the region 2" "VAL_RESERVED_0,VAL_RESERVED_1"
line.long 0x40 "IPIPE_HST_3_VPS,Histogram"
hexmask.long.word 0x40 1.--12. 1. "VAL,The vertical position of the region 0 from theIPIPE_SRC_VPS"
rbitfld.long 0x40 0. "VAL_RESERVED,The vertical position of the region 0 from theIPIPE_SRC_VPS" "VAL_RESERVED_0,VAL_RESERVED_1"
line.long 0x44 "IPIPE_HST_3_VSZ,Histogram"
hexmask.long.word 0x44 1.--12. 1. "VAL,The vertical size of the region 3"
bitfld.long 0x44 0. "VAL_RESERVED,The vertical size of the region 3" "VAL_RESERVED_0,VAL_RESERVED_1"
line.long 0x48 "IPIPE_HST_3_HPS,Histogram"
hexmask.long.word 0x48 1.--12. 1. "VAL,The horizontal position of the region 0 from theIPIPE_SRC_HPS"
rbitfld.long 0x48 0. "VAL_RESERVED,The horizontal position of the region 0 from theIPIPE_SRC_HPS" "VAL_RESERVED_0,VAL_RESERVED_1"
line.long 0x4C "IPIPE_HST_3_HSZ,Histogram"
hexmask.long.word 0x4C 1.--12. 1. "VAL,The horizontal size of the region 3"
bitfld.long 0x4C 0. "VAL_RESERVED,The horizontal size of the region 3" "VAL_RESERVED_0,VAL_RESERVED_1"
line.long 0x50 "IPIPE_HST_TBL,Histogram"
bitfld.long 0x50 1. "CLR,Histogram memory clear" "CLR_0,CLR_1"
bitfld.long 0x50 0. "SEL,This bit must be used to select which memory is used to store the histogram data" "SEL_0,SEL_1"
line.long 0x54 "IPIPE_HST_MUL_R,Histogram"
hexmask.long.byte 0x54 0.--7. 1. "GAIN,Gain"
line.long 0x58 "IPIPE_HST_MUL_GR,Histogram"
hexmask.long.byte 0x58 0.--7. 1. "GAIN,Gain"
line.long 0x5C "IPIPE_HST_MUL_GB,Histogram"
hexmask.long.byte 0x5C 0.--7. 1. "GAIN,Gain"
line.long 0x60 "IPIPE_HST_MUL_B,Histogram"
hexmask.long.byte 0x60 0.--7. 1. "GAIN,Gain"
repeat 2. (list 2. 1. )(list 0x00 0x04 )
group.long ($2+0xA4)++0x03
line.long 0x00 "IPIPE_LSC_HA$1,"
hexmask.long.word 0x00 0.--12. 1. "VAL,LSC HA2"
repeat.end
repeat 2. (list 2. 1. )(list 0x00 0x04 )
group.long ($2+0x94)++0x03
line.long 0x00 "IPIPE_LSC_VA$1,"
hexmask.long.word 0x00 0.--12. 1. "VAL,LSC VA2"
repeat.end
tree.end
tree "ISS_IPIPEIF"
base ansd:0x52011200
group.long 0x00++0x4B
line.long 0x00 "IPIPEIF_ENABLE,IPIPEIF Enable"
bitfld.long 0x00 1. "SYNCOFF,VD output mask This register masks the VD output to the IPIPE module" "SYNCOFF_0,SYNCOFF_1"
bitfld.long 0x00 0. "ENABLE,IPIPE I/F Enable This register is used to start the operation of SDRAM buffer memory read and generates SYNC signals" "ENABLE_0,ENABLE_1"
line.long 0x04 "IPIPEIF_CFG1,IPIPEIF Configuration #1"
bitfld.long 0x04 14.--15. "INPSRC1,Selects the source for the mux (VPORT / ISIF / SDRAM) as well as the data format type" "INPSRC1_0,INPSRC1_1,INPSRC1_2,INPSRC1_3"
bitfld.long 0x04 11.--13. "DATASFT,SDRAM read data shift This register is available when INPSRC1 or INPSRC2 = 1 or 2 that is when data are read from SDRAM" "DATASFT_0,DATASFT_1,DATASFT_2,DATASFT_3,DATASFT_4,DATASFT_5,DATASFT_6,DATASFT_7"
bitfld.long 0x04 10. "CLKSEL,IPIPEIF and IPIPE module pixel clock selection" "CLKSEL_0,CLKSEL_1"
bitfld.long 0x04 8.--9. "UNPACK,8-Bit 12-bit Packed Mode When sensor raw data are stored in 8-bit packed mode or 12-bit packed mode this register should code 1 or 3" "UNPACK_0,UNPACK_1,UNPACK_2,UNPACK_3"
bitfld.long 0x04 7. "AVGFILT,Averaging Filter It applies (1 2 1) filter for the RGB/YCbCr data" "AVGFILT_0,AVGFILT_1"
bitfld.long 0x04 2.--3. "INPSRC2,Selects the source for the mux (ISIF / SDRAM) as well as the data format type" "INPSRC2_0,INPSRC2_1,INPSRC2_2,INPSRC2_3"
bitfld.long 0x04 1. "DECIM,Pixel Decimation The decimation rate defined by RSZ register" "DECIM_0,DECIM_1"
newline
bitfld.long 0x04 0. "ONESHOT,One Shot Mode This register is available when INPSRC = 1 or 3" "ONESHOT_0,ONESHOT_1"
line.long 0x08 "IPIPEIF_PPLN,IPIPEIF Interval of HD / Start pixel in HD"
hexmask.long.word 0x08 0.--12. 1. "PPLN,Case-1: Interval of Horizontal Sync (HD) Specifies the interval of horizontal sync"
line.long 0x0C "IPIPEIF_LPFR,IPIPEIF Interval of VD / Start line in VD"
hexmask.long.word 0x0C 0.--12. 1. "LPFR,Case-1: Interval of Vertical Sync (VD) Specifies the interval of vertical sync"
line.long 0x10 "IPIPEIF_HNUM,IPIPEIF Number of valid pixels per line"
hexmask.long.word 0x10 0.--12. 1. "HNUM,The Number of Valid Pixels in a Line Specifies the number of valid pixels in a horizontal line"
line.long 0x14 "IPIPEIF_VNUM,IPIPEIF Number of valid lines per frame"
hexmask.long.word 0x14 0.--12. 1. "VNUM,The Number of Valid Line in a Vertical Specifies the number of valid line in a vertical"
line.long 0x18 "IPIPEIF_ADDRU,IPIPEIF Memory Address (Upper)"
hexmask.long.word 0x18 0.--10. 1. "ADDRU,Memory Address - Upper Memory address upper 11-bits are specified in units of 32-bytes This register is available when INPSRC = 1 2 or 3"
line.long 0x1C "IPIPEIF_ADDRL,IPIPEIF Memory Address (Lower)"
hexmask.long.word 0x1C 0.--15. 1. "ADDRL,Memory Address - Lower Memory address lower 16-bits are specified in units of 32-bytes"
line.long 0x20 "IPIPEIF_ADOFS,IPIPEIF Address offset"
hexmask.long.word 0x20 0.--11. 1. "ADOFS,Specifies the SDRAM stride for each line in units of 32-bytes"
line.long 0x24 "IPIPEIF_RSZ,IPIPEIF Horizontal Resizing Parameter on IPIPE data path"
hexmask.long.byte 0x24 0.--6. 1. "RSZ,Horizontal Resizing Parameter for IPIPE data path Specifies the horizontal resizing parameter"
line.long 0x28 "IPIPEIF_GAIN,IPIPEIF Gain Parameter"
hexmask.long.word 0x28 0.--9. 1. "GAIN,Gain Parameter Specifies the gain applied to RAW data before it is forwarded to the IPIPE module"
line.long 0x2C "IPIPEIF_DPCM,IPIPEIF DPCM configuration This register applies only if .UNPACK = 1. that is. RAW8 data is read from SDRAM"
bitfld.long 0x2C 2. "BITS,DPCM bit mode for SDRAM data" "BITS_0,BITS_1"
bitfld.long 0x2C 1. "PRED,DPCM prediction mode for SDRAM data" "PRED_0,PRED_1"
bitfld.long 0x2C 0. "ENA,DPCM decompression enable for SDRAM data" "ENA_0,ENA_1"
line.long 0x30 "IPIPEIF_CFG2,IPIPEIF Configuration #2"
bitfld.long 0x30 7. "YUV8P,8-bit YUV data unpacking to 16 bits When IPIPEIF_CFG1.INPSRC2 = 0 and IPIPEIF_CFG2.YUV16 = 1 the 8-bit YUV data are transformed into 16-bit YUV data" "YUV8P_0,YUV8P_1"
bitfld.long 0x30 6. "YUV8,YUV 8bit mode When ISIF_CFG1.INPSRC2 = 0 and YUV16 = 1 setting this bit to 1 enables the conversion from 8-bit YUV input to 16-bit YUV" "YUV8_0,YUV8_1"
bitfld.long 0x30 5. "DFSDIR,DFS direction Selects the direction of dark frame subtraction" "DFSDIR_0,DFSDIR_1"
bitfld.long 0x30 3. "YUV16,Data type selection" "YUV16_0,YUV16_1"
bitfld.long 0x30 2. "VDPOL,VD Sync Polarity When input VD is active low SYNC pulse this bit needs to be set to 1" "VDPOL_0,VDPOL_1"
bitfld.long 0x30 1. "HDPOL,HD Sync Polarity When input HD is active low SYNC pulse this bit needs to be set to 1" "HDPOL_0,HDPOL_1"
bitfld.long 0x30 0. "INTSW,IPIPEIF interrupt source selection" "INTSW_0,INTSW_1"
line.long 0x34 "IPIPEIF_INIRSZ,IPIPEIF resize initial position - IPIPE data path"
bitfld.long 0x34 13. "ALNSYNC,Align the HSYNC VSYNC to initial position defined by INIRSZ" "ALNSYNC_0,ALNSYNC_1"
hexmask.long.word 0x34 0.--12. 1. "INIRSZ,Offset used to re-initialize the HD/VD position after resizer"
line.long 0x38 "IPIPEIF_OCLIP,IPIPEIF output clipping value"
hexmask.long.word 0x38 0.--11. 1. "OCLIP,Output clipping value after gain control on IPIPE data path"
line.long 0x3C "IPIPEIF_DTUDF,IPIPEIF data underflow detection"
bitfld.long 0x3C 0. "DTUDF,Data under flow error status register" "DTUDF_0,DTUDF_1"
line.long 0x40 "IPIPEIF_CLKDIV,IPIPEIF CLOCK DIVIDER"
hexmask.long.word 0x40 0.--15. 1. "CLKDIV,IPIPEIF clock rate configuration IPIPE/IPIPEIF clock frequency = M/N x ISS_FCLK clock frequency"
line.long 0x44 "IPIPEIF_DPC1,IPIPEIF defect pixel correction #1"
bitfld.long 0x44 12. "ENA,DPC enable" "ENA_0,ENA_1"
hexmask.long.word 0x44 0.--11. 1. "TH,DPC threshold value"
line.long 0x48 "IPIPEIF_DPC2,IPIPEIF defect pixel correction #2"
bitfld.long 0x48 12. "ENA,DPC enable" "ENA_0,ENA_1"
hexmask.long.word 0x48 0.--11. 1. "TH,DPC threshold value"
group.long 0x54++0x07
line.long 0x00 "IPIPEIF_RSZ3A,IPIPEIF HORIZONTAL RESIZING PARAMETER FOR H3A"
bitfld.long 0x00 9. "DECIM,Pixel Decimation Enable The decimation rate defined by the RSZ bit field" "DECIM_0,DECIM_1"
bitfld.long 0x00 8. "AVGFILT,Averaging Filter It applies a (1 2 1) filter for the RGB/YCbCr data" "AVGFILT_0,AVGFILT_1"
hexmask.long.byte 0x00 0.--6. 1. "RSZ,Horizontal Resizing Parameter for H3A data path Specifies the horizontal resizing parameter"
line.long 0x04 "IPIPEIF_INIRSZ3A,IPIPEIF resize initial position - H3A data path"
bitfld.long 0x04 13. "ALNSYNC,Align the HD VD to initial position defined by the INIRSZ bit field" "ALNSYNC_0,ALNSYNC_1"
hexmask.long.word 0x04 0.--12. 1. "INIRSZ,Offset used to re-initialize the HD/VD position after resizer"
tree.end
tree "ISS_ISIF"
base ansd:0x52011000
group.long 0x00++0x1F
line.long 0x00 "ISIF_SYNCEN,"
bitfld.long 0x00 1. "DWEN,Controls the storage of image sensor RAW data in memory" "DWEN_0,DWEN_1"
bitfld.long 0x00 0. "SYEN,Controls ON/OFF of VD/HD output" "SYEN_0,SYEN_1"
line.long 0x04 "ISIF_MODESET,"
bitfld.long 0x04 14. "HLPF,Low pass filter enable" "HLPF_0,HLPF_1"
bitfld.long 0x04 12.--13. "INPMOD,Data input mode" "INPMOD_0,INPMOD_1,INPMOD_2,INPMOD_3"
bitfld.long 0x04 11. "OVF,ISIF module write port overflow status bit If the write port of the ISIF module overflows when writing data to SDRAM this bit will toggle" "OVF_0,OVF_1"
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bitfld.long 0x04 8.--10. "CCDW,This bit enables to shift right (divide) the up-to-12-bit RAW data value when writing out to SDRAM" "CCDW_0,CCDW_1,CCDW_2,CCDW_3,CCDW_4,CCDW_5,CCDW_6,CCDW_7"
bitfld.long 0x04 7. "CCDMD,Field mode: This bit selects the type of image sensor: interlaced or progressive" "CCDMD_0,CCDMD_1"
bitfld.long 0x04 6. "DPOL,Image sensor input data polarity" "DPOL_0,DPOL_1"
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bitfld.long 0x04 5. "SWEN,External WEN selection In case this bit and SYNCEN.DWEN are set to 1 the external WEN signal is used to store image sensor data to memory" "SWEN_0,SWEN_1"
bitfld.long 0x04 3. "HDPOL,HD Sync Signal Polarity" "HDPOL_0,HDPOL_1"
bitfld.long 0x04 2. "VDPOL,VD Sync Signal Polarity" "VDPOL_0,VDPOL_1"
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bitfld.long 0x04 1. "FIDD,FLD Signal Direction" "FIDD_0,FIDD_1"
bitfld.long 0x04 0. "HDVDD,VD HD Sync Signal Direction" "HDVDD_0,HDVDD_1"
line.long 0x08 "ISIF_HDW,"
hexmask.long.word 0x08 0.--11. 1. "HDW,HD width: Sets width of HD"
line.long 0x0C "ISIF_VDW,"
hexmask.long.word 0x0C 0.--11. 1. "VDW,VD width : Sets width of VD"
line.long 0x10 "ISIF_PPLN,"
hexmask.long.word 0x10 0.--15. 1. "PPLN,Pixels per line Number of pixel clock periods in one line HD period = PPLN+1 pixel clocks"
line.long 0x14 "ISIF_LPFR,Line per Frame/Field"
hexmask.long.word 0x14 0.--15. 1. "LPFR,Half lines per filed or frame Sets number of half lines per frame or field"
line.long 0x18 "ISIF_SPH,Start Pixel Horizontal"
hexmask.long.word 0x18 0.--14. 1. "SPH,The first pixel in a line to be stored to memory"
line.long 0x1C "ISIF_LNH,"
hexmask.long.word 0x1C 0.--14. 1. "LNH,Number of pixels in an line to be stored to memory"
group.long 0x28++0x0F
line.long 0x00 "ISIF_LNV,"
hexmask.long.word 0x00 0.--14. 1. "LNV,The number of lines to be stored to memory"
line.long 0x04 "ISIF_CULH,"
hexmask.long.byte 0x04 8.--15. 1. "CLHO,Culling Pattern in ODD Line: Sets culling pattern when data is loaded into memory (odd lines)"
hexmask.long.byte 0x04 0.--7. 1. "CLHE,Culling Pattern in Even Line: Sets culling pattern when data is loaded into memory (even lines)"
line.long 0x08 "ISIF_CULV,"
hexmask.long.byte 0x08 0.--7. 1. "CULV,Culling Pattern in Vertical Line Example"
line.long 0x0C "ISIF_HSIZE,SDRAM OUTPUT CTRL REGISTER"
bitfld.long 0x0C 12. "ADCR,SDRAM address decrement" "ADCR_0,ADCR_1"
hexmask.long.word 0x0C 0.--11. 1. "HSIZE,Memory address offset between the lines"
group.long 0x3C++0x27
line.long 0x00 "ISIF_CADU,SDRAM OUTPUT CTRL REGISTER"
hexmask.long.word 0x00 0.--10. 1. "CADU,Memory Address (Upper"
line.long 0x04 "ISIF_CADL,SDRAM OUTPUT CTRL REGISTER"
hexmask.long.word 0x04 0.--15. 1. "CADL,Memory Address (Lower"
line.long 0x08 "ISIF_LINCFG0,INPUT LINEARIZATION CTRL REGISTER"
bitfld.long 0x08 4.--6. "CORRSFT,Shift up value for the correction value (S10)" "CORRSFT_0,CORRSFT_1,CORRSFT_2,CORRSFT_3,CORRSFT_4,CORRSFT_5,CORRSFT_6,CORRSFT_7"
bitfld.long 0x08 1. "LINMD,Linearization Mode" "LINMD_0,LINMD_1"
bitfld.long 0x08 0. "LINEN,Linearization Enable" "LINEN_0,LINEN_1"
line.long 0x0C "ISIF_LINCFG1,INPUT LINEARIZATION CTRL REGISTER"
hexmask.long.word 0x0C 0.--10. 1. "LUTSCL,Scale factor (U11Q10) for LUT input"
line.long 0x10 "ISIF_CCOLP,"
bitfld.long 0x10 14.--15. "CP0_F1,Specifies color pattern for pixel position 0 (Field 1) Pixel position 0 corresponds to pixel count=0 at even line in case of CFAP= 0 and to pixel count=0 in case of CFAP= 1" "CP0_F1_0,CP0_F1_1,CP0_F1_2,CP0_F1_3"
bitfld.long 0x10 12.--13. "CP1_F1,Specifies color pattern for pixel position 1 (Field 1) Pixel position 1 corresponds to pixel count=1 at even line in case of CFAP= 0 and to pixel count=1 in case of CFAP= 1" "CP1_F1_0,CP1_F1_1,CP1_F1_2,CP1_F1_3"
bitfld.long 0x10 10.--11. "CP2_F1,Specifies color pattern for pixel position 2 (Field 1) Pixel position 2 corresponds to pixel count=0 at odd line in case of CFAP= 0 and to pixel count=2 in case of CFAP= 1" "CP2_F1_0,CP2_F1_1,CP2_F1_2,CP2_F1_3"
newline
bitfld.long 0x10 8.--9. "CP3_F1,Specifies color pattern for pixel position 3 (Field 1) Pixel position 3 corresponds to pixel count=1 at odd line in case of CFAP= 0" "CP3_F1_0,CP3_F1_1,CP3_F1_2,CP3_F1_3"
bitfld.long 0x10 6.--7. "CP0_F0,Specifies color pattern for pixel position 0 (Field 0) Pixel position 0 corresponds to pixel count=0 at even line in case of CFAP= 0 and to pixel count=0 in case of CFAP= 1" "CP0_F0_0,CP0_F0_1,CP0_F0_2,CP0_F0_3"
bitfld.long 0x10 4.--5. "CP1_F0,Specifies color pattern for pixel position 1 (Field 0) Pixel position 1 corresponds to pixel count=1 at even line in case of CFAP= 0 and to pixel count=1 in case of CFAP= 1" "CP1_F0_0,CP1_F0_1,CP1_F0_2,CP1_F0_3"
newline
bitfld.long 0x10 2.--3. "CP2_F0,Specifies color pattern for pixel position 2 (Field 0) Pixel position 2 corresponds to pixel count=0 at odd line in case of CFAP= 0 and to pixel count=2 in case of CFAP= 1" "CP2_F0_0,CP2_F0_1,CP2_F0_2,CP2_F0_3"
bitfld.long 0x10 0.--1. "CP3_F0,Specifies color pattern for pixel position 3 (Field 0) Pixel position 3 corresponds to pixel count=1 at odd line in case of CFAP= 0" "CP3_F0_0,CP3_F0_1,CP3_F0_2,CP3_F0_3"
line.long 0x14 "ISIF_CRGAIN,"
hexmask.long.word 0x14 0.--11. 1. "CGR,R/Ye gain: Performs gain adjustment on image sensor data"
line.long 0x18 "ISIF_CGRGAIN,"
hexmask.long.word 0x18 0.--11. 1. "CGGR,Gr/Cy gain: Performs gain adjustment on image sensor data"
line.long 0x1C "ISIF_CGBGAIN,"
hexmask.long.word 0x1C 0.--11. 1. "CGGB,Gb/Cy gain: Performs gain adjustment on image sensor data"
line.long 0x20 "ISIF_CBGAIN,"
hexmask.long.word 0x20 0.--11. 1. "CGB,B/Mg gain: Performs gain adjustment on image sensor data"
line.long 0x24 "ISIF_COFSTA,"
hexmask.long.word 0x24 0.--11. 1. "COFT,Image sensor offset: Performs offset value adjustment on image sensor data (0~4095)"
group.long 0x70++0x157
line.long 0x00 "ISIF_VDINT0,"
hexmask.long.word 0x00 0.--14. 1. "CVD0,VD0 Interrupt timing in a field (line number)"
line.long 0x04 "ISIF_VDINT1,"
hexmask.long.word 0x04 0.--14. 1. "CVD1,VD1 Interrupt timing in a field (line number)"
line.long 0x08 "ISIF_VDINT2,"
hexmask.long.word 0x08 0.--14. 1. "CVD2,VD2 Interrupt timing in a field (line number)"
line.long 0x0C "ISIF_MISC,"
bitfld.long 0x0C 13. "DPCMPRE,Selects Predictor for DPCM Encoder (12-8)" "DPCMPRE_0,DPCMPRE_1"
bitfld.long 0x0C 12. "DPCMEN,Enables DPCM Encoding (12-8)" "DPCMEN_0,DPCMEN_1"
line.long 0x10 "ISIF_CGAMMAWD,"
bitfld.long 0x10 14. "WBEN2,White Balance Enable for H3A" "WBEN2_0,WBEN2_1"
bitfld.long 0x10 13. "WBEN1,White Balance Enable for IPIPE" "WBEN1_0,WBEN1_1"
bitfld.long 0x10 12. "WBEN0,White Balance Enable for memory capture" "WBEN0_0,WBEN0_1"
newline
bitfld.long 0x10 10. "OFSTEN2,Offset control Enable for H3A" "OFSTEN2_0,OFSTEN2_1"
bitfld.long 0x10 9. "OFSTEN1,Offset control Enable for IPIPE" "OFSTEN1_0,OFSTEN1_1"
bitfld.long 0x10 8. "OFSTEN0,Offset control Enable for SDRAM capture" "OFSTEN0_0,OFSTEN0_1"
newline
bitfld.long 0x10 5. "CFAP,Selects CFA pattern" "CFAP_0,CFAP_1"
bitfld.long 0x10 1.--4. "GWDI,Selects MSB position of Input Data" "GWDI_0,GWDI_1,GWDI_2,GWDI_3,GWDI_4,GWDI_5,GWDI_6,GWDI_7,GWDI_8,GWDI_9,GWDI_10,GWDI_11,GWDI_12,GWDI_13,GWDI_14,GWDI_15"
bitfld.long 0x10 0. "CCDTBL,On/Off control of A-law table for SDRAM capture" "CCDTBL_0,CCDTBL_1"
line.long 0x14 "ISIF_REC656IF,INPUT CONFIG REGISTER"
bitfld.long 0x14 1. "R656ON,CCIR Rec.656 interface mode" "R656ON_0,R656ON_1"
bitfld.long 0x14 0. "ECCFVH,Error correction of FVH code" "ECCFVH_0,ECCFVH_1"
line.long 0x18 "ISIF_CCDCFG,"
bitfld.long 0x18 15. "VLDC,On/off control of CPU registers resynchronize function by VSYNC" "VLDC_0,VLDC_1"
bitfld.long 0x18 13. "MSBINVI,MSB inverse of CIN port when the data are captured to SDRAM" "MSBINVI_0,MSBINVI_1"
bitfld.long 0x18 12. "BSWD,On/off control of Byte SWAP function when SDRAM capturing" "BSWD_0,BSWD_1"
newline
bitfld.long 0x18 11. "Y8POS,Selects Y signal position when in 8bit input mode" "Y8POS_0,Y8POS_1"
bitfld.long 0x18 10. "EXTRG,Setting 1 to this register the SDRAM address is initialized at the rising edge of FID input signal or DWEN register" "EXTRG_0,EXTRG_1"
bitfld.long 0x18 9. "TRGSEL,Select trigger source signal of SDRAM address initializing in case EXTRG=1" "TRGSEL_0,TRGSEL_1"
newline
bitfld.long 0x18 8. "WENLOG,Specifies the CCD valid area" "WENLOG_0,WENLOG_1"
bitfld.long 0x18 6.--7. "FIDMD,Specifies FID detection mode" "FIDMD_0,FIDMD_1,FIDMD_2,FIDMD_3"
bitfld.long 0x18 5. "BT656,Selects bit width of CCIR656" "BT656_0,BT656_1"
newline
bitfld.long 0x18 4. "YCINSWP,The ISIF module has a 16-bit interface" "YCINSWP_0,YCINSWP_1"
bitfld.long 0x18 0.--1. "SDRPACK,This bit field selects how the data are stored to SDRAM" "SDRPACK_0,SDRPACK_1,SDRPACK_2,SDRPACK_3"
line.long 0x1C "ISIF_DFCCTL,VERTICAL LINE DEFCT CTRL REGISTER"
bitfld.long 0x1C 8.--10. "VDFLSFT,Vertical line Defect level shift value Defect Level (value to be subtracted from the data) is 8bit width but can be up-shifted up to 6bits by VDFLSFT" "VDFLSFT_0,VDFLSFT_1,VDFLSFT_2,VDFLSFT_3,VDFLSFT_4,VDFLSFT_5,VDFLSFT_6,VDFLSFT_7"
bitfld.long 0x1C 7. "VDFCUDA,Vertical line Defect Correction upper pixels disable" "VDFCUDA_0,VDFCUDA_1"
bitfld.long 0x1C 5.--6. "VDFCSL,Vertical line Defect Correction mode select" "VDFCSL_0,VDFCSL_1,VDFCSL_2,VDFCSL_3"
newline
bitfld.long 0x1C 4. "VDFCEN,Vertical line Defect Correction enable" "VDFCEN_0,VDFCEN_1"
line.long 0x20 "ISIF_VDFSATLV,VERTICAL LINE DEFCT CTRL REGISTER"
hexmask.long.word 0x20 0.--11. 1. "VDFSLV,Vertical line Defect Correction saturation level"
line.long 0x24 "ISIF_DFCMEMCTL,VERTICAL LINE DEFCT CTRL REGISTER"
bitfld.long 0x24 4. "DFCMCLR,Defect correction" "DFCMCLR_0,DFCMCLR_1"
bitfld.long 0x24 2. "DFCMARST,Defect correction" "DFCMARST_0,DFCMARST_1"
bitfld.long 0x24 1. "DFCMRD,Defect correction" "DFCMRD_0,DFCMRD_1"
newline
bitfld.long 0x24 0. "DFCMWR,Defect correction" "DFCMWR_0,DFCMWR_1"
line.long 0x28 "ISIF_DFCMEM0,Defect correction memory"
hexmask.long.word 0x28 0.--12. 1. "DFCMEM0,Defect correction memory 0 Sets V position of the defects"
line.long 0x2C "ISIF_DFCMEM1,Defect correction memory"
hexmask.long.word 0x2C 0.--12. 1. "DFCMEM1,Defect correction memory 1 Sets H position of the defects"
line.long 0x30 "ISIF_DFCMEM2,Defect correction memory"
hexmask.long.byte 0x30 0.--7. 1. "DFCMEM2,Defect correction Memory 2 Set SUB1: Defect level of the Vertical line defect position (V = Vdefect)"
line.long 0x34 "ISIF_DFCMEM3,Defect correction memory"
hexmask.long.byte 0x34 0.--7. 1. "DFCMEM3,<Defect correction> Memory 3 Set SUB2: Defect level of the pixels upper than the Vertical line defect (V < Vdefect)"
line.long 0x38 "ISIF_DFCMEM4,Defect correction memory"
hexmask.long.byte 0x38 0.--7. 1. "DFCMEM4,Memory 4 Set SUB3: Defect level of the pixels lower than the Vertical line defect (V > Vdefect)"
line.long 0x3C "ISIF_CLAMPCFG,BLACK CLAMP CTRL REGISTER"
bitfld.long 0x3C 4. "CLMD,Black clamp mode Clamp value can be calculated regardless of the color or can be calculated separately for each 4 colors" "CLMD_0,CLMD_1"
bitfld.long 0x3C 1.--2. "CLHMD,Horizontal Clamp mode" "CLHMD_0,CLHMD_1,CLHMD_2,CLHMD_3"
bitfld.long 0x3C 0. "CLEN,Black Clamp Enable Enables clamp value to be subtracted from Image data" "CLEN_0,CLEN_1"
line.long 0x40 "ISIF_CLDCOFST,BLACK CLAMP CTRL REGISTER"
hexmask.long.word 0x40 0.--12. 1. "CLDC,DC offset for black clamp This value is added to the incoming pixels regardless whether optical black clamp is enabled (ISIF_CLAMPCFG.CLEN)"
line.long 0x44 "ISIF_CLSV,BLACK CLAMP CTRL REGISTER"
hexmask.long.word 0x44 0.--12. 1. "CLSV,Black Clamp Start position (V)"
line.long 0x48 "ISIF_CLHWIN0,BLACK CLAMP CTRL REGISTER"
bitfld.long 0x48 12.--13. "CLHWN,Horizontal Black clamp - Vertical dimension of a Window (2)" "CLHWN_0,CLHWN_1,CLHWN_2,CLHWN_3"
bitfld.long 0x48 8.--9. "CLHWM,Horizontal Black clamp - Horizontal dimension of a Window (2)" "CLHWM_0,CLHWM_1,CLHWM_2,CLHWM_3"
bitfld.long 0x48 6. "CLHLMT,Horizontal Black clamp - Pixel value limitation for the Horizontal clamp value calculation" "CLHLMT_0,CLHLMT_1"
newline
bitfld.long 0x48 5. "CLHWBS,Horizontal Black clamp - Base Window select" "CLHWBS_0,CLHWBS_1"
bitfld.long 0x48 0.--4. "CLHWC,Horizontal Black clamp - Window count per color Window count = CLHWC+1 Range" "CLHWC_0,CLHWC_1,CLHWC_2,CLHWC_3,CLHWC_4,CLHWC_5,CLHWC_6,CLHWC_7,CLHWC_8,CLHWC_9,CLHWC_10,CLHWC_11,CLHWC_12,CLHWC_13,CLHWC_14,CLHWC_15,CLHWC_16,CLHWC_17,CLHWC_18,CLHWC_19,CLHWC_20,CLHWC_21,CLHWC_22,CLHWC_23,CLHWC_24,CLHWC_25,CLHWC_26,CLHWC_27,CLHWC_28,CLHWC_29,CLHWC_30,CLHWC_31"
line.long 0x4C "ISIF_CLHWIN1,BLACK CLAMP CTRL REGISTER"
hexmask.long.word 0x4C 0.--12. 1. "CLHSH,Horizontal black clamp"
line.long 0x50 "ISIF_CLHWIN2,BLACK CLAMP CTRL REGISTER"
hexmask.long.word 0x50 0.--12. 1. "CLHSV,Horizontal black clamp"
line.long 0x54 "ISIF_CLVRV,BLACK CLAMP CTRL REGISTER"
hexmask.long.word 0x54 0.--11. 1. "CLVRV,Vertical black clamp reset value"
line.long 0x58 "ISIF_CLVWIN0,BLACK CLAMP CTRL REGISTER"
hexmask.long.byte 0x58 8.--15. 1. "CLVCOEF,Vertical Black clamp - Line average coefficient (k)"
bitfld.long 0x58 4.--5. "CLVRVSL,Vertical Black clamp - reset value selection Select the reset value for the clamp value of the previous line" "CLVRVSL_0,CLVRVSL_1,CLVRVSL_2,CLVRVSL_3"
bitfld.long 0x58 0.--2. "CLVOBH,Vertical Black clamp - Optical Black H valid (2)" "CLVOBH_0,CLVOBH_1,CLVOBH_2,CLVOBH_3,CLVOBH_4,CLVOBH_5,CLVOBH_6,CLVOBH_7"
line.long 0x5C "ISIF_CLVWIN1,BLACK CLAMP CTRL REGISTER"
hexmask.long.word 0x5C 0.--12. 1. "CLVSH,Vertical black clamp"
line.long 0x60 "ISIF_CLVWIN2,BLACK CLAMP CTRL REGISTER"
hexmask.long.word 0x60 0.--12. 1. "CLVSV,Vertical black clamp"
line.long 0x64 "ISIF_CLVWIN3,BLACK CLAMP CTRL REGISTER"
hexmask.long.word 0x64 0.--12. 1. "CLVOBV,Vertical black clamp"
line.long 0x68 "ISIF_LSCHOFST,2D Lens Shading Correction Register"
hexmask.long.word 0x68 0.--13. 1. "HOFST,H direction Data offset for Lens Shading Correction"
line.long 0x6C "ISIF_LSCVOFST,2D Lens Shading Correction Register"
hexmask.long.word 0x6C 0.--13. 1. "VOFST,V direction Data offset for Lens Shading Correction"
line.long 0x70 "ISIF_LSCHVAL,2D Lens Shading Correction Register"
hexmask.long.word 0x70 0.--13. 1. "HVAL,Number of valid pixels in H direction"
line.long 0x74 "ISIF_LSCVVAL,2D Lens Shading Correction Register"
hexmask.long.word 0x74 0.--13. 1. "VVAL,Number of valid lines in V direction"
line.long 0x78 "ISIF_2DLSCCFG,2D Lens Shading Correction Register"
bitfld.long 0x78 12.--14. "GAIN_MODE_M,Define the horizontal dimension of a paxel" "GAIN_MODE_M_0,GAIN_MODE_M_1,GAIN_MODE_M_2,GAIN_MODE_M_3,GAIN_MODE_M_4,GAIN_MODE_M_5,GAIN_MODE_M_6,GAIN_MODE_M_7"
bitfld.long 0x78 8.--10. "GAIN_MODE_N,Define the vertical dimension of a paxel" "GAIN_MODE_N_0,GAIN_MODE_N_1,GAIN_MODE_N_2,GAIN_MODE_N_3,GAIN_MODE_N_4,GAIN_MODE_N_5,GAIN_MODE_N_6,GAIN_MODE_N_7"
rbitfld.long 0x78 7. "BUSY,Busy bit" "BUSY_0_r,BUSY_1_r"
newline
bitfld.long 0x78 1.--3. "GAIN_FORMAT,Sets gain table format" "GAIN_FORMAT_0,GAIN_FORMAT_1,GAIN_FORMAT_2,GAIN_FORMAT_3,GAIN_FORMAT_4,GAIN_FORMAT_5,GAIN_FORMAT_6,GAIN_FORMAT_7"
bitfld.long 0x78 0. "ENABLE,Enables/disables LSC" "ENABLE_0,ENABLE_1"
line.long 0x7C "ISIF_2DLSCOFST,2D Lens Shading Correction Register"
hexmask.long.byte 0x7C 8.--15. 1. "OFSTSF,Scaling factor for Offsets (U8Q7) Range: 0 to 1+127/128"
bitfld.long 0x7C 4.--6. "OFSTSFT,Shift up value for Offsets (S8Q0)" "OFSTSFT_0,OFSTSFT_1,OFSTSFT_2,OFSTSFT_3,OFSTSFT_4,OFSTSFT_5,OFSTSFT_6,OFSTSFT_7"
bitfld.long 0x7C 0. "OFSTEN,Enables/disables Offset control in LSC" "OFSTEN_0,OFSTEN_1"
line.long 0x80 "ISIF_2DLSCINI,2D Lens Shading Correction Register"
hexmask.long.byte 0x80 8.--14. 1. "Y,Initial Y Y position in pixels of the first active pixel in reference to the first active paxel"
hexmask.long.byte 0x80 0.--6. 1. "X,Initial X X position in pixels of the first active pixel in reference to the first active paxel"
line.long 0x84 "ISIF_2DLSCGRBU,2D Lens Shading Correction Register"
hexmask.long.word 0x84 0.--15. 1. "BASE31_16,Gain Table address base (Upper 16-bits) Table address in bytes"
line.long 0x88 "ISIF_2DLSCGRBL,2D Lens Shading Correction Register"
hexmask.long.word 0x88 0.--15. 1. "BASE15_0,Gain Table address base (Lower 16-bits) Table address in bytes"
line.long 0x8C "ISIF_2DLSCGROF,2D Lens Shading Correction Register"
hexmask.long.word 0x8C 0.--15. 1. "OFFSET,Gain Table offset Defines the length in bytes of one row of the table"
line.long 0x90 "ISIF_2DLSCORBU,2D Lens Shading Correction Register"
hexmask.long.word 0x90 0.--15. 1. "BASE,Offset Table address base (Upper 16-bits) Table address in bytes"
line.long 0x94 "ISIF_2DLSCORBL,2D Lens Shading Correction Register"
hexmask.long.word 0x94 0.--15. 1. "BASE,Offset Table address base (Lower 16-bits) Table address in bytes"
line.long 0x98 "ISIF_2DLSCOROF,2D Lens Shading Correction Register"
hexmask.long.word 0x98 0.--15. 1. "OFFSET,Offset Table offset Defines the length in bytes of one row of the table"
line.long 0x9C "ISIF_2DLSCIRQEN,"
bitfld.long 0x9C 3. "SOF,Interrupt status for LSC SOF Indicates the start of the LSC valid region" "SOF_0,SOF_1"
bitfld.long 0x9C 2. "PREFETCH_COMPLETED,Interrupt enable for Prefetch Complete Indicates current state of the prefetch buffer" "PREFETCH_COMPLETED_0,PREFETCH_COMPLETED_1"
bitfld.long 0x9C 1. "PREFETCH_ERROR,Interrupt enable for Prefetch Error The prefetch error indicates when the gain table was read to slowly from SDRAM" "PREFETCH_ERROR_0,PREFETCH_ERROR_1"
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bitfld.long 0x9C 0. "DONE,Interrupt enable for LSC Done The event is triggered when the internal state of LSC toggles from BUSY to IDLE" "DONE_0,DONE_1"
line.long 0xA0 "ISIF_2DLSCIRQST,2D Lens Shading Correction Register"
bitfld.long 0xA0 3. "SOF,Interrupt status for LSC SOF Indicates the start of the LSC valid region" "SOF_0,SOF_1"
bitfld.long 0xA0 2. "PREFETCH_COMPLETED,Interrupt status for Prefetch Complete Indicates current state of the prefetch buffer" "PREFETCH_COMPLETED_0,PREFETCH_COMPLETED_1"
bitfld.long 0xA0 1. "PREFETCH_ERROR,Interrupt status for Prefetch Error The prefetch error indicates when the gain table was read to slowly from SDRAM" "PREFETCH_ERROR_0,PREFETCH_ERROR_1"
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bitfld.long 0xA0 0. "DONE,Interrupt status for LSC Done The event is triggered when the internal state of LSC toggles from BUSY to IDLE" "DONE_0,DONE_1"
line.long 0xA4 "ISIF_FMTCFG,Input Data Formatter Register"
bitfld.long 0xA4 8.--11. "FMTAINC,Address increment Address increment = (FMTAINC + 1) Range (1-16) *This bit is latched by VD" "FMTAINC_0,FMTAINC_1,FMTAINC_2,FMTAINC_3,FMTAINC_4,FMTAINC_5,FMTAINC_6,FMTAINC_7,FMTAINC_8,FMTAINC_9,FMTAINC_10,FMTAINC_11,FMTAINC_12,FMTAINC_13,FMTAINC_14,FMTAINC_15"
bitfld.long 0xA4 4.--5. "LNUM,Split/Combine number of lines *This bit is latched by VD" "LNUM_0,LNUM_1,LNUM_2,LNUM_3"
bitfld.long 0xA4 2. "LNALT,Line alternating *This bit is latched by VD" "LNALT_0,LNALT_1"
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bitfld.long 0xA4 1. "FMTCBL,Combine Input lines *This bit is latched by VD" "FMTCBL_0,FMTCBL_1"
bitfld.long 0xA4 0. "FMTEN,CCD Formatter enable *This bit is latched by VD" "FMTEN_0,FMTEN_1"
line.long 0xA8 "ISIF_FMTPLEN,Input Data Formatter Register"
bitfld.long 0xA8 12.--14. "FMTPLEN3,Number of program entries for SET3 Number of entries = (FMTPLEN3 + 1) Range: 1-8 Valid only if FMTCBL is set *This bit is latched by VD" "FMTPLEN3_0,FMTPLEN3_1,FMTPLEN3_2,FMTPLEN3_3,FMTPLEN3_4,FMTPLEN3_5,FMTPLEN3_6,FMTPLEN3_7"
bitfld.long 0xA8 8.--10. "FMTPLEN2,Number of program entries for SET2 Number of entries = (FMTPLEN2 + 1) Range: 1-8 Valid only if FMTCBL is set *This bit is latched by VD" "FMTPLEN2_0,FMTPLEN2_1,FMTPLEN2_2,FMTPLEN2_3,FMTPLEN2_4,FMTPLEN2_5,FMTPLEN2_6,FMTPLEN2_7"
bitfld.long 0xA8 4.--7. "FMTPLEN1,Number of program entries for SET1 Number of entries = (FMTPLEN1 + 1) Range: 1-16 (FMTCBL = 0) 1-8 (FMTCBL = 1) Setting a value greater than 7 to FMTPLEN1 is not allowed if FMTCBL is set *This bit is latched by VD" "FMTPLEN1_0,FMTPLEN1_1,FMTPLEN1_2,FMTPLEN1_3,FMTPLEN1_4,FMTPLEN1_5,FMTPLEN1_6,FMTPLEN1_7,FMTPLEN1_8,FMTPLEN1_9,FMTPLEN1_10,FMTPLEN1_11,FMTPLEN1_12,FMTPLEN1_13,FMTPLEN1_14,FMTPLEN1_15"
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bitfld.long 0xA8 0.--3. "FMTPLEN0,Number of program entries for SET0 Number of entries = (PLEN0 + 1) Range: 1-16 (FMTCBL = 0) 1-8 (FMTCBL = 1) Setting a value greater than 7 to FMTPLEN1 is not allowed if FMTCBL is set *This bit is latched by VD" "FMTPLEN0_0,FMTPLEN0_1,FMTPLEN0_2,FMTPLEN0_3,FMTPLEN0_4,FMTPLEN0_5,FMTPLEN0_6,FMTPLEN0_7,FMTPLEN0_8,FMTPLEN0_9,FMTPLEN0_10,FMTPLEN0_11,FMTPLEN0_12,FMTPLEN0_13,FMTPLEN0_14,FMTPLEN0_15"
line.long 0xAC "ISIF_FMTSPH,Input Data Formatter Register"
hexmask.long.word 0xAC 0.--12. 1. "FMTSPH,The first pixel in a line fed into the formatter"
line.long 0xB0 "ISIF_FMTLNH,Input Data Formatter Register"
hexmask.long.word 0xB0 0.--12. 1. "FMTLNH,Number of pixels in a line fed to the formatter"
line.long 0xB4 "ISIF_FMTLSV,Input Data Formatter Register"
hexmask.long.word 0xB4 0.--12. 1. "FMTSLV,Start line vertical"
line.long 0xB8 "ISIF_FMTLNV,Input Data Formatter Register"
hexmask.long.word 0xB8 0.--14. 1. "FMTLNV,Number of lines in vertical Number of lines = FMTLNV + 1"
line.long 0xBC "ISIF_FMTRLEN,Input Data Formatter Register"
hexmask.long.word 0xBC 0.--12. 1. "FMTRLEN,Number of pixels in an output line Maximum value = 4480"
line.long 0xC0 "ISIF_FMTHCNT,Input Data Formatter Register"
hexmask.long.word 0xC0 0.--12. 1. "FMTHCNT,HD interval for output lines Set all 0 to this register if combining multiple lines into a single line"
line.long 0xC4 "ISIF_FMTAPTR0,Input Data Formatter Register"
bitfld.long 0xC4 13.--14. "LINE,The output line the address belongs to Valid only if FMTCBL is cleared" "LINE_0,LINE_1,LINE_2,LINE_3"
hexmask.long.word 0xC4 0.--12. 1. "INIT,Initial address value for address pointer 0 This address can not exceed FMTRLEN - 1"
line.long 0xC8 "ISIF_FMTAPTR1,Input Data Formatter Register"
bitfld.long 0xC8 13.--14. "LINE,The output line the address belongs to Valid only if FMTCBL is cleared" "LINE_0,LINE_1,LINE_2,LINE_3"
hexmask.long.word 0xC8 0.--12. 1. "INIT,Initial address value for address pointer 1 This address can not exceed FMTRLEN - 1"
line.long 0xCC "ISIF_FMTAPTR2,Input Data Formatter Register"
bitfld.long 0xCC 13.--14. "LINE,The output line the address belongs to Valid only if FMTCBL is cleared" "LINE_0,LINE_1,LINE_2,LINE_3"
hexmask.long.word 0xCC 0.--12. 1. "INIT,Initial address value for address pointer 2 This address can not exceed FMTRLEN - 1"
line.long 0xD0 "ISIF_FMTAPTR3,Input Data Formatter Register"
bitfld.long 0xD0 13.--14. "LINE,The output line the address belongs to Valid only if FMTCBL is cleared" "LINE_0,LINE_1,LINE_2,LINE_3"
hexmask.long.word 0xD0 0.--12. 1. "INIT,Initial address value for address pointer 3 This address can not exceed FMTRLEN - 1"
line.long 0xD4 "ISIF_FMTAPTR4,Input Data Formatter Register"
bitfld.long 0xD4 13.--14. "LINE,The output line the address belongs to Valid only if FMTCBL is cleared" "LINE_0,LINE_1,LINE_2,LINE_3"
hexmask.long.word 0xD4 0.--12. 1. "INIT,Initial address value for address pointer 4 This address can not exceed FMTRLEN - 1"
line.long 0xD8 "ISIF_FMTAPTR5,Input Data Formatter Register"
bitfld.long 0xD8 13.--14. "LINE,The output line the address belongs to Valid only if FMTCBL is cleared" "LINE_0,LINE_1,LINE_2,LINE_3"
hexmask.long.word 0xD8 0.--12. 1. "INIT,Initial address value for address pointer 5 This address can not exceed FMTRLEN - 1"
line.long 0xDC "ISIF_FMTAPTR6,Input Data Formatter Register"
bitfld.long 0xDC 13.--14. "LINE,The output line the address belongs to Valid only if FMTCBL is cleared" "LINE_0,LINE_1,LINE_2,LINE_3"
hexmask.long.word 0xDC 0.--12. 1. "INIT,Initial address value for address pointer 6 This address can not exceed FMTRLEN - 1"
line.long 0xE0 "ISIF_FMTAPTR7,Input Data Formatter Register"
bitfld.long 0xE0 13.--14. "LINE,The output line the address belongs to Valid only if FMTCBL is cleared" "LINE_0,LINE_1,LINE_2,LINE_3"
hexmask.long.word 0xE0 0.--12. 1. "INIT,Initial address value for address pointer 7 This address can not exceed FMTRLEN - 1"
line.long 0xE4 "ISIF_FMTAPTR8,Input Data Formatter Register"
bitfld.long 0xE4 13.--14. "LINE,The output line the address belongs to Valid only if FMTCBL is cleared" "LINE_0,LINE_1,LINE_2,LINE_3"
hexmask.long.word 0xE4 0.--12. 1. "INIT,Initial address value for address pointer 8 This address can not exceed FMTRLEN - 1"
line.long 0xE8 "ISIF_FMTAPTR9,Input Data Formatter Register"
bitfld.long 0xE8 13.--14. "LINE,The output line the address belongs to Valid only if FMTCBL is cleared" "LINE_0,LINE_1,LINE_2,LINE_3"
hexmask.long.word 0xE8 0.--12. 1. "INIT,Initial address value for address pointer 9 This address can not exceed FMTRLEN - 1"
line.long 0xEC "ISIF_FMTAPTR10,Input Data Formatter Register"
bitfld.long 0xEC 13.--14. "LINE,The output line the address belongs to Valid only if FMTCBL is cleared" "LINE_0,LINE_1,LINE_2,LINE_3"
hexmask.long.word 0xEC 0.--12. 1. "INIT,Initial address value for address pointer 10 This address can not exceed FMTRLEN - 1"
line.long 0xF0 "ISIF_FMTAPTR11,Input Data Formatter Register"
bitfld.long 0xF0 13.--14. "LINE,The output line the address belongs to Valid only if FMTCBL is cleared" "LINE_0,LINE_1,LINE_2,LINE_3"
hexmask.long.word 0xF0 0.--12. 1. "INIT,Initial address value for address pointer 11 This address can not exceed FMTRLEN - 1"
line.long 0xF4 "ISIF_FMTAPTR12,Input Data Formatter Register"
bitfld.long 0xF4 13.--14. "LINE,The output line the address belongs to Valid only if FMTCBL is cleared" "LINE_0,LINE_1,LINE_2,LINE_3"
hexmask.long.word 0xF4 0.--12. 1. "INIT,Initial address value for address pointer 12 This address can not exceed FMTRLEN - 1"
line.long 0xF8 "ISIF_FMTAPTR13,Input Data Formatter Register"
bitfld.long 0xF8 13.--14. "LINE,The output line the address belongs to Valid only if FMTCBL is cleared" "LINE_0,LINE_1,LINE_2,LINE_3"
hexmask.long.word 0xF8 0.--12. 1. "INIT,Initial address value for address pointer 13 This address can not exceed FMTRLEN - 1"
line.long 0xFC "ISIF_FMTAPTR14,Input Data Formatter Register"
bitfld.long 0xFC 13.--14. "LINE,The output line the address belongs to Valid only if FMTCBL is cleared" "LINE_0,LINE_1,LINE_2,LINE_3"
hexmask.long.word 0xFC 0.--12. 1. "INIT,Initial address value for address pointer 14 This address can not exceed FMTRLEN - 1"
line.long 0x100 "ISIF_FMTAPTR15,Input Data Formatter Register"
bitfld.long 0x100 13.--14. "LINE,The output line the address belongs to Valid only if FMTCBL is cleared" "LINE_0,LINE_1,LINE_2,LINE_3"
hexmask.long.word 0x100 0.--12. 1. "INIT,Initial address value for address pointer 15 This address can not exceed FMTRLEN - 1"
line.long 0x104 "ISIF_FMTPGMVF0,Input Data Formatter Register"
bitfld.long 0x104 15. "PGM15EN,Program 15 Valid Flag" "PGM15EN_0,PGM15EN_1"
bitfld.long 0x104 14. "PGM14EN,Program 14 Valid Flag" "PGM14EN_0,PGM14EN_1"
bitfld.long 0x104 13. "PGM13EN,Program 13 Valid Flag" "PGM13EN_0,PGM13EN_1"
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bitfld.long 0x104 12. "PGM12EN,Program 12 Valid Flag" "PGM12EN_0,PGM12EN_1"
bitfld.long 0x104 11. "PGM11EN,Program 11 Valid Flag" "PGM11EN_0,PGM11EN_1"
bitfld.long 0x104 10. "PGM10EN,Program 10 Valid Flag" "PGM10EN_0,PGM10EN_1"
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bitfld.long 0x104 9. "PGM09EN,Program 9 Valid Flag" "PGM09EN_0,PGM09EN_1"
bitfld.long 0x104 8. "PGM08EN,Program 8 Valid Flag" "PGM08EN_0,PGM08EN_1"
bitfld.long 0x104 7. "PGM07EN,Program 7 Valid Flag" "PGM07EN_0,PGM07EN_1"
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bitfld.long 0x104 6. "PGM06EN,Program 6 Valid Flag" "PGM06EN_0,PGM06EN_1"
bitfld.long 0x104 5. "PGM05EN,Program 5 Valid Flag" "PGM05EN_0,PGM05EN_1"
bitfld.long 0x104 4. "PGM04EN,Program 4 Valid Flag" "PGM04EN_0,PGM04EN_1"
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bitfld.long 0x104 3. "PGM03EN,Program 3 Valid Flag" "PGM03EN_0,PGM03EN_1"
bitfld.long 0x104 2. "PGM02EN,Program 2 Valid Flag" "PGM02EN_0,PGM02EN_1"
bitfld.long 0x104 1. "PGM01EN,Program 1 Valid Flag" "PGM01EN_0,PGM01EN_1"
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bitfld.long 0x104 0. "PGM00EN,Program 0 Valid Flag" "PGM00EN_0,PGM00EN_1"
line.long 0x108 "ISIF_FMTPGMVF1,Input Data Formatter Register"
bitfld.long 0x108 15. "PGM31EN,Program 31 Valid Flag" "PGM31EN_0,PGM31EN_1"
bitfld.long 0x108 14. "PGM30EN,Program 30 Valid Flag" "PGM30EN_0,PGM30EN_1"
bitfld.long 0x108 13. "PGM29EN,Program 29 Valid Flag" "PGM29EN_0,PGM29EN_1"
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bitfld.long 0x108 12. "PGM28EN,Program 28 Valid Flag" "PGM28EN_0,PGM28EN_1"
bitfld.long 0x108 11. "PGM27EN,Program 27 Valid Flag" "PGM27EN_0,PGM27EN_1"
bitfld.long 0x108 10. "PGM26EN,Program 26 Valid Flag" "PGM26EN_0,PGM26EN_1"
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bitfld.long 0x108 9. "PGM25EN,Program 25 Valid Flag" "PGM25EN_0,PGM25EN_1"
bitfld.long 0x108 8. "PGM24EN,Program 24 Valid Flag" "PGM24EN_0,PGM24EN_1"
bitfld.long 0x108 7. "PGM23EN,Program 23 Valid Flag" "PGM23EN_0,PGM23EN_1"
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bitfld.long 0x108 6. "PGM22EN,Program 22 Valid Flag" "PGM22EN_0,PGM22EN_1"
bitfld.long 0x108 5. "PGM21EN,Program 21 Valid Flag" "PGM21EN_0,PGM21EN_1"
bitfld.long 0x108 4. "PGM20EN,Program 20 Valid Flag" "PGM20EN_0,PGM20EN_1"
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bitfld.long 0x108 3. "PGM19EN,Program 19 Valid Flag" "PGM19EN_0,PGM19EN_1"
bitfld.long 0x108 2. "PGM18EN,Program 18 Valid Flag" "PGM18EN_0,PGM18EN_1"
bitfld.long 0x108 1. "PGM17EN,Program 17 Valid Flag" "PGM17EN_0,PGM17EN_1"
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bitfld.long 0x108 0. "PGM16EN,Program 16 Valid Flag" "PGM16EN_0,PGM16EN_1"
line.long 0x10C "ISIF_FMTPGMAPU0,Input Data Formatter Register"
bitfld.long 0x10C 15. "PGM15UPDT,Program 15 Address Pointer Update" "PGM15UPDT_0,PGM15UPDT_1"
bitfld.long 0x10C 14. "PGM14UPDT,Program 14 Address Pointer Update" "PGM14UPDT_0,PGM14UPDT_1"
bitfld.long 0x10C 13. "PGM13UPDT,Program 13 Address Pointer Update" "PGM13UPDT_0,PGM13UPDT_1"
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bitfld.long 0x10C 12. "PGM12UPDT,Program 12 Address Pointer Update" "PGM12UPDT_0,PGM12UPDT_1"
bitfld.long 0x10C 11. "PGM11UPDT,Program 11 Address Pointer Update" "PGM11UPDT_0,PGM11UPDT_1"
bitfld.long 0x10C 10. "PGM10UPDT,Program 10 Address Pointer Update" "PGM10UPDT_0,PGM10UPDT_1"
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bitfld.long 0x10C 9. "PGM9UPDT,Program 9 Address Pointer Update" "PGM9UPDT_0,PGM9UPDT_1"
bitfld.long 0x10C 8. "PGM8UPDT,Program 8 Address Pointer Update" "PGM8UPDT_0,PGM8UPDT_1"
bitfld.long 0x10C 7. "PGM7UPDT,Program 7 Address Pointer Update" "PGM7UPDT_0,PGM7UPDT_1"
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bitfld.long 0x10C 6. "PGM6UPDT,Program 6 Address Pointer Update" "PGM6UPDT_0,PGM6UPDT_1"
bitfld.long 0x10C 5. "PGM5UPDT,Program 5 Address Pointer Update" "PGM5UPDT_0,PGM5UPDT_1"
bitfld.long 0x10C 4. "PGM4UPDT,Program 4 Address Pointer Update" "PGM4UPDT_0,PGM4UPDT_1"
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bitfld.long 0x10C 3. "PGM3UPDT,Program 3 Address Pointer Update" "PGM3UPDT_0,PGM3UPDT_1"
bitfld.long 0x10C 2. "PGM2UPDT,Program 2 Address Pointer Update" "PGM2UPDT_0,PGM2UPDT_1"
bitfld.long 0x10C 1. "PGM1UPDT,Program 1 Address Pointer Update" "PGM1UPDT_0,PGM1UPDT_1"
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bitfld.long 0x10C 0. "PGM0UPDT,Program 0 Address Pointer Update" "PGM0UPDT_0,PGM0UPDT_1"
line.long 0x110 "ISIF_FMTPGMAPU1,Input Data Formatter Register"
bitfld.long 0x110 15. "PGM31UPDT,Program 31 Address Pointer Update" "PGM31UPDT_0,PGM31UPDT_1"
bitfld.long 0x110 14. "PGM30UPDT,Program 30 Address Pointer Update" "PGM30UPDT_0,PGM30UPDT_1"
bitfld.long 0x110 13. "PGM29UPDT,Program 29 Address Pointer Update" "PGM29UPDT_0,PGM29UPDT_1"
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bitfld.long 0x110 12. "PGM28UPDT,Program 28 Address Pointer Update" "PGM28UPDT_0,PGM28UPDT_1"
bitfld.long 0x110 11. "PGM27UPDT,Program 27 Address Pointer Update" "PGM27UPDT_0,PGM27UPDT_1"
bitfld.long 0x110 10. "PGM26UPDT,Program 26 Address Pointer Update" "PGM26UPDT_0,PGM26UPDT_1"
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bitfld.long 0x110 9. "PGM25UPDT,Program 25 Address Pointer Update" "PGM25UPDT_0,PGM25UPDT_1"
bitfld.long 0x110 8. "PGM24UPDT,Program 24 Address Pointer Update" "PGM24UPDT_0,PGM24UPDT_1"
bitfld.long 0x110 7. "PGM23UPDT,Program 23 Address Pointer Update" "PGM23UPDT_0,PGM23UPDT_1"
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bitfld.long 0x110 6. "PGM22UPDT,Program 22 Address Pointer Update" "PGM22UPDT_0,PGM22UPDT_1"
bitfld.long 0x110 5. "PGM21UPDT,Program 21 Address Pointer Update" "PGM21UPDT_0,PGM21UPDT_1"
bitfld.long 0x110 4. "PGM20UPDT,Program 20 Address Pointer Update" "PGM20UPDT_0,PGM20UPDT_1"
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bitfld.long 0x110 3. "PGM19UPDT,Program 19 Address Pointer Update" "PGM19UPDT_0,PGM19UPDT_1"
bitfld.long 0x110 2. "PGM18UPDT,Program 18 Address Pointer Update" "PGM18UPDT_0,PGM18UPDT_1"
bitfld.long 0x110 1. "PGM17UPDT,Program 17 Address Pointer Update" "PGM17UPDT_0,PGM17UPDT_1"
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bitfld.long 0x110 0. "PGM16UPDT,Program 16 Address Pointer Update" "PGM16UPDT_0,PGM16UPDT_1"
line.long 0x114 "ISIF_FMTPGMAPS0,Input Data Formatter Register"
bitfld.long 0x114 12.--15. "PGM3APTR,Program 3 Address Pointer Select n: APTRn n:0-15 (APTR0 - APR15)" "PGM3APTR_0,PGM3APTR_1,PGM3APTR_2,PGM3APTR_3,PGM3APTR_4,PGM3APTR_5,PGM3APTR_6,PGM3APTR_7,PGM3APTR_8,PGM3APTR_9,PGM3APTR_10,PGM3APTR_11,PGM3APTR_12,PGM3APTR_13,PGM3APTR_14,PGM3APTR_15"
bitfld.long 0x114 8.--11. "PGM2APTR,Program 2 Address Pointer Select n: APTRn n:0-15 (APTR0 - APR15)" "PGM2APTR_0,PGM2APTR_1,PGM2APTR_2,PGM2APTR_3,PGM2APTR_4,PGM2APTR_5,PGM2APTR_6,PGM2APTR_7,PGM2APTR_8,PGM2APTR_9,PGM2APTR_10,PGM2APTR_11,PGM2APTR_12,PGM2APTR_13,PGM2APTR_14,PGM2APTR_15"
bitfld.long 0x114 4.--7. "PGM1APTR,Program 1 Address Pointer Select n: APTRn n:0-15 (APTR0 - APR15)" "PGM1APTR_0,PGM1APTR_1,PGM1APTR_2,PGM1APTR_3,PGM1APTR_4,PGM1APTR_5,PGM1APTR_6,PGM1APTR_7,PGM1APTR_8,PGM1APTR_9,PGM1APTR_10,PGM1APTR_11,PGM1APTR_12,PGM1APTR_13,PGM1APTR_14,PGM1APTR_15"
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bitfld.long 0x114 0.--3. "PGM0APTR,Program 0 Address Pointer Select n: APTRn n:0-15 (APTR0 - APR15)" "PGM0APTR_0,PGM0APTR_1,PGM0APTR_2,PGM0APTR_3,PGM0APTR_4,PGM0APTR_5,PGM0APTR_6,PGM0APTR_7,PGM0APTR_8,PGM0APTR_9,PGM0APTR_10,PGM0APTR_11,PGM0APTR_12,PGM0APTR_13,PGM0APTR_14,PGM0APTR_15"
line.long 0x118 "ISIF_FMTPGMAPS1,Input Data Formatter Register"
bitfld.long 0x118 12.--15. "PGM7APTR,Program 7 Address Pointer Select n: APTRn n:0-15 (APTR0 - APR15)" "PGM7APTR_0,PGM7APTR_1,PGM7APTR_2,PGM7APTR_3,PGM7APTR_4,PGM7APTR_5,PGM7APTR_6,PGM7APTR_7,PGM7APTR_8,PGM7APTR_9,PGM7APTR_10,PGM7APTR_11,PGM7APTR_12,PGM7APTR_13,PGM7APTR_14,PGM7APTR_15"
bitfld.long 0x118 8.--11. "PGM6APTR,Program 6 Address Pointer Select n: APTRn n:0-15 (APTR0 - APR15)" "PGM6APTR_0,PGM6APTR_1,PGM6APTR_2,PGM6APTR_3,PGM6APTR_4,PGM6APTR_5,PGM6APTR_6,PGM6APTR_7,PGM6APTR_8,PGM6APTR_9,PGM6APTR_10,PGM6APTR_11,PGM6APTR_12,PGM6APTR_13,PGM6APTR_14,PGM6APTR_15"
bitfld.long 0x118 4.--7. "PGM5APTR,Program 5 Address Pointer Select n: APTRn n:0-15 (APTR0 - APR15)" "PGM5APTR_0,PGM5APTR_1,PGM5APTR_2,PGM5APTR_3,PGM5APTR_4,PGM5APTR_5,PGM5APTR_6,PGM5APTR_7,PGM5APTR_8,PGM5APTR_9,PGM5APTR_10,PGM5APTR_11,PGM5APTR_12,PGM5APTR_13,PGM5APTR_14,PGM5APTR_15"
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bitfld.long 0x118 0.--3. "PGM4APTR,Program 0 Address Pointer Select n: APTRn n:0-15 (APTR0 - APR15)" "PGM4APTR_0,PGM4APTR_1,PGM4APTR_2,PGM4APTR_3,PGM4APTR_4,PGM4APTR_5,PGM4APTR_6,PGM4APTR_7,PGM4APTR_8,PGM4APTR_9,PGM4APTR_10,PGM4APTR_11,PGM4APTR_12,PGM4APTR_13,PGM4APTR_14,PGM4APTR_15"
line.long 0x11C "ISIF_FMTPGMAPS2,Input Data Formatter Register"
bitfld.long 0x11C 12.--15. "PGM11APTR,Program 11 Address Pointer Select n: APTRn n:0-15 (APTR0 - APR15)" "PGM11APTR_0,PGM11APTR_1,PGM11APTR_2,PGM11APTR_3,PGM11APTR_4,PGM11APTR_5,PGM11APTR_6,PGM11APTR_7,PGM11APTR_8,PGM11APTR_9,PGM11APTR_10,PGM11APTR_11,PGM11APTR_12,PGM11APTR_13,PGM11APTR_14,PGM11APTR_15"
bitfld.long 0x11C 8.--11. "PGM10APTR,Program 10 Address Pointer Select n: APTRn n:0-15 (APTR0 - APR15)" "PGM10APTR_0,PGM10APTR_1,PGM10APTR_2,PGM10APTR_3,PGM10APTR_4,PGM10APTR_5,PGM10APTR_6,PGM10APTR_7,PGM10APTR_8,PGM10APTR_9,PGM10APTR_10,PGM10APTR_11,PGM10APTR_12,PGM10APTR_13,PGM10APTR_14,PGM10APTR_15"
bitfld.long 0x11C 4.--7. "PGM9APTR,Program 9 Address Pointer Select n: APTRn n:0-15 (APTR0 - APR15)" "PGM9APTR_0,PGM9APTR_1,PGM9APTR_2,PGM9APTR_3,PGM9APTR_4,PGM9APTR_5,PGM9APTR_6,PGM9APTR_7,PGM9APTR_8,PGM9APTR_9,PGM9APTR_10,PGM9APTR_11,PGM9APTR_12,PGM9APTR_13,PGM9APTR_14,PGM9APTR_15"
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bitfld.long 0x11C 0.--3. "PGM8APTR,Program 8 Address Pointer Select n: APTRn n:0-15 (APTR0 - APR15)" "PGM8APTR_0,PGM8APTR_1,PGM8APTR_2,PGM8APTR_3,PGM8APTR_4,PGM8APTR_5,PGM8APTR_6,PGM8APTR_7,PGM8APTR_8,PGM8APTR_9,PGM8APTR_10,PGM8APTR_11,PGM8APTR_12,PGM8APTR_13,PGM8APTR_14,PGM8APTR_15"
line.long 0x120 "ISIF_FMTPGMAPS3,Input Data Formatter Register"
bitfld.long 0x120 12.--15. "PGM15APTR,Program 15 Address Pointer Select n: APTRn n:0-15 (APTR0 - APR15)" "PGM15APTR_0,PGM15APTR_1,PGM15APTR_2,PGM15APTR_3,PGM15APTR_4,PGM15APTR_5,PGM15APTR_6,PGM15APTR_7,PGM15APTR_8,PGM15APTR_9,PGM15APTR_10,PGM15APTR_11,PGM15APTR_12,PGM15APTR_13,PGM15APTR_14,PGM15APTR_15"
bitfld.long 0x120 8.--11. "PGM14APTR,Program 14 Address Pointer Select n: APTRn n:0-15 (APTR0 - APR15)" "PGM14APTR_0,PGM14APTR_1,PGM14APTR_2,PGM14APTR_3,PGM14APTR_4,PGM14APTR_5,PGM14APTR_6,PGM14APTR_7,PGM14APTR_8,PGM14APTR_9,PGM14APTR_10,PGM14APTR_11,PGM14APTR_12,PGM14APTR_13,PGM14APTR_14,PGM14APTR_15"
bitfld.long 0x120 4.--7. "PGM13APTR,Program 13 Address Pointer Select n: APTRn n:0-15 (APTR0 - APR15)" "PGM13APTR_0,PGM13APTR_1,PGM13APTR_2,PGM13APTR_3,PGM13APTR_4,PGM13APTR_5,PGM13APTR_6,PGM13APTR_7,PGM13APTR_8,PGM13APTR_9,PGM13APTR_10,PGM13APTR_11,PGM13APTR_12,PGM13APTR_13,PGM13APTR_14,PGM13APTR_15"
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bitfld.long 0x120 0.--3. "PGM12APTR,Program 12 Address Pointer Select n: APTRn n:0-15 (APTR0 - APR15)" "PGM12APTR_0,PGM12APTR_1,PGM12APTR_2,PGM12APTR_3,PGM12APTR_4,PGM12APTR_5,PGM12APTR_6,PGM12APTR_7,PGM12APTR_8,PGM12APTR_9,PGM12APTR_10,PGM12APTR_11,PGM12APTR_12,PGM12APTR_13,PGM12APTR_14,PGM12APTR_15"
line.long 0x124 "ISIF_FMTPGMAPS4,Input Data Formatter Register"
bitfld.long 0x124 12.--15. "PGM19APTR,Program 19 Address Pointer Select n: APTRn n:0-15 (APTR0 - APR15)" "PGM19APTR_0,PGM19APTR_1,PGM19APTR_2,PGM19APTR_3,PGM19APTR_4,PGM19APTR_5,PGM19APTR_6,PGM19APTR_7,PGM19APTR_8,PGM19APTR_9,PGM19APTR_10,PGM19APTR_11,PGM19APTR_12,PGM19APTR_13,PGM19APTR_14,PGM19APTR_15"
bitfld.long 0x124 8.--11. "PGM18APTR,Program 18 Address Pointer Select n: APTRn n:0-15 (APTR0 - APR15)" "PGM18APTR_0,PGM18APTR_1,PGM18APTR_2,PGM18APTR_3,PGM18APTR_4,PGM18APTR_5,PGM18APTR_6,PGM18APTR_7,PGM18APTR_8,PGM18APTR_9,PGM18APTR_10,PGM18APTR_11,PGM18APTR_12,PGM18APTR_13,PGM18APTR_14,PGM18APTR_15"
bitfld.long 0x124 4.--7. "PGM17APTR,Program 17 Address Pointer Select n: APTRn n:0-15 (APTR0 - APR15)" "PGM17APTR_0,PGM17APTR_1,PGM17APTR_2,PGM17APTR_3,PGM17APTR_4,PGM17APTR_5,PGM17APTR_6,PGM17APTR_7,PGM17APTR_8,PGM17APTR_9,PGM17APTR_10,PGM17APTR_11,PGM17APTR_12,PGM17APTR_13,PGM17APTR_14,PGM17APTR_15"
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bitfld.long 0x124 0.--3. "PGM16APTR,Program 16 Address Pointer Select n: APTRn n:0-15 (APTR0 - APR15)" "PGM16APTR_0,PGM16APTR_1,PGM16APTR_2,PGM16APTR_3,PGM16APTR_4,PGM16APTR_5,PGM16APTR_6,PGM16APTR_7,PGM16APTR_8,PGM16APTR_9,PGM16APTR_10,PGM16APTR_11,PGM16APTR_12,PGM16APTR_13,PGM16APTR_14,PGM16APTR_15"
line.long 0x128 "ISIF_FMTPGMAPS5,Input Data Formatter Register"
bitfld.long 0x128 12.--15. "PGM23APTR,Program 23 Address Pointer Select n: APTRn n:0-15 (APTR0 - APR15)" "PGM23APTR_0,PGM23APTR_1,PGM23APTR_2,PGM23APTR_3,PGM23APTR_4,PGM23APTR_5,PGM23APTR_6,PGM23APTR_7,PGM23APTR_8,PGM23APTR_9,PGM23APTR_10,PGM23APTR_11,PGM23APTR_12,PGM23APTR_13,PGM23APTR_14,PGM23APTR_15"
bitfld.long 0x128 8.--11. "PGM22APTR,Program 22 Address Pointer Select n: APTRn n:0-15 (APTR0 - APR15)" "PGM22APTR_0,PGM22APTR_1,PGM22APTR_2,PGM22APTR_3,PGM22APTR_4,PGM22APTR_5,PGM22APTR_6,PGM22APTR_7,PGM22APTR_8,PGM22APTR_9,PGM22APTR_10,PGM22APTR_11,PGM22APTR_12,PGM22APTR_13,PGM22APTR_14,PGM22APTR_15"
bitfld.long 0x128 4.--7. "PGM21APTR,Program 21 Address Pointer Select n: APTRn n:0-15 (APTR0 - APR15)" "PGM21APTR_0,PGM21APTR_1,PGM21APTR_2,PGM21APTR_3,PGM21APTR_4,PGM21APTR_5,PGM21APTR_6,PGM21APTR_7,PGM21APTR_8,PGM21APTR_9,PGM21APTR_10,PGM21APTR_11,PGM21APTR_12,PGM21APTR_13,PGM21APTR_14,PGM21APTR_15"
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bitfld.long 0x128 0.--3. "PGM20APTR,Program 20 Address Pointer Select n: APTRn n:0-15 (APTR0 - APR15)" "PGM20APTR_0,PGM20APTR_1,PGM20APTR_2,PGM20APTR_3,PGM20APTR_4,PGM20APTR_5,PGM20APTR_6,PGM20APTR_7,PGM20APTR_8,PGM20APTR_9,PGM20APTR_10,PGM20APTR_11,PGM20APTR_12,PGM20APTR_13,PGM20APTR_14,PGM20APTR_15"
line.long 0x12C "ISIF_FMTPGMAPS6,Input Data Formatter Register"
bitfld.long 0x12C 12.--15. "PGM27APTR,Program 27 Address Pointer Select n: APTRn n:0-15 (APTR0 - APR15)" "PGM27APTR_0,PGM27APTR_1,PGM27APTR_2,PGM27APTR_3,PGM27APTR_4,PGM27APTR_5,PGM27APTR_6,PGM27APTR_7,PGM27APTR_8,PGM27APTR_9,PGM27APTR_10,PGM27APTR_11,PGM27APTR_12,PGM27APTR_13,PGM27APTR_14,PGM27APTR_15"
bitfld.long 0x12C 8.--11. "PGM26APTR,Program 26 Address Pointer Select n: APTRn n:0-15 (APTR0 - APR15)" "PGM26APTR_0,PGM26APTR_1,PGM26APTR_2,PGM26APTR_3,PGM26APTR_4,PGM26APTR_5,PGM26APTR_6,PGM26APTR_7,PGM26APTR_8,PGM26APTR_9,PGM26APTR_10,PGM26APTR_11,PGM26APTR_12,PGM26APTR_13,PGM26APTR_14,PGM26APTR_15"
bitfld.long 0x12C 4.--7. "PGM25APTR,Program 25 Address Pointer Select n: APTRn n:0-15 (APTR0 - APR15)" "PGM25APTR_0,PGM25APTR_1,PGM25APTR_2,PGM25APTR_3,PGM25APTR_4,PGM25APTR_5,PGM25APTR_6,PGM25APTR_7,PGM25APTR_8,PGM25APTR_9,PGM25APTR_10,PGM25APTR_11,PGM25APTR_12,PGM25APTR_13,PGM25APTR_14,PGM25APTR_15"
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bitfld.long 0x12C 0.--3. "PGM24APTR,Program 24 Address Pointer Select n: APTRn n:0-15 (APTR0 - APR15)" "PGM24APTR_0,PGM24APTR_1,PGM24APTR_2,PGM24APTR_3,PGM24APTR_4,PGM24APTR_5,PGM24APTR_6,PGM24APTR_7,PGM24APTR_8,PGM24APTR_9,PGM24APTR_10,PGM24APTR_11,PGM24APTR_12,PGM24APTR_13,PGM24APTR_14,PGM24APTR_15"
line.long 0x130 "ISIF_FMTPGMAPS7,Input Data Formatter Register"
bitfld.long 0x130 12.--15. "PGM31APTR,Program 31 Address Pointer Select n: APTRn n:0-15 (APTR0 - APR15)" "PGM31APTR_0,PGM31APTR_1,PGM31APTR_2,PGM31APTR_3,PGM31APTR_4,PGM31APTR_5,PGM31APTR_6,PGM31APTR_7,PGM31APTR_8,PGM31APTR_9,PGM31APTR_10,PGM31APTR_11,PGM31APTR_12,PGM31APTR_13,PGM31APTR_14,PGM31APTR_15"
bitfld.long 0x130 8.--11. "PGM30APTR,Program 30 Address Pointer Select n: APTRn n:0-15 (APTR0 - APR15)" "PGM30APTR_0,PGM30APTR_1,PGM30APTR_2,PGM30APTR_3,PGM30APTR_4,PGM30APTR_5,PGM30APTR_6,PGM30APTR_7,PGM30APTR_8,PGM30APTR_9,PGM30APTR_10,PGM30APTR_11,PGM30APTR_12,PGM30APTR_13,PGM30APTR_14,PGM30APTR_15"
bitfld.long 0x130 4.--7. "PGM29APTR,Program 29 Address Pointer Select n: APTRn n:0-15 (APTR0 - APR15)" "PGM29APTR_0,PGM29APTR_1,PGM29APTR_2,PGM29APTR_3,PGM29APTR_4,PGM29APTR_5,PGM29APTR_6,PGM29APTR_7,PGM29APTR_8,PGM29APTR_9,PGM29APTR_10,PGM29APTR_11,PGM29APTR_12,PGM29APTR_13,PGM29APTR_14,PGM29APTR_15"
newline
bitfld.long 0x130 0.--3. "PGM28APTR,Program 28 Address Pointer Select n: APTRn n:0-15 (APTR0 - APR15)" "PGM28APTR_0,PGM28APTR_1,PGM28APTR_2,PGM28APTR_3,PGM28APTR_4,PGM28APTR_5,PGM28APTR_6,PGM28APTR_7,PGM28APTR_8,PGM28APTR_9,PGM28APTR_10,PGM28APTR_11,PGM28APTR_12,PGM28APTR_13,PGM28APTR_14,PGM28APTR_15"
line.long 0x134 "ISIF_CSCCTL,Color Space Converter Register"
bitfld.long 0x134 0. "CSCEN,Controls ON/OFF of Color Space converter" "CSCEN_0,CSCEN_1"
line.long 0x138 "ISIF_CSCM0,Color Space Converter Register"
hexmask.long.byte 0x138 8.--15. 1. "CSCM01,Color Space convert coefficient value M01: This value is signed 8-bit with the 5-bits decimal"
hexmask.long.byte 0x138 0.--7. 1. "CSCM00,Color Space convert coefficient value M00: This value is signed 8-bit with the 5-bits decimal"
line.long 0x13C "ISIF_CSCM1,Color Space Converter Register"
hexmask.long.byte 0x13C 8.--15. 1. "CSCM03,Color Space convert coefficient value M03: This value is signed 8-bit with the 5-bits decimal"
hexmask.long.byte 0x13C 0.--7. 1. "CSCM02,Color Space convert coefficient value M02: This value is signed 8-bit with the 5-bits decimal"
line.long 0x140 "ISIF_CSCM2,Color Space Converter Register"
hexmask.long.byte 0x140 8.--15. 1. "CSCM11,Color Space convert coefficient value M11: This value is signed 8-bit with the 5-bits decimal"
hexmask.long.byte 0x140 0.--7. 1. "CSCM10,Color Space convert coefficient value M10: This value is signed 8-bit with the 5-bits decimal"
line.long 0x144 "ISIF_CSCM3,Color Space Converter Register"
hexmask.long.byte 0x144 8.--15. 1. "CSCM13,Color Space convert coefficient value M13: This value is signed 8-bit with the 5-bits decimal"
hexmask.long.byte 0x144 0.--7. 1. "CSCM12,Color Space convert coefficient value M12: This value is signed 8-bit with the 5-bits decimal"
line.long 0x148 "ISIF_CSCM4,Color Space Converter Register"
hexmask.long.byte 0x148 8.--15. 1. "CSCM21,Color Space convert coefficient value M21: This value is signed 8-bit with the 5-bits decimal"
hexmask.long.byte 0x148 0.--7. 1. "CSCM20,Color Space convert coefficient value M20: This value is signed 8-bit with the 5-bits decimal"
line.long 0x14C "ISIF_CSCM5,Color Space Converter Register"
hexmask.long.byte 0x14C 8.--15. 1. "CSCM23,Color Space convert coefficient value M23: This value is signed 8-bit with the 5-bits decimal"
hexmask.long.byte 0x14C 0.--7. 1. "CSCM22,Color Space convert coefficient value M22: This value is signed 8-bit with the 5-bits decimal"
line.long 0x150 "ISIF_CSCM6,Color Space Converter Register"
hexmask.long.byte 0x150 8.--15. 1. "CSCM31,Color Space convert coefficient value M31: This value is signed 8-bit with the 5-bits decimal"
hexmask.long.byte 0x150 0.--7. 1. "CSCM30,Color Space convert coefficient value M30: This value is signed 8-bit with the 5-bits decimal"
line.long 0x154 "ISIF_CSCM7,Color Space Converter Register"
hexmask.long.byte 0x154 8.--15. 1. "CSCM33,Color Space convert coefficient value M33: This value is signed 8-bit with the 5-bits decimal"
hexmask.long.byte 0x154 0.--7. 1. "CSCM32,Color Space convert coefficient value M32: This value is signed 8-bit with the 5-bits decimal"
group.long 0x1F8++0x03
line.long 0x00 "ISIF_CLKCTL,"
bitfld.long 0x00 1. "CLKEN1,Forces isif_clken1 to be active" "CLKEN1_0,CLKEN1_1"
bitfld.long 0x00 0. "CLKEN2,Forces isif_clken2 to be active" "CLKEN2_0,CLKEN2_1"
tree.end
tree "ISS_ISP5_SYS1"
base ansd:0x52010000
tree "IRQ_Line_0"
group.long 0x30++0x03
line.long 0x00 "ISP5_IRQENABLE_CLR_i_0,Per-event interrupt enable bit vector"
bitfld.long 0x00 31. "OCP_ERR_IRQ,An OCP error has been received on the ISP master port" "OCP_ERR_IRQ_0_r,OCP_ERR_IRQ_1_r"
bitfld.long 0x00 29. "IPIPE_INT_DPC_RNEW1," "IPIPE_INT_DPC_RNEW1_0_r,IPIPE_INT_DPC_RNEW1_1_r"
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bitfld.long 0x00 28. "IPIPE_INT_DPC_RNEW0," "IPIPE_INT_DPC_RNEW0_0_r,IPIPE_INT_DPC_RNEW0_1_r"
bitfld.long 0x00 27. "IPIPE_INT_DPC_INI," "IPIPE_INT_DPC_INI_0_r,IPIPE_INT_DPC_INI_1_r"
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bitfld.long 0x00 25. "IPIPE_INT_EOF," "IPIPE_INT_EOF_0_r,IPIPE_INT_EOF_1_r"
bitfld.long 0x00 24. "H3A_INT_EOF," "H3A_INT_EOF_0_r,H3A_INT_EOF_1_r"
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bitfld.long 0x00 23. "RSZ_INT_EOF1,RESIZER module event: This event signals that the BL has received the EOF signal from the resizer B engine which happens one the last transfer in the frame has happened" "RSZ_INT_EOF1_0_r,RSZ_INT_EOF1_1_r"
bitfld.long 0x00 22. "RSZ_INT_EOF0,RESIZER module event: This event signals that the BL has received the EOF signal from the resizer A engine which happens one the last transfer in the frame has happened" "RSZ_INT_EOF0_0_r,RSZ_INT_EOF0_1_r"
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bitfld.long 0x00 19. "RSZ_FIFO_IN_BLK_ERR,This event signals that the minimum vertical blanking period has not been respected causing errors in the input data buffering submodule" "RSZ_FIFO_IN_BLK_ERR_0_r,RSZ_FIFO_IN_BLK_ERR_1_r"
bitfld.long 0x00 18. "RSZ_FIFO_OVF,RESIZER module event: This event signals that overflow happened in the input data buffering submodule or in the RSZ output interface" "RSZ_FIFO_OVF_0_r,RSZ_FIFO_OVF_1_r"
newline
bitfld.long 0x00 17. "RSZ_INT_CYC_RZB,RESIZER module event: This event is the circular interrupt for RESIZER #B" "RSZ_INT_CYC_RZB_0_r,RSZ_INT_CYC_RZB_1_r"
bitfld.long 0x00 16. "RSZ_INT_CYC_RZA,RESIZER module event: This event is the circular interrupt for RESIZER #A" "RSZ_INT_CYC_RZA_0_r,RSZ_INT_CYC_RZA_1_r"
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bitfld.long 0x00 15. "RSZ_INT_DMA,RESIZER module event: This event is triggered when the last EOF (of the two MTC interfaces) is sent out to the BL and that the resizer core has returned to idle" "RSZ_INT_DMA_0_r,RSZ_INT_DMA_1_r"
bitfld.long 0x00 14. "RSZ_INT_LAST_PIX,RESIZER module event: This event is triggered when the last pixel of the valid area is received" "RSZ_INT_LAST_PIX_0_r,RSZ_INT_LAST_PIX_1_r"
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bitfld.long 0x00 13. "RSZ_INT_REG,RESIZER module event: This event is triggered when the first pixel of the valid area is received" "RSZ_INT_REG_0_r,RSZ_INT_REG_1_r"
bitfld.long 0x00 12. "H3A_INT," "H3A_INT_0_r,H3A_INT_1_r"
newline
bitfld.long 0x00 11. "AF_INT," "AF_INT_0_r,AF_INT_1_r"
bitfld.long 0x00 10. "AEW_INT," "AEW_INT_0_r,AEW_INT_1_r"
newline
bitfld.long 0x00 9. "IPIPEIF_IRQ,IPIPEIF module interrupt" "IPIPEIF_IRQ_0_r,IPIPEIF_IRQ_1_r"
bitfld.long 0x00 8. "IPIPE_INT_HST," "IPIPE_INT_HST_0_r,IPIPE_INT_HST_1_r"
newline
bitfld.long 0x00 7. "IPIPE_INT_BSC," "IPIPE_INT_BSC_0_r,IPIPE_INT_BSC_1_r"
bitfld.long 0x00 6. "IPIPE_INT_DMA," "IPIPE_INT_DMA_0_r,IPIPE_INT_DMA_1_r"
newline
bitfld.long 0x00 5. "IPIPE_INT_LAST_PIX," "IPIPE_INT_LAST_PIX_0_r,IPIPE_INT_LAST_PIX_1_r"
bitfld.long 0x00 4. "IPIPE_INT_REG," "IPIPE_INT_REG_0_r,IPIPE_INT_REG_1_r"
newline
bitfld.long 0x00 3. "ISIF_INT_3,Set this bit to disable the LSC interrupt issued by the 2D-LSC block" "ISIF_INT_3_0_r,ISIF_INT_3_1_r"
bitfld.long 0x00 2. "ISIF_INT_2,VD interrupt 2 event" "ISIF_INT_2_0_r,ISIF_INT_2_1_r"
newline
bitfld.long 0x00 1. "ISIF_INT_1,VD interrupt 1 event" "ISIF_INT_1_0_r,ISIF_INT_1_1_r"
bitfld.long 0x00 0. "ISIF_INT_0,VD interrupt 0 event" "ISIF_INT_0_0_r,ISIF_INT_0_1_r"
group.long 0x2C++0x03
line.long 0x00 "ISP5_IRQENABLE_SET_i_0,Per-event interrupt enable bit vector"
bitfld.long 0x00 31. "OCP_ERR_IRQ,An OCP error has been received on the ISP master port" "OCP_ERR_IRQ_0_r,OCP_ERR_IRQ_1_r"
bitfld.long 0x00 29. "IPIPE_INT_DPC_RNEW1," "IPIPE_INT_DPC_RNEW1_0_r,IPIPE_INT_DPC_RNEW1_1_r"
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bitfld.long 0x00 28. "IPIPE_INT_DPC_RNEW0," "IPIPE_INT_DPC_RNEW0_0_r,IPIPE_INT_DPC_RNEW0_1_r"
bitfld.long 0x00 27. "IPIPE_INT_DPC_INI," "IPIPE_INT_DPC_INI_0_r,IPIPE_INT_DPC_INI_1_r"
newline
bitfld.long 0x00 25. "IPIPE_INT_EOF," "IPIPE_INT_EOF_0_r,IPIPE_INT_EOF_1_r"
bitfld.long 0x00 24. "H3A_INT_EOF," "H3A_INT_EOF_0_r,H3A_INT_EOF_1_r"
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bitfld.long 0x00 23. "RSZ_INT_EOF1,RESIZER module event: This event signals that the BL has received the EOF signal from the resizer B engine which happens one the last transfer in the frame has happened" "RSZ_INT_EOF1_0_r,RSZ_INT_EOF1_1_r"
bitfld.long 0x00 22. "RSZ_INT_EOF0,RESIZER module event: This event signals that the BL has received the EOF signal from the resizer A engine which happens one the last transfer in the frame has happened" "RSZ_INT_EOF0_0_r,RSZ_INT_EOF0_1_r"
newline
bitfld.long 0x00 19. "RSZ_FIFO_IN_BLK_ERR,This event signals that the minimum vertical blanking period has not been respected causing errors in the input data buffering submodule" "RSZ_FIFO_IN_BLK_ERR_0_r,RSZ_FIFO_IN_BLK_ERR_1_r"
bitfld.long 0x00 18. "RSZ_FIFO_OVF,This event signals that overflow happened in the input data buffering submodule or in the RSZ output interface" "RSZ_FIFO_OVF_0_r,RSZ_FIFO_OVF_1_r"
newline
bitfld.long 0x00 17. "RSZ_INT_CYC_RZB,RESIZER module event: This event is the circular interrupt for RESIZER #B" "RSZ_INT_CYC_RZB_0_r,RSZ_INT_CYC_RZB_1_r"
bitfld.long 0x00 16. "RSZ_INT_CYC_RZA,RESIZER module event: This event is the circular interrupt for RESIZER #A" "RSZ_INT_CYC_RZA_0_r,RSZ_INT_CYC_RZA_1_r"
newline
bitfld.long 0x00 15. "RSZ_INT_DMA,This event is triggered when the last EOF (of the two MTC interfaces) is sent out to the BL and that the resizer core has returned to idle" "RSZ_INT_DMA_0_r,RSZ_INT_DMA_1_r"
bitfld.long 0x00 14. "RSZ_INT_LAST_PIX,This event is triggered when the last pixel of the valid area is received" "RSZ_INT_LAST_PIX_0_r,RSZ_INT_LAST_PIX_1_r"
newline
bitfld.long 0x00 13. "RSZ_INT_REG,This event is triggered when the first pixel of the valid area is received" "RSZ_INT_REG_0_r,RSZ_INT_REG_1_r"
bitfld.long 0x00 12. "H3A_INT," "H3A_INT_0_r,H3A_INT_1_r"
newline
bitfld.long 0x00 11. "AF_INT," "AF_INT_0_r,AF_INT_1_r"
bitfld.long 0x00 10. "AEW_INT," "AEW_INT_0_r,AEW_INT_1_r"
newline
bitfld.long 0x00 9. "IPIPEIF_IRQ,IPIPEIF module interrupt" "IPIPEIF_IRQ_0_r,IPIPEIF_IRQ_1_r"
bitfld.long 0x00 8. "IPIPE_INT_HST," "IPIPE_INT_HST_0_r,IPIPE_INT_HST_1_r"
newline
bitfld.long 0x00 7. "IPIPE_INT_BSC," "IPIPE_INT_BSC_0_r,IPIPE_INT_BSC_1_r"
bitfld.long 0x00 6. "IPIPE_INT_DMA," "IPIPE_INT_DMA_0_r,IPIPE_INT_DMA_1_r"
newline
bitfld.long 0x00 5. "IPIPE_INT_LAST_PIX," "IPIPE_INT_LAST_PIX_0_r,IPIPE_INT_LAST_PIX_1_r"
bitfld.long 0x00 4. "IPIPE_INT_REG," "IPIPE_INT_REG_0_r,IPIPE_INT_REG_1_r"
newline
bitfld.long 0x00 3. "ISIF_INT_3,LSC interrupt issued by the 2D-LSC block" "ISIF_INT_3_0_r,ISIF_INT_3_1_r"
bitfld.long 0x00 2. "ISIF_INT_2,VD interrupt 2 event" "ISIF_INT_2_0_r,ISIF_INT_2_1_r"
newline
bitfld.long 0x00 1. "ISIF_INT_1,VD interrupt 1 event" "ISIF_INT_1_0_r,ISIF_INT_1_1_r"
bitfld.long 0x00 0. "ISIF_INT_0,VD interrupt 0 event" "ISIF_INT_0_0_r,ISIF_INT_0_1_r"
group.long 0x24++0x07
line.long 0x00 "ISP5_IRQSTATUS_RAW_i_0,Per-event raw interrupt status vector"
bitfld.long 0x00 31. "OCP_ERR_IRQ,An OCP error has been received on the ISP master port" "OCP_ERR_IRQ_0_r,OCP_ERR_IRQ_1_r"
bitfld.long 0x00 29. "IPIPE_INT_DPC_RNEW1," "IPIPE_INT_DPC_RNEW1_0_r,IPIPE_INT_DPC_RNEW1_1_r"
newline
bitfld.long 0x00 28. "IPIPE_INT_DPC_RNEW0," "IPIPE_INT_DPC_RNEW0_0_r,IPIPE_INT_DPC_RNEW0_1_r"
bitfld.long 0x00 27. "IPIPE_INT_DPC_INI," "IPIPE_INT_DPC_INI_0_r,IPIPE_INT_DPC_INI_1_r"
newline
bitfld.long 0x00 25. "IPIPE_INT_EOF," "IPIPE_INT_EOF_0_r,IPIPE_INT_EOF_1_r"
bitfld.long 0x00 24. "H3A_INT_EOF," "H3A_INT_EOF_0_r,H3A_INT_EOF_1_r"
newline
bitfld.long 0x00 23. "RSZ_INT_EOF1,RESIZER module event: This event signals that the BL has received the EOF signal from the resizer B engine which happens one the last transfer in the frame has happened" "RSZ_INT_EOF1_0_r,RSZ_INT_EOF1_1_r"
bitfld.long 0x00 22. "RSZ_INT_EOF0,RESIZER module event: This event signals that the BL has received the EOF signal from the resizer A engine which happens one the last transfer in the frame has happened" "RSZ_INT_EOF0_0_r,RSZ_INT_EOF0_1_r"
newline
bitfld.long 0x00 19. "RSZ_FIFO_IN_BLK_ERR,This event signals that the minimum vertical blanking period has not been respected causing errors in the input data buffering submodule" "RSZ_FIFO_IN_BLK_ERR_0_r,RSZ_FIFO_IN_BLK_ERR_1_r"
bitfld.long 0x00 18. "RSZ_FIFO_OVF,This event signals that overflow happened in the input data buffering submodule" "RSZ_FIFO_OVF_0_r,RSZ_FIFO_OVF_1_r"
newline
bitfld.long 0x00 17. "RSZ_INT_CYC_RZB,RESIZER module event: This event is the circular interrupt for RESIZER #B" "RSZ_INT_CYC_RZB_0_r,RSZ_INT_CYC_RZB_1_r"
bitfld.long 0x00 16. "RSZ_INT_CYC_RZA,RESIZER module event: This event is the circular interrupt for RESIZER #A" "RSZ_INT_CYC_RZA_0_r,RSZ_INT_CYC_RZA_1_r"
newline
bitfld.long 0x00 15. "RSZ_INT_DMA,This event is triggered when the last EOF (of the two MTC interfaces) is sent out to the BL and that the resizer core has returned to idle" "RSZ_INT_DMA_0_r,RSZ_INT_DMA_1_r"
bitfld.long 0x00 14. "RSZ_INT_LAST_PIX,This event is triggered when the last pixel of the valid area is received" "RSZ_INT_LAST_PIX_0_r,RSZ_INT_LAST_PIX_1_r"
newline
bitfld.long 0x00 13. "RSZ_INT_REG,This event is triggered when the first pixel of the valid area is received" "RSZ_INT_REG_0_r,RSZ_INT_REG_1_r"
bitfld.long 0x00 12. "H3A_INT," "H3A_INT_0_r,H3A_INT_1_r"
newline
bitfld.long 0x00 11. "AF_INT," "AF_INT_0_r,AF_INT_1_r"
bitfld.long 0x00 10. "AEW_INT," "AEW_INT_0_r,AEW_INT_1_r"
newline
bitfld.long 0x00 9. "IPIPEIF_IRQ,IPIPEIF module interrupt" "IPIPEIF_IRQ_0_r,IPIPEIF_IRQ_1_r"
bitfld.long 0x00 8. "IPIPE_INT_HST," "IPIPE_INT_HST_0_r,IPIPE_INT_HST_1_r"
newline
bitfld.long 0x00 7. "IPIPE_INT_BSC," "IPIPE_INT_BSC_0_r,IPIPE_INT_BSC_1_r"
bitfld.long 0x00 6. "IPIPE_INT_DMA," "IPIPE_INT_DMA_0_r,IPIPE_INT_DMA_1_r"
newline
bitfld.long 0x00 5. "IPIPE_INT_LAST_PIX," "IPIPE_INT_LAST_PIX_0_r,IPIPE_INT_LAST_PIX_1_r"
bitfld.long 0x00 4. "IPIPE_INT_REG," "IPIPE_INT_REG_0_r,IPIPE_INT_REG_1_r"
newline
bitfld.long 0x00 3. "ISIF_INT_3," "ISIF_INT_3_0_r,ISIF_INT_3_1_r"
bitfld.long 0x00 2. "ISIF_INT_2," "ISIF_INT_2_0_r,ISIF_INT_2_1_r"
newline
bitfld.long 0x00 1. "ISIF_INT_1," "ISIF_INT_1_0_r,ISIF_INT_1_1_r"
bitfld.long 0x00 0. "ISIF_INT_0," "ISIF_INT_0_0_r,ISIF_INT_0_1_r"
line.long 0x04 "ISP5_IRQSTATUS_i_0,Per-event 'enabled' interrupt status vector"
bitfld.long 0x04 31. "OCP_ERR_IRQ,An OCP error has been received on the ISP master port" "OCP_ERR_IRQ_0_r,OCP_ERR_IRQ_1_r"
bitfld.long 0x04 29. "IPIPE_INT_DPC_RNEW1," "IPIPE_INT_DPC_RNEW1_0_r,IPIPE_INT_DPC_RNEW1_1_r"
newline
bitfld.long 0x04 28. "IPIPE_INT_DPC_RNEW0," "IPIPE_INT_DPC_RNEW0_0_r,IPIPE_INT_DPC_RNEW0_1_r"
bitfld.long 0x04 27. "IPIPE_INT_DPC_INI," "IPIPE_INT_DPC_INI_0_r,IPIPE_INT_DPC_INI_1_r"
newline
bitfld.long 0x04 25. "IPIPE_INT_EOF," "IPIPE_INT_EOF_0_r,IPIPE_INT_EOF_1_r"
bitfld.long 0x04 24. "H3A_INT_EOF," "H3A_INT_EOF_0_r,H3A_INT_EOF_1_r"
newline
bitfld.long 0x04 23. "RSZ_INT_EOF1,RESIZER module event: This event signals that the BL has received the EOF signal from the resizer B engine which happens one the last transfer in the frame has happened" "RSZ_INT_EOF1_0_r,RSZ_INT_EOF1_1_r"
bitfld.long 0x04 22. "RSZ_INT_EOF0,RESIZER module event: This event signals that the BL has received the EOF signal from the resizer A engine which happens one the last transfer in the frame has happened" "RSZ_INT_EOF0_0_r,RSZ_INT_EOF0_1_r"
newline
bitfld.long 0x04 19. "RSZ_FIFO_IN_BLK_ERR,This event signals that the minimum vertical blanking period has not been respected causing errors in the input data buffering submodule" "RSZ_FIFO_IN_BLK_ERR_0_r,RSZ_FIFO_IN_BLK_ERR_1_r"
bitfld.long 0x04 18. "RSZ_FIFO_OVF,This event signals that overflow happened in the input data buffering submodule or in the RSZ output interface" "RSZ_FIFO_OVF_0_r,RSZ_FIFO_OVF_1_r"
newline
bitfld.long 0x04 17. "RSZ_INT_CYC_RZB,RESIZER module event: This event is the circular interrupt for RESIZER #B" "RSZ_INT_CYC_RZB_0_r,RSZ_INT_CYC_RZB_1_r"
bitfld.long 0x04 16. "RSZ_INT_CYC_RZA,RESIZER module event: This event is the circular interrupt for RESIZER #A" "RSZ_INT_CYC_RZA_0_r,RSZ_INT_CYC_RZA_1_r"
newline
bitfld.long 0x04 15. "RSZ_INT_DMA,This event is triggered when the last EOF (of the two MTC interfaces) is sent out to the BL and that the resizer core has returned to idle" "RSZ_INT_DMA_0_r,RSZ_INT_DMA_1_r"
bitfld.long 0x04 14. "RSZ_INT_LAST_PIX,This event is triggered when the last pixel of the valid area is received" "RSZ_INT_LAST_PIX_0_r,RSZ_INT_LAST_PIX_1_r"
newline
bitfld.long 0x04 13. "RSZ_INT_REG,This event is triggered when the first pixel of the valid area is received" "RSZ_INT_REG_0_r,RSZ_INT_REG_1_r"
bitfld.long 0x04 12. "H3A_INT," "H3A_INT_0_r,H3A_INT_1_r"
newline
bitfld.long 0x04 11. "AF_INT," "AF_INT_0_r,AF_INT_1_r"
bitfld.long 0x04 10. "AEW_INT," "AEW_INT_0_r,AEW_INT_1_r"
newline
bitfld.long 0x04 9. "IPIPEIF_IRQ,IPIPEIF module interrupt" "IPIPEIF_IRQ_0_r,IPIPEIF_IRQ_1_r"
bitfld.long 0x04 8. "IPIPE_INT_HST," "IPIPE_INT_HST_0_r,IPIPE_INT_HST_1_r"
newline
bitfld.long 0x04 7. "IPIPE_INT_BSC," "IPIPE_INT_BSC_0_r,IPIPE_INT_BSC_1_r"
bitfld.long 0x04 6. "IPIPE_INT_DMA," "IPIPE_INT_DMA_0_r,IPIPE_INT_DMA_1_r"
newline
bitfld.long 0x04 5. "IPIPE_INT_LAST_PIX," "IPIPE_INT_LAST_PIX_0_r,IPIPE_INT_LAST_PIX_1_r"
bitfld.long 0x04 4. "IPIPE_INT_REG," "IPIPE_INT_REG_0_r,IPIPE_INT_REG_1_r"
newline
bitfld.long 0x04 3. "ISIF_INT_3,LSC interrupt issued by 2D-LSC block" "ISIF_INT_3_0_r,ISIF_INT_3_1_r"
bitfld.long 0x04 2. "ISIF_INT_2,VD interrupt 2 event" "ISIF_INT_2_0_r,ISIF_INT_2_1_r"
newline
bitfld.long 0x04 1. "ISIF_INT_1,VD interrupt 1 event" "ISIF_INT_1_0_r,ISIF_INT_1_1_r"
bitfld.long 0x04 0. "ISIF_INT_0,VD interrupt 0 event" "ISIF_INT_0_0_r,ISIF_INT_0_1_r"
tree.end
tree "IRQ_Line_1"
group.long 0x40++0x03
line.long 0x00 "ISP5_IRQENABLE_CLR_i_1,Per-event interrupt enable bit vector"
bitfld.long 0x00 31. "OCP_ERR_IRQ,An OCP error has been received on the ISP master port" "OCP_ERR_IRQ_0_r,OCP_ERR_IRQ_1_r"
bitfld.long 0x00 29. "IPIPE_INT_DPC_RNEW1," "IPIPE_INT_DPC_RNEW1_0_r,IPIPE_INT_DPC_RNEW1_1_r"
newline
bitfld.long 0x00 28. "IPIPE_INT_DPC_RNEW0," "IPIPE_INT_DPC_RNEW0_0_r,IPIPE_INT_DPC_RNEW0_1_r"
bitfld.long 0x00 27. "IPIPE_INT_DPC_INI," "IPIPE_INT_DPC_INI_0_r,IPIPE_INT_DPC_INI_1_r"
newline
bitfld.long 0x00 25. "IPIPE_INT_EOF," "IPIPE_INT_EOF_0_r,IPIPE_INT_EOF_1_r"
bitfld.long 0x00 24. "H3A_INT_EOF," "H3A_INT_EOF_0_r,H3A_INT_EOF_1_r"
newline
bitfld.long 0x00 23. "RSZ_INT_EOF1,RESIZER module event: This event signals that the BL has received the EOF signal from the resizer B engine which happens one the last transfer in the frame has happened" "RSZ_INT_EOF1_0_r,RSZ_INT_EOF1_1_r"
bitfld.long 0x00 22. "RSZ_INT_EOF0,RESIZER module event: This event signals that the BL has received the EOF signal from the resizer A engine which happens one the last transfer in the frame has happened" "RSZ_INT_EOF0_0_r,RSZ_INT_EOF0_1_r"
newline
bitfld.long 0x00 19. "RSZ_FIFO_IN_BLK_ERR,This event signals that the minimum vertical blanking period has not been respected causing errors in the input data buffering submodule" "RSZ_FIFO_IN_BLK_ERR_0_r,RSZ_FIFO_IN_BLK_ERR_1_r"
bitfld.long 0x00 18. "RSZ_FIFO_OVF,RESIZER module event: This event signals that overflow happened in the input data buffering submodule or in the RSZ output interface" "RSZ_FIFO_OVF_0_r,RSZ_FIFO_OVF_1_r"
newline
bitfld.long 0x00 17. "RSZ_INT_CYC_RZB,RESIZER module event: This event is the circular interrupt for RESIZER #B" "RSZ_INT_CYC_RZB_0_r,RSZ_INT_CYC_RZB_1_r"
bitfld.long 0x00 16. "RSZ_INT_CYC_RZA,RESIZER module event: This event is the circular interrupt for RESIZER #A" "RSZ_INT_CYC_RZA_0_r,RSZ_INT_CYC_RZA_1_r"
newline
bitfld.long 0x00 15. "RSZ_INT_DMA,RESIZER module event: This event is triggered when the last EOF (of the two MTC interfaces) is sent out to the BL and that the resizer core has returned to idle" "RSZ_INT_DMA_0_r,RSZ_INT_DMA_1_r"
bitfld.long 0x00 14. "RSZ_INT_LAST_PIX,RESIZER module event: This event is triggered when the last pixel of the valid area is received" "RSZ_INT_LAST_PIX_0_r,RSZ_INT_LAST_PIX_1_r"
newline
bitfld.long 0x00 13. "RSZ_INT_REG,RESIZER module event: This event is triggered when the first pixel of the valid area is received" "RSZ_INT_REG_0_r,RSZ_INT_REG_1_r"
bitfld.long 0x00 12. "H3A_INT," "H3A_INT_0_r,H3A_INT_1_r"
newline
bitfld.long 0x00 11. "AF_INT," "AF_INT_0_r,AF_INT_1_r"
bitfld.long 0x00 10. "AEW_INT," "AEW_INT_0_r,AEW_INT_1_r"
newline
bitfld.long 0x00 9. "IPIPEIF_IRQ,IPIPEIF module interrupt" "IPIPEIF_IRQ_0_r,IPIPEIF_IRQ_1_r"
bitfld.long 0x00 8. "IPIPE_INT_HST," "IPIPE_INT_HST_0_r,IPIPE_INT_HST_1_r"
newline
bitfld.long 0x00 7. "IPIPE_INT_BSC," "IPIPE_INT_BSC_0_r,IPIPE_INT_BSC_1_r"
bitfld.long 0x00 6. "IPIPE_INT_DMA," "IPIPE_INT_DMA_0_r,IPIPE_INT_DMA_1_r"
newline
bitfld.long 0x00 5. "IPIPE_INT_LAST_PIX," "IPIPE_INT_LAST_PIX_0_r,IPIPE_INT_LAST_PIX_1_r"
bitfld.long 0x00 4. "IPIPE_INT_REG," "IPIPE_INT_REG_0_r,IPIPE_INT_REG_1_r"
newline
bitfld.long 0x00 3. "ISIF_INT_3,Set this bit to disable the LSC interrupt issued by the 2D-LSC block" "ISIF_INT_3_0_r,ISIF_INT_3_1_r"
bitfld.long 0x00 2. "ISIF_INT_2,VD interrupt 2 event" "ISIF_INT_2_0_r,ISIF_INT_2_1_r"
newline
bitfld.long 0x00 1. "ISIF_INT_1,VD interrupt 1 event" "ISIF_INT_1_0_r,ISIF_INT_1_1_r"
bitfld.long 0x00 0. "ISIF_INT_0,VD interrupt 0 event" "ISIF_INT_0_0_r,ISIF_INT_0_1_r"
group.long 0x3C++0x03
line.long 0x00 "ISP5_IRQENABLE_SET_i_1,Per-event interrupt enable bit vector"
bitfld.long 0x00 31. "OCP_ERR_IRQ,An OCP error has been received on the ISP master port" "OCP_ERR_IRQ_0_r,OCP_ERR_IRQ_1_r"
bitfld.long 0x00 29. "IPIPE_INT_DPC_RNEW1," "IPIPE_INT_DPC_RNEW1_0_r,IPIPE_INT_DPC_RNEW1_1_r"
newline
bitfld.long 0x00 28. "IPIPE_INT_DPC_RNEW0," "IPIPE_INT_DPC_RNEW0_0_r,IPIPE_INT_DPC_RNEW0_1_r"
bitfld.long 0x00 27. "IPIPE_INT_DPC_INI," "IPIPE_INT_DPC_INI_0_r,IPIPE_INT_DPC_INI_1_r"
newline
bitfld.long 0x00 25. "IPIPE_INT_EOF," "IPIPE_INT_EOF_0_r,IPIPE_INT_EOF_1_r"
bitfld.long 0x00 24. "H3A_INT_EOF," "H3A_INT_EOF_0_r,H3A_INT_EOF_1_r"
newline
bitfld.long 0x00 23. "RSZ_INT_EOF1,RESIZER module event: This event signals that the BL has received the EOF signal from the resizer B engine which happens one the last transfer in the frame has happened" "RSZ_INT_EOF1_0_r,RSZ_INT_EOF1_1_r"
bitfld.long 0x00 22. "RSZ_INT_EOF0,RESIZER module event: This event signals that the BL has received the EOF signal from the resizer A engine which happens one the last transfer in the frame has happened" "RSZ_INT_EOF0_0_r,RSZ_INT_EOF0_1_r"
newline
bitfld.long 0x00 19. "RSZ_FIFO_IN_BLK_ERR,This event signals that the minimum vertical blanking period has not been respected causing errors in the input data buffering submodule" "RSZ_FIFO_IN_BLK_ERR_0_r,RSZ_FIFO_IN_BLK_ERR_1_r"
bitfld.long 0x00 18. "RSZ_FIFO_OVF,This event signals that overflow happened in the input data buffering submodule or in the RSZ output interface" "RSZ_FIFO_OVF_0_r,RSZ_FIFO_OVF_1_r"
newline
bitfld.long 0x00 17. "RSZ_INT_CYC_RZB,RESIZER module event: This event is the circular interrupt for RESIZER #B" "RSZ_INT_CYC_RZB_0_r,RSZ_INT_CYC_RZB_1_r"
bitfld.long 0x00 16. "RSZ_INT_CYC_RZA,RESIZER module event: This event is the circular interrupt for RESIZER #A" "RSZ_INT_CYC_RZA_0_r,RSZ_INT_CYC_RZA_1_r"
newline
bitfld.long 0x00 15. "RSZ_INT_DMA,This event is triggered when the last EOF (of the two MTC interfaces) is sent out to the BL and that the resizer core has returned to idle" "RSZ_INT_DMA_0_r,RSZ_INT_DMA_1_r"
bitfld.long 0x00 14. "RSZ_INT_LAST_PIX,This event is triggered when the last pixel of the valid area is received" "RSZ_INT_LAST_PIX_0_r,RSZ_INT_LAST_PIX_1_r"
newline
bitfld.long 0x00 13. "RSZ_INT_REG,This event is triggered when the first pixel of the valid area is received" "RSZ_INT_REG_0_r,RSZ_INT_REG_1_r"
bitfld.long 0x00 12. "H3A_INT," "H3A_INT_0_r,H3A_INT_1_r"
newline
bitfld.long 0x00 11. "AF_INT," "AF_INT_0_r,AF_INT_1_r"
bitfld.long 0x00 10. "AEW_INT," "AEW_INT_0_r,AEW_INT_1_r"
newline
bitfld.long 0x00 9. "IPIPEIF_IRQ,IPIPEIF module interrupt" "IPIPEIF_IRQ_0_r,IPIPEIF_IRQ_1_r"
bitfld.long 0x00 8. "IPIPE_INT_HST," "IPIPE_INT_HST_0_r,IPIPE_INT_HST_1_r"
newline
bitfld.long 0x00 7. "IPIPE_INT_BSC," "IPIPE_INT_BSC_0_r,IPIPE_INT_BSC_1_r"
bitfld.long 0x00 6. "IPIPE_INT_DMA," "IPIPE_INT_DMA_0_r,IPIPE_INT_DMA_1_r"
newline
bitfld.long 0x00 5. "IPIPE_INT_LAST_PIX," "IPIPE_INT_LAST_PIX_0_r,IPIPE_INT_LAST_PIX_1_r"
bitfld.long 0x00 4. "IPIPE_INT_REG," "IPIPE_INT_REG_0_r,IPIPE_INT_REG_1_r"
newline
bitfld.long 0x00 3. "ISIF_INT_3,LSC interrupt issued by the 2D-LSC block" "ISIF_INT_3_0_r,ISIF_INT_3_1_r"
bitfld.long 0x00 2. "ISIF_INT_2,VD interrupt 2 event" "ISIF_INT_2_0_r,ISIF_INT_2_1_r"
newline
bitfld.long 0x00 1. "ISIF_INT_1,VD interrupt 1 event" "ISIF_INT_1_0_r,ISIF_INT_1_1_r"
bitfld.long 0x00 0. "ISIF_INT_0,VD interrupt 0 event" "ISIF_INT_0_0_r,ISIF_INT_0_1_r"
group.long 0x34++0x07
line.long 0x00 "ISP5_IRQSTATUS_RAW_i_1,Per-event raw interrupt status vector"
bitfld.long 0x00 31. "OCP_ERR_IRQ,An OCP error has been received on the ISP master port" "OCP_ERR_IRQ_0_r,OCP_ERR_IRQ_1_r"
bitfld.long 0x00 29. "IPIPE_INT_DPC_RNEW1," "IPIPE_INT_DPC_RNEW1_0_r,IPIPE_INT_DPC_RNEW1_1_r"
newline
bitfld.long 0x00 28. "IPIPE_INT_DPC_RNEW0," "IPIPE_INT_DPC_RNEW0_0_r,IPIPE_INT_DPC_RNEW0_1_r"
bitfld.long 0x00 27. "IPIPE_INT_DPC_INI," "IPIPE_INT_DPC_INI_0_r,IPIPE_INT_DPC_INI_1_r"
newline
bitfld.long 0x00 25. "IPIPE_INT_EOF," "IPIPE_INT_EOF_0_r,IPIPE_INT_EOF_1_r"
bitfld.long 0x00 24. "H3A_INT_EOF," "H3A_INT_EOF_0_r,H3A_INT_EOF_1_r"
newline
bitfld.long 0x00 23. "RSZ_INT_EOF1,RESIZER module event: This event signals that the BL has received the EOF signal from the resizer B engine which happens one the last transfer in the frame has happened" "RSZ_INT_EOF1_0_r,RSZ_INT_EOF1_1_r"
bitfld.long 0x00 22. "RSZ_INT_EOF0,RESIZER module event: This event signals that the BL has received the EOF signal from the resizer A engine which happens one the last transfer in the frame has happened" "RSZ_INT_EOF0_0_r,RSZ_INT_EOF0_1_r"
newline
bitfld.long 0x00 19. "RSZ_FIFO_IN_BLK_ERR,This event signals that the minimum vertical blanking period has not been respected causing errors in the input data buffering submodule" "RSZ_FIFO_IN_BLK_ERR_0_r,RSZ_FIFO_IN_BLK_ERR_1_r"
bitfld.long 0x00 18. "RSZ_FIFO_OVF,This event signals that overflow happened in the input data buffering submodule" "RSZ_FIFO_OVF_0_r,RSZ_FIFO_OVF_1_r"
newline
bitfld.long 0x00 17. "RSZ_INT_CYC_RZB,RESIZER module event: This event is the circular interrupt for RESIZER #B" "RSZ_INT_CYC_RZB_0_r,RSZ_INT_CYC_RZB_1_r"
bitfld.long 0x00 16. "RSZ_INT_CYC_RZA,RESIZER module event: This event is the circular interrupt for RESIZER #A" "RSZ_INT_CYC_RZA_0_r,RSZ_INT_CYC_RZA_1_r"
newline
bitfld.long 0x00 15. "RSZ_INT_DMA,This event is triggered when the last EOF (of the two MTC interfaces) is sent out to the BL and that the resizer core has returned to idle" "RSZ_INT_DMA_0_r,RSZ_INT_DMA_1_r"
bitfld.long 0x00 14. "RSZ_INT_LAST_PIX,This event is triggered when the last pixel of the valid area is received" "RSZ_INT_LAST_PIX_0_r,RSZ_INT_LAST_PIX_1_r"
newline
bitfld.long 0x00 13. "RSZ_INT_REG,This event is triggered when the first pixel of the valid area is received" "RSZ_INT_REG_0_r,RSZ_INT_REG_1_r"
bitfld.long 0x00 12. "H3A_INT," "H3A_INT_0_r,H3A_INT_1_r"
newline
bitfld.long 0x00 11. "AF_INT," "AF_INT_0_r,AF_INT_1_r"
bitfld.long 0x00 10. "AEW_INT," "AEW_INT_0_r,AEW_INT_1_r"
newline
bitfld.long 0x00 9. "IPIPEIF_IRQ,IPIPEIF module interrupt" "IPIPEIF_IRQ_0_r,IPIPEIF_IRQ_1_r"
bitfld.long 0x00 8. "IPIPE_INT_HST," "IPIPE_INT_HST_0_r,IPIPE_INT_HST_1_r"
newline
bitfld.long 0x00 7. "IPIPE_INT_BSC," "IPIPE_INT_BSC_0_r,IPIPE_INT_BSC_1_r"
bitfld.long 0x00 6. "IPIPE_INT_DMA," "IPIPE_INT_DMA_0_r,IPIPE_INT_DMA_1_r"
newline
bitfld.long 0x00 5. "IPIPE_INT_LAST_PIX," "IPIPE_INT_LAST_PIX_0_r,IPIPE_INT_LAST_PIX_1_r"
bitfld.long 0x00 4. "IPIPE_INT_REG," "IPIPE_INT_REG_0_r,IPIPE_INT_REG_1_r"
newline
bitfld.long 0x00 3. "ISIF_INT_3," "ISIF_INT_3_0_r,ISIF_INT_3_1_r"
bitfld.long 0x00 2. "ISIF_INT_2," "ISIF_INT_2_0_r,ISIF_INT_2_1_r"
newline
bitfld.long 0x00 1. "ISIF_INT_1," "ISIF_INT_1_0_r,ISIF_INT_1_1_r"
bitfld.long 0x00 0. "ISIF_INT_0," "ISIF_INT_0_0_r,ISIF_INT_0_1_r"
line.long 0x04 "ISP5_IRQSTATUS_i_1,Per-event 'enabled' interrupt status vector"
bitfld.long 0x04 31. "OCP_ERR_IRQ,An OCP error has been received on the ISP master port" "OCP_ERR_IRQ_0_r,OCP_ERR_IRQ_1_r"
bitfld.long 0x04 29. "IPIPE_INT_DPC_RNEW1," "IPIPE_INT_DPC_RNEW1_0_r,IPIPE_INT_DPC_RNEW1_1_r"
newline
bitfld.long 0x04 28. "IPIPE_INT_DPC_RNEW0," "IPIPE_INT_DPC_RNEW0_0_r,IPIPE_INT_DPC_RNEW0_1_r"
bitfld.long 0x04 27. "IPIPE_INT_DPC_INI," "IPIPE_INT_DPC_INI_0_r,IPIPE_INT_DPC_INI_1_r"
newline
bitfld.long 0x04 25. "IPIPE_INT_EOF," "IPIPE_INT_EOF_0_r,IPIPE_INT_EOF_1_r"
bitfld.long 0x04 24. "H3A_INT_EOF," "H3A_INT_EOF_0_r,H3A_INT_EOF_1_r"
newline
bitfld.long 0x04 23. "RSZ_INT_EOF1,RESIZER module event: This event signals that the BL has received the EOF signal from the resizer B engine which happens one the last transfer in the frame has happened" "RSZ_INT_EOF1_0_r,RSZ_INT_EOF1_1_r"
bitfld.long 0x04 22. "RSZ_INT_EOF0,RESIZER module event: This event signals that the BL has received the EOF signal from the resizer A engine which happens one the last transfer in the frame has happened" "RSZ_INT_EOF0_0_r,RSZ_INT_EOF0_1_r"
newline
bitfld.long 0x04 19. "RSZ_FIFO_IN_BLK_ERR,This event signals that the minimum vertical blanking period has not been respected causing errors in the input data buffering submodule" "RSZ_FIFO_IN_BLK_ERR_0_r,RSZ_FIFO_IN_BLK_ERR_1_r"
bitfld.long 0x04 18. "RSZ_FIFO_OVF,This event signals that overflow happened in the input data buffering submodule or in the RSZ output interface" "RSZ_FIFO_OVF_0_r,RSZ_FIFO_OVF_1_r"
newline
bitfld.long 0x04 17. "RSZ_INT_CYC_RZB,RESIZER module event: This event is the circular interrupt for RESIZER #B" "RSZ_INT_CYC_RZB_0_r,RSZ_INT_CYC_RZB_1_r"
bitfld.long 0x04 16. "RSZ_INT_CYC_RZA,RESIZER module event: This event is the circular interrupt for RESIZER #A" "RSZ_INT_CYC_RZA_0_r,RSZ_INT_CYC_RZA_1_r"
newline
bitfld.long 0x04 15. "RSZ_INT_DMA,This event is triggered when the last EOF (of the two MTC interfaces) is sent out to the BL and that the resizer core has returned to idle" "RSZ_INT_DMA_0_r,RSZ_INT_DMA_1_r"
bitfld.long 0x04 14. "RSZ_INT_LAST_PIX,This event is triggered when the last pixel of the valid area is received" "RSZ_INT_LAST_PIX_0_r,RSZ_INT_LAST_PIX_1_r"
newline
bitfld.long 0x04 13. "RSZ_INT_REG,This event is triggered when the first pixel of the valid area is received" "RSZ_INT_REG_0_r,RSZ_INT_REG_1_r"
bitfld.long 0x04 12. "H3A_INT," "H3A_INT_0_r,H3A_INT_1_r"
newline
bitfld.long 0x04 11. "AF_INT," "AF_INT_0_r,AF_INT_1_r"
bitfld.long 0x04 10. "AEW_INT," "AEW_INT_0_r,AEW_INT_1_r"
newline
bitfld.long 0x04 9. "IPIPEIF_IRQ,IPIPEIF module interrupt" "IPIPEIF_IRQ_0_r,IPIPEIF_IRQ_1_r"
bitfld.long 0x04 8. "IPIPE_INT_HST," "IPIPE_INT_HST_0_r,IPIPE_INT_HST_1_r"
newline
bitfld.long 0x04 7. "IPIPE_INT_BSC," "IPIPE_INT_BSC_0_r,IPIPE_INT_BSC_1_r"
bitfld.long 0x04 6. "IPIPE_INT_DMA," "IPIPE_INT_DMA_0_r,IPIPE_INT_DMA_1_r"
newline
bitfld.long 0x04 5. "IPIPE_INT_LAST_PIX," "IPIPE_INT_LAST_PIX_0_r,IPIPE_INT_LAST_PIX_1_r"
bitfld.long 0x04 4. "IPIPE_INT_REG," "IPIPE_INT_REG_0_r,IPIPE_INT_REG_1_r"
newline
bitfld.long 0x04 3. "ISIF_INT_3,LSC interrupt issued by 2D-LSC block" "ISIF_INT_3_0_r,ISIF_INT_3_1_r"
bitfld.long 0x04 2. "ISIF_INT_2,VD interrupt 2 event" "ISIF_INT_2_0_r,ISIF_INT_2_1_r"
newline
bitfld.long 0x04 1. "ISIF_INT_1,VD interrupt 1 event" "ISIF_INT_1_0_r,ISIF_INT_1_1_r"
bitfld.long 0x04 0. "ISIF_INT_0,VD interrupt 0 event" "ISIF_INT_0_0_r,ISIF_INT_0_1_r"
tree.end
tree "IRQ_Line_2"
group.long 0x50++0x03
line.long 0x00 "ISP5_IRQENABLE_CLR_i_2,Per-event interrupt enable bit vector"
bitfld.long 0x00 31. "OCP_ERR_IRQ,An OCP error has been received on the ISP master port" "OCP_ERR_IRQ_0_r,OCP_ERR_IRQ_1_r"
bitfld.long 0x00 29. "IPIPE_INT_DPC_RNEW1," "IPIPE_INT_DPC_RNEW1_0_r,IPIPE_INT_DPC_RNEW1_1_r"
newline
bitfld.long 0x00 28. "IPIPE_INT_DPC_RNEW0," "IPIPE_INT_DPC_RNEW0_0_r,IPIPE_INT_DPC_RNEW0_1_r"
bitfld.long 0x00 27. "IPIPE_INT_DPC_INI," "IPIPE_INT_DPC_INI_0_r,IPIPE_INT_DPC_INI_1_r"
newline
bitfld.long 0x00 25. "IPIPE_INT_EOF," "IPIPE_INT_EOF_0_r,IPIPE_INT_EOF_1_r"
bitfld.long 0x00 24. "H3A_INT_EOF," "H3A_INT_EOF_0_r,H3A_INT_EOF_1_r"
newline
bitfld.long 0x00 23. "RSZ_INT_EOF1,RESIZER module event: This event signals that the BL has received the EOF signal from the resizer B engine which happens one the last transfer in the frame has happened" "RSZ_INT_EOF1_0_r,RSZ_INT_EOF1_1_r"
bitfld.long 0x00 22. "RSZ_INT_EOF0,RESIZER module event: This event signals that the BL has received the EOF signal from the resizer A engine which happens one the last transfer in the frame has happened" "RSZ_INT_EOF0_0_r,RSZ_INT_EOF0_1_r"
newline
bitfld.long 0x00 19. "RSZ_FIFO_IN_BLK_ERR,This event signals that the minimum vertical blanking period has not been respected causing errors in the input data buffering submodule" "RSZ_FIFO_IN_BLK_ERR_0_r,RSZ_FIFO_IN_BLK_ERR_1_r"
bitfld.long 0x00 18. "RSZ_FIFO_OVF,RESIZER module event: This event signals that overflow happened in the input data buffering submodule or in the RSZ output interface" "RSZ_FIFO_OVF_0_r,RSZ_FIFO_OVF_1_r"
newline
bitfld.long 0x00 17. "RSZ_INT_CYC_RZB,RESIZER module event: This event is the circular interrupt for RESIZER #B" "RSZ_INT_CYC_RZB_0_r,RSZ_INT_CYC_RZB_1_r"
bitfld.long 0x00 16. "RSZ_INT_CYC_RZA,RESIZER module event: This event is the circular interrupt for RESIZER #A" "RSZ_INT_CYC_RZA_0_r,RSZ_INT_CYC_RZA_1_r"
newline
bitfld.long 0x00 15. "RSZ_INT_DMA,RESIZER module event: This event is triggered when the last EOF (of the two MTC interfaces) is sent out to the BL and that the resizer core has returned to idle" "RSZ_INT_DMA_0_r,RSZ_INT_DMA_1_r"
bitfld.long 0x00 14. "RSZ_INT_LAST_PIX,RESIZER module event: This event is triggered when the last pixel of the valid area is received" "RSZ_INT_LAST_PIX_0_r,RSZ_INT_LAST_PIX_1_r"
newline
bitfld.long 0x00 13. "RSZ_INT_REG,RESIZER module event: This event is triggered when the first pixel of the valid area is received" "RSZ_INT_REG_0_r,RSZ_INT_REG_1_r"
bitfld.long 0x00 12. "H3A_INT," "H3A_INT_0_r,H3A_INT_1_r"
newline
bitfld.long 0x00 11. "AF_INT," "AF_INT_0_r,AF_INT_1_r"
bitfld.long 0x00 10. "AEW_INT," "AEW_INT_0_r,AEW_INT_1_r"
newline
bitfld.long 0x00 9. "IPIPEIF_IRQ,IPIPEIF module interrupt" "IPIPEIF_IRQ_0_r,IPIPEIF_IRQ_1_r"
bitfld.long 0x00 8. "IPIPE_INT_HST," "IPIPE_INT_HST_0_r,IPIPE_INT_HST_1_r"
newline
bitfld.long 0x00 7. "IPIPE_INT_BSC," "IPIPE_INT_BSC_0_r,IPIPE_INT_BSC_1_r"
bitfld.long 0x00 6. "IPIPE_INT_DMA," "IPIPE_INT_DMA_0_r,IPIPE_INT_DMA_1_r"
newline
bitfld.long 0x00 5. "IPIPE_INT_LAST_PIX," "IPIPE_INT_LAST_PIX_0_r,IPIPE_INT_LAST_PIX_1_r"
bitfld.long 0x00 4. "IPIPE_INT_REG," "IPIPE_INT_REG_0_r,IPIPE_INT_REG_1_r"
newline
bitfld.long 0x00 3. "ISIF_INT_3,Set this bit to disable the LSC interrupt issued by the 2D-LSC block" "ISIF_INT_3_0_r,ISIF_INT_3_1_r"
bitfld.long 0x00 2. "ISIF_INT_2,VD interrupt 2 event" "ISIF_INT_2_0_r,ISIF_INT_2_1_r"
newline
bitfld.long 0x00 1. "ISIF_INT_1,VD interrupt 1 event" "ISIF_INT_1_0_r,ISIF_INT_1_1_r"
bitfld.long 0x00 0. "ISIF_INT_0,VD interrupt 0 event" "ISIF_INT_0_0_r,ISIF_INT_0_1_r"
group.long 0x4C++0x03
line.long 0x00 "ISP5_IRQENABLE_SET_i_2,Per-event interrupt enable bit vector"
bitfld.long 0x00 31. "OCP_ERR_IRQ,An OCP error has been received on the ISP master port" "OCP_ERR_IRQ_0_r,OCP_ERR_IRQ_1_r"
bitfld.long 0x00 29. "IPIPE_INT_DPC_RNEW1," "IPIPE_INT_DPC_RNEW1_0_r,IPIPE_INT_DPC_RNEW1_1_r"
newline
bitfld.long 0x00 28. "IPIPE_INT_DPC_RNEW0," "IPIPE_INT_DPC_RNEW0_0_r,IPIPE_INT_DPC_RNEW0_1_r"
bitfld.long 0x00 27. "IPIPE_INT_DPC_INI," "IPIPE_INT_DPC_INI_0_r,IPIPE_INT_DPC_INI_1_r"
newline
bitfld.long 0x00 25. "IPIPE_INT_EOF," "IPIPE_INT_EOF_0_r,IPIPE_INT_EOF_1_r"
bitfld.long 0x00 24. "H3A_INT_EOF," "H3A_INT_EOF_0_r,H3A_INT_EOF_1_r"
newline
bitfld.long 0x00 23. "RSZ_INT_EOF1,RESIZER module event: This event signals that the BL has received the EOF signal from the resizer B engine which happens one the last transfer in the frame has happened" "RSZ_INT_EOF1_0_r,RSZ_INT_EOF1_1_r"
bitfld.long 0x00 22. "RSZ_INT_EOF0,RESIZER module event: This event signals that the BL has received the EOF signal from the resizer A engine which happens one the last transfer in the frame has happened" "RSZ_INT_EOF0_0_r,RSZ_INT_EOF0_1_r"
newline
bitfld.long 0x00 19. "RSZ_FIFO_IN_BLK_ERR,This event signals that the minimum vertical blanking period has not been respected causing errors in the input data buffering submodule" "RSZ_FIFO_IN_BLK_ERR_0_r,RSZ_FIFO_IN_BLK_ERR_1_r"
bitfld.long 0x00 18. "RSZ_FIFO_OVF,This event signals that overflow happened in the input data buffering submodule or in the RSZ output interface" "RSZ_FIFO_OVF_0_r,RSZ_FIFO_OVF_1_r"
newline
bitfld.long 0x00 17. "RSZ_INT_CYC_RZB,RESIZER module event: This event is the circular interrupt for RESIZER #B" "RSZ_INT_CYC_RZB_0_r,RSZ_INT_CYC_RZB_1_r"
bitfld.long 0x00 16. "RSZ_INT_CYC_RZA,RESIZER module event: This event is the circular interrupt for RESIZER #A" "RSZ_INT_CYC_RZA_0_r,RSZ_INT_CYC_RZA_1_r"
newline
bitfld.long 0x00 15. "RSZ_INT_DMA,This event is triggered when the last EOF (of the two MTC interfaces) is sent out to the BL and that the resizer core has returned to idle" "RSZ_INT_DMA_0_r,RSZ_INT_DMA_1_r"
bitfld.long 0x00 14. "RSZ_INT_LAST_PIX,This event is triggered when the last pixel of the valid area is received" "RSZ_INT_LAST_PIX_0_r,RSZ_INT_LAST_PIX_1_r"
newline
bitfld.long 0x00 13. "RSZ_INT_REG,This event is triggered when the first pixel of the valid area is received" "RSZ_INT_REG_0_r,RSZ_INT_REG_1_r"
bitfld.long 0x00 12. "H3A_INT," "H3A_INT_0_r,H3A_INT_1_r"
newline
bitfld.long 0x00 11. "AF_INT," "AF_INT_0_r,AF_INT_1_r"
bitfld.long 0x00 10. "AEW_INT," "AEW_INT_0_r,AEW_INT_1_r"
newline
bitfld.long 0x00 9. "IPIPEIF_IRQ,IPIPEIF module interrupt" "IPIPEIF_IRQ_0_r,IPIPEIF_IRQ_1_r"
bitfld.long 0x00 8. "IPIPE_INT_HST," "IPIPE_INT_HST_0_r,IPIPE_INT_HST_1_r"
newline
bitfld.long 0x00 7. "IPIPE_INT_BSC," "IPIPE_INT_BSC_0_r,IPIPE_INT_BSC_1_r"
bitfld.long 0x00 6. "IPIPE_INT_DMA," "IPIPE_INT_DMA_0_r,IPIPE_INT_DMA_1_r"
newline
bitfld.long 0x00 5. "IPIPE_INT_LAST_PIX," "IPIPE_INT_LAST_PIX_0_r,IPIPE_INT_LAST_PIX_1_r"
bitfld.long 0x00 4. "IPIPE_INT_REG," "IPIPE_INT_REG_0_r,IPIPE_INT_REG_1_r"
newline
bitfld.long 0x00 3. "ISIF_INT_3,LSC interrupt issued by the 2D-LSC block" "ISIF_INT_3_0_r,ISIF_INT_3_1_r"
bitfld.long 0x00 2. "ISIF_INT_2,VD interrupt 2 event" "ISIF_INT_2_0_r,ISIF_INT_2_1_r"
newline
bitfld.long 0x00 1. "ISIF_INT_1,VD interrupt 1 event" "ISIF_INT_1_0_r,ISIF_INT_1_1_r"
bitfld.long 0x00 0. "ISIF_INT_0,VD interrupt 0 event" "ISIF_INT_0_0_r,ISIF_INT_0_1_r"
group.long 0x44++0x07
line.long 0x00 "ISP5_IRQSTATUS_RAW_i_2,Per-event raw interrupt status vector"
bitfld.long 0x00 31. "OCP_ERR_IRQ,An OCP error has been received on the ISP master port" "OCP_ERR_IRQ_0_r,OCP_ERR_IRQ_1_r"
bitfld.long 0x00 29. "IPIPE_INT_DPC_RNEW1," "IPIPE_INT_DPC_RNEW1_0_r,IPIPE_INT_DPC_RNEW1_1_r"
newline
bitfld.long 0x00 28. "IPIPE_INT_DPC_RNEW0," "IPIPE_INT_DPC_RNEW0_0_r,IPIPE_INT_DPC_RNEW0_1_r"
bitfld.long 0x00 27. "IPIPE_INT_DPC_INI," "IPIPE_INT_DPC_INI_0_r,IPIPE_INT_DPC_INI_1_r"
newline
bitfld.long 0x00 25. "IPIPE_INT_EOF," "IPIPE_INT_EOF_0_r,IPIPE_INT_EOF_1_r"
bitfld.long 0x00 24. "H3A_INT_EOF," "H3A_INT_EOF_0_r,H3A_INT_EOF_1_r"
newline
bitfld.long 0x00 23. "RSZ_INT_EOF1,RESIZER module event: This event signals that the BL has received the EOF signal from the resizer B engine which happens one the last transfer in the frame has happened" "RSZ_INT_EOF1_0_r,RSZ_INT_EOF1_1_r"
bitfld.long 0x00 22. "RSZ_INT_EOF0,RESIZER module event: This event signals that the BL has received the EOF signal from the resizer A engine which happens one the last transfer in the frame has happened" "RSZ_INT_EOF0_0_r,RSZ_INT_EOF0_1_r"
newline
bitfld.long 0x00 19. "RSZ_FIFO_IN_BLK_ERR,This event signals that the minimum vertical blanking period has not been respected causing errors in the input data buffering submodule" "RSZ_FIFO_IN_BLK_ERR_0_r,RSZ_FIFO_IN_BLK_ERR_1_r"
bitfld.long 0x00 18. "RSZ_FIFO_OVF,This event signals that overflow happened in the input data buffering submodule" "RSZ_FIFO_OVF_0_r,RSZ_FIFO_OVF_1_r"
newline
bitfld.long 0x00 17. "RSZ_INT_CYC_RZB,RESIZER module event: This event is the circular interrupt for RESIZER #B" "RSZ_INT_CYC_RZB_0_r,RSZ_INT_CYC_RZB_1_r"
bitfld.long 0x00 16. "RSZ_INT_CYC_RZA,RESIZER module event: This event is the circular interrupt for RESIZER #A" "RSZ_INT_CYC_RZA_0_r,RSZ_INT_CYC_RZA_1_r"
newline
bitfld.long 0x00 15. "RSZ_INT_DMA,This event is triggered when the last EOF (of the two MTC interfaces) is sent out to the BL and that the resizer core has returned to idle" "RSZ_INT_DMA_0_r,RSZ_INT_DMA_1_r"
bitfld.long 0x00 14. "RSZ_INT_LAST_PIX,This event is triggered when the last pixel of the valid area is received" "RSZ_INT_LAST_PIX_0_r,RSZ_INT_LAST_PIX_1_r"
newline
bitfld.long 0x00 13. "RSZ_INT_REG,This event is triggered when the first pixel of the valid area is received" "RSZ_INT_REG_0_r,RSZ_INT_REG_1_r"
bitfld.long 0x00 12. "H3A_INT," "H3A_INT_0_r,H3A_INT_1_r"
newline
bitfld.long 0x00 11. "AF_INT," "AF_INT_0_r,AF_INT_1_r"
bitfld.long 0x00 10. "AEW_INT," "AEW_INT_0_r,AEW_INT_1_r"
newline
bitfld.long 0x00 9. "IPIPEIF_IRQ,IPIPEIF module interrupt" "IPIPEIF_IRQ_0_r,IPIPEIF_IRQ_1_r"
bitfld.long 0x00 8. "IPIPE_INT_HST," "IPIPE_INT_HST_0_r,IPIPE_INT_HST_1_r"
newline
bitfld.long 0x00 7. "IPIPE_INT_BSC," "IPIPE_INT_BSC_0_r,IPIPE_INT_BSC_1_r"
bitfld.long 0x00 6. "IPIPE_INT_DMA," "IPIPE_INT_DMA_0_r,IPIPE_INT_DMA_1_r"
newline
bitfld.long 0x00 5. "IPIPE_INT_LAST_PIX," "IPIPE_INT_LAST_PIX_0_r,IPIPE_INT_LAST_PIX_1_r"
bitfld.long 0x00 4. "IPIPE_INT_REG," "IPIPE_INT_REG_0_r,IPIPE_INT_REG_1_r"
newline
bitfld.long 0x00 3. "ISIF_INT_3," "ISIF_INT_3_0_r,ISIF_INT_3_1_r"
bitfld.long 0x00 2. "ISIF_INT_2," "ISIF_INT_2_0_r,ISIF_INT_2_1_r"
newline
bitfld.long 0x00 1. "ISIF_INT_1," "ISIF_INT_1_0_r,ISIF_INT_1_1_r"
bitfld.long 0x00 0. "ISIF_INT_0," "ISIF_INT_0_0_r,ISIF_INT_0_1_r"
line.long 0x04 "ISP5_IRQSTATUS_i_2,Per-event 'enabled' interrupt status vector"
bitfld.long 0x04 31. "OCP_ERR_IRQ,An OCP error has been received on the ISP master port" "OCP_ERR_IRQ_0_r,OCP_ERR_IRQ_1_r"
bitfld.long 0x04 29. "IPIPE_INT_DPC_RNEW1," "IPIPE_INT_DPC_RNEW1_0_r,IPIPE_INT_DPC_RNEW1_1_r"
newline
bitfld.long 0x04 28. "IPIPE_INT_DPC_RNEW0," "IPIPE_INT_DPC_RNEW0_0_r,IPIPE_INT_DPC_RNEW0_1_r"
bitfld.long 0x04 27. "IPIPE_INT_DPC_INI," "IPIPE_INT_DPC_INI_0_r,IPIPE_INT_DPC_INI_1_r"
newline
bitfld.long 0x04 25. "IPIPE_INT_EOF," "IPIPE_INT_EOF_0_r,IPIPE_INT_EOF_1_r"
bitfld.long 0x04 24. "H3A_INT_EOF," "H3A_INT_EOF_0_r,H3A_INT_EOF_1_r"
newline
bitfld.long 0x04 23. "RSZ_INT_EOF1,RESIZER module event: This event signals that the BL has received the EOF signal from the resizer B engine which happens one the last transfer in the frame has happened" "RSZ_INT_EOF1_0_r,RSZ_INT_EOF1_1_r"
bitfld.long 0x04 22. "RSZ_INT_EOF0,RESIZER module event: This event signals that the BL has received the EOF signal from the resizer A engine which happens one the last transfer in the frame has happened" "RSZ_INT_EOF0_0_r,RSZ_INT_EOF0_1_r"
newline
bitfld.long 0x04 19. "RSZ_FIFO_IN_BLK_ERR,This event signals that the minimum vertical blanking period has not been respected causing errors in the input data buffering submodule" "RSZ_FIFO_IN_BLK_ERR_0_r,RSZ_FIFO_IN_BLK_ERR_1_r"
bitfld.long 0x04 18. "RSZ_FIFO_OVF,This event signals that overflow happened in the input data buffering submodule or in the RSZ output interface" "RSZ_FIFO_OVF_0_r,RSZ_FIFO_OVF_1_r"
newline
bitfld.long 0x04 17. "RSZ_INT_CYC_RZB,RESIZER module event: This event is the circular interrupt for RESIZER #B" "RSZ_INT_CYC_RZB_0_r,RSZ_INT_CYC_RZB_1_r"
bitfld.long 0x04 16. "RSZ_INT_CYC_RZA,RESIZER module event: This event is the circular interrupt for RESIZER #A" "RSZ_INT_CYC_RZA_0_r,RSZ_INT_CYC_RZA_1_r"
newline
bitfld.long 0x04 15. "RSZ_INT_DMA,This event is triggered when the last EOF (of the two MTC interfaces) is sent out to the BL and that the resizer core has returned to idle" "RSZ_INT_DMA_0_r,RSZ_INT_DMA_1_r"
bitfld.long 0x04 14. "RSZ_INT_LAST_PIX,This event is triggered when the last pixel of the valid area is received" "RSZ_INT_LAST_PIX_0_r,RSZ_INT_LAST_PIX_1_r"
newline
bitfld.long 0x04 13. "RSZ_INT_REG,This event is triggered when the first pixel of the valid area is received" "RSZ_INT_REG_0_r,RSZ_INT_REG_1_r"
bitfld.long 0x04 12. "H3A_INT," "H3A_INT_0_r,H3A_INT_1_r"
newline
bitfld.long 0x04 11. "AF_INT," "AF_INT_0_r,AF_INT_1_r"
bitfld.long 0x04 10. "AEW_INT," "AEW_INT_0_r,AEW_INT_1_r"
newline
bitfld.long 0x04 9. "IPIPEIF_IRQ,IPIPEIF module interrupt" "IPIPEIF_IRQ_0_r,IPIPEIF_IRQ_1_r"
bitfld.long 0x04 8. "IPIPE_INT_HST," "IPIPE_INT_HST_0_r,IPIPE_INT_HST_1_r"
newline
bitfld.long 0x04 7. "IPIPE_INT_BSC," "IPIPE_INT_BSC_0_r,IPIPE_INT_BSC_1_r"
bitfld.long 0x04 6. "IPIPE_INT_DMA," "IPIPE_INT_DMA_0_r,IPIPE_INT_DMA_1_r"
newline
bitfld.long 0x04 5. "IPIPE_INT_LAST_PIX," "IPIPE_INT_LAST_PIX_0_r,IPIPE_INT_LAST_PIX_1_r"
bitfld.long 0x04 4. "IPIPE_INT_REG," "IPIPE_INT_REG_0_r,IPIPE_INT_REG_1_r"
newline
bitfld.long 0x04 3. "ISIF_INT_3,LSC interrupt issued by 2D-LSC block" "ISIF_INT_3_0_r,ISIF_INT_3_1_r"
bitfld.long 0x04 2. "ISIF_INT_2,VD interrupt 2 event" "ISIF_INT_2_0_r,ISIF_INT_2_1_r"
newline
bitfld.long 0x04 1. "ISIF_INT_1,VD interrupt 1 event" "ISIF_INT_1_0_r,ISIF_INT_1_1_r"
bitfld.long 0x04 0. "ISIF_INT_0,VD interrupt 0 event" "ISIF_INT_0_0_r,ISIF_INT_0_1_r"
tree.end
tree "IRQ_Line_3"
group.long 0x60++0x03
line.long 0x00 "ISP5_IRQENABLE_CLR_i_3,Per-event interrupt enable bit vector"
bitfld.long 0x00 31. "OCP_ERR_IRQ,An OCP error has been received on the ISP master port" "OCP_ERR_IRQ_0_r,OCP_ERR_IRQ_1_r"
bitfld.long 0x00 29. "IPIPE_INT_DPC_RNEW1," "IPIPE_INT_DPC_RNEW1_0_r,IPIPE_INT_DPC_RNEW1_1_r"
newline
bitfld.long 0x00 28. "IPIPE_INT_DPC_RNEW0," "IPIPE_INT_DPC_RNEW0_0_r,IPIPE_INT_DPC_RNEW0_1_r"
bitfld.long 0x00 27. "IPIPE_INT_DPC_INI," "IPIPE_INT_DPC_INI_0_r,IPIPE_INT_DPC_INI_1_r"
newline
bitfld.long 0x00 25. "IPIPE_INT_EOF," "IPIPE_INT_EOF_0_r,IPIPE_INT_EOF_1_r"
bitfld.long 0x00 24. "H3A_INT_EOF," "H3A_INT_EOF_0_r,H3A_INT_EOF_1_r"
newline
bitfld.long 0x00 23. "RSZ_INT_EOF1,RESIZER module event: This event signals that the BL has received the EOF signal from the resizer B engine which happens one the last transfer in the frame has happened" "RSZ_INT_EOF1_0_r,RSZ_INT_EOF1_1_r"
bitfld.long 0x00 22. "RSZ_INT_EOF0,RESIZER module event: This event signals that the BL has received the EOF signal from the resizer A engine which happens one the last transfer in the frame has happened" "RSZ_INT_EOF0_0_r,RSZ_INT_EOF0_1_r"
newline
bitfld.long 0x00 19. "RSZ_FIFO_IN_BLK_ERR,This event signals that the minimum vertical blanking period has not been respected causing errors in the input data buffering submodule" "RSZ_FIFO_IN_BLK_ERR_0_r,RSZ_FIFO_IN_BLK_ERR_1_r"
bitfld.long 0x00 18. "RSZ_FIFO_OVF,RESIZER module event: This event signals that overflow happened in the input data buffering submodule or in the RSZ output interface" "RSZ_FIFO_OVF_0_r,RSZ_FIFO_OVF_1_r"
newline
bitfld.long 0x00 17. "RSZ_INT_CYC_RZB,RESIZER module event: This event is the circular interrupt for RESIZER #B" "RSZ_INT_CYC_RZB_0_r,RSZ_INT_CYC_RZB_1_r"
bitfld.long 0x00 16. "RSZ_INT_CYC_RZA,RESIZER module event: This event is the circular interrupt for RESIZER #A" "RSZ_INT_CYC_RZA_0_r,RSZ_INT_CYC_RZA_1_r"
newline
bitfld.long 0x00 15. "RSZ_INT_DMA,RESIZER module event: This event is triggered when the last EOF (of the two MTC interfaces) is sent out to the BL and that the resizer core has returned to idle" "RSZ_INT_DMA_0_r,RSZ_INT_DMA_1_r"
bitfld.long 0x00 14. "RSZ_INT_LAST_PIX,RESIZER module event: This event is triggered when the last pixel of the valid area is received" "RSZ_INT_LAST_PIX_0_r,RSZ_INT_LAST_PIX_1_r"
newline
bitfld.long 0x00 13. "RSZ_INT_REG,RESIZER module event: This event is triggered when the first pixel of the valid area is received" "RSZ_INT_REG_0_r,RSZ_INT_REG_1_r"
bitfld.long 0x00 12. "H3A_INT," "H3A_INT_0_r,H3A_INT_1_r"
newline
bitfld.long 0x00 11. "AF_INT," "AF_INT_0_r,AF_INT_1_r"
bitfld.long 0x00 10. "AEW_INT," "AEW_INT_0_r,AEW_INT_1_r"
newline
bitfld.long 0x00 9. "IPIPEIF_IRQ,IPIPEIF module interrupt" "IPIPEIF_IRQ_0_r,IPIPEIF_IRQ_1_r"
bitfld.long 0x00 8. "IPIPE_INT_HST," "IPIPE_INT_HST_0_r,IPIPE_INT_HST_1_r"
newline
bitfld.long 0x00 7. "IPIPE_INT_BSC," "IPIPE_INT_BSC_0_r,IPIPE_INT_BSC_1_r"
bitfld.long 0x00 6. "IPIPE_INT_DMA," "IPIPE_INT_DMA_0_r,IPIPE_INT_DMA_1_r"
newline
bitfld.long 0x00 5. "IPIPE_INT_LAST_PIX," "IPIPE_INT_LAST_PIX_0_r,IPIPE_INT_LAST_PIX_1_r"
bitfld.long 0x00 4. "IPIPE_INT_REG," "IPIPE_INT_REG_0_r,IPIPE_INT_REG_1_r"
newline
bitfld.long 0x00 3. "ISIF_INT_3,Set this bit to disable the LSC interrupt issued by the 2D-LSC block" "ISIF_INT_3_0_r,ISIF_INT_3_1_r"
bitfld.long 0x00 2. "ISIF_INT_2,VD interrupt 2 event" "ISIF_INT_2_0_r,ISIF_INT_2_1_r"
newline
bitfld.long 0x00 1. "ISIF_INT_1,VD interrupt 1 event" "ISIF_INT_1_0_r,ISIF_INT_1_1_r"
bitfld.long 0x00 0. "ISIF_INT_0,VD interrupt 0 event" "ISIF_INT_0_0_r,ISIF_INT_0_1_r"
group.long 0x5C++0x03
line.long 0x00 "ISP5_IRQENABLE_SET_i_3,Per-event interrupt enable bit vector"
bitfld.long 0x00 31. "OCP_ERR_IRQ,An OCP error has been received on the ISP master port" "OCP_ERR_IRQ_0_r,OCP_ERR_IRQ_1_r"
bitfld.long 0x00 29. "IPIPE_INT_DPC_RNEW1," "IPIPE_INT_DPC_RNEW1_0_r,IPIPE_INT_DPC_RNEW1_1_r"
newline
bitfld.long 0x00 28. "IPIPE_INT_DPC_RNEW0," "IPIPE_INT_DPC_RNEW0_0_r,IPIPE_INT_DPC_RNEW0_1_r"
bitfld.long 0x00 27. "IPIPE_INT_DPC_INI," "IPIPE_INT_DPC_INI_0_r,IPIPE_INT_DPC_INI_1_r"
newline
bitfld.long 0x00 25. "IPIPE_INT_EOF," "IPIPE_INT_EOF_0_r,IPIPE_INT_EOF_1_r"
bitfld.long 0x00 24. "H3A_INT_EOF," "H3A_INT_EOF_0_r,H3A_INT_EOF_1_r"
newline
bitfld.long 0x00 23. "RSZ_INT_EOF1,RESIZER module event: This event signals that the BL has received the EOF signal from the resizer B engine which happens one the last transfer in the frame has happened" "RSZ_INT_EOF1_0_r,RSZ_INT_EOF1_1_r"
bitfld.long 0x00 22. "RSZ_INT_EOF0,RESIZER module event: This event signals that the BL has received the EOF signal from the resizer A engine which happens one the last transfer in the frame has happened" "RSZ_INT_EOF0_0_r,RSZ_INT_EOF0_1_r"
newline
bitfld.long 0x00 19. "RSZ_FIFO_IN_BLK_ERR,This event signals that the minimum vertical blanking period has not been respected causing errors in the input data buffering submodule" "RSZ_FIFO_IN_BLK_ERR_0_r,RSZ_FIFO_IN_BLK_ERR_1_r"
bitfld.long 0x00 18. "RSZ_FIFO_OVF,This event signals that overflow happened in the input data buffering submodule or in the RSZ output interface" "RSZ_FIFO_OVF_0_r,RSZ_FIFO_OVF_1_r"
newline
bitfld.long 0x00 17. "RSZ_INT_CYC_RZB,RESIZER module event: This event is the circular interrupt for RESIZER #B" "RSZ_INT_CYC_RZB_0_r,RSZ_INT_CYC_RZB_1_r"
bitfld.long 0x00 16. "RSZ_INT_CYC_RZA,RESIZER module event: This event is the circular interrupt for RESIZER #A" "RSZ_INT_CYC_RZA_0_r,RSZ_INT_CYC_RZA_1_r"
newline
bitfld.long 0x00 15. "RSZ_INT_DMA,This event is triggered when the last EOF (of the two MTC interfaces) is sent out to the BL and that the resizer core has returned to idle" "RSZ_INT_DMA_0_r,RSZ_INT_DMA_1_r"
bitfld.long 0x00 14. "RSZ_INT_LAST_PIX,This event is triggered when the last pixel of the valid area is received" "RSZ_INT_LAST_PIX_0_r,RSZ_INT_LAST_PIX_1_r"
newline
bitfld.long 0x00 13. "RSZ_INT_REG,This event is triggered when the first pixel of the valid area is received" "RSZ_INT_REG_0_r,RSZ_INT_REG_1_r"
bitfld.long 0x00 12. "H3A_INT," "H3A_INT_0_r,H3A_INT_1_r"
newline
bitfld.long 0x00 11. "AF_INT," "AF_INT_0_r,AF_INT_1_r"
bitfld.long 0x00 10. "AEW_INT," "AEW_INT_0_r,AEW_INT_1_r"
newline
bitfld.long 0x00 9. "IPIPEIF_IRQ,IPIPEIF module interrupt" "IPIPEIF_IRQ_0_r,IPIPEIF_IRQ_1_r"
bitfld.long 0x00 8. "IPIPE_INT_HST," "IPIPE_INT_HST_0_r,IPIPE_INT_HST_1_r"
newline
bitfld.long 0x00 7. "IPIPE_INT_BSC," "IPIPE_INT_BSC_0_r,IPIPE_INT_BSC_1_r"
bitfld.long 0x00 6. "IPIPE_INT_DMA," "IPIPE_INT_DMA_0_r,IPIPE_INT_DMA_1_r"
newline
bitfld.long 0x00 5. "IPIPE_INT_LAST_PIX," "IPIPE_INT_LAST_PIX_0_r,IPIPE_INT_LAST_PIX_1_r"
bitfld.long 0x00 4. "IPIPE_INT_REG," "IPIPE_INT_REG_0_r,IPIPE_INT_REG_1_r"
newline
bitfld.long 0x00 3. "ISIF_INT_3,LSC interrupt issued by the 2D-LSC block" "ISIF_INT_3_0_r,ISIF_INT_3_1_r"
bitfld.long 0x00 2. "ISIF_INT_2,VD interrupt 2 event" "ISIF_INT_2_0_r,ISIF_INT_2_1_r"
newline
bitfld.long 0x00 1. "ISIF_INT_1,VD interrupt 1 event" "ISIF_INT_1_0_r,ISIF_INT_1_1_r"
bitfld.long 0x00 0. "ISIF_INT_0,VD interrupt 0 event" "ISIF_INT_0_0_r,ISIF_INT_0_1_r"
group.long 0x54++0x07
line.long 0x00 "ISP5_IRQSTATUS_RAW_i_3,Per-event raw interrupt status vector"
bitfld.long 0x00 31. "OCP_ERR_IRQ,An OCP error has been received on the ISP master port" "OCP_ERR_IRQ_0_r,OCP_ERR_IRQ_1_r"
bitfld.long 0x00 29. "IPIPE_INT_DPC_RNEW1," "IPIPE_INT_DPC_RNEW1_0_r,IPIPE_INT_DPC_RNEW1_1_r"
newline
bitfld.long 0x00 28. "IPIPE_INT_DPC_RNEW0," "IPIPE_INT_DPC_RNEW0_0_r,IPIPE_INT_DPC_RNEW0_1_r"
bitfld.long 0x00 27. "IPIPE_INT_DPC_INI," "IPIPE_INT_DPC_INI_0_r,IPIPE_INT_DPC_INI_1_r"
newline
bitfld.long 0x00 25. "IPIPE_INT_EOF," "IPIPE_INT_EOF_0_r,IPIPE_INT_EOF_1_r"
bitfld.long 0x00 24. "H3A_INT_EOF," "H3A_INT_EOF_0_r,H3A_INT_EOF_1_r"
newline
bitfld.long 0x00 23. "RSZ_INT_EOF1,RESIZER module event: This event signals that the BL has received the EOF signal from the resizer B engine which happens one the last transfer in the frame has happened" "RSZ_INT_EOF1_0_r,RSZ_INT_EOF1_1_r"
bitfld.long 0x00 22. "RSZ_INT_EOF0,RESIZER module event: This event signals that the BL has received the EOF signal from the resizer A engine which happens one the last transfer in the frame has happened" "RSZ_INT_EOF0_0_r,RSZ_INT_EOF0_1_r"
newline
bitfld.long 0x00 19. "RSZ_FIFO_IN_BLK_ERR,This event signals that the minimum vertical blanking period has not been respected causing errors in the input data buffering submodule" "RSZ_FIFO_IN_BLK_ERR_0_r,RSZ_FIFO_IN_BLK_ERR_1_r"
bitfld.long 0x00 18. "RSZ_FIFO_OVF,This event signals that overflow happened in the input data buffering submodule" "RSZ_FIFO_OVF_0_r,RSZ_FIFO_OVF_1_r"
newline
bitfld.long 0x00 17. "RSZ_INT_CYC_RZB,RESIZER module event: This event is the circular interrupt for RESIZER #B" "RSZ_INT_CYC_RZB_0_r,RSZ_INT_CYC_RZB_1_r"
bitfld.long 0x00 16. "RSZ_INT_CYC_RZA,RESIZER module event: This event is the circular interrupt for RESIZER #A" "RSZ_INT_CYC_RZA_0_r,RSZ_INT_CYC_RZA_1_r"
newline
bitfld.long 0x00 15. "RSZ_INT_DMA,This event is triggered when the last EOF (of the two MTC interfaces) is sent out to the BL and that the resizer core has returned to idle" "RSZ_INT_DMA_0_r,RSZ_INT_DMA_1_r"
bitfld.long 0x00 14. "RSZ_INT_LAST_PIX,This event is triggered when the last pixel of the valid area is received" "RSZ_INT_LAST_PIX_0_r,RSZ_INT_LAST_PIX_1_r"
newline
bitfld.long 0x00 13. "RSZ_INT_REG,This event is triggered when the first pixel of the valid area is received" "RSZ_INT_REG_0_r,RSZ_INT_REG_1_r"
bitfld.long 0x00 12. "H3A_INT," "H3A_INT_0_r,H3A_INT_1_r"
newline
bitfld.long 0x00 11. "AF_INT," "AF_INT_0_r,AF_INT_1_r"
bitfld.long 0x00 10. "AEW_INT," "AEW_INT_0_r,AEW_INT_1_r"
newline
bitfld.long 0x00 9. "IPIPEIF_IRQ,IPIPEIF module interrupt" "IPIPEIF_IRQ_0_r,IPIPEIF_IRQ_1_r"
bitfld.long 0x00 8. "IPIPE_INT_HST," "IPIPE_INT_HST_0_r,IPIPE_INT_HST_1_r"
newline
bitfld.long 0x00 7. "IPIPE_INT_BSC," "IPIPE_INT_BSC_0_r,IPIPE_INT_BSC_1_r"
bitfld.long 0x00 6. "IPIPE_INT_DMA," "IPIPE_INT_DMA_0_r,IPIPE_INT_DMA_1_r"
newline
bitfld.long 0x00 5. "IPIPE_INT_LAST_PIX," "IPIPE_INT_LAST_PIX_0_r,IPIPE_INT_LAST_PIX_1_r"
bitfld.long 0x00 4. "IPIPE_INT_REG," "IPIPE_INT_REG_0_r,IPIPE_INT_REG_1_r"
newline
bitfld.long 0x00 3. "ISIF_INT_3," "ISIF_INT_3_0_r,ISIF_INT_3_1_r"
bitfld.long 0x00 2. "ISIF_INT_2," "ISIF_INT_2_0_r,ISIF_INT_2_1_r"
newline
bitfld.long 0x00 1. "ISIF_INT_1," "ISIF_INT_1_0_r,ISIF_INT_1_1_r"
bitfld.long 0x00 0. "ISIF_INT_0," "ISIF_INT_0_0_r,ISIF_INT_0_1_r"
line.long 0x04 "ISP5_IRQSTATUS_i_3,Per-event 'enabled' interrupt status vector"
bitfld.long 0x04 31. "OCP_ERR_IRQ,An OCP error has been received on the ISP master port" "OCP_ERR_IRQ_0_r,OCP_ERR_IRQ_1_r"
bitfld.long 0x04 29. "IPIPE_INT_DPC_RNEW1," "IPIPE_INT_DPC_RNEW1_0_r,IPIPE_INT_DPC_RNEW1_1_r"
newline
bitfld.long 0x04 28. "IPIPE_INT_DPC_RNEW0," "IPIPE_INT_DPC_RNEW0_0_r,IPIPE_INT_DPC_RNEW0_1_r"
bitfld.long 0x04 27. "IPIPE_INT_DPC_INI," "IPIPE_INT_DPC_INI_0_r,IPIPE_INT_DPC_INI_1_r"
newline
bitfld.long 0x04 25. "IPIPE_INT_EOF," "IPIPE_INT_EOF_0_r,IPIPE_INT_EOF_1_r"
bitfld.long 0x04 24. "H3A_INT_EOF," "H3A_INT_EOF_0_r,H3A_INT_EOF_1_r"
newline
bitfld.long 0x04 23. "RSZ_INT_EOF1,RESIZER module event: This event signals that the BL has received the EOF signal from the resizer B engine which happens one the last transfer in the frame has happened" "RSZ_INT_EOF1_0_r,RSZ_INT_EOF1_1_r"
bitfld.long 0x04 22. "RSZ_INT_EOF0,RESIZER module event: This event signals that the BL has received the EOF signal from the resizer A engine which happens one the last transfer in the frame has happened" "RSZ_INT_EOF0_0_r,RSZ_INT_EOF0_1_r"
newline
bitfld.long 0x04 19. "RSZ_FIFO_IN_BLK_ERR,This event signals that the minimum vertical blanking period has not been respected causing errors in the input data buffering submodule" "RSZ_FIFO_IN_BLK_ERR_0_r,RSZ_FIFO_IN_BLK_ERR_1_r"
bitfld.long 0x04 18. "RSZ_FIFO_OVF,This event signals that overflow happened in the input data buffering submodule or in the RSZ output interface" "RSZ_FIFO_OVF_0_r,RSZ_FIFO_OVF_1_r"
newline
bitfld.long 0x04 17. "RSZ_INT_CYC_RZB,RESIZER module event: This event is the circular interrupt for RESIZER #B" "RSZ_INT_CYC_RZB_0_r,RSZ_INT_CYC_RZB_1_r"
bitfld.long 0x04 16. "RSZ_INT_CYC_RZA,RESIZER module event: This event is the circular interrupt for RESIZER #A" "RSZ_INT_CYC_RZA_0_r,RSZ_INT_CYC_RZA_1_r"
newline
bitfld.long 0x04 15. "RSZ_INT_DMA,This event is triggered when the last EOF (of the two MTC interfaces) is sent out to the BL and that the resizer core has returned to idle" "RSZ_INT_DMA_0_r,RSZ_INT_DMA_1_r"
bitfld.long 0x04 14. "RSZ_INT_LAST_PIX,This event is triggered when the last pixel of the valid area is received" "RSZ_INT_LAST_PIX_0_r,RSZ_INT_LAST_PIX_1_r"
newline
bitfld.long 0x04 13. "RSZ_INT_REG,This event is triggered when the first pixel of the valid area is received" "RSZ_INT_REG_0_r,RSZ_INT_REG_1_r"
bitfld.long 0x04 12. "H3A_INT," "H3A_INT_0_r,H3A_INT_1_r"
newline
bitfld.long 0x04 11. "AF_INT," "AF_INT_0_r,AF_INT_1_r"
bitfld.long 0x04 10. "AEW_INT," "AEW_INT_0_r,AEW_INT_1_r"
newline
bitfld.long 0x04 9. "IPIPEIF_IRQ,IPIPEIF module interrupt" "IPIPEIF_IRQ_0_r,IPIPEIF_IRQ_1_r"
bitfld.long 0x04 8. "IPIPE_INT_HST," "IPIPE_INT_HST_0_r,IPIPE_INT_HST_1_r"
newline
bitfld.long 0x04 7. "IPIPE_INT_BSC," "IPIPE_INT_BSC_0_r,IPIPE_INT_BSC_1_r"
bitfld.long 0x04 6. "IPIPE_INT_DMA," "IPIPE_INT_DMA_0_r,IPIPE_INT_DMA_1_r"
newline
bitfld.long 0x04 5. "IPIPE_INT_LAST_PIX," "IPIPE_INT_LAST_PIX_0_r,IPIPE_INT_LAST_PIX_1_r"
bitfld.long 0x04 4. "IPIPE_INT_REG," "IPIPE_INT_REG_0_r,IPIPE_INT_REG_1_r"
newline
bitfld.long 0x04 3. "ISIF_INT_3,LSC interrupt issued by 2D-LSC block" "ISIF_INT_3_0_r,ISIF_INT_3_1_r"
bitfld.long 0x04 2. "ISIF_INT_2,VD interrupt 2 event" "ISIF_INT_2_0_r,ISIF_INT_2_1_r"
newline
bitfld.long 0x04 1. "ISIF_INT_1,VD interrupt 1 event" "ISIF_INT_1_0_r,ISIF_INT_1_1_r"
bitfld.long 0x04 0. "ISIF_INT_0,VD interrupt 0 event" "ISIF_INT_0_0_r,ISIF_INT_0_1_r"
tree.end
group.long 0x80++0x0B
line.long 0x00 "ISP5_BL_MTC_1,MEMORY REQUEST MINIMUM INTERVAL REGISTER"
hexmask.long.word 0x00 16.--31. 1. "ISIF_R,Sets the minimum interval btw two consecutive memory requests for the ISIF-Read port"
hexmask.long.word 0x00 0.--15. 1. "IPIPEIF_R,Sets the minimum interval btw two consecutive memory requests for the IPIPEIF-Read port"
line.long 0x04 "ISP5_BL_MTC_2,MEMORY REQUEST MINIMUM INTERVAL REGISTER"
hexmask.long.word 0x04 16.--31. 1. "H3A_W,Sets the minimum interval btw two consecutive memory requests for the H3A-Write port"
line.long 0x08 "ISP5_BL_VBUSM,BL VBUSM TUNING REGISTER The settings in the register are static and not expected to be modified dynamically"
bitfld.long 0x08 5. "MFLAG_THRES,MFLAG Threshold value The value of this bit field is a threshold which is compared to the MFlag output of the ISP5" "MFLAG_THRES_0,MFLAG_THRES_1"
bitfld.long 0x08 0.--4. "LASTCMD_DLY,The value of this bit field represents a delay expressed in cycles (L3 clock)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x6C++0x03
line.long 0x00 "ISP5_CTRL,ISP5 CONTROL REGISTER"
bitfld.long 0x00 30.--31. "DMA3_CFG,This bit field selects the DMA transfer configuration which is used with the ISS_DMA3 DMA request signal" "DMA3_CFG_0,DMA3_CFG_1,DMA3_CFG_2,DMA3_CFG_3"
bitfld.long 0x00 26. "HST_RD_CHK,When the HISTOGRAM computation is enabled and the HST DMA request is not used to read out the data this register ensures that the data is read fast enough else an interruptISP5_IRQSTATUS2_i[5] IPIPE_HST_ERR is triggered" "HST_RD_CHK_0_r,HST_RD_CHK_1_r"
newline
bitfld.long 0x00 25. "DPC_EVT_INI,Select the IPIPE module event to be used to generate the DMA requests for the DPC submodule" "DPC_EVT_INI_0,DPC_EVT_INI_1"
bitfld.long 0x00 24. "MSTANDBY,MStandby signal assertion and de-assertion control for power management transitions" "MSTANDBY_0,MSTANDBY_1"
newline
bitfld.long 0x00 23. "VD_PULSE_EXT,VD pulse extension enable This bit enables or disables the VD extension bridge" "VD_PULSE_EXT_0,VD_PULSE_EXT_1"
bitfld.long 0x00 22. "PCLK_INV,Pixel clock inversion This bit enables or disables pixel clock inversion" "PCLK_INV_0,PCLK_INV_1"
newline
bitfld.long 0x00 21. "MFLAG,MFlag signal generation control This bit controls how the OCP MFlag signal is generated on the ISS NOC" "The MFlag value is dynamic,The MFlag value is static"
rbitfld.long 0x00 20. "MSTANDDBY_WAIT,MStandby / Wait power management status bit" "MSTANDDBY_WAIT_0_r,MSTANDDBY_WAIT_1_r"
newline
bitfld.long 0x00 15. "BL_CLK_ENABLE,BL clock enable" "BL_CLK_ENABLE_0,BL_CLK_ENABLE_1"
bitfld.long 0x00 14. "ISIF_CLK_ENABLE,ISIF clock enable The ISP will return OCP_ERROR if one tries to program the module MMR or memory when the clock is disabled" "ISIF_CLK_ENABLE_0,ISIF_CLK_ENABLE_1"
newline
bitfld.long 0x00 13. "H3A_CLK_ENABLE,H3A clock enable The ISP will return OCP_ERROR if one tries to program the module MMR or memory when the clock is disabled" "H3A_CLK_ENABLE_0,H3A_CLK_ENABLE_1"
bitfld.long 0x00 12. "RSZ_CLK_ENABLE,RESIZER clock enable The ISP will return OCP_ERROR if one tries to program the module MMR or memory when the clock is disabled" "RSZ_CLK_ENABLE_0,RSZ_CLK_ENABLE_1"
newline
bitfld.long 0x00 11. "IPIPE_CLK_ENABLE,IPIPE clock enable The ISP will return OCP_ERROR if one tries to program the module MMR or memory when the clock is disabled" "IPIPE_CLK_ENABLE_0,IPIPE_CLK_ENABLE_1"
bitfld.long 0x00 10. "IPIPEIF_CLK_ENABLE,IPIPEIF clock enable The ISP will return OCP_ERROR if one tries to program the module MMR or memory when the clock is disabled" "IPIPEIF_CLK_ENABLE_0,IPIPEIF_CLK_ENABLE_1"
newline
bitfld.long 0x00 9. "SYNC_ENABLE,PCLK Sync module enable" "SYNC_ENABLE_0,SYNC_ENABLE_1"
bitfld.long 0x00 8. "PSYNC_CLK_SEL,PCLK Sync clock select" "PSYNC_CLK_SEL_0,PSYNC_CLK_SEL_1"
newline
bitfld.long 0x00 4.--7. "VBUSM_CIDS,BL MAX VBUSM CIDs The BL module supports up to 16 CIDs/tags" "VBUSM_CIDS_0,VBUSM_CIDS_1,VBUSM_CIDS_2,VBUSM_CIDS_3,VBUSM_CIDS_4,VBUSM_CIDS_5,VBUSM_CIDS_6,VBUSM_CIDS_7,VBUSM_CIDS_8,VBUSM_CIDS_9,VBUSM_CIDS_10,VBUSM_CIDS_11,VBUSM_CIDS_12,VBUSM_CIDS_13,VBUSM_CIDS_14,VBUSM_CIDS_15"
bitfld.long 0x00 1.--3. "VBUSM_CPRIORITY,BL VBUSM priority setting" "VBUSM_CPRIORITY_0,VBUSM_CPRIORITY_1,VBUSM_CPRIORITY_2,VBUSM_CPRIORITY_3,VBUSM_CPRIORITY_4,VBUSM_CPRIORITY_5,VBUSM_CPRIORITY_6,VBUSM_CPRIORITY_7"
newline
bitfld.long 0x00 0. "OCP_WRNP,ISP OCP master port non-posted write control" "OCP_WRNP_0,OCP_WRNP_1"
group.long 0x68++0x03
line.long 0x00 "ISP5_DMAENABLE_CLR,Per-line DMA clear bit vector Write 1 to clear (disable DMA request generation)"
bitfld.long 0x00 4. "IPIPE_INT_DPC_RNEW1,Clear for ISP DMA request generation on line ISS_DMA2" "IPIPE_INT_DPC_RNEW1_0_r,IPIPE_INT_DPC_RNEW1_1_r"
bitfld.long 0x00 3. "IPIPE_INT_LAST_PIX,Clear for ISP DMA request generation on ISS_DMA3" "IPIPE_INT_LAST_PIX_0_r,IPIPE_INT_LAST_PIX_1_r"
newline
bitfld.long 0x00 2. "IPIPE_INT_DPC_RNEW0,Clear for ISP DMA request generation on ISS_DMA2" "IPIPE_INT_DPC_RNEW0_0_r,IPIPE_INT_DPC_RNEW0_1_r"
bitfld.long 0x00 1. "IPIPE_INT_HST,Clear for ISP DMA request generation on ISS_DMA1" "IPIPE_INT_HST_0_r,IPIPE_INT_HST_1_r"
newline
bitfld.long 0x00 0. "IPIPE_INT_BSC,Clear for ISP DMA request generation on ISS_DMA0" "IPIPE_INT_BSC_0_r,IPIPE_INT_BSC_1_r"
group.long 0x64++0x03
line.long 0x00 "ISP5_DMAENABLE_SET,Per-line DMA enable bit vector Write 1 to set (enable DMA request generation)"
bitfld.long 0x00 4. "IPIPE_INT_DPC_RNEW1,Enable for ISP DMA request generation on line #2 This DMA request must be set to transfer the DPC data from memory to the IPIPE internal RAM" "IPIPE_INT_DPC_RNEW1_0_r,IPIPE_INT_DPC_RNEW1_1_r"
bitfld.long 0x00 3. "IPIPE_INT_LAST_PIX,Enable for ISP DMA request generation on line #3 This DMA request must be set to transfer the GAMMA data from memory to the IPIPE internal RAM or to initialize the DPC table" "IPIPE_INT_LAST_PIX_0_r,IPIPE_INT_LAST_PIX_1_r"
newline
bitfld.long 0x00 2. "IPIPE_INT_DPC_RNEW0,Enable for ISP DMA request generation on line #2 This DMA request must be set to transfer the DPC data from memory to the IPIPE internal RAM" "IPIPE_INT_DPC_RNEW0_0_r,IPIPE_INT_DPC_RNEW0_1_r"
bitfld.long 0x00 1. "IPIPE_INT_HST,Enable for ISP DMA request generation on line #1 This DMA request must be set to transfer the HIST data from the IPIPE internal RAM to memory" "IPIPE_INT_HST_0_r,IPIPE_INT_HST_1_r"
newline
bitfld.long 0x00 0. "IPIPE_INT_BSC,Enable for ISP DMA request generation on line #0 This DMA request must be set to transfer the BSC data from the IPIPE internal RAM to memory" "IPIPE_INT_BSC_0_r,IPIPE_INT_BSC_1_r"
rgroup.long 0x04++0x07
line.long 0x00 "ISP5_HWINFO1,GENERIC PARAMETER REGISTER Information about the hardware configuration of the IP module"
hexmask.long.word 0x00 16.--28. 1. "ISIF_RFM_LINE_SIZE,Memory line size for the data reformatter in the ISIF module"
hexmask.long.word 0x00 0.--12. 1. "IPIPE_LINE_SIZE,Memory line size for the IPIPE module"
line.long 0x04 "ISP5_HWINFO2,GENERIC PARAMETER REGISTER Information about the hardware configuration of the IP module"
hexmask.long.word 0x04 0.--12. 1. "H3A_LINE_SIZE,Memory line size for the H3A module"
group.long 0x7C++0x03
line.long 0x00 "ISP5_MPSR,ISP memory access register"
bitfld.long 0x00 24. "IPIPE_GAMMA_RGB_COPY,GAMMA table RGB Copy This bit must be enable when one wants to use the same Gamma table for the R G and B color components" "IPIPE_GAMMA_RGB_COPY_0,IPIPE_GAMMA_RGB_COPY_1"
bitfld.long 0x00 20. "IPIPE_BSC_TB1,IPIPE BSC TB1 memory access priority This memory is expected to be read by the CPU or the DMA to get BSC information during vertical blanking period" "IPIPE_BSC_TB1_0,IPIPE_BSC_TB1_1"
newline
bitfld.long 0x00 19. "IPIPE_BSC_TB0,IPIPE BSC TB0 memory access priority This memory is expected to be read by the CPU or the DMA to get BSC information during vertical blanking period" "IPIPE_BSC_TB0_0,IPIPE_BSC_TB0_1"
bitfld.long 0x00 18. "IPIPE_HST_TB3,IPIPE histogram memory #3 access priority This memory is expected to be read by the CPU or the DMA to get HST information during vertical blanking period" "IPIPE_HST_TB3_0,IPIPE_HST_TB3_1"
newline
bitfld.long 0x00 17. "IPIPE_HST_TB2,IPIPE histogram memory #2 access priority This memory is expected to be read by the CPU or the DMA to get HST information during vertical blanking period" "IPIPE_HST_TB2_0,IPIPE_HST_TB2_1"
bitfld.long 0x00 16. "IPIPE_HST_TB1,IPIPE histogram memory #1 access priority This memory is expected to be read by the CPU or the DMA to get HST information during vertical blanking period" "IPIPE_HST_TB1_0,IPIPE_HST_TB1_1"
newline
bitfld.long 0x00 15. "IPIPE_HST_TB0,IPIPE histogram memory #0 access priority This memory is expected to be read by the CPU or the DMA to get HST information during vertical blanking period" "IPIPE_HST_TB0_0,IPIPE_HST_TB0_1"
bitfld.long 0x00 14. "IPIPE_D3L_TB3,D3L TB3 memory access priority This memory is expected to be written during ISP initialization and potentially updated during vertical blanking periods" "IPIPE_D3L_TB3_0,IPIPE_D3L_TB3_1"
newline
bitfld.long 0x00 13. "IPIPE_D3L_TB2,D3L TB2 memory access priority This memory is expected to be written during ISP initialization and potentially updated during vertical blanking periods" "IPIPE_D3L_TB2_0,IPIPE_D3L_TB2_1"
bitfld.long 0x00 12. "IPIPE_D3L_TB1,D3L TB1 memory access priority This memory is expected to be written during ISP initialization and potentially updated during vertical blanking periods" "IPIPE_D3L_TB1_0,IPIPE_D3L_TB1_1"
newline
bitfld.long 0x00 11. "IPIPE_D3L_TB0,D3L TB0 memory access priority This memory is expected to be written during ISP initialization and potentially updated during vertical blanking periods" "IPIPE_D3L_TB0_0,IPIPE_D3L_TB0_1"
bitfld.long 0x00 10. "IPIPE_GBC_TB,IPIPE GBC TB memory access priority This memory is expected to be written during ISP initialization and potentially updated during vertical blanking periods" "IPIPE_GBC_TB_0,IPIPE_GBC_TB_1"
newline
bitfld.long 0x00 9. "IPIPE_YEE_TB,YEE TB memory access priority This memory is expected to be written during ISP initialization and potentially updated during vertical blanking periods" "IPIPE_YEE_TB_0,IPIPE_YEE_TB_1"
bitfld.long 0x00 8. "IPIPE_GMM_TBR,IPIPE Gamma LUT R memory arbitration This memory is expected to be written during ISP initialization and potentially updated during vertical blanking periods" "IPIPE_GMM_TBR_0,IPIPE_GMM_TBR_1"
newline
bitfld.long 0x00 7. "IPIPE_GMM_TBG,IPIPE Gamma LUT G memory arbitration This memory is expected to be written during ISP initialization and potentially updated during vertical blanking periods" "IPIPE_GMM_TBG_0,IPIPE_GMM_TBG_1"
bitfld.long 0x00 6. "IPIPE_GMM_TBB,IPIPE Gamma LUT B memory arbitration This memory is expected to be written during ISP initialization and potentially updated during vertical blanking periods" "IPIPE_GMM_TBB_0,IPIPE_GMM_TBB_1"
newline
bitfld.long 0x00 5. "IPIPE_DPC_TB,IPIPE defect pixel memory arbitration This memory is expected to be written during ISP initialization and potentially updated during vertical blanking periods" "IPIPE_DPC_TB_0,IPIPE_DPC_TB_1"
bitfld.long 0x00 4. "ISIF_DCLAMP,ISIF DC accumulation memory arbitration This memory is expected to be written during ISP initialization and potentially updated during vertical blanking periods" "ISIF_DCLAMP_0,ISIF_DCLAMP_1"
newline
bitfld.long 0x00 3. "ISIF_LSC_TB1,ISIF LSC memory 1 access This memory is expected to be written during ISP initialization and potentially updated during vertical blanking periods" "ISIF_LSC_TB1_0,ISIF_LSC_TB1_1"
bitfld.long 0x00 2. "ISIF_LSC_TB0,ISIF LSC memory 0 access This memory is expected to be written during ISP initialization and potentially updated during vertical blanking periods" "ISIF_LSC_TB0_0,ISIF_LSC_TB0_1"
newline
bitfld.long 0x00 1. "ISIF_LIN_TB,ISIF linearity compensation memory arbitration This memory is expected to be written during ISP initialization and potentially updated during vertical blanking periods" "ISIF_LIN_TB_0,ISIF_LIN_TB_1"
group.long 0x70++0x03
line.long 0x00 "ISP5_PG,PATTERN GENERATOR REGISTER"
bitfld.long 0x00 4.--5. "SRC_SEL,Input mux selection" "SRC_SEL_0,SRC_SEL_1,SRC_SEL_2,SRC_SEL_3"
bitfld.long 0x00 3. "EN," "EN_0,EN_1"
newline
bitfld.long 0x00 2. "WEN," "WEN_0,WEN_1"
bitfld.long 0x00 1. "HDPOL," "HDPOL_0,HDPOL_1"
newline
bitfld.long 0x00 0. "VDPOL," "VDPOL_0,VDPOL_1"
group.long 0x78++0x03
line.long 0x00 "ISP5_PG_FRAME_SIZE,PATTERN GENERATOR REGISTER"
hexmask.long.word 0x00 16.--31. 1. "PPLN,Pattern Generator: pixels per line PPLN+1"
hexmask.long.word 0x00 0.--15. 1. "HLPFR,Pattern Generator: half lines per frame HLPFR+1"
group.long 0x74++0x03
line.long 0x00 "ISP5_PG_PULSE_CTRL,PATTERN GENERATOR REGISTER"
hexmask.long.word 0x00 16.--27. 1. "VDW,Pattern generator VD width Width = VDW+1"
hexmask.long.word 0x00 0.--12. 1. "HDW,Pattern generator HD width Width = HDW+1"
rgroup.long 0x00++0x03
line.long 0x00 "ISP5_REVISION,IP Revision Identifier (X.Y.R) Used by software to track features. bugs. and compatibility"
group.long 0x10++0x03
line.long 0x00 "ISP5_SYSCONFIG,Clock management configuration"
bitfld.long 0x00 4.--5. "STANDBYMODE,Configuration of the local initiator state management mode" "STANDBYMODE_0,STANDBYMODE_1,STANDBYMODE_2,STANDBYMODE_3"
bitfld.long 0x00 1. "SOFTRESET,Software reset" "SOFTRESET_0_r,SOFTRESET_1_r"
newline
rbitfld.long 0x00 0. "AUTO_IDLE,Auto clock gating" "AUTO_IDLE_0,AUTO_IDLE_1"
tree.end
tree "ISS_ISP5_SYS2"
base ansd:0x520100A0
tree "IRQ_Line_0"
group.long 0x24++0x03
line.long 0x00 "ISP5_IRQENABLE_CLR2_i_0,Per-event interrupt enable bit vector"
bitfld.long 0x00 4. "IPIPE_HST_ERR,IPIPE HISTOGRAM memory read error This error will happen when the histogram data is not read fast enough by either the MPU or the DMA" "IPIPE_HST_ERR_0_r,IPIPE_HST_ERR_1_r"
bitfld.long 0x00 3. "ISIF_OVF,ISIF module overflow" "ISIF_OVF_0_r,ISIF_OVF_1_r"
bitfld.long 0x00 2. "IPIPE_BOXCAR_OVF,IPIPE BOXCAR module overflow" "IPIPE_BOXCAR_OVF_0_r,IPIPE_BOXCAR_OVF_1_r"
newline
bitfld.long 0x00 1. "IPIPEIF_UDF,IPIPEIF module underflow interrupt" "IPIPEIF_UDF_0_r,IPIPEIF_UDF_1_r"
bitfld.long 0x00 0. "H3A_OVF,H3A module overflow interrupt" "H3A_OVF_0_r,H3A_OVF_1_r"
group.long 0x20++0x03
line.long 0x00 "ISP5_IRQENABLE_SET2_i_0,Per-event interrupt enable bit vector"
bitfld.long 0x00 4. "IPIPE_HST_ERR,IPIPE HISTOGRAM memory read error This error will happen when the histogram data is not read fast enough by either the MPU or the DMA" "0,1"
bitfld.long 0x00 3. "ISIF_OVF,ISIF module overflow" "0,1"
bitfld.long 0x00 2. "IPIPE_BOXCAR_OVF,IPIPE BOXCAR module overflow" "0,1"
newline
bitfld.long 0x00 1. "IPIPEIF_UDF,IPIPEIF module underflow interrupt" "0,1"
bitfld.long 0x00 0. "H3A_OVF,H3A module overflow interrupt" "H3A_OVF_0_r,H3A_OVF_1_r"
group.long 0x1C++0x03
line.long 0x00 "ISP5_IRQSTATUS2_i_0,Per-event 'enabled' interrupt status vector"
bitfld.long 0x00 4. "IPIPE_HST_ERR,IPIPE HISTOGRAM memory read error This error will happen when the histogram data is not read fast enough by either the MPU or the DMA" "IPIPE_HST_ERR_0_r,IPIPE_HST_ERR_1_r"
bitfld.long 0x00 3. "ISIF_OVF,ISIF module overflow" "ISIF_OVF_0_r,ISIF_OVF_1_r"
bitfld.long 0x00 2. "IPIPE_BOXCAR_OVF,IPIPE BOXCAR module overflow Overflow errors are not recoverable at ISP level a software reset is required at ISS level" "IPIPE_BOXCAR_OVF_0_r,IPIPE_BOXCAR_OVF_1_r"
newline
bitfld.long 0x00 1. "IPIPEIF_UDF,IPIPEIF module underflow interrupt" "IPIPEIF_UDF_0_r,IPIPEIF_UDF_1_r"
bitfld.long 0x00 0. "H3A_OVF,H3A module overflow interrupt" "H3A_OVF_0_r,H3A_OVF_1_r"
group.long 0x18++0x03
line.long 0x00 "ISP5_IRQSTATUS_RAW2_i_0,Per-event raw interrupt status vector"
bitfld.long 0x00 4. "IPIPE_HST_ERR,IPIPE HISTOGRAM memory read error This error will happen when the histogram data is not read fast enough by the MPU or the DMA" "IPIPE_HST_ERR_0_r,IPIPE_HST_ERR_1_r"
bitfld.long 0x00 3. "ISIF_OVF,ISIF module overflow" "ISIF_OVF_0_r,ISIF_OVF_1_r"
bitfld.long 0x00 2. "IPIPE_BOXCAR_OVF,IPIPE BOXCAR module overflow" "IPIPE_BOXCAR_OVF_0_r,IPIPE_BOXCAR_OVF_1_r"
newline
bitfld.long 0x00 1. "IPIPEIF_UDF,IPIPEIF module underflow interrupt" "IPIPEIF_UDF_0_r,IPIPEIF_UDF_1_r"
bitfld.long 0x00 0. "H3A_OVF,H3A module overflow interrupt" "H3A_OVF_0_r,H3A_OVF_1_r"
tree.end
tree "IRQ_Line_1"
group.long 0x34++0x03
line.long 0x00 "ISP5_IRQENABLE_CLR2_i_1,Per-event interrupt enable bit vector"
bitfld.long 0x00 4. "IPIPE_HST_ERR,IPIPE HISTOGRAM memory read error This error will happen when the histogram data is not read fast enough by either the MPU or the DMA" "IPIPE_HST_ERR_0_r,IPIPE_HST_ERR_1_r"
bitfld.long 0x00 3. "ISIF_OVF,ISIF module overflow" "ISIF_OVF_0_r,ISIF_OVF_1_r"
bitfld.long 0x00 2. "IPIPE_BOXCAR_OVF,IPIPE BOXCAR module overflow" "IPIPE_BOXCAR_OVF_0_r,IPIPE_BOXCAR_OVF_1_r"
newline
bitfld.long 0x00 1. "IPIPEIF_UDF,IPIPEIF module underflow interrupt" "IPIPEIF_UDF_0_r,IPIPEIF_UDF_1_r"
bitfld.long 0x00 0. "H3A_OVF,H3A module overflow interrupt" "H3A_OVF_0_r,H3A_OVF_1_r"
group.long 0x30++0x03
line.long 0x00 "ISP5_IRQENABLE_SET2_i_1,Per-event interrupt enable bit vector"
bitfld.long 0x00 4. "IPIPE_HST_ERR,IPIPE HISTOGRAM memory read error This error will happen when the histogram data is not read fast enough by either the MPU or the DMA" "0,1"
bitfld.long 0x00 3. "ISIF_OVF,ISIF module overflow" "0,1"
bitfld.long 0x00 2. "IPIPE_BOXCAR_OVF,IPIPE BOXCAR module overflow" "0,1"
newline
bitfld.long 0x00 1. "IPIPEIF_UDF,IPIPEIF module underflow interrupt" "0,1"
bitfld.long 0x00 0. "H3A_OVF,H3A module overflow interrupt" "H3A_OVF_0_r,H3A_OVF_1_r"
group.long 0x2C++0x03
line.long 0x00 "ISP5_IRQSTATUS2_i_1,Per-event 'enabled' interrupt status vector"
bitfld.long 0x00 4. "IPIPE_HST_ERR,IPIPE HISTOGRAM memory read error This error will happen when the histogram data is not read fast enough by either the MPU or the DMA" "IPIPE_HST_ERR_0_r,IPIPE_HST_ERR_1_r"
bitfld.long 0x00 3. "ISIF_OVF,ISIF module overflow" "ISIF_OVF_0_r,ISIF_OVF_1_r"
bitfld.long 0x00 2. "IPIPE_BOXCAR_OVF,IPIPE BOXCAR module overflow Overflow errors are not recoverable at ISP level a software reset is required at ISS level" "IPIPE_BOXCAR_OVF_0_r,IPIPE_BOXCAR_OVF_1_r"
newline
bitfld.long 0x00 1. "IPIPEIF_UDF,IPIPEIF module underflow interrupt" "IPIPEIF_UDF_0_r,IPIPEIF_UDF_1_r"
bitfld.long 0x00 0. "H3A_OVF,H3A module overflow interrupt" "H3A_OVF_0_r,H3A_OVF_1_r"
group.long 0x28++0x03
line.long 0x00 "ISP5_IRQSTATUS_RAW2_i_1,Per-event raw interrupt status vector"
bitfld.long 0x00 4. "IPIPE_HST_ERR,IPIPE HISTOGRAM memory read error This error will happen when the histogram data is not read fast enough by the MPU or the DMA" "IPIPE_HST_ERR_0_r,IPIPE_HST_ERR_1_r"
bitfld.long 0x00 3. "ISIF_OVF,ISIF module overflow" "ISIF_OVF_0_r,ISIF_OVF_1_r"
bitfld.long 0x00 2. "IPIPE_BOXCAR_OVF,IPIPE BOXCAR module overflow" "IPIPE_BOXCAR_OVF_0_r,IPIPE_BOXCAR_OVF_1_r"
newline
bitfld.long 0x00 1. "IPIPEIF_UDF,IPIPEIF module underflow interrupt" "IPIPEIF_UDF_0_r,IPIPEIF_UDF_1_r"
bitfld.long 0x00 0. "H3A_OVF,H3A module overflow interrupt" "H3A_OVF_0_r,H3A_OVF_1_r"
tree.end
tree "IRQ_Line_2"
group.long 0x44++0x03
line.long 0x00 "ISP5_IRQENABLE_CLR2_i_2,Per-event interrupt enable bit vector"
bitfld.long 0x00 4. "IPIPE_HST_ERR,IPIPE HISTOGRAM memory read error This error will happen when the histogram data is not read fast enough by either the MPU or the DMA" "IPIPE_HST_ERR_0_r,IPIPE_HST_ERR_1_r"
bitfld.long 0x00 3. "ISIF_OVF,ISIF module overflow" "ISIF_OVF_0_r,ISIF_OVF_1_r"
bitfld.long 0x00 2. "IPIPE_BOXCAR_OVF,IPIPE BOXCAR module overflow" "IPIPE_BOXCAR_OVF_0_r,IPIPE_BOXCAR_OVF_1_r"
newline
bitfld.long 0x00 1. "IPIPEIF_UDF,IPIPEIF module underflow interrupt" "IPIPEIF_UDF_0_r,IPIPEIF_UDF_1_r"
bitfld.long 0x00 0. "H3A_OVF,H3A module overflow interrupt" "H3A_OVF_0_r,H3A_OVF_1_r"
group.long 0x40++0x03
line.long 0x00 "ISP5_IRQENABLE_SET2_i_2,Per-event interrupt enable bit vector"
bitfld.long 0x00 4. "IPIPE_HST_ERR,IPIPE HISTOGRAM memory read error This error will happen when the histogram data is not read fast enough by either the MPU or the DMA" "0,1"
bitfld.long 0x00 3. "ISIF_OVF,ISIF module overflow" "0,1"
bitfld.long 0x00 2. "IPIPE_BOXCAR_OVF,IPIPE BOXCAR module overflow" "0,1"
newline
bitfld.long 0x00 1. "IPIPEIF_UDF,IPIPEIF module underflow interrupt" "0,1"
bitfld.long 0x00 0. "H3A_OVF,H3A module overflow interrupt" "H3A_OVF_0_r,H3A_OVF_1_r"
group.long 0x3C++0x03
line.long 0x00 "ISP5_IRQSTATUS2_i_2,Per-event 'enabled' interrupt status vector"
bitfld.long 0x00 4. "IPIPE_HST_ERR,IPIPE HISTOGRAM memory read error This error will happen when the histogram data is not read fast enough by either the MPU or the DMA" "IPIPE_HST_ERR_0_r,IPIPE_HST_ERR_1_r"
bitfld.long 0x00 3. "ISIF_OVF,ISIF module overflow" "ISIF_OVF_0_r,ISIF_OVF_1_r"
bitfld.long 0x00 2. "IPIPE_BOXCAR_OVF,IPIPE BOXCAR module overflow Overflow errors are not recoverable at ISP level a software reset is required at ISS level" "IPIPE_BOXCAR_OVF_0_r,IPIPE_BOXCAR_OVF_1_r"
newline
bitfld.long 0x00 1. "IPIPEIF_UDF,IPIPEIF module underflow interrupt" "IPIPEIF_UDF_0_r,IPIPEIF_UDF_1_r"
bitfld.long 0x00 0. "H3A_OVF,H3A module overflow interrupt" "H3A_OVF_0_r,H3A_OVF_1_r"
group.long 0x38++0x03
line.long 0x00 "ISP5_IRQSTATUS_RAW2_i_2,Per-event raw interrupt status vector"
bitfld.long 0x00 4. "IPIPE_HST_ERR,IPIPE HISTOGRAM memory read error This error will happen when the histogram data is not read fast enough by the MPU or the DMA" "IPIPE_HST_ERR_0_r,IPIPE_HST_ERR_1_r"
bitfld.long 0x00 3. "ISIF_OVF,ISIF module overflow" "ISIF_OVF_0_r,ISIF_OVF_1_r"
bitfld.long 0x00 2. "IPIPE_BOXCAR_OVF,IPIPE BOXCAR module overflow" "IPIPE_BOXCAR_OVF_0_r,IPIPE_BOXCAR_OVF_1_r"
newline
bitfld.long 0x00 1. "IPIPEIF_UDF,IPIPEIF module underflow interrupt" "IPIPEIF_UDF_0_r,IPIPEIF_UDF_1_r"
bitfld.long 0x00 0. "H3A_OVF,H3A module overflow interrupt" "H3A_OVF_0_r,H3A_OVF_1_r"
tree.end
tree "IRQ_Line_3"
group.long 0x54++0x03
line.long 0x00 "ISP5_IRQENABLE_CLR2_i_3,Per-event interrupt enable bit vector"
bitfld.long 0x00 4. "IPIPE_HST_ERR,IPIPE HISTOGRAM memory read error This error will happen when the histogram data is not read fast enough by either the MPU or the DMA" "IPIPE_HST_ERR_0_r,IPIPE_HST_ERR_1_r"
bitfld.long 0x00 3. "ISIF_OVF,ISIF module overflow" "ISIF_OVF_0_r,ISIF_OVF_1_r"
bitfld.long 0x00 2. "IPIPE_BOXCAR_OVF,IPIPE BOXCAR module overflow" "IPIPE_BOXCAR_OVF_0_r,IPIPE_BOXCAR_OVF_1_r"
newline
bitfld.long 0x00 1. "IPIPEIF_UDF,IPIPEIF module underflow interrupt" "IPIPEIF_UDF_0_r,IPIPEIF_UDF_1_r"
bitfld.long 0x00 0. "H3A_OVF,H3A module overflow interrupt" "H3A_OVF_0_r,H3A_OVF_1_r"
group.long 0x50++0x03
line.long 0x00 "ISP5_IRQENABLE_SET2_i_3,Per-event interrupt enable bit vector"
bitfld.long 0x00 4. "IPIPE_HST_ERR,IPIPE HISTOGRAM memory read error This error will happen when the histogram data is not read fast enough by either the MPU or the DMA" "0,1"
bitfld.long 0x00 3. "ISIF_OVF,ISIF module overflow" "0,1"
bitfld.long 0x00 2. "IPIPE_BOXCAR_OVF,IPIPE BOXCAR module overflow" "0,1"
newline
bitfld.long 0x00 1. "IPIPEIF_UDF,IPIPEIF module underflow interrupt" "0,1"
bitfld.long 0x00 0. "H3A_OVF,H3A module overflow interrupt" "H3A_OVF_0_r,H3A_OVF_1_r"
group.long 0x4C++0x03
line.long 0x00 "ISP5_IRQSTATUS2_i_3,Per-event 'enabled' interrupt status vector"
bitfld.long 0x00 4. "IPIPE_HST_ERR,IPIPE HISTOGRAM memory read error This error will happen when the histogram data is not read fast enough by either the MPU or the DMA" "IPIPE_HST_ERR_0_r,IPIPE_HST_ERR_1_r"
bitfld.long 0x00 3. "ISIF_OVF,ISIF module overflow" "ISIF_OVF_0_r,ISIF_OVF_1_r"
bitfld.long 0x00 2. "IPIPE_BOXCAR_OVF,IPIPE BOXCAR module overflow Overflow errors are not recoverable at ISP level a software reset is required at ISS level" "IPIPE_BOXCAR_OVF_0_r,IPIPE_BOXCAR_OVF_1_r"
newline
bitfld.long 0x00 1. "IPIPEIF_UDF,IPIPEIF module underflow interrupt" "IPIPEIF_UDF_0_r,IPIPEIF_UDF_1_r"
bitfld.long 0x00 0. "H3A_OVF,H3A module overflow interrupt" "H3A_OVF_0_r,H3A_OVF_1_r"
group.long 0x48++0x03
line.long 0x00 "ISP5_IRQSTATUS_RAW2_i_3,Per-event raw interrupt status vector"
bitfld.long 0x00 4. "IPIPE_HST_ERR,IPIPE HISTOGRAM memory read error This error will happen when the histogram data is not read fast enough by the MPU or the DMA" "IPIPE_HST_ERR_0_r,IPIPE_HST_ERR_1_r"
bitfld.long 0x00 3. "ISIF_OVF,ISIF module overflow" "ISIF_OVF_0_r,ISIF_OVF_1_r"
bitfld.long 0x00 2. "IPIPE_BOXCAR_OVF,IPIPE BOXCAR module overflow" "IPIPE_BOXCAR_OVF_0_r,IPIPE_BOXCAR_OVF_1_r"
newline
bitfld.long 0x00 1. "IPIPEIF_UDF,IPIPEIF module underflow interrupt" "IPIPEIF_UDF_0_r,IPIPEIF_UDF_1_r"
bitfld.long 0x00 0. "H3A_OVF,H3A module overflow interrupt" "H3A_OVF_0_r,H3A_OVF_1_r"
tree.end
rgroup.long 0x00++0x17
line.long 0x00 "ISP5_KEY_EN1,IPIPE eFuse enable"
bitfld.long 0x00 0. "KEY1_EN,eFuse enable Equals 1 when ISP5_EFUSE3_EN = 1 or 0 otherwise" "KEY1_EN_0_r,KEY1_EN_1_r"
line.long 0x04 "ISP5_KEY_EN2,ISIF eFuse enable"
bitfld.long 0x04 0. "KEY1_EN,eFuse enable Equals 1 when ISP5_EFUSE1_EN = 1 or 0 otherwise" "KEY1_EN_0_r,KEY1_EN_1_r"
line.long 0x08 "ISP5_KEY_EN3,ISIF eFuse enable"
bitfld.long 0x08 0. "KEY_EN,eFuse enable Equals 1 when ISP5_EFUSE3_EN = 1 or 0 otherwise" "KEY_EN_0_r,KEY_EN_1_r"
line.long 0x0C "ISP5_KEY_EN4,IPIPEIF eFuse enable"
bitfld.long 0x0C 1. "KEY2_EN,eFuse enable Equals 1 when ISP5_EFUSE4_EN = 1 or 0 otherwise" "KEY2_EN_0_r,KEY2_EN_1_r"
bitfld.long 0x0C 0. "KEY1_EN,eFuse enable Equals 1 when ISP5_EFUSE1_EN = 1 or 0 otherwise" "KEY1_EN_0_r,KEY1_EN_1_r"
line.long 0x10 "ISP5_KEY_EN5,H3A eFuse enable"
bitfld.long 0x10 0. "KEY_EN,eFuse enable Equals 1 when ISP5_EFUSE2_EN = 1 or 0 otherwise" "KEY_EN_0_r,KEY_EN_1_r"
line.long 0x14 "ISP5_KEY_EN6,H3A eFuse enable"
bitfld.long 0x14 0. "KEY_EN,eFuse enable Equals 1 when ISP5_EFUSE3_EN = 1 or 0 otherwise" "KEY_EN_0_r,KEY_EN_1_r"
tree.end
tree "ISS_RESIZER"
base ansd:0x52010400
rgroup.long 0x00++0x07
line.long 0x00 "RSZ_REVISION,IP Revision Identifier (X.Y.R) Used by software to track features. bugs. and compatibility"
line.long 0x04 "RSZ_SYSCONFIG,SYSTEM CONFIGURATION REGISTER This register is not shadowed"
bitfld.long 0x04 9. "RSZB_CLK_EN,Resizer B clock enable This bit enable to enable / disable the RESIZER B clock" "RSZB_CLK_EN_0,RSZB_CLK_EN_1"
bitfld.long 0x04 8. "RSZA_CLK_EN,Resizer A clock enable This bit enable to enable / disable the RESIZER A clock" "RSZA_CLK_EN_0,RSZA_CLK_EN_1"
bitfld.long 0x04 0. "AUTOGATING,Internal Clock Gating Strategy Enables or disables auto clock gating" "AUTOGATING_0,AUTOGATING_1"
group.long 0x0C++0x0B
line.long 0x00 "RSZ_IN_FIFO_CTRL,INPUT DATA BUFFER CONTROL REGISTER This register is not shadowed"
hexmask.long.word 0x00 16.--28. 1. "THRLD_LOW,WhenRSZ_IN_FIFO_CTRL.THRLD_HIGH = RSZ_IN_FIFO_CTRL.THRLD_LOW the rsz_stall_input is not asserted"
hexmask.long.word 0x00 0.--12. 1. "THRLD_HIGH,High threshold value"
line.long 0x04 "RSZ_GNC,GENERIC PARAMETER REGISTER"
hexmask.long.word 0x04 16.--28. 1. "RSZB_MEM_LINE_SIZE,Resizer #B memory line size (pixels)"
hexmask.long.word 0x04 0.--12. 1. "RSZA_MEM_LINE_SIZE,Resizer #A memory line size (pixels)"
line.long 0x08 "RSZ_FRACDIV,Fractional clock divider settings"
hexmask.long.word 0x08 0.--15. 1. "RSZ_FRACDIV,Fractional clock divider value"
group.long 0x20++0x2F
line.long 0x00 "RSZ_SRC_EN,RESIZER ENABLE REGISTER This register is not shadowed"
bitfld.long 0x00 0. "EN,Resizer module enable The start flag of the RESIZER module" "EN_0,EN_1"
line.long 0x04 "RSZ_SRC_MODE,This register is not shadowed"
bitfld.long 0x04 1. "WRT,Video port WEN signal selection This bit selects whether the WEN signal which is present on the IPIPE and IPIPEIF video port is used or not to select the input data" "WRT_0,WRT_1"
bitfld.long 0x04 0. "OST,The processing mode selection of the RESIZER module" "OST_0,OST_1"
line.long 0x08 "RSZ_SRC_FMT0,This register is not shadowed"
bitfld.long 0x08 1. "BYPASS,Pass Through This bit enables or disables the RESIZER module pass through mode" "BYPASS_0,BYPASS_1"
bitfld.long 0x08 0. "SEL,Input selection This bit selects which of the two video port is selected to push data through the RESIZER module" "SEL_0,SEL_1"
line.long 0x0C "RSZ_SRC_FMT1,"
bitfld.long 0x0C 2. "COL,Y/C selection This bit is valid only if the input data is YUV4:2:0 (IN420 = 1)" "COL_0,COL_1"
bitfld.long 0x0C 1. "IN420,Chroma Format Selection This bit sets the chroma undersampling when YUV data is input to the RESIZER module" "IN420_0,IN420_1"
bitfld.long 0x0C 0. "RAW,Pass-through mode input data format selection This bit affects the horizontal reversal (flipping) process" "RAW_0,RAW_1"
line.long 0x10 "RSZ_SRC_VPS,VERTICAL POSITION REGISTER This register is not shadowed"
hexmask.long.word 0x10 0.--15. 1. "VPS,Vertical Start Position Sets the vertical position of the global frame from the rising edge of the VD"
line.long 0x14 "RSZ_SRC_VSZ,VERTICAL SIZER REGISTER"
hexmask.long.word 0x14 0.--12. 1. "VSZ,Vertical Processing Size Sets the vertical size of the processing area"
line.long 0x18 "RSZ_SRC_HPS,HORIZONTAL POSITION REGISTER This register is not shadowed"
hexmask.long.word 0x18 0.--15. 1. "HPS,Horizontal Start Position The RSZ_SRC_HPS register has two functions: The first function is to compensate for possible delay between the HD pulse and the first valid data"
line.long 0x1C "RSZ_SRC_HSZ,HORIZONTAL SIZE REGISTER The HSZ value is given by HSZ concatenated with HSZ_LSB"
hexmask.long.word 0x1C 0.--12. 1. "HSZ,Horizontal size Sets the horizontal size of the processing area"
line.long 0x20 "RSZ_DMA_RZA,RESIZER A - MEMORY REQUEST MINIMUM INTERVAL REGISTER"
hexmask.long.word 0x20 0.--15. 1. "RZA,Sets the minimum interval btw two consecutive memory request for resizer #A"
line.long 0x24 "RSZ_DMA_RZB,RESIZER B - MEMORY REQUEST MINIMUM INTERVAL REGISTER"
hexmask.long.word 0x24 0.--15. 1. "RZB,Sets the minimum interval btw two consecutive memory request for resizer #B"
line.long 0x28 "RSZ_DMA_STA,RESIZER STATUS REGISTER"
bitfld.long 0x28 0. "STATUS,Resizer process status This bit is set in the time window from rsz_int_reg to rsz_int_dma" "STATUS_0_r,STATUS_1_r"
line.long 0x2C "RSZ_GCK_MMR,MMR CLOCK CONTROL REGISTER This register is not shadowed"
bitfld.long 0x2C 0. "MMR,The on/off selection of the MMR interface clock which is used for MMR register access" "MMR_0,MMR_1"
group.long 0x54++0x143
line.long 0x00 "RSZ_GCK_SDR,CORE CLOCK CONTROL REGISTER This register is not shadowed"
bitfld.long 0x00 0. "CORE,RSZ Core Clock Enable" "CORE_0,CORE_1"
line.long 0x04 "RSZ_IRQ_RZA,RESIZER A - CIRCULAR BUFFER INTERRUPT INTERVAL REGISTER"
hexmask.long.word 0x04 0.--12. 1. "RZA,Resizer A circular buffer interval Sets the circular buffer interval for Resizer A"
line.long 0x08 "RSZ_IRQ_RZB,RESIZER B - CIRCULAR BUFFER INTERRUPT INTERVAL REGISTER"
hexmask.long.word 0x08 0.--12. 1. "RZB,Resizer B circular buffer interval Sets the circular buffer interval for Resizer B"
line.long 0x0C "RSZ_YUV_Y_MIN,LUMINANCE SATURATION REGISTER"
hexmask.long.byte 0x0C 0.--7. 1. "MIN,The minimum value of Luminance (8bits unsigned)"
line.long 0x10 "RSZ_YUV_Y_MAX,LUMINANCE SATURATION REGISTER"
hexmask.long.byte 0x10 0.--7. 1. "MAX,The maximum value of Luminance (8bits unsigned)"
line.long 0x14 "RSZ_YUV_C_MIN,CHROMINANCE SATURATION REGISTER"
hexmask.long.byte 0x14 0.--7. 1. "MIN,The minimum value of Chrominance (8bits unsigned)"
line.long 0x18 "RSZ_YUV_C_MAX,CHROMINANCE SATURATION REGISTER"
hexmask.long.byte 0x18 0.--7. 1. "MAX,The maximum value of Chrominance (8bits unsigned)"
line.long 0x1C "RSZ_YUV_PHS,The phase position of the output of the Chrominance"
bitfld.long 0x1C 0. "POS,The phase position of the output of the chrominance" "POS_0,POS_1"
line.long 0x20 "RSZ_SEQ,"
bitfld.long 0x20 4. "CRV,Chroma sampling point" "CRV_0,CRV_1"
bitfld.long 0x20 3. "VRVB,Resizer B - Vertical reversal of output image" "VRVB_0,VRVB_1"
bitfld.long 0x20 2. "HRVB,Resizer B -Horizontal reversal of output image" "HRVB_0,HRVB_1"
newline
bitfld.long 0x20 1. "VRVA,Resizer A - Vertical reversal of output image" "VRVA_0,VRVA_1"
bitfld.long 0x20 0. "HRVA,Resizer A - Horizontal reversal of output image" "HRVA_0,HRVA_1"
line.long 0x24 "RZA_EN,RESIZER A - ENABLE REGISTER"
bitfld.long 0x24 0. "EN,Enable resizer #A This bit is latched on video port VD input" "EN_0,EN_1"
line.long 0x28 "RZA_MODE,RESIZER #A MODE REGISTER"
bitfld.long 0x28 0. "MODE,Select 'Free Run mode' or 'One Shot Mode'" "MODE_0,MODE_1"
line.long 0x2C "RZA_420,YEN/CEN"
bitfld.long 0x2C 1. "CEN,Output Enable for Chrominance This bit is valid in 422 input mode" "CEN_0,CEN_1"
bitfld.long 0x2C 0. "YEN,Output Enable for Luminance" "YEN_0,YEN_1"
line.long 0x30 "RZA_I_VPS,RESIZER A - INPUT VERTICAL START REGISTER"
hexmask.long.word 0x30 0.--12. 1. "VPS,Input Vertical Position Sets the vertical start position of the input image within the global frame"
line.long 0x34 "RZA_I_HPS,RESIZER A - INPUT HORIZONTAL START REGISTER"
hexmask.long.word 0x34 0.--12. 1. "HPS,Input Horizontal Position Sets the horizontal position of the first pixel for each line within the global frame"
line.long 0x38 "RZA_O_VSZ,RESIZER A - OUTPUT VERTICAL SIZER REGISTER"
hexmask.long.word 0x38 0.--12. 1. "VSZ,The target output size of the resized image"
line.long 0x3C "RZA_O_HSZ,RESIZER A - OUTPUT HORIZONTAL SIZE REGISTER"
hexmask.long.word 0x3C 1.--12. 1. "HSZ,The horizontal size of output image"
rbitfld.long 0x3C 0. "HSZ_LSB,The least significant bit of HSZ is forced to 1" "HSZ_LSB_0,HSZ_LSB_1"
line.long 0x40 "RZA_V_PHS_Y,RESIZER A - INITIAL LUMINANCE PHASE OF VERTICAL RESIZING PROCESS When YUV4:2:2 data are output. the phase values for luma and chroma should typically be equal. that is. RZX_V_PHS_Y= RZX_V_PHS_C"
hexmask.long.word 0x40 0.--13. 1. "Y,The initial value for the luma phase in vertical resizing process"
line.long 0x44 "RZA_V_PHS_C,RESIZER A - INITIAL CHROMINANCE PHASE OF VERTICAL RESIZING PROCESS When YUV4:2:2 data are output. the phase values for luma and chroma should typically be equal. that is. RZX_V_PHS_Y= RZX_V_PHS_C"
hexmask.long.word 0x44 0.--13. 1. "C,The initial value for the chroma phase in vertical resizing process"
line.long 0x48 "RZA_V_DIF,RESIZER A - VERTICAL RESIZER REGISTER"
hexmask.long.word 0x48 0.--13. 1. "V,The parameter for vertical resize"
line.long 0x4C "RZA_V_TYP,RESIZER A - INTERPOLATION METHOD FOR VERTICAL RESIZING"
bitfld.long 0x4C 1. "C,Selection of resizing method for" "C_0,C_1"
bitfld.long 0x4C 0. "Y,Selection of resizing method for luminance: vertical" "Y_0,Y_1"
line.long 0x50 "RZA_V_LPF,RESIZER A - VERTICAL LPF INTENSITY REGISTER"
bitfld.long 0x50 6.--11. "C,The intensity parameter for chroma vertical low pass filtering" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x50 0.--5. "Y,The intensity parameter for luma vertical low pass filtering" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
line.long 0x54 "RZA_H_PHS,RESIZER A - INITIAL PHASE OF HORIZONTAL RESIZING PROCESS"
hexmask.long.word 0x54 0.--13. 1. "PHS,Initial value for the phase in horizontal resizing process that is the sampling position is shifted"
line.long 0x58 "RZA_H_PHS_ADJ,RESIZER A - LUMINANCE HORIZONTAL PHASE ADJUSTMENT The register enables to adjust the horizontal phase for the luma component when averaging is enabled (the horizontal averaging disrupts the relative sampling point between luminance and.."
hexmask.long.word 0x58 0.--8. 1. "ADJ,Horizontal phase adjustment value"
line.long 0x5C "RZA_H_DIF,RESIZER A - HORIZONTAL RESIZER REGISTER"
hexmask.long.word 0x5C 0.--13. 1. "H,The parameter for horizontal resizing process"
line.long 0x60 "RZA_H_TYP,Resize-A"
bitfld.long 0x60 1. "C,Selection of resizing method for" "C_0,C_1"
bitfld.long 0x60 0. "Y,Selection of resizing method for luminance: horizontal" "Y_0,Y_1"
line.long 0x64 "RZA_H_LPF,RESIZER A - HORIZONTAL LPF INTENSITY REGISTER"
bitfld.long 0x64 6.--11. "C,Horizontal LPF Intensity for Chrominance" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x64 0.--5. "Y,Selection of resizing method for Luminance in horizontal direction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
line.long 0x68 "RZA_DWN_EN,RESIZER #A - DOWNSCALE ENABLE REGISTER"
bitfld.long 0x68 0. "DWN_EN,Resizer downscale enable" "DWN_EN_0,DWN_EN_1"
line.long 0x6C "RZA_DWN_AV,Resize-A"
bitfld.long 0x6C 3.--5. "V,Vertical averaging size : 1/2 The range goes from 1/2 to 1/256 in power of two" "_DIV2 1/2 down scale,_DIV4 1/4 down scale,_DIV8 1/8 down scale,_DIV16 1/16 down scale,_DIV32 1/32 down scale,_DIV64 1/64 down scale,_DIV128 1/128 down scale,_DIV256 1/256 down scale"
bitfld.long 0x6C 0.--2. "H,Horizontal averaging size : 1/2 The range goes from 1/2 to 1/256 in power of two" "_DIV2 1/2 down scale,_DIV4 1/4 down scale,_DIV8 1/8 down scale,_DIV16 1/16 down scale,_DIV32 1/32 down scale,_DIV64 1/64 down scale,_DIV128 1/128 down scale,_DIV256 1/256 down scale"
line.long 0x70 "RZA_RGB_EN,RESIZER #A - RGB OUTPUT ENABLE"
bitfld.long 0x70 0. "RGB_EN,Enable of RGB output In pass through mode this register must be 0" "RGB_EN_0,RGB_EN_1"
line.long 0x74 "RZA_RGB_TYP,RESIZER A - RGB OUTPUT CONTROL REGISTER"
bitfld.long 0x74 2. "MSK1,Enables masking of the last 2 pixels This bit is used to mask the 2 last pixels at the image boundary which are affected by the YUV4:2:2 to YUV4:4:4 conversion" "MSK1_0,MSK1_1"
bitfld.long 0x74 1. "MSK0,Enables masking of the first 2 pixels This bit is used to mask the 2 first pixels at the image boundary which are affected by the YUV4:2:2 to YUV4:4:4 conversion" "MSK0_0,MSK0_1"
bitfld.long 0x74 0. "TYP,16bit/32bit output selection" "TYP_0,TYP_1"
line.long 0x78 "RZA_RGB_BLD,RESIZER A - RGB BLEND REGISTER"
hexmask.long.byte 0x78 0.--7. 1. "BLD,The alpha value used in 32-bit RGBA output mode"
line.long 0x7C "RZA_SDR_Y_BAD_H,RESIZER A - OUTPUT MEMORY BASE ADDRESS REGISTER (HIGH) This register is used if the output data format is one of the following: RAW. YUV4:2:2. YUV4:2:0. RGB5:6:5. RGBA"
hexmask.long.word 0x7C 0.--15. 1. "Y_BAD_H,Memory Base Address Sets the 16 upper bits of the 32-bit base address of the circular buffer in memory"
line.long 0x80 "RZA_SDR_Y_BAD_L,RESIZER A - OUTPUT MEMORY BASE ADDRESS REGISTER (LOW) This register is used if the output data format is one of the following: RAW. YUV4:2:2. YUV4:2:0. RGB5:6:5. RGBA"
hexmask.long.word 0x80 0.--15. 1. "Y_BAD_L,Memory Base Address Sets the 16 lower bits of the 32-bit base address of the circular buffer in memory"
line.long 0x84 "RZA_SDR_Y_SAD_H,RESIZER A - OUTPUT MEMORY START ADDRESS REGISTER (HIGH) This register is used if the output data format is one of the following: RAW. YUV4:2:2. YUV4:2:0. RGB5:6:5. RGBA"
hexmask.long.word 0x84 0.--15. 1. "Y_SAD_H,Memory Start Address Sets the 16 upper bits of the 32-bit start address in memory"
line.long 0x88 "RZA_SDR_Y_SAD_L,RESIZER A - OUTPUT MEMORY START ADDRESS REGISTER (LOW) This register is used if the output data format is one of the following: RAW. YUV4:2:2. YUV4:2:0. RGB5:6:5. RGBA"
hexmask.long.word 0x88 0.--15. 1. "Y_SAD_L,Memory Start Address Sets 16 lower bits of the 32-bit start address in memory"
line.long 0x8C "RZA_SDR_Y_OFT,RESIZER A - OUTPUT MEMORY OFFSET REGISTER This register is used if the output data format is one of the following: RAW. YUV4:2:2. YUV4:2:0 or RGBA"
hexmask.long.tbyte 0x8C 0.--16. 1. "Y_OFT,Memory Line Offset Sets the size of each line in the circular buffer"
line.long 0x90 "RZA_SDR_Y_PTR_S,RESIZER A - OUTPUT MEMORY START ADDRESS REGISTER This register is used if the output data format is one of the following: RAW. YUV4:2:2. YUV4:2:0 or RGBA"
hexmask.long.word 0x90 0.--12. 1. "Y_PTR_S,Start Line of Memory Pointer Sets the vertical position of the first output line in the output memory space"
line.long 0x94 "RZA_SDR_Y_PTR_E,RESIZER A - OUTPUT MEMORY END ADDRESS REGISTER This register is used if the output data format is one of the following: RAW. YUV4:2:2. YUV4:2:0 or RGBA"
hexmask.long.word 0x94 0.--12. 1. "Y_PTR_E,End Line of Memory Pointer Sets the maximum number of lines to be stored in the output memory space"
line.long 0x98 "RZA_SDR_C_BAD_H,RESIZER A - OUTPUT MEMORY BASE ADDRESS REGISTER FOR CHROMA DATA (YUV4:2:0) This register is used if the output data format is YUV4:2:0"
hexmask.long.word 0x98 0.--15. 1. "C_BAD_H,Memory Base Address Sets the 16 higher bits of the 32-bit base address of the circular buffer in memory"
line.long 0x9C "RZA_SDR_C_BAD_L,RESIZER A - OUTPUT MEMORY BASE ADDRESS REGISTER FOR CHROMA DATA (YUV4:2:0) This register is used if the output data format is YUV4:2:0"
hexmask.long.word 0x9C 0.--15. 1. "C_BAD_L,Memory Base Address Sets the 16 lower bits of the 32-bit base address of the circular buffer in memory"
line.long 0xA0 "RZA_SDR_C_SAD_H,RESIZER A - OUTPUT MEMORY START ADDRESS REGISTER FOR CHROMA DATA (YUV4:2:0) This register is used if the output data format is YUV4:2:0"
hexmask.long.word 0xA0 0.--15. 1. "C_SAD_H,Memory Base Address Sets the 16 higher bits of the 32-bit start address in memory"
line.long 0xA4 "RZA_SDR_C_SAD_L,RESIZER A - OUTPUT MEMORY START ADDRESS REGISTER FOR CHROMA DATA (YUV4:2:0) This register is used if the output data format is YUV4:2:0"
hexmask.long.word 0xA4 0.--15. 1. "C_SAD_L,Memory Base Address Sets the 16 lower bits of the 32-bit start address in memory"
line.long 0xA8 "RZA_SDR_C_OFT,RESIZER A - OUTPUT MEMORY OFFSET REGISTER FOR CHROMA DATA (YUV4:2:0) This register is used if the output data format is YUV4:2:0"
hexmask.long.tbyte 0xA8 0.--16. 1. "C_OFT,Memory Line Offset Sets the size of each line in the circular buffer"
line.long 0xAC "RZA_SDR_C_PTR_S,RESIZER A - OUTPUT MEMORY START ADDRESS REGISTER FOR CHROMA DATA (YUV4:2:0) This register is used if the output data format is YUV4:2:0"
hexmask.long.word 0xAC 0.--12. 1. "C_PTR_S,Start Line of Memory Pointer Sets the vertical position of the first output line in the output memory space"
line.long 0xB0 "RZA_SDR_C_PTR_E,RESIZER A - OUTPUT MEMORY END ADDRESS REGISTER FOR CHROMA DATA (YUV4:2:0) This register is used if the output data format is YUV4:2:0"
hexmask.long.word 0xB0 0.--12. 1. "C_PTR_E,End Line of Memory Pointer Sets the maximum number of lines to be stored in the output memory space"
line.long 0xB4 "RZB_EN,RESIZER B - ENABLE REGISTER"
bitfld.long 0xB4 0. "EN,Enable resizer #A This bit is latched on the video port VD input signal" "EN_0,EN_1"
line.long 0xB8 "RZB_MODE,RESIZER B MODE REGISTER"
bitfld.long 0xB8 0. "MODE,Select 'Free Run mode' or 'One Shot Mode'" "MODE_0,MODE_1"
line.long 0xBC "RZB_420,YEN/CEN"
bitfld.long 0xBC 1. "CEN,Output Enable for Chrominance This bit is valid in 422 input mode" "CEN_0,CEN_1"
bitfld.long 0xBC 0. "YEN,Output Enable for Luminance" "YEN_0,YEN_1"
line.long 0xC0 "RZB_I_VPS,RESIZER B - INPUT VERTICAL START REGISTER"
hexmask.long.word 0xC0 0.--12. 1. "VPS,Input Vertical Position Sets the vertical start position of the input image within the global frame"
line.long 0xC4 "RZB_I_HPS,RESIZER B - INPUT HORIZONTAL START REGISTER"
hexmask.long.word 0xC4 0.--12. 1. "HPS,Input Horizontal Position Sets the horizontal position of the first pixel for each line within the global frame"
line.long 0xC8 "RZB_O_VSZ,RESIZER B - OUTPUT VERTICAL SIZER REGISTER"
hexmask.long.word 0xC8 0.--12. 1. "VSZ,The target output size of the resized image"
line.long 0xCC "RZB_O_HSZ,RESIZER B - OUTPUT HORIZONTAL SIZE REGISTER"
hexmask.long.word 0xCC 1.--12. 1. "HSZ,The horizontal size of output image"
rbitfld.long 0xCC 0. "HSZ_LSB,The least significant bit of HSZ is forced to 1" "HSZ_LSB_0,HSZ_LSB_1"
line.long 0xD0 "RZB_V_PHS_Y,RESIZER B - INITIAL LUMINANCE PHASE OF VERTICAL RESIZING PROCESS When YUV4:2:2 data are output. the phase values for luma and chroma should typically be equal. that is. RZX_V_PHS_Y= RZX_V_PHS_C"
hexmask.long.word 0xD0 0.--13. 1. "Y,The initial value for the luma phase in vertical resizing process"
line.long 0xD4 "RZB_V_PHS_C,RESIZER B - INITIAL CHROMINANCE PHASE OF VERTICAL RESIZING PROCESS When YUV4:2:2 data are output. the phase values for luma and chroma should typically be equal. that is. RZX_V_PHS_Y= RZX_V_PHS_C"
hexmask.long.word 0xD4 0.--13. 1. "C,The initial value for the chroma phase in vertical resizing process"
line.long 0xD8 "RZB_V_DIF,RESIZER B - VERTICAL RESIZER REGISTERR"
hexmask.long.word 0xD8 0.--13. 1. "V,The parameter for vertical resize"
line.long 0xDC "RZB_V_TYP,RESIZER B - INTERPOLATION METHOD FOR VERTICAL RESIZING"
bitfld.long 0xDC 1. "C,Selection of resizing method for" "C_0,C_1"
bitfld.long 0xDC 0. "Y,Selection of resizing method for luminance: vertical" "Y_0,Y_1"
line.long 0xE0 "RZB_V_LPF,RESIZER B - VERTICAL LPF INTENSITY REGISTER"
bitfld.long 0xE0 6.--11. "C,The intensity parameter for chroma vertical low pass filtering" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0xE0 0.--5. "Y,The intensity parameter for luma vertical low pass filtering" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
line.long 0xE4 "RZB_H_PHS,RESIZER B - INITIAL PHASE OF HORIZONTAL RESIZING PROCESS"
hexmask.long.word 0xE4 0.--13. 1. "PHS,Initial value for the phase in horizontal resizing process that is the sampling position is shifted"
line.long 0xE8 "RZB_H_PHS_ADJ,RESIZER B - LUMINANCE HORIZONTAL PHASE ADJUSTMENT The register enables to adjust the horizontal phase for the luma component when averaging is enabled (the horizontal averaging disrupts the relative sampling point between luminance and.."
hexmask.long.word 0xE8 0.--8. 1. "ADJ,Horizontal phase adjustment value"
line.long 0xEC "RZB_H_DIF,RESIZER B - HORIZONTAL RESIZER REGISTER"
hexmask.long.word 0xEC 0.--13. 1. "H,The parameter for horizontal resizing process"
line.long 0xF0 "RZB_H_TYP,RESIZER B"
bitfld.long 0xF0 1. "C,Selection of resizing method for" "C_0,C_1"
bitfld.long 0xF0 0. "Y,Selection of resizing method for luminance: horizontal" "Y_0,Y_1"
line.long 0xF4 "RZB_H_LPF,RESIZER B - HORIZONTAL LPF INTENSITY REGISTER"
bitfld.long 0xF4 6.--11. "C,Horizontal LPF Intensity for Chrominance" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0xF4 0.--5. "Y,Selection of resizing method for Luminance in horizontal direction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
line.long 0xF8 "RZB_DWN_EN,RESIZER B - DOWNSCALE ENABLE REGISTER"
bitfld.long 0xF8 0. "DWN_EN,Resizer downscale enable" "DWN_EN_0,DWN_EN_1"
line.long 0xFC "RZB_DWN_AV,RESIZER B"
bitfld.long 0xFC 3.--5. "V,Vertical averaging size : 1/2 The range goes from 1/2 to 1/256 in power of two" "_DIV2 1/2 down scale,_DIV4 1/4 down scale,_DIV8 1/8 down scale,_DIV16 1/16 down scale,_DIV32 1/32 down scale,_DIV64 1/64 down scale,_DIV128 1/128 down scale,_DIV256 1/256 down scale"
bitfld.long 0xFC 0.--2. "H,Horizontal averaging size : 1/2 The range goes from 1/2 to 1/256 in power of two" "_DIV2 1/2 down scale,_DIV4 1/4 down scale,_DIV8 1/8 down scale,_DIV16 1/16 down scale,_DIV32 1/32 down scale,_DIV64 1/64 down scale,_DIV128 1/128 down scale,_DIV256 1/256 down scale"
line.long 0x100 "RZB_RGB_EN,RESIZER B - RGB OUTPUT ENABLE"
bitfld.long 0x100 0. "RGB_EN,Enable of RGB output In pass through mode this register must be 0" "RGB_EN_0,RGB_EN_1"
line.long 0x104 "RZB_RGB_TYP,RESIZER B - RGB OUTPUT CONTROL REGISTER"
bitfld.long 0x104 2. "MSK1,Enables masking of the last 2 pixels This bit is used to mask the 2 last pixels at the image boundary which are affected by the YUV4:2:2 to YUV4:4:4 conversion" "MSK1_0,MSK1_1"
bitfld.long 0x104 1. "MSK0,Enables masking of the first 2 pixels This bit is used to mask the 2 first pixels at the image boundary which are affected by the YUV4:2:2 to YUV4:4:4 conversion" "MSK0_0,MSK0_1"
bitfld.long 0x104 0. "TYP,16bit/32bit output selection" "TYP_0,TYP_1"
line.long 0x108 "RZB_RGB_BLD,RESIZER B - RGB BLEND REGISTER"
hexmask.long.byte 0x108 0.--7. 1. "BLD,The alpha value used in 32-bit RGBA output mode"
line.long 0x10C "RZB_SDR_Y_BAD_H,RESIZER B - OUTPUT MEMORY BASE ADDRESS REGISTER This register is used if the output data format is one of the following: RAW. YUV4:2:2. YUV4:2:0. RGB5:6:5. RGBA"
hexmask.long.word 0x10C 0.--15. 1. "Y_BAD_H,Memory Base Address Sets 16 upper bits of the 32-bit base address of the circular buffer in memory"
line.long 0x110 "RZB_SDR_Y_BAD_L,RESIZER B - OUTPUT MEMORY BASE ADDRESS REGISTER This register is used if the output data format is one of the following: RAW. YUV4:2:2. YUV4:2:0. RGB5:6:5. RGBA"
hexmask.long.word 0x110 0.--15. 1. "Y_BAD_L,Memory Base Address Sets the 16 lower bits of the 32-bit base address of the circular buffer in memory"
line.long 0x114 "RZB_SDR_Y_SAD_H,RESIZER B - OUTPUT MEMORY START ADDRESS REGISTER This register is used if the output data format is one of the following: RAW. YUV4:2:2. YUV4:2:0. RGB5:6:5. RGBA"
hexmask.long.word 0x114 0.--15. 1. "Y_SAD_H,Memory Start Address Sets 16 upper bits of the 32-bit start address in memory"
line.long 0x118 "RZB_SDR_Y_SAD_L,RESIZER B - OUTPUT MEMORY START ADDRESS REGISTER This register is used if the output data format is one of the following: RAW. YUV4:2:2. YUV4:2:0. RGB5:6:5. RGBA"
hexmask.long.word 0x118 0.--15. 1. "Y_SAD_L,Memory Start Address Sets the 16 lower bits of the 32-bit start address in memory"
line.long 0x11C "RZB_SDR_Y_OFT,RESIZER B - OUTPUT MEMORY OFFSET REGISTER This register is used if the output data format is one of the following: RAW. YUV4:2:2. YUV4:2:0 or RGBA"
hexmask.long.tbyte 0x11C 0.--16. 1. "Y_OFT,Memory Line Offset Sets the size of each line in the circular buffer"
line.long 0x120 "RZB_SDR_Y_PTR_S,RESIZER B - OUTPUT MEMORY START ADDRESS REGISTER This register is used if the output data format is one of the following: RAW. YUV4;2:2. YUV4:2:0 or RGBA"
hexmask.long.word 0x120 0.--12. 1. "Y_PTR_S,Start Line of Memory Pointer Sets the vertical position of the first output line in the output memory space"
line.long 0x124 "RZB_SDR_Y_PTR_E,RESIZER B - OUTPUT MEMORY END ADDRESS REGISTER This register is used if the output data format is one of the following: RAW. YUV4:2:2. YUV4:2:0 or RGBA"
hexmask.long.word 0x124 0.--12. 1. "Y_PTR_E,End Line of Memory Pointer Sets the maximum number of lines to be stored in the output memory space"
line.long 0x128 "RZB_SDR_C_BAD_H,RESIZER B - OUTPUT MEMORY BASE ADDRESS REGISTER FOR CHROMA DATA (YUV4:2:0) This register is used if the output data format is YUV4:2:0"
hexmask.long.word 0x128 0.--15. 1. "C_BAD_H,Memory Base Address Sets the 16 upper bits of the 32-bit base address of the circular buffer in memory"
line.long 0x12C "RZB_SDR_C_BAD_L,RESIZER B - OUTPUT MEMORY BASE ADDRESS REGISTER FOR CHROMA DATA (YUV4:2:0) This register is used if the output data format is YUV4:2:0"
hexmask.long.word 0x12C 0.--15. 1. "C_BAD_L,Memory Base Address Sets the 16 lower bits of the 32-bit base address of the circular buffer in memory"
line.long 0x130 "RZB_SDR_C_SAD_H,RESIZER B - OUTPUT MEMORY START ADDRESS REGISTER FOR CHROMA DATA (YUV4:2:0) This register is used if the output data format is YUV4:2:0"
hexmask.long.word 0x130 0.--15. 1. "C_SAD_H,Memory Base Address Sets the 16 upper bits of the 32-bit start address in memory"
line.long 0x134 "RZB_SDR_C_SAD_L,RESIZER B - OUTPUT MEMORY START ADDRESS REGISTER FOR CHROMA DATA (YUV4:2:0) This register is used if the output data format is YUV4:2:0"
hexmask.long.word 0x134 0.--15. 1. "C_SAD_L,Memory Base Address Sets the 16 lower bits of the 32-bit start address in memory"
line.long 0x138 "RZB_SDR_C_OFT,RESIZER B - OUTPUT MEMORY OFFSET REGISTER FOR CHROMA DATA (YUV4:2:0) This register is used if the output data format is YUV4:2:0"
hexmask.long.tbyte 0x138 0.--16. 1. "C_OFT,Memory Line Offset Sets the size of each line in the circular buffer"
line.long 0x13C "RZB_SDR_C_PTR_S,RESIZER B - OUTPUT MEMORY START ADDRESS REGISTER FOR CHROMA DATA (YUV4:2:0) This register is used if the output data format is YUV4:2:0"
hexmask.long.word 0x13C 0.--12. 1. "C_PTR_S,Start Line of Memory Pointer Sets the vertical position of the first output line in the output memory space"
line.long 0x140 "RZB_SDR_C_PTR_E,RESIZER B - OUTPUT MEMORY END ADDRESS REGISTER FOR CHROMA DATA (YUV4:2:0) This register is used if the output data format is YUV4:2:0"
hexmask.long.word 0x140 0.--12. 1. "C_PTR_E,End Line of Memory Pointer Sets the maximum number of lines to be stored in the output memory space"
tree.end
tree.end
tree "ISS_Overview"
tree "ISS_TOP"
base ansd:0x52000000
tree "IRQ_Line_0"
group.long 0x2C++0x03
line.long 0x00 "ISS_HL_IRQENABLE_CLR_i_0,Per-event interrupt enable bit vector Write 1 to clear (disable interrupt)"
bitfld.long 0x00 17. "HS_VS_IRQ,HS or VS synchronization event" "HS_VS_IRQ_0_r,HS_VS_IRQ_1_r"
bitfld.long 0x00 16. "CCP2_IRQ8,Event generated by the CCP2 receiver" "CCP2_IRQ8_0_w,CCP2_IRQ8_1_r"
bitfld.long 0x00 15. "SIMCOP_IRQ3,Event generated by SIMCOP" "SIMCOP_IRQ3_0_r,SIMCOP_IRQ3_1_r"
bitfld.long 0x00 14. "SIMCOP_IRQ2,Event generated by SIMCOP" "SIMCOP_IRQ2_0_r,SIMCOP_IRQ2_1_r"
newline
bitfld.long 0x00 13. "SIMCOP_IRQ1,Event generated by SIMCOP" "SIMCOP_IRQ1_0_r,SIMCOP_IRQ1_1_r"
bitfld.long 0x00 12. "SIMCOP_IRQ0,Event generated by SIMCOP" "SIMCOP_IRQ0_0_r,SIMCOP_IRQ0_1_r"
bitfld.long 0x00 11. "BTE_IRQ,Event generated by the BTE" "BTE_IRQ_0_r,BTE_IRQ_1_r"
bitfld.long 0x00 10. "CBUFF_IRQ,Event generated by the CBUFF" "CBUFF_IRQ_0_r,CBUFF_IRQ_1_r"
newline
bitfld.long 0x00 9. "CCP2_IRQ3,Event generated by the CCP2 receiver" "CCP2_IRQ3_0_r,CCP2_IRQ3_1_r"
bitfld.long 0x00 8. "CCP2_IRQ2,Event generated by the CCP2 receiver" "CCP2_IRQ2_0_r,CCP2_IRQ2_1_r"
bitfld.long 0x00 7. "CCP2_IRQ1,Event generated by the CCP2 receiver" "CCP2_IRQ1_0_r,CCP2_IRQ1_1_r"
bitfld.long 0x00 6. "CCP2_IRQ0,Event generated by the CCP2 receiver" "CCP2_IRQ0_0_r,CCP2_IRQ0_1_r"
newline
bitfld.long 0x00 5. "CSIB_IRQ,Event generated by the CSI2 receiver b" "CSIB_IRQ_0_r,CSIB_IRQ_1_r"
bitfld.long 0x00 4. "CSIA_IRQ,Event generated by the CSI2 receiver a" "CSIA_IRQ_0_r,CSIA_IRQ_1_r"
bitfld.long 0x00 3. "ISP_IRQ3,Combined interrupt event provided by the ISP" "ISP_IRQ3_0_r,ISP_IRQ3_1_r"
bitfld.long 0x00 2. "ISP_IRQ2,Combined interrupt event provided by the ISP" "ISP_IRQ2_0_r,ISP_IRQ2_1_r"
newline
bitfld.long 0x00 1. "ISP_IRQ1,Combined interrupt event provided by the ISP" "ISP_IRQ1_0_r,ISP_IRQ1_1_r"
bitfld.long 0x00 0. "ISP_IRQ0,Combined interrupt event provided by the ISP" "ISP_IRQ0_0_r,ISP_IRQ0_1_r"
group.long 0x28++0x03
line.long 0x00 "ISS_HL_IRQENABLE_SET_i_0,Per-event interrupt enable bit vector Write 1 to set (enable interrupt)"
bitfld.long 0x00 17. "HS_VS_IRQ,HS or VS synchronization event" "HS_VS_IRQ_0_r,HS_VS_IRQ_1_r"
bitfld.long 0x00 16. "CCP2_IRQ8,Event generated by the CCP2 receiver" "CCP2_IRQ8_0_w,CCP2_IRQ8_1_r"
bitfld.long 0x00 15. "SIMCOP_IRQ3,Event generated by SIMCOP" "SIMCOP_IRQ3_0_r,SIMCOP_IRQ3_1_r"
bitfld.long 0x00 14. "SIMCOP_IRQ2,Event generated by SIMCOP" "SIMCOP_IRQ2_0_r,SIMCOP_IRQ2_1_r"
newline
bitfld.long 0x00 13. "SIMCOP_IRQ1,Event generated by SIMCOP" "SIMCOP_IRQ1_0_r,SIMCOP_IRQ1_1_r"
bitfld.long 0x00 12. "SIMCOP_IRQ0,Event generated by SIMCOP" "SIMCOP_IRQ0_0_r,SIMCOP_IRQ0_1_r"
bitfld.long 0x00 11. "BTE_IRQ,Event generated by the burst translation engine" "BTE_IRQ_0_r,BTE_IRQ_1_r"
bitfld.long 0x00 10. "CBUFF_IRQ,Event generated by the circular buffer" "CBUFF_IRQ_0_r,CBUFF_IRQ_1_r"
newline
bitfld.long 0x00 9. "CCP2_IRQ3,Event generated by the CCP2 receiver" "CCP2_IRQ3_0_r,CCP2_IRQ3_1_r"
bitfld.long 0x00 8. "CCP2_IRQ2,Event generated by the CCP2 receiver" "CCP2_IRQ2_0_r,CCP2_IRQ2_1_r"
bitfld.long 0x00 7. "CCP2_IRQ1,Event generated by the CCP2 receiver" "CCP2_IRQ1_0_r,CCP2_IRQ1_1_r"
bitfld.long 0x00 6. "CCP2_IRQ0,Event generated by the CCP2 receiver" "CCP2_IRQ0_0_r,CCP2_IRQ0_1_r"
newline
bitfld.long 0x00 5. "CSIB_IRQ,Event generated by the CSI2 receiver #b" "CSIB_IRQ_0_r,CSIB_IRQ_1_r"
bitfld.long 0x00 4. "CSIA_IRQ,Event generated by the CSI2 receiver #a" "CSIA_IRQ_0_r,CSIA_IRQ_1_r"
bitfld.long 0x00 3. "ISP_IRQ3,Combined interrupt event provided by the ISP" "ISP_IRQ3_0_r,ISP_IRQ3_1_r"
bitfld.long 0x00 2. "ISP_IRQ2,Combined interrupt event provided by the ISP" "ISP_IRQ2_0_r,ISP_IRQ2_1_r"
newline
bitfld.long 0x00 1. "ISP_IRQ1,Combined interrupt event provided by the ISP" "ISP_IRQ1_0_r,ISP_IRQ1_1_r"
bitfld.long 0x00 0. "ISP_IRQ0,Combined interrupt event provided by the ISP" "ISP_IRQ0_0_r,ISP_IRQ0_1_r"
group.long 0x20++0x07
line.long 0x00 "ISS_HL_IRQSTATUS_RAW_i_0,Per-event raw interrupt status vector. line 0"
bitfld.long 0x00 17. "HS_VS_IRQ,HS or VS synchronization event" "HS_VS_IRQ_0_r,HS_VS_IRQ_1_r"
rbitfld.long 0x00 16. "CCP2_IRQ8,Event generated by the CCP2 receiver" "CCP2_IRQ8_0_r,CCP2_IRQ8_1_r"
rbitfld.long 0x00 15. "SIMCOP_IRQ3,Event generated by SIMCOP" "SIMCOP_IRQ3_0_r,SIMCOP_IRQ3_1_r"
rbitfld.long 0x00 14. "SIMCOP_IRQ2,Event generated by SIMCOP" "SIMCOP_IRQ2_0_r,SIMCOP_IRQ2_1_r"
newline
rbitfld.long 0x00 13. "SIMCOP_IRQ1,Event generated by SIMCOP" "SIMCOP_IRQ1_0_r,SIMCOP_IRQ1_1_r"
rbitfld.long 0x00 12. "SIMCOP_IRQ0,Event generated by SIMCOP" "SIMCOP_IRQ0_0_r,SIMCOP_IRQ0_1_r"
rbitfld.long 0x00 11. "BTE_IRQ,Event generated by the burst translation engine" "BTE_IRQ_0_r,BTE_IRQ_1_r"
rbitfld.long 0x00 10. "CBUFF_IRQ,Event generated by the circular buffer" "CBUFF_IRQ_0_r,CBUFF_IRQ_1_r"
newline
rbitfld.long 0x00 9. "CCP2_IRQ3,Event generated by the CCP2 receiver" "CCP2_IRQ3_0_r,CCP2_IRQ3_1_r"
rbitfld.long 0x00 8. "CCP2_IRQ2,Event generated by the CCP2 receiver" "CCP2_IRQ2_0_r,CCP2_IRQ2_1_r"
rbitfld.long 0x00 7. "CCP2_IRQ1,Event generated by the CCP2 receiver" "CCP2_IRQ1_0_r,CCP2_IRQ1_1_r"
rbitfld.long 0x00 6. "CCP2_IRQ0,Event generated by the CCP2 receiver" "CCP2_IRQ0_0_r,CCP2_IRQ0_1_r"
newline
rbitfld.long 0x00 5. "CSIB_IRQ,Event generated by the CSI2 receiver #b" "CSIB_IRQ_0_r,CSIB_IRQ_1_r"
rbitfld.long 0x00 4. "CSIA_IRQ,Event generated by the CSI2 receiver #a" "CSIA_IRQ_0_r,CSIA_IRQ_1_r"
rbitfld.long 0x00 3. "ISP_IRQ3,Combined interrupt event provided by the ISP" "ISP_IRQ3_0_r,ISP_IRQ3_1_r"
rbitfld.long 0x00 2. "ISP_IRQ2,Combined interrupt event provided by the ISP" "ISP_IRQ2_0_r,ISP_IRQ2_1_r"
newline
rbitfld.long 0x00 1. "ISP_IRQ1,Combined interrupt event provided by the ISP" "ISP_IRQ1_0_r,ISP_IRQ1_1_r"
rbitfld.long 0x00 0. "ISP_IRQ0,Combined interrupt event provided by the ISP" "ISP_IRQ0_0_r,ISP_IRQ0_1_r"
line.long 0x04 "ISS_HL_IRQSTATUS_i_0,Per-event 'enabled' interrupt status vector. line 0"
bitfld.long 0x04 17. "HS_VS_IRQ,HS or VS synchronization event" "HS_VS_IRQ_0_r,HS_VS_IRQ_1_r"
rbitfld.long 0x04 16. "CCP2_IRQ8,Event generated by the CCP2 receiver" "CCP2_IRQ8_0_r,CCP2_IRQ8_1_r"
rbitfld.long 0x04 15. "SIMCOP_IRQ3,Event generated by SIMCOP" "SIMCOP_IRQ3_0_r,SIMCOP_IRQ3_1_r"
rbitfld.long 0x04 14. "SIMCOP_IRQ2,Event generated by SIMCOP" "SIMCOP_IRQ2_0_r,SIMCOP_IRQ2_1_r"
newline
rbitfld.long 0x04 13. "SIMCOP_IRQ1,Event generated by SIMCOP" "SIMCOP_IRQ1_0_r,SIMCOP_IRQ1_1_r"
rbitfld.long 0x04 12. "SIMCOP_IRQ0,Event generated by SIMCOP" "SIMCOP_IRQ0_0_r,SIMCOP_IRQ0_1_r"
rbitfld.long 0x04 11. "BTE_IRQ,Event generated by the burst translation engine" "BTE_IRQ_0_r,BTE_IRQ_1_r"
rbitfld.long 0x04 10. "CBUFF_IRQ,Event generated by the circular buffer" "CBUFF_IRQ_0_r,CBUFF_IRQ_1_r"
newline
rbitfld.long 0x04 9. "CCP2_IRQ3,Event generated by the CCP2 receiver" "CCP2_IRQ3_0_r,CCP2_IRQ3_1_r"
rbitfld.long 0x04 8. "CCP2_IRQ2,Event generated by the CCP2 receiver" "CCP2_IRQ2_0_r,CCP2_IRQ2_1_r"
rbitfld.long 0x04 7. "CCP2_IRQ1,Event generated by the CCP2 receiver" "CCP2_IRQ1_0_r,CCP2_IRQ1_1_r"
rbitfld.long 0x04 6. "CCP2_IRQ0,Event generated by the CCP2 receiver" "CCP2_IRQ0_0_r,CCP2_IRQ0_1_r"
newline
rbitfld.long 0x04 5. "CSIB_IRQ,Event generated by the CSI2 receiver #b" "CSIB_IRQ_0_r,CSIB_IRQ_1_r"
rbitfld.long 0x04 4. "CSIA_IRQ,Event generated by the CSI2 receiver #a" "CSIA_IRQ_0_r,CSIA_IRQ_1_r"
rbitfld.long 0x04 3. "ISP_IRQ3,Combined interrupt event provided by the ISP" "ISP_IRQ3_0_r,ISP_IRQ3_1_r"
rbitfld.long 0x04 2. "ISP_IRQ2,Combined interrupt event provided by the ISP" "ISP_IRQ2_0_r,ISP_IRQ2_1_r"
newline
rbitfld.long 0x04 1. "ISP_IRQ1,Combined interrupt event provided by the ISP" "ISP_IRQ1_0_r,ISP_IRQ1_1_r"
rbitfld.long 0x04 0. "ISP_IRQ0,Combined interrupt event provided by the ISP" "ISP_IRQ0_0_r,ISP_IRQ0_1_r"
tree.end
tree "IRQ_Line_1"
group.long 0x3C++0x03
line.long 0x00 "ISS_HL_IRQENABLE_CLR_i_1,Per-event interrupt enable bit vector Write 1 to clear (disable interrupt)"
bitfld.long 0x00 17. "HS_VS_IRQ,HS or VS synchronization event" "HS_VS_IRQ_0_r,HS_VS_IRQ_1_r"
bitfld.long 0x00 16. "CCP2_IRQ8,Event generated by the CCP2 receiver" "CCP2_IRQ8_0_w,CCP2_IRQ8_1_r"
bitfld.long 0x00 15. "SIMCOP_IRQ3,Event generated by SIMCOP" "SIMCOP_IRQ3_0_r,SIMCOP_IRQ3_1_r"
bitfld.long 0x00 14. "SIMCOP_IRQ2,Event generated by SIMCOP" "SIMCOP_IRQ2_0_r,SIMCOP_IRQ2_1_r"
newline
bitfld.long 0x00 13. "SIMCOP_IRQ1,Event generated by SIMCOP" "SIMCOP_IRQ1_0_r,SIMCOP_IRQ1_1_r"
bitfld.long 0x00 12. "SIMCOP_IRQ0,Event generated by SIMCOP" "SIMCOP_IRQ0_0_r,SIMCOP_IRQ0_1_r"
bitfld.long 0x00 11. "BTE_IRQ,Event generated by the BTE" "BTE_IRQ_0_r,BTE_IRQ_1_r"
bitfld.long 0x00 10. "CBUFF_IRQ,Event generated by the CBUFF" "CBUFF_IRQ_0_r,CBUFF_IRQ_1_r"
newline
bitfld.long 0x00 9. "CCP2_IRQ3,Event generated by the CCP2 receiver" "CCP2_IRQ3_0_r,CCP2_IRQ3_1_r"
bitfld.long 0x00 8. "CCP2_IRQ2,Event generated by the CCP2 receiver" "CCP2_IRQ2_0_r,CCP2_IRQ2_1_r"
bitfld.long 0x00 7. "CCP2_IRQ1,Event generated by the CCP2 receiver" "CCP2_IRQ1_0_r,CCP2_IRQ1_1_r"
bitfld.long 0x00 6. "CCP2_IRQ0,Event generated by the CCP2 receiver" "CCP2_IRQ0_0_r,CCP2_IRQ0_1_r"
newline
bitfld.long 0x00 5. "CSIB_IRQ,Event generated by the CSI2 receiver b" "CSIB_IRQ_0_r,CSIB_IRQ_1_r"
bitfld.long 0x00 4. "CSIA_IRQ,Event generated by the CSI2 receiver a" "CSIA_IRQ_0_r,CSIA_IRQ_1_r"
bitfld.long 0x00 3. "ISP_IRQ3,Combined interrupt event provided by the ISP" "ISP_IRQ3_0_r,ISP_IRQ3_1_r"
bitfld.long 0x00 2. "ISP_IRQ2,Combined interrupt event provided by the ISP" "ISP_IRQ2_0_r,ISP_IRQ2_1_r"
newline
bitfld.long 0x00 1. "ISP_IRQ1,Combined interrupt event provided by the ISP" "ISP_IRQ1_0_r,ISP_IRQ1_1_r"
bitfld.long 0x00 0. "ISP_IRQ0,Combined interrupt event provided by the ISP" "ISP_IRQ0_0_r,ISP_IRQ0_1_r"
group.long 0x38++0x03
line.long 0x00 "ISS_HL_IRQENABLE_SET_i_1,Per-event interrupt enable bit vector Write 1 to set (enable interrupt)"
bitfld.long 0x00 17. "HS_VS_IRQ,HS or VS synchronization event" "HS_VS_IRQ_0_r,HS_VS_IRQ_1_r"
bitfld.long 0x00 16. "CCP2_IRQ8,Event generated by the CCP2 receiver" "CCP2_IRQ8_0_w,CCP2_IRQ8_1_r"
bitfld.long 0x00 15. "SIMCOP_IRQ3,Event generated by SIMCOP" "SIMCOP_IRQ3_0_r,SIMCOP_IRQ3_1_r"
bitfld.long 0x00 14. "SIMCOP_IRQ2,Event generated by SIMCOP" "SIMCOP_IRQ2_0_r,SIMCOP_IRQ2_1_r"
newline
bitfld.long 0x00 13. "SIMCOP_IRQ1,Event generated by SIMCOP" "SIMCOP_IRQ1_0_r,SIMCOP_IRQ1_1_r"
bitfld.long 0x00 12. "SIMCOP_IRQ0,Event generated by SIMCOP" "SIMCOP_IRQ0_0_r,SIMCOP_IRQ0_1_r"
bitfld.long 0x00 11. "BTE_IRQ,Event generated by the burst translation engine" "BTE_IRQ_0_r,BTE_IRQ_1_r"
bitfld.long 0x00 10. "CBUFF_IRQ,Event generated by the circular buffer" "CBUFF_IRQ_0_r,CBUFF_IRQ_1_r"
newline
bitfld.long 0x00 9. "CCP2_IRQ3,Event generated by the CCP2 receiver" "CCP2_IRQ3_0_r,CCP2_IRQ3_1_r"
bitfld.long 0x00 8. "CCP2_IRQ2,Event generated by the CCP2 receiver" "CCP2_IRQ2_0_r,CCP2_IRQ2_1_r"
bitfld.long 0x00 7. "CCP2_IRQ1,Event generated by the CCP2 receiver" "CCP2_IRQ1_0_r,CCP2_IRQ1_1_r"
bitfld.long 0x00 6. "CCP2_IRQ0,Event generated by the CCP2 receiver" "CCP2_IRQ0_0_r,CCP2_IRQ0_1_r"
newline
bitfld.long 0x00 5. "CSIB_IRQ,Event generated by the CSI2 receiver #b" "CSIB_IRQ_0_r,CSIB_IRQ_1_r"
bitfld.long 0x00 4. "CSIA_IRQ,Event generated by the CSI2 receiver #a" "CSIA_IRQ_0_r,CSIA_IRQ_1_r"
bitfld.long 0x00 3. "ISP_IRQ3,Combined interrupt event provided by the ISP" "ISP_IRQ3_0_r,ISP_IRQ3_1_r"
bitfld.long 0x00 2. "ISP_IRQ2,Combined interrupt event provided by the ISP" "ISP_IRQ2_0_r,ISP_IRQ2_1_r"
newline
bitfld.long 0x00 1. "ISP_IRQ1,Combined interrupt event provided by the ISP" "ISP_IRQ1_0_r,ISP_IRQ1_1_r"
bitfld.long 0x00 0. "ISP_IRQ0,Combined interrupt event provided by the ISP" "ISP_IRQ0_0_r,ISP_IRQ0_1_r"
group.long 0x30++0x07
line.long 0x00 "ISS_HL_IRQSTATUS_RAW_i_1,Per-event raw interrupt status vector. line 0"
bitfld.long 0x00 17. "HS_VS_IRQ,HS or VS synchronization event" "HS_VS_IRQ_0_r,HS_VS_IRQ_1_r"
rbitfld.long 0x00 16. "CCP2_IRQ8,Event generated by the CCP2 receiver" "CCP2_IRQ8_0_r,CCP2_IRQ8_1_r"
rbitfld.long 0x00 15. "SIMCOP_IRQ3,Event generated by SIMCOP" "SIMCOP_IRQ3_0_r,SIMCOP_IRQ3_1_r"
rbitfld.long 0x00 14. "SIMCOP_IRQ2,Event generated by SIMCOP" "SIMCOP_IRQ2_0_r,SIMCOP_IRQ2_1_r"
newline
rbitfld.long 0x00 13. "SIMCOP_IRQ1,Event generated by SIMCOP" "SIMCOP_IRQ1_0_r,SIMCOP_IRQ1_1_r"
rbitfld.long 0x00 12. "SIMCOP_IRQ0,Event generated by SIMCOP" "SIMCOP_IRQ0_0_r,SIMCOP_IRQ0_1_r"
rbitfld.long 0x00 11. "BTE_IRQ,Event generated by the burst translation engine" "BTE_IRQ_0_r,BTE_IRQ_1_r"
rbitfld.long 0x00 10. "CBUFF_IRQ,Event generated by the circular buffer" "CBUFF_IRQ_0_r,CBUFF_IRQ_1_r"
newline
rbitfld.long 0x00 9. "CCP2_IRQ3,Event generated by the CCP2 receiver" "CCP2_IRQ3_0_r,CCP2_IRQ3_1_r"
rbitfld.long 0x00 8. "CCP2_IRQ2,Event generated by the CCP2 receiver" "CCP2_IRQ2_0_r,CCP2_IRQ2_1_r"
rbitfld.long 0x00 7. "CCP2_IRQ1,Event generated by the CCP2 receiver" "CCP2_IRQ1_0_r,CCP2_IRQ1_1_r"
rbitfld.long 0x00 6. "CCP2_IRQ0,Event generated by the CCP2 receiver" "CCP2_IRQ0_0_r,CCP2_IRQ0_1_r"
newline
rbitfld.long 0x00 5. "CSIB_IRQ,Event generated by the CSI2 receiver #b" "CSIB_IRQ_0_r,CSIB_IRQ_1_r"
rbitfld.long 0x00 4. "CSIA_IRQ,Event generated by the CSI2 receiver #a" "CSIA_IRQ_0_r,CSIA_IRQ_1_r"
rbitfld.long 0x00 3. "ISP_IRQ3,Combined interrupt event provided by the ISP" "ISP_IRQ3_0_r,ISP_IRQ3_1_r"
rbitfld.long 0x00 2. "ISP_IRQ2,Combined interrupt event provided by the ISP" "ISP_IRQ2_0_r,ISP_IRQ2_1_r"
newline
rbitfld.long 0x00 1. "ISP_IRQ1,Combined interrupt event provided by the ISP" "ISP_IRQ1_0_r,ISP_IRQ1_1_r"
rbitfld.long 0x00 0. "ISP_IRQ0,Combined interrupt event provided by the ISP" "ISP_IRQ0_0_r,ISP_IRQ0_1_r"
line.long 0x04 "ISS_HL_IRQSTATUS_i_1,Per-event 'enabled' interrupt status vector. line 0"
bitfld.long 0x04 17. "HS_VS_IRQ,HS or VS synchronization event" "HS_VS_IRQ_0_r,HS_VS_IRQ_1_r"
rbitfld.long 0x04 16. "CCP2_IRQ8,Event generated by the CCP2 receiver" "CCP2_IRQ8_0_r,CCP2_IRQ8_1_r"
rbitfld.long 0x04 15. "SIMCOP_IRQ3,Event generated by SIMCOP" "SIMCOP_IRQ3_0_r,SIMCOP_IRQ3_1_r"
rbitfld.long 0x04 14. "SIMCOP_IRQ2,Event generated by SIMCOP" "SIMCOP_IRQ2_0_r,SIMCOP_IRQ2_1_r"
newline
rbitfld.long 0x04 13. "SIMCOP_IRQ1,Event generated by SIMCOP" "SIMCOP_IRQ1_0_r,SIMCOP_IRQ1_1_r"
rbitfld.long 0x04 12. "SIMCOP_IRQ0,Event generated by SIMCOP" "SIMCOP_IRQ0_0_r,SIMCOP_IRQ0_1_r"
rbitfld.long 0x04 11. "BTE_IRQ,Event generated by the burst translation engine" "BTE_IRQ_0_r,BTE_IRQ_1_r"
rbitfld.long 0x04 10. "CBUFF_IRQ,Event generated by the circular buffer" "CBUFF_IRQ_0_r,CBUFF_IRQ_1_r"
newline
rbitfld.long 0x04 9. "CCP2_IRQ3,Event generated by the CCP2 receiver" "CCP2_IRQ3_0_r,CCP2_IRQ3_1_r"
rbitfld.long 0x04 8. "CCP2_IRQ2,Event generated by the CCP2 receiver" "CCP2_IRQ2_0_r,CCP2_IRQ2_1_r"
rbitfld.long 0x04 7. "CCP2_IRQ1,Event generated by the CCP2 receiver" "CCP2_IRQ1_0_r,CCP2_IRQ1_1_r"
rbitfld.long 0x04 6. "CCP2_IRQ0,Event generated by the CCP2 receiver" "CCP2_IRQ0_0_r,CCP2_IRQ0_1_r"
newline
rbitfld.long 0x04 5. "CSIB_IRQ,Event generated by the CSI2 receiver #b" "CSIB_IRQ_0_r,CSIB_IRQ_1_r"
rbitfld.long 0x04 4. "CSIA_IRQ,Event generated by the CSI2 receiver #a" "CSIA_IRQ_0_r,CSIA_IRQ_1_r"
rbitfld.long 0x04 3. "ISP_IRQ3,Combined interrupt event provided by the ISP" "ISP_IRQ3_0_r,ISP_IRQ3_1_r"
rbitfld.long 0x04 2. "ISP_IRQ2,Combined interrupt event provided by the ISP" "ISP_IRQ2_0_r,ISP_IRQ2_1_r"
newline
rbitfld.long 0x04 1. "ISP_IRQ1,Combined interrupt event provided by the ISP" "ISP_IRQ1_0_r,ISP_IRQ1_1_r"
rbitfld.long 0x04 0. "ISP_IRQ0,Combined interrupt event provided by the ISP" "ISP_IRQ0_0_r,ISP_IRQ0_1_r"
tree.end
tree "IRQ_Line_2"
group.long 0x4C++0x03
line.long 0x00 "ISS_HL_IRQENABLE_CLR_i_2,Per-event interrupt enable bit vector Write 1 to clear (disable interrupt)"
bitfld.long 0x00 17. "HS_VS_IRQ,HS or VS synchronization event" "HS_VS_IRQ_0_r,HS_VS_IRQ_1_r"
bitfld.long 0x00 16. "CCP2_IRQ8,Event generated by the CCP2 receiver" "CCP2_IRQ8_0_w,CCP2_IRQ8_1_r"
bitfld.long 0x00 15. "SIMCOP_IRQ3,Event generated by SIMCOP" "SIMCOP_IRQ3_0_r,SIMCOP_IRQ3_1_r"
bitfld.long 0x00 14. "SIMCOP_IRQ2,Event generated by SIMCOP" "SIMCOP_IRQ2_0_r,SIMCOP_IRQ2_1_r"
newline
bitfld.long 0x00 13. "SIMCOP_IRQ1,Event generated by SIMCOP" "SIMCOP_IRQ1_0_r,SIMCOP_IRQ1_1_r"
bitfld.long 0x00 12. "SIMCOP_IRQ0,Event generated by SIMCOP" "SIMCOP_IRQ0_0_r,SIMCOP_IRQ0_1_r"
bitfld.long 0x00 11. "BTE_IRQ,Event generated by the BTE" "BTE_IRQ_0_r,BTE_IRQ_1_r"
bitfld.long 0x00 10. "CBUFF_IRQ,Event generated by the CBUFF" "CBUFF_IRQ_0_r,CBUFF_IRQ_1_r"
newline
bitfld.long 0x00 9. "CCP2_IRQ3,Event generated by the CCP2 receiver" "CCP2_IRQ3_0_r,CCP2_IRQ3_1_r"
bitfld.long 0x00 8. "CCP2_IRQ2,Event generated by the CCP2 receiver" "CCP2_IRQ2_0_r,CCP2_IRQ2_1_r"
bitfld.long 0x00 7. "CCP2_IRQ1,Event generated by the CCP2 receiver" "CCP2_IRQ1_0_r,CCP2_IRQ1_1_r"
bitfld.long 0x00 6. "CCP2_IRQ0,Event generated by the CCP2 receiver" "CCP2_IRQ0_0_r,CCP2_IRQ0_1_r"
newline
bitfld.long 0x00 5. "CSIB_IRQ,Event generated by the CSI2 receiver b" "CSIB_IRQ_0_r,CSIB_IRQ_1_r"
bitfld.long 0x00 4. "CSIA_IRQ,Event generated by the CSI2 receiver a" "CSIA_IRQ_0_r,CSIA_IRQ_1_r"
bitfld.long 0x00 3. "ISP_IRQ3,Combined interrupt event provided by the ISP" "ISP_IRQ3_0_r,ISP_IRQ3_1_r"
bitfld.long 0x00 2. "ISP_IRQ2,Combined interrupt event provided by the ISP" "ISP_IRQ2_0_r,ISP_IRQ2_1_r"
newline
bitfld.long 0x00 1. "ISP_IRQ1,Combined interrupt event provided by the ISP" "ISP_IRQ1_0_r,ISP_IRQ1_1_r"
bitfld.long 0x00 0. "ISP_IRQ0,Combined interrupt event provided by the ISP" "ISP_IRQ0_0_r,ISP_IRQ0_1_r"
group.long 0x48++0x03
line.long 0x00 "ISS_HL_IRQENABLE_SET_i_2,Per-event interrupt enable bit vector Write 1 to set (enable interrupt)"
bitfld.long 0x00 17. "HS_VS_IRQ,HS or VS synchronization event" "HS_VS_IRQ_0_r,HS_VS_IRQ_1_r"
bitfld.long 0x00 16. "CCP2_IRQ8,Event generated by the CCP2 receiver" "CCP2_IRQ8_0_w,CCP2_IRQ8_1_r"
bitfld.long 0x00 15. "SIMCOP_IRQ3,Event generated by SIMCOP" "SIMCOP_IRQ3_0_r,SIMCOP_IRQ3_1_r"
bitfld.long 0x00 14. "SIMCOP_IRQ2,Event generated by SIMCOP" "SIMCOP_IRQ2_0_r,SIMCOP_IRQ2_1_r"
newline
bitfld.long 0x00 13. "SIMCOP_IRQ1,Event generated by SIMCOP" "SIMCOP_IRQ1_0_r,SIMCOP_IRQ1_1_r"
bitfld.long 0x00 12. "SIMCOP_IRQ0,Event generated by SIMCOP" "SIMCOP_IRQ0_0_r,SIMCOP_IRQ0_1_r"
bitfld.long 0x00 11. "BTE_IRQ,Event generated by the burst translation engine" "BTE_IRQ_0_r,BTE_IRQ_1_r"
bitfld.long 0x00 10. "CBUFF_IRQ,Event generated by the circular buffer" "CBUFF_IRQ_0_r,CBUFF_IRQ_1_r"
newline
bitfld.long 0x00 9. "CCP2_IRQ3,Event generated by the CCP2 receiver" "CCP2_IRQ3_0_r,CCP2_IRQ3_1_r"
bitfld.long 0x00 8. "CCP2_IRQ2,Event generated by the CCP2 receiver" "CCP2_IRQ2_0_r,CCP2_IRQ2_1_r"
bitfld.long 0x00 7. "CCP2_IRQ1,Event generated by the CCP2 receiver" "CCP2_IRQ1_0_r,CCP2_IRQ1_1_r"
bitfld.long 0x00 6. "CCP2_IRQ0,Event generated by the CCP2 receiver" "CCP2_IRQ0_0_r,CCP2_IRQ0_1_r"
newline
bitfld.long 0x00 5. "CSIB_IRQ,Event generated by the CSI2 receiver #b" "CSIB_IRQ_0_r,CSIB_IRQ_1_r"
bitfld.long 0x00 4. "CSIA_IRQ,Event generated by the CSI2 receiver #a" "CSIA_IRQ_0_r,CSIA_IRQ_1_r"
bitfld.long 0x00 3. "ISP_IRQ3,Combined interrupt event provided by the ISP" "ISP_IRQ3_0_r,ISP_IRQ3_1_r"
bitfld.long 0x00 2. "ISP_IRQ2,Combined interrupt event provided by the ISP" "ISP_IRQ2_0_r,ISP_IRQ2_1_r"
newline
bitfld.long 0x00 1. "ISP_IRQ1,Combined interrupt event provided by the ISP" "ISP_IRQ1_0_r,ISP_IRQ1_1_r"
bitfld.long 0x00 0. "ISP_IRQ0,Combined interrupt event provided by the ISP" "ISP_IRQ0_0_r,ISP_IRQ0_1_r"
group.long 0x40++0x07
line.long 0x00 "ISS_HL_IRQSTATUS_RAW_i_2,Per-event raw interrupt status vector. line 0"
bitfld.long 0x00 17. "HS_VS_IRQ,HS or VS synchronization event" "HS_VS_IRQ_0_r,HS_VS_IRQ_1_r"
rbitfld.long 0x00 16. "CCP2_IRQ8,Event generated by the CCP2 receiver" "CCP2_IRQ8_0_r,CCP2_IRQ8_1_r"
rbitfld.long 0x00 15. "SIMCOP_IRQ3,Event generated by SIMCOP" "SIMCOP_IRQ3_0_r,SIMCOP_IRQ3_1_r"
rbitfld.long 0x00 14. "SIMCOP_IRQ2,Event generated by SIMCOP" "SIMCOP_IRQ2_0_r,SIMCOP_IRQ2_1_r"
newline
rbitfld.long 0x00 13. "SIMCOP_IRQ1,Event generated by SIMCOP" "SIMCOP_IRQ1_0_r,SIMCOP_IRQ1_1_r"
rbitfld.long 0x00 12. "SIMCOP_IRQ0,Event generated by SIMCOP" "SIMCOP_IRQ0_0_r,SIMCOP_IRQ0_1_r"
rbitfld.long 0x00 11. "BTE_IRQ,Event generated by the burst translation engine" "BTE_IRQ_0_r,BTE_IRQ_1_r"
rbitfld.long 0x00 10. "CBUFF_IRQ,Event generated by the circular buffer" "CBUFF_IRQ_0_r,CBUFF_IRQ_1_r"
newline
rbitfld.long 0x00 9. "CCP2_IRQ3,Event generated by the CCP2 receiver" "CCP2_IRQ3_0_r,CCP2_IRQ3_1_r"
rbitfld.long 0x00 8. "CCP2_IRQ2,Event generated by the CCP2 receiver" "CCP2_IRQ2_0_r,CCP2_IRQ2_1_r"
rbitfld.long 0x00 7. "CCP2_IRQ1,Event generated by the CCP2 receiver" "CCP2_IRQ1_0_r,CCP2_IRQ1_1_r"
rbitfld.long 0x00 6. "CCP2_IRQ0,Event generated by the CCP2 receiver" "CCP2_IRQ0_0_r,CCP2_IRQ0_1_r"
newline
rbitfld.long 0x00 5. "CSIB_IRQ,Event generated by the CSI2 receiver #b" "CSIB_IRQ_0_r,CSIB_IRQ_1_r"
rbitfld.long 0x00 4. "CSIA_IRQ,Event generated by the CSI2 receiver #a" "CSIA_IRQ_0_r,CSIA_IRQ_1_r"
rbitfld.long 0x00 3. "ISP_IRQ3,Combined interrupt event provided by the ISP" "ISP_IRQ3_0_r,ISP_IRQ3_1_r"
rbitfld.long 0x00 2. "ISP_IRQ2,Combined interrupt event provided by the ISP" "ISP_IRQ2_0_r,ISP_IRQ2_1_r"
newline
rbitfld.long 0x00 1. "ISP_IRQ1,Combined interrupt event provided by the ISP" "ISP_IRQ1_0_r,ISP_IRQ1_1_r"
rbitfld.long 0x00 0. "ISP_IRQ0,Combined interrupt event provided by the ISP" "ISP_IRQ0_0_r,ISP_IRQ0_1_r"
line.long 0x04 "ISS_HL_IRQSTATUS_i_2,Per-event 'enabled' interrupt status vector. line 0"
bitfld.long 0x04 17. "HS_VS_IRQ,HS or VS synchronization event" "HS_VS_IRQ_0_r,HS_VS_IRQ_1_r"
rbitfld.long 0x04 16. "CCP2_IRQ8,Event generated by the CCP2 receiver" "CCP2_IRQ8_0_r,CCP2_IRQ8_1_r"
rbitfld.long 0x04 15. "SIMCOP_IRQ3,Event generated by SIMCOP" "SIMCOP_IRQ3_0_r,SIMCOP_IRQ3_1_r"
rbitfld.long 0x04 14. "SIMCOP_IRQ2,Event generated by SIMCOP" "SIMCOP_IRQ2_0_r,SIMCOP_IRQ2_1_r"
newline
rbitfld.long 0x04 13. "SIMCOP_IRQ1,Event generated by SIMCOP" "SIMCOP_IRQ1_0_r,SIMCOP_IRQ1_1_r"
rbitfld.long 0x04 12. "SIMCOP_IRQ0,Event generated by SIMCOP" "SIMCOP_IRQ0_0_r,SIMCOP_IRQ0_1_r"
rbitfld.long 0x04 11. "BTE_IRQ,Event generated by the burst translation engine" "BTE_IRQ_0_r,BTE_IRQ_1_r"
rbitfld.long 0x04 10. "CBUFF_IRQ,Event generated by the circular buffer" "CBUFF_IRQ_0_r,CBUFF_IRQ_1_r"
newline
rbitfld.long 0x04 9. "CCP2_IRQ3,Event generated by the CCP2 receiver" "CCP2_IRQ3_0_r,CCP2_IRQ3_1_r"
rbitfld.long 0x04 8. "CCP2_IRQ2,Event generated by the CCP2 receiver" "CCP2_IRQ2_0_r,CCP2_IRQ2_1_r"
rbitfld.long 0x04 7. "CCP2_IRQ1,Event generated by the CCP2 receiver" "CCP2_IRQ1_0_r,CCP2_IRQ1_1_r"
rbitfld.long 0x04 6. "CCP2_IRQ0,Event generated by the CCP2 receiver" "CCP2_IRQ0_0_r,CCP2_IRQ0_1_r"
newline
rbitfld.long 0x04 5. "CSIB_IRQ,Event generated by the CSI2 receiver #b" "CSIB_IRQ_0_r,CSIB_IRQ_1_r"
rbitfld.long 0x04 4. "CSIA_IRQ,Event generated by the CSI2 receiver #a" "CSIA_IRQ_0_r,CSIA_IRQ_1_r"
rbitfld.long 0x04 3. "ISP_IRQ3,Combined interrupt event provided by the ISP" "ISP_IRQ3_0_r,ISP_IRQ3_1_r"
rbitfld.long 0x04 2. "ISP_IRQ2,Combined interrupt event provided by the ISP" "ISP_IRQ2_0_r,ISP_IRQ2_1_r"
newline
rbitfld.long 0x04 1. "ISP_IRQ1,Combined interrupt event provided by the ISP" "ISP_IRQ1_0_r,ISP_IRQ1_1_r"
rbitfld.long 0x04 0. "ISP_IRQ0,Combined interrupt event provided by the ISP" "ISP_IRQ0_0_r,ISP_IRQ0_1_r"
tree.end
tree "IRQ_Line_3"
group.long 0x5C++0x03
line.long 0x00 "ISS_HL_IRQENABLE_CLR_i_3,Per-event interrupt enable bit vector Write 1 to clear (disable interrupt)"
bitfld.long 0x00 17. "HS_VS_IRQ,HS or VS synchronization event" "HS_VS_IRQ_0_r,HS_VS_IRQ_1_r"
bitfld.long 0x00 16. "CCP2_IRQ8,Event generated by the CCP2 receiver" "CCP2_IRQ8_0_w,CCP2_IRQ8_1_r"
bitfld.long 0x00 15. "SIMCOP_IRQ3,Event generated by SIMCOP" "SIMCOP_IRQ3_0_r,SIMCOP_IRQ3_1_r"
bitfld.long 0x00 14. "SIMCOP_IRQ2,Event generated by SIMCOP" "SIMCOP_IRQ2_0_r,SIMCOP_IRQ2_1_r"
newline
bitfld.long 0x00 13. "SIMCOP_IRQ1,Event generated by SIMCOP" "SIMCOP_IRQ1_0_r,SIMCOP_IRQ1_1_r"
bitfld.long 0x00 12. "SIMCOP_IRQ0,Event generated by SIMCOP" "SIMCOP_IRQ0_0_r,SIMCOP_IRQ0_1_r"
bitfld.long 0x00 11. "BTE_IRQ,Event generated by the BTE" "BTE_IRQ_0_r,BTE_IRQ_1_r"
bitfld.long 0x00 10. "CBUFF_IRQ,Event generated by the CBUFF" "CBUFF_IRQ_0_r,CBUFF_IRQ_1_r"
newline
bitfld.long 0x00 9. "CCP2_IRQ3,Event generated by the CCP2 receiver" "CCP2_IRQ3_0_r,CCP2_IRQ3_1_r"
bitfld.long 0x00 8. "CCP2_IRQ2,Event generated by the CCP2 receiver" "CCP2_IRQ2_0_r,CCP2_IRQ2_1_r"
bitfld.long 0x00 7. "CCP2_IRQ1,Event generated by the CCP2 receiver" "CCP2_IRQ1_0_r,CCP2_IRQ1_1_r"
bitfld.long 0x00 6. "CCP2_IRQ0,Event generated by the CCP2 receiver" "CCP2_IRQ0_0_r,CCP2_IRQ0_1_r"
newline
bitfld.long 0x00 5. "CSIB_IRQ,Event generated by the CSI2 receiver b" "CSIB_IRQ_0_r,CSIB_IRQ_1_r"
bitfld.long 0x00 4. "CSIA_IRQ,Event generated by the CSI2 receiver a" "CSIA_IRQ_0_r,CSIA_IRQ_1_r"
bitfld.long 0x00 3. "ISP_IRQ3,Combined interrupt event provided by the ISP" "ISP_IRQ3_0_r,ISP_IRQ3_1_r"
bitfld.long 0x00 2. "ISP_IRQ2,Combined interrupt event provided by the ISP" "ISP_IRQ2_0_r,ISP_IRQ2_1_r"
newline
bitfld.long 0x00 1. "ISP_IRQ1,Combined interrupt event provided by the ISP" "ISP_IRQ1_0_r,ISP_IRQ1_1_r"
bitfld.long 0x00 0. "ISP_IRQ0,Combined interrupt event provided by the ISP" "ISP_IRQ0_0_r,ISP_IRQ0_1_r"
group.long 0x58++0x03
line.long 0x00 "ISS_HL_IRQENABLE_SET_i_3,Per-event interrupt enable bit vector Write 1 to set (enable interrupt)"
bitfld.long 0x00 17. "HS_VS_IRQ,HS or VS synchronization event" "HS_VS_IRQ_0_r,HS_VS_IRQ_1_r"
bitfld.long 0x00 16. "CCP2_IRQ8,Event generated by the CCP2 receiver" "CCP2_IRQ8_0_w,CCP2_IRQ8_1_r"
bitfld.long 0x00 15. "SIMCOP_IRQ3,Event generated by SIMCOP" "SIMCOP_IRQ3_0_r,SIMCOP_IRQ3_1_r"
bitfld.long 0x00 14. "SIMCOP_IRQ2,Event generated by SIMCOP" "SIMCOP_IRQ2_0_r,SIMCOP_IRQ2_1_r"
newline
bitfld.long 0x00 13. "SIMCOP_IRQ1,Event generated by SIMCOP" "SIMCOP_IRQ1_0_r,SIMCOP_IRQ1_1_r"
bitfld.long 0x00 12. "SIMCOP_IRQ0,Event generated by SIMCOP" "SIMCOP_IRQ0_0_r,SIMCOP_IRQ0_1_r"
bitfld.long 0x00 11. "BTE_IRQ,Event generated by the burst translation engine" "BTE_IRQ_0_r,BTE_IRQ_1_r"
bitfld.long 0x00 10. "CBUFF_IRQ,Event generated by the circular buffer" "CBUFF_IRQ_0_r,CBUFF_IRQ_1_r"
newline
bitfld.long 0x00 9. "CCP2_IRQ3,Event generated by the CCP2 receiver" "CCP2_IRQ3_0_r,CCP2_IRQ3_1_r"
bitfld.long 0x00 8. "CCP2_IRQ2,Event generated by the CCP2 receiver" "CCP2_IRQ2_0_r,CCP2_IRQ2_1_r"
bitfld.long 0x00 7. "CCP2_IRQ1,Event generated by the CCP2 receiver" "CCP2_IRQ1_0_r,CCP2_IRQ1_1_r"
bitfld.long 0x00 6. "CCP2_IRQ0,Event generated by the CCP2 receiver" "CCP2_IRQ0_0_r,CCP2_IRQ0_1_r"
newline
bitfld.long 0x00 5. "CSIB_IRQ,Event generated by the CSI2 receiver #b" "CSIB_IRQ_0_r,CSIB_IRQ_1_r"
bitfld.long 0x00 4. "CSIA_IRQ,Event generated by the CSI2 receiver #a" "CSIA_IRQ_0_r,CSIA_IRQ_1_r"
bitfld.long 0x00 3. "ISP_IRQ3,Combined interrupt event provided by the ISP" "ISP_IRQ3_0_r,ISP_IRQ3_1_r"
bitfld.long 0x00 2. "ISP_IRQ2,Combined interrupt event provided by the ISP" "ISP_IRQ2_0_r,ISP_IRQ2_1_r"
newline
bitfld.long 0x00 1. "ISP_IRQ1,Combined interrupt event provided by the ISP" "ISP_IRQ1_0_r,ISP_IRQ1_1_r"
bitfld.long 0x00 0. "ISP_IRQ0,Combined interrupt event provided by the ISP" "ISP_IRQ0_0_r,ISP_IRQ0_1_r"
group.long 0x50++0x07
line.long 0x00 "ISS_HL_IRQSTATUS_RAW_i_3,Per-event raw interrupt status vector. line 0"
bitfld.long 0x00 17. "HS_VS_IRQ,HS or VS synchronization event" "HS_VS_IRQ_0_r,HS_VS_IRQ_1_r"
rbitfld.long 0x00 16. "CCP2_IRQ8,Event generated by the CCP2 receiver" "CCP2_IRQ8_0_r,CCP2_IRQ8_1_r"
rbitfld.long 0x00 15. "SIMCOP_IRQ3,Event generated by SIMCOP" "SIMCOP_IRQ3_0_r,SIMCOP_IRQ3_1_r"
rbitfld.long 0x00 14. "SIMCOP_IRQ2,Event generated by SIMCOP" "SIMCOP_IRQ2_0_r,SIMCOP_IRQ2_1_r"
newline
rbitfld.long 0x00 13. "SIMCOP_IRQ1,Event generated by SIMCOP" "SIMCOP_IRQ1_0_r,SIMCOP_IRQ1_1_r"
rbitfld.long 0x00 12. "SIMCOP_IRQ0,Event generated by SIMCOP" "SIMCOP_IRQ0_0_r,SIMCOP_IRQ0_1_r"
rbitfld.long 0x00 11. "BTE_IRQ,Event generated by the burst translation engine" "BTE_IRQ_0_r,BTE_IRQ_1_r"
rbitfld.long 0x00 10. "CBUFF_IRQ,Event generated by the circular buffer" "CBUFF_IRQ_0_r,CBUFF_IRQ_1_r"
newline
rbitfld.long 0x00 9. "CCP2_IRQ3,Event generated by the CCP2 receiver" "CCP2_IRQ3_0_r,CCP2_IRQ3_1_r"
rbitfld.long 0x00 8. "CCP2_IRQ2,Event generated by the CCP2 receiver" "CCP2_IRQ2_0_r,CCP2_IRQ2_1_r"
rbitfld.long 0x00 7. "CCP2_IRQ1,Event generated by the CCP2 receiver" "CCP2_IRQ1_0_r,CCP2_IRQ1_1_r"
rbitfld.long 0x00 6. "CCP2_IRQ0,Event generated by the CCP2 receiver" "CCP2_IRQ0_0_r,CCP2_IRQ0_1_r"
newline
rbitfld.long 0x00 5. "CSIB_IRQ,Event generated by the CSI2 receiver #b" "CSIB_IRQ_0_r,CSIB_IRQ_1_r"
rbitfld.long 0x00 4. "CSIA_IRQ,Event generated by the CSI2 receiver #a" "CSIA_IRQ_0_r,CSIA_IRQ_1_r"
rbitfld.long 0x00 3. "ISP_IRQ3,Combined interrupt event provided by the ISP" "ISP_IRQ3_0_r,ISP_IRQ3_1_r"
rbitfld.long 0x00 2. "ISP_IRQ2,Combined interrupt event provided by the ISP" "ISP_IRQ2_0_r,ISP_IRQ2_1_r"
newline
rbitfld.long 0x00 1. "ISP_IRQ1,Combined interrupt event provided by the ISP" "ISP_IRQ1_0_r,ISP_IRQ1_1_r"
rbitfld.long 0x00 0. "ISP_IRQ0,Combined interrupt event provided by the ISP" "ISP_IRQ0_0_r,ISP_IRQ0_1_r"
line.long 0x04 "ISS_HL_IRQSTATUS_i_3,Per-event 'enabled' interrupt status vector. line 0"
bitfld.long 0x04 17. "HS_VS_IRQ,HS or VS synchronization event" "HS_VS_IRQ_0_r,HS_VS_IRQ_1_r"
rbitfld.long 0x04 16. "CCP2_IRQ8,Event generated by the CCP2 receiver" "CCP2_IRQ8_0_r,CCP2_IRQ8_1_r"
rbitfld.long 0x04 15. "SIMCOP_IRQ3,Event generated by SIMCOP" "SIMCOP_IRQ3_0_r,SIMCOP_IRQ3_1_r"
rbitfld.long 0x04 14. "SIMCOP_IRQ2,Event generated by SIMCOP" "SIMCOP_IRQ2_0_r,SIMCOP_IRQ2_1_r"
newline
rbitfld.long 0x04 13. "SIMCOP_IRQ1,Event generated by SIMCOP" "SIMCOP_IRQ1_0_r,SIMCOP_IRQ1_1_r"
rbitfld.long 0x04 12. "SIMCOP_IRQ0,Event generated by SIMCOP" "SIMCOP_IRQ0_0_r,SIMCOP_IRQ0_1_r"
rbitfld.long 0x04 11. "BTE_IRQ,Event generated by the burst translation engine" "BTE_IRQ_0_r,BTE_IRQ_1_r"
rbitfld.long 0x04 10. "CBUFF_IRQ,Event generated by the circular buffer" "CBUFF_IRQ_0_r,CBUFF_IRQ_1_r"
newline
rbitfld.long 0x04 9. "CCP2_IRQ3,Event generated by the CCP2 receiver" "CCP2_IRQ3_0_r,CCP2_IRQ3_1_r"
rbitfld.long 0x04 8. "CCP2_IRQ2,Event generated by the CCP2 receiver" "CCP2_IRQ2_0_r,CCP2_IRQ2_1_r"
rbitfld.long 0x04 7. "CCP2_IRQ1,Event generated by the CCP2 receiver" "CCP2_IRQ1_0_r,CCP2_IRQ1_1_r"
rbitfld.long 0x04 6. "CCP2_IRQ0,Event generated by the CCP2 receiver" "CCP2_IRQ0_0_r,CCP2_IRQ0_1_r"
newline
rbitfld.long 0x04 5. "CSIB_IRQ,Event generated by the CSI2 receiver #b" "CSIB_IRQ_0_r,CSIB_IRQ_1_r"
rbitfld.long 0x04 4. "CSIA_IRQ,Event generated by the CSI2 receiver #a" "CSIA_IRQ_0_r,CSIA_IRQ_1_r"
rbitfld.long 0x04 3. "ISP_IRQ3,Combined interrupt event provided by the ISP" "ISP_IRQ3_0_r,ISP_IRQ3_1_r"
rbitfld.long 0x04 2. "ISP_IRQ2,Combined interrupt event provided by the ISP" "ISP_IRQ2_0_r,ISP_IRQ2_1_r"
newline
rbitfld.long 0x04 1. "ISP_IRQ1,Combined interrupt event provided by the ISP" "ISP_IRQ1_0_r,ISP_IRQ1_1_r"
rbitfld.long 0x04 0. "ISP_IRQ0,Combined interrupt event provided by the ISP" "ISP_IRQ0_0_r,ISP_IRQ0_1_r"
tree.end
tree "IRQ_Line_4"
group.long 0x6C++0x03
line.long 0x00 "ISS_HL_IRQENABLE_CLR_i_4,Per-event interrupt enable bit vector Write 1 to clear (disable interrupt)"
bitfld.long 0x00 17. "HS_VS_IRQ,HS or VS synchronization event" "HS_VS_IRQ_0_r,HS_VS_IRQ_1_r"
bitfld.long 0x00 16. "CCP2_IRQ8,Event generated by the CCP2 receiver" "CCP2_IRQ8_0_w,CCP2_IRQ8_1_r"
bitfld.long 0x00 15. "SIMCOP_IRQ3,Event generated by SIMCOP" "SIMCOP_IRQ3_0_r,SIMCOP_IRQ3_1_r"
bitfld.long 0x00 14. "SIMCOP_IRQ2,Event generated by SIMCOP" "SIMCOP_IRQ2_0_r,SIMCOP_IRQ2_1_r"
newline
bitfld.long 0x00 13. "SIMCOP_IRQ1,Event generated by SIMCOP" "SIMCOP_IRQ1_0_r,SIMCOP_IRQ1_1_r"
bitfld.long 0x00 12. "SIMCOP_IRQ0,Event generated by SIMCOP" "SIMCOP_IRQ0_0_r,SIMCOP_IRQ0_1_r"
bitfld.long 0x00 11. "BTE_IRQ,Event generated by the BTE" "BTE_IRQ_0_r,BTE_IRQ_1_r"
bitfld.long 0x00 10. "CBUFF_IRQ,Event generated by the CBUFF" "CBUFF_IRQ_0_r,CBUFF_IRQ_1_r"
newline
bitfld.long 0x00 9. "CCP2_IRQ3,Event generated by the CCP2 receiver" "CCP2_IRQ3_0_r,CCP2_IRQ3_1_r"
bitfld.long 0x00 8. "CCP2_IRQ2,Event generated by the CCP2 receiver" "CCP2_IRQ2_0_r,CCP2_IRQ2_1_r"
bitfld.long 0x00 7. "CCP2_IRQ1,Event generated by the CCP2 receiver" "CCP2_IRQ1_0_r,CCP2_IRQ1_1_r"
bitfld.long 0x00 6. "CCP2_IRQ0,Event generated by the CCP2 receiver" "CCP2_IRQ0_0_r,CCP2_IRQ0_1_r"
newline
bitfld.long 0x00 5. "CSIB_IRQ,Event generated by the CSI2 receiver b" "CSIB_IRQ_0_r,CSIB_IRQ_1_r"
bitfld.long 0x00 4. "CSIA_IRQ,Event generated by the CSI2 receiver a" "CSIA_IRQ_0_r,CSIA_IRQ_1_r"
bitfld.long 0x00 3. "ISP_IRQ3,Combined interrupt event provided by the ISP" "ISP_IRQ3_0_r,ISP_IRQ3_1_r"
bitfld.long 0x00 2. "ISP_IRQ2,Combined interrupt event provided by the ISP" "ISP_IRQ2_0_r,ISP_IRQ2_1_r"
newline
bitfld.long 0x00 1. "ISP_IRQ1,Combined interrupt event provided by the ISP" "ISP_IRQ1_0_r,ISP_IRQ1_1_r"
bitfld.long 0x00 0. "ISP_IRQ0,Combined interrupt event provided by the ISP" "ISP_IRQ0_0_r,ISP_IRQ0_1_r"
group.long 0x68++0x03
line.long 0x00 "ISS_HL_IRQENABLE_SET_i_4,Per-event interrupt enable bit vector Write 1 to set (enable interrupt)"
bitfld.long 0x00 17. "HS_VS_IRQ,HS or VS synchronization event" "HS_VS_IRQ_0_r,HS_VS_IRQ_1_r"
bitfld.long 0x00 16. "CCP2_IRQ8,Event generated by the CCP2 receiver" "CCP2_IRQ8_0_w,CCP2_IRQ8_1_r"
bitfld.long 0x00 15. "SIMCOP_IRQ3,Event generated by SIMCOP" "SIMCOP_IRQ3_0_r,SIMCOP_IRQ3_1_r"
bitfld.long 0x00 14. "SIMCOP_IRQ2,Event generated by SIMCOP" "SIMCOP_IRQ2_0_r,SIMCOP_IRQ2_1_r"
newline
bitfld.long 0x00 13. "SIMCOP_IRQ1,Event generated by SIMCOP" "SIMCOP_IRQ1_0_r,SIMCOP_IRQ1_1_r"
bitfld.long 0x00 12. "SIMCOP_IRQ0,Event generated by SIMCOP" "SIMCOP_IRQ0_0_r,SIMCOP_IRQ0_1_r"
bitfld.long 0x00 11. "BTE_IRQ,Event generated by the burst translation engine" "BTE_IRQ_0_r,BTE_IRQ_1_r"
bitfld.long 0x00 10. "CBUFF_IRQ,Event generated by the circular buffer" "CBUFF_IRQ_0_r,CBUFF_IRQ_1_r"
newline
bitfld.long 0x00 9. "CCP2_IRQ3,Event generated by the CCP2 receiver" "CCP2_IRQ3_0_r,CCP2_IRQ3_1_r"
bitfld.long 0x00 8. "CCP2_IRQ2,Event generated by the CCP2 receiver" "CCP2_IRQ2_0_r,CCP2_IRQ2_1_r"
bitfld.long 0x00 7. "CCP2_IRQ1,Event generated by the CCP2 receiver" "CCP2_IRQ1_0_r,CCP2_IRQ1_1_r"
bitfld.long 0x00 6. "CCP2_IRQ0,Event generated by the CCP2 receiver" "CCP2_IRQ0_0_r,CCP2_IRQ0_1_r"
newline
bitfld.long 0x00 5. "CSIB_IRQ,Event generated by the CSI2 receiver #b" "CSIB_IRQ_0_r,CSIB_IRQ_1_r"
bitfld.long 0x00 4. "CSIA_IRQ,Event generated by the CSI2 receiver #a" "CSIA_IRQ_0_r,CSIA_IRQ_1_r"
bitfld.long 0x00 3. "ISP_IRQ3,Combined interrupt event provided by the ISP" "ISP_IRQ3_0_r,ISP_IRQ3_1_r"
bitfld.long 0x00 2. "ISP_IRQ2,Combined interrupt event provided by the ISP" "ISP_IRQ2_0_r,ISP_IRQ2_1_r"
newline
bitfld.long 0x00 1. "ISP_IRQ1,Combined interrupt event provided by the ISP" "ISP_IRQ1_0_r,ISP_IRQ1_1_r"
bitfld.long 0x00 0. "ISP_IRQ0,Combined interrupt event provided by the ISP" "ISP_IRQ0_0_r,ISP_IRQ0_1_r"
group.long 0x60++0x07
line.long 0x00 "ISS_HL_IRQSTATUS_RAW_i_4,Per-event raw interrupt status vector. line 0"
bitfld.long 0x00 17. "HS_VS_IRQ,HS or VS synchronization event" "HS_VS_IRQ_0_r,HS_VS_IRQ_1_r"
rbitfld.long 0x00 16. "CCP2_IRQ8,Event generated by the CCP2 receiver" "CCP2_IRQ8_0_r,CCP2_IRQ8_1_r"
rbitfld.long 0x00 15. "SIMCOP_IRQ3,Event generated by SIMCOP" "SIMCOP_IRQ3_0_r,SIMCOP_IRQ3_1_r"
rbitfld.long 0x00 14. "SIMCOP_IRQ2,Event generated by SIMCOP" "SIMCOP_IRQ2_0_r,SIMCOP_IRQ2_1_r"
newline
rbitfld.long 0x00 13. "SIMCOP_IRQ1,Event generated by SIMCOP" "SIMCOP_IRQ1_0_r,SIMCOP_IRQ1_1_r"
rbitfld.long 0x00 12. "SIMCOP_IRQ0,Event generated by SIMCOP" "SIMCOP_IRQ0_0_r,SIMCOP_IRQ0_1_r"
rbitfld.long 0x00 11. "BTE_IRQ,Event generated by the burst translation engine" "BTE_IRQ_0_r,BTE_IRQ_1_r"
rbitfld.long 0x00 10. "CBUFF_IRQ,Event generated by the circular buffer" "CBUFF_IRQ_0_r,CBUFF_IRQ_1_r"
newline
rbitfld.long 0x00 9. "CCP2_IRQ3,Event generated by the CCP2 receiver" "CCP2_IRQ3_0_r,CCP2_IRQ3_1_r"
rbitfld.long 0x00 8. "CCP2_IRQ2,Event generated by the CCP2 receiver" "CCP2_IRQ2_0_r,CCP2_IRQ2_1_r"
rbitfld.long 0x00 7. "CCP2_IRQ1,Event generated by the CCP2 receiver" "CCP2_IRQ1_0_r,CCP2_IRQ1_1_r"
rbitfld.long 0x00 6. "CCP2_IRQ0,Event generated by the CCP2 receiver" "CCP2_IRQ0_0_r,CCP2_IRQ0_1_r"
newline
rbitfld.long 0x00 5. "CSIB_IRQ,Event generated by the CSI2 receiver #b" "CSIB_IRQ_0_r,CSIB_IRQ_1_r"
rbitfld.long 0x00 4. "CSIA_IRQ,Event generated by the CSI2 receiver #a" "CSIA_IRQ_0_r,CSIA_IRQ_1_r"
rbitfld.long 0x00 3. "ISP_IRQ3,Combined interrupt event provided by the ISP" "ISP_IRQ3_0_r,ISP_IRQ3_1_r"
rbitfld.long 0x00 2. "ISP_IRQ2,Combined interrupt event provided by the ISP" "ISP_IRQ2_0_r,ISP_IRQ2_1_r"
newline
rbitfld.long 0x00 1. "ISP_IRQ1,Combined interrupt event provided by the ISP" "ISP_IRQ1_0_r,ISP_IRQ1_1_r"
rbitfld.long 0x00 0. "ISP_IRQ0,Combined interrupt event provided by the ISP" "ISP_IRQ0_0_r,ISP_IRQ0_1_r"
line.long 0x04 "ISS_HL_IRQSTATUS_i_4,Per-event 'enabled' interrupt status vector. line 0"
bitfld.long 0x04 17. "HS_VS_IRQ,HS or VS synchronization event" "HS_VS_IRQ_0_r,HS_VS_IRQ_1_r"
rbitfld.long 0x04 16. "CCP2_IRQ8,Event generated by the CCP2 receiver" "CCP2_IRQ8_0_r,CCP2_IRQ8_1_r"
rbitfld.long 0x04 15. "SIMCOP_IRQ3,Event generated by SIMCOP" "SIMCOP_IRQ3_0_r,SIMCOP_IRQ3_1_r"
rbitfld.long 0x04 14. "SIMCOP_IRQ2,Event generated by SIMCOP" "SIMCOP_IRQ2_0_r,SIMCOP_IRQ2_1_r"
newline
rbitfld.long 0x04 13. "SIMCOP_IRQ1,Event generated by SIMCOP" "SIMCOP_IRQ1_0_r,SIMCOP_IRQ1_1_r"
rbitfld.long 0x04 12. "SIMCOP_IRQ0,Event generated by SIMCOP" "SIMCOP_IRQ0_0_r,SIMCOP_IRQ0_1_r"
rbitfld.long 0x04 11. "BTE_IRQ,Event generated by the burst translation engine" "BTE_IRQ_0_r,BTE_IRQ_1_r"
rbitfld.long 0x04 10. "CBUFF_IRQ,Event generated by the circular buffer" "CBUFF_IRQ_0_r,CBUFF_IRQ_1_r"
newline
rbitfld.long 0x04 9. "CCP2_IRQ3,Event generated by the CCP2 receiver" "CCP2_IRQ3_0_r,CCP2_IRQ3_1_r"
rbitfld.long 0x04 8. "CCP2_IRQ2,Event generated by the CCP2 receiver" "CCP2_IRQ2_0_r,CCP2_IRQ2_1_r"
rbitfld.long 0x04 7. "CCP2_IRQ1,Event generated by the CCP2 receiver" "CCP2_IRQ1_0_r,CCP2_IRQ1_1_r"
rbitfld.long 0x04 6. "CCP2_IRQ0,Event generated by the CCP2 receiver" "CCP2_IRQ0_0_r,CCP2_IRQ0_1_r"
newline
rbitfld.long 0x04 5. "CSIB_IRQ,Event generated by the CSI2 receiver #b" "CSIB_IRQ_0_r,CSIB_IRQ_1_r"
rbitfld.long 0x04 4. "CSIA_IRQ,Event generated by the CSI2 receiver #a" "CSIA_IRQ_0_r,CSIA_IRQ_1_r"
rbitfld.long 0x04 3. "ISP_IRQ3,Combined interrupt event provided by the ISP" "ISP_IRQ3_0_r,ISP_IRQ3_1_r"
rbitfld.long 0x04 2. "ISP_IRQ2,Combined interrupt event provided by the ISP" "ISP_IRQ2_0_r,ISP_IRQ2_1_r"
newline
rbitfld.long 0x04 1. "ISP_IRQ1,Combined interrupt event provided by the ISP" "ISP_IRQ1_0_r,ISP_IRQ1_1_r"
rbitfld.long 0x04 0. "ISP_IRQ0,Combined interrupt event provided by the ISP" "ISP_IRQ0_0_r,ISP_IRQ0_1_r"
tree.end
tree "IRQ_Line_5"
group.long 0x7C++0x03
line.long 0x00 "ISS_HL_IRQENABLE_CLR_i_5,Per-event interrupt enable bit vector Write 1 to clear (disable interrupt)"
bitfld.long 0x00 17. "HS_VS_IRQ,HS or VS synchronization event" "HS_VS_IRQ_0_r,HS_VS_IRQ_1_r"
bitfld.long 0x00 16. "CCP2_IRQ8,Event generated by the CCP2 receiver" "CCP2_IRQ8_0_w,CCP2_IRQ8_1_r"
bitfld.long 0x00 15. "SIMCOP_IRQ3,Event generated by SIMCOP" "SIMCOP_IRQ3_0_r,SIMCOP_IRQ3_1_r"
bitfld.long 0x00 14. "SIMCOP_IRQ2,Event generated by SIMCOP" "SIMCOP_IRQ2_0_r,SIMCOP_IRQ2_1_r"
newline
bitfld.long 0x00 13. "SIMCOP_IRQ1,Event generated by SIMCOP" "SIMCOP_IRQ1_0_r,SIMCOP_IRQ1_1_r"
bitfld.long 0x00 12. "SIMCOP_IRQ0,Event generated by SIMCOP" "SIMCOP_IRQ0_0_r,SIMCOP_IRQ0_1_r"
bitfld.long 0x00 11. "BTE_IRQ,Event generated by the BTE" "BTE_IRQ_0_r,BTE_IRQ_1_r"
bitfld.long 0x00 10. "CBUFF_IRQ,Event generated by the CBUFF" "CBUFF_IRQ_0_r,CBUFF_IRQ_1_r"
newline
bitfld.long 0x00 9. "CCP2_IRQ3,Event generated by the CCP2 receiver" "CCP2_IRQ3_0_r,CCP2_IRQ3_1_r"
bitfld.long 0x00 8. "CCP2_IRQ2,Event generated by the CCP2 receiver" "CCP2_IRQ2_0_r,CCP2_IRQ2_1_r"
bitfld.long 0x00 7. "CCP2_IRQ1,Event generated by the CCP2 receiver" "CCP2_IRQ1_0_r,CCP2_IRQ1_1_r"
bitfld.long 0x00 6. "CCP2_IRQ0,Event generated by the CCP2 receiver" "CCP2_IRQ0_0_r,CCP2_IRQ0_1_r"
newline
bitfld.long 0x00 5. "CSIB_IRQ,Event generated by the CSI2 receiver b" "CSIB_IRQ_0_r,CSIB_IRQ_1_r"
bitfld.long 0x00 4. "CSIA_IRQ,Event generated by the CSI2 receiver a" "CSIA_IRQ_0_r,CSIA_IRQ_1_r"
bitfld.long 0x00 3. "ISP_IRQ3,Combined interrupt event provided by the ISP" "ISP_IRQ3_0_r,ISP_IRQ3_1_r"
bitfld.long 0x00 2. "ISP_IRQ2,Combined interrupt event provided by the ISP" "ISP_IRQ2_0_r,ISP_IRQ2_1_r"
newline
bitfld.long 0x00 1. "ISP_IRQ1,Combined interrupt event provided by the ISP" "ISP_IRQ1_0_r,ISP_IRQ1_1_r"
bitfld.long 0x00 0. "ISP_IRQ0,Combined interrupt event provided by the ISP" "ISP_IRQ0_0_r,ISP_IRQ0_1_r"
group.long 0x78++0x03
line.long 0x00 "ISS_HL_IRQENABLE_SET_i_5,Per-event interrupt enable bit vector Write 1 to set (enable interrupt)"
bitfld.long 0x00 17. "HS_VS_IRQ,HS or VS synchronization event" "HS_VS_IRQ_0_r,HS_VS_IRQ_1_r"
bitfld.long 0x00 16. "CCP2_IRQ8,Event generated by the CCP2 receiver" "CCP2_IRQ8_0_w,CCP2_IRQ8_1_r"
bitfld.long 0x00 15. "SIMCOP_IRQ3,Event generated by SIMCOP" "SIMCOP_IRQ3_0_r,SIMCOP_IRQ3_1_r"
bitfld.long 0x00 14. "SIMCOP_IRQ2,Event generated by SIMCOP" "SIMCOP_IRQ2_0_r,SIMCOP_IRQ2_1_r"
newline
bitfld.long 0x00 13. "SIMCOP_IRQ1,Event generated by SIMCOP" "SIMCOP_IRQ1_0_r,SIMCOP_IRQ1_1_r"
bitfld.long 0x00 12. "SIMCOP_IRQ0,Event generated by SIMCOP" "SIMCOP_IRQ0_0_r,SIMCOP_IRQ0_1_r"
bitfld.long 0x00 11. "BTE_IRQ,Event generated by the burst translation engine" "BTE_IRQ_0_r,BTE_IRQ_1_r"
bitfld.long 0x00 10. "CBUFF_IRQ,Event generated by the circular buffer" "CBUFF_IRQ_0_r,CBUFF_IRQ_1_r"
newline
bitfld.long 0x00 9. "CCP2_IRQ3,Event generated by the CCP2 receiver" "CCP2_IRQ3_0_r,CCP2_IRQ3_1_r"
bitfld.long 0x00 8. "CCP2_IRQ2,Event generated by the CCP2 receiver" "CCP2_IRQ2_0_r,CCP2_IRQ2_1_r"
bitfld.long 0x00 7. "CCP2_IRQ1,Event generated by the CCP2 receiver" "CCP2_IRQ1_0_r,CCP2_IRQ1_1_r"
bitfld.long 0x00 6. "CCP2_IRQ0,Event generated by the CCP2 receiver" "CCP2_IRQ0_0_r,CCP2_IRQ0_1_r"
newline
bitfld.long 0x00 5. "CSIB_IRQ,Event generated by the CSI2 receiver #b" "CSIB_IRQ_0_r,CSIB_IRQ_1_r"
bitfld.long 0x00 4. "CSIA_IRQ,Event generated by the CSI2 receiver #a" "CSIA_IRQ_0_r,CSIA_IRQ_1_r"
bitfld.long 0x00 3. "ISP_IRQ3,Combined interrupt event provided by the ISP" "ISP_IRQ3_0_r,ISP_IRQ3_1_r"
bitfld.long 0x00 2. "ISP_IRQ2,Combined interrupt event provided by the ISP" "ISP_IRQ2_0_r,ISP_IRQ2_1_r"
newline
bitfld.long 0x00 1. "ISP_IRQ1,Combined interrupt event provided by the ISP" "ISP_IRQ1_0_r,ISP_IRQ1_1_r"
bitfld.long 0x00 0. "ISP_IRQ0,Combined interrupt event provided by the ISP" "ISP_IRQ0_0_r,ISP_IRQ0_1_r"
group.long 0x70++0x07
line.long 0x00 "ISS_HL_IRQSTATUS_RAW_i_5,Per-event raw interrupt status vector. line 0"
bitfld.long 0x00 17. "HS_VS_IRQ,HS or VS synchronization event" "HS_VS_IRQ_0_r,HS_VS_IRQ_1_r"
rbitfld.long 0x00 16. "CCP2_IRQ8,Event generated by the CCP2 receiver" "CCP2_IRQ8_0_r,CCP2_IRQ8_1_r"
rbitfld.long 0x00 15. "SIMCOP_IRQ3,Event generated by SIMCOP" "SIMCOP_IRQ3_0_r,SIMCOP_IRQ3_1_r"
rbitfld.long 0x00 14. "SIMCOP_IRQ2,Event generated by SIMCOP" "SIMCOP_IRQ2_0_r,SIMCOP_IRQ2_1_r"
newline
rbitfld.long 0x00 13. "SIMCOP_IRQ1,Event generated by SIMCOP" "SIMCOP_IRQ1_0_r,SIMCOP_IRQ1_1_r"
rbitfld.long 0x00 12. "SIMCOP_IRQ0,Event generated by SIMCOP" "SIMCOP_IRQ0_0_r,SIMCOP_IRQ0_1_r"
rbitfld.long 0x00 11. "BTE_IRQ,Event generated by the burst translation engine" "BTE_IRQ_0_r,BTE_IRQ_1_r"
rbitfld.long 0x00 10. "CBUFF_IRQ,Event generated by the circular buffer" "CBUFF_IRQ_0_r,CBUFF_IRQ_1_r"
newline
rbitfld.long 0x00 9. "CCP2_IRQ3,Event generated by the CCP2 receiver" "CCP2_IRQ3_0_r,CCP2_IRQ3_1_r"
rbitfld.long 0x00 8. "CCP2_IRQ2,Event generated by the CCP2 receiver" "CCP2_IRQ2_0_r,CCP2_IRQ2_1_r"
rbitfld.long 0x00 7. "CCP2_IRQ1,Event generated by the CCP2 receiver" "CCP2_IRQ1_0_r,CCP2_IRQ1_1_r"
rbitfld.long 0x00 6. "CCP2_IRQ0,Event generated by the CCP2 receiver" "CCP2_IRQ0_0_r,CCP2_IRQ0_1_r"
newline
rbitfld.long 0x00 5. "CSIB_IRQ,Event generated by the CSI2 receiver #b" "CSIB_IRQ_0_r,CSIB_IRQ_1_r"
rbitfld.long 0x00 4. "CSIA_IRQ,Event generated by the CSI2 receiver #a" "CSIA_IRQ_0_r,CSIA_IRQ_1_r"
rbitfld.long 0x00 3. "ISP_IRQ3,Combined interrupt event provided by the ISP" "ISP_IRQ3_0_r,ISP_IRQ3_1_r"
rbitfld.long 0x00 2. "ISP_IRQ2,Combined interrupt event provided by the ISP" "ISP_IRQ2_0_r,ISP_IRQ2_1_r"
newline
rbitfld.long 0x00 1. "ISP_IRQ1,Combined interrupt event provided by the ISP" "ISP_IRQ1_0_r,ISP_IRQ1_1_r"
rbitfld.long 0x00 0. "ISP_IRQ0,Combined interrupt event provided by the ISP" "ISP_IRQ0_0_r,ISP_IRQ0_1_r"
line.long 0x04 "ISS_HL_IRQSTATUS_i_5,Per-event 'enabled' interrupt status vector. line 0"
bitfld.long 0x04 17. "HS_VS_IRQ,HS or VS synchronization event" "HS_VS_IRQ_0_r,HS_VS_IRQ_1_r"
rbitfld.long 0x04 16. "CCP2_IRQ8,Event generated by the CCP2 receiver" "CCP2_IRQ8_0_r,CCP2_IRQ8_1_r"
rbitfld.long 0x04 15. "SIMCOP_IRQ3,Event generated by SIMCOP" "SIMCOP_IRQ3_0_r,SIMCOP_IRQ3_1_r"
rbitfld.long 0x04 14. "SIMCOP_IRQ2,Event generated by SIMCOP" "SIMCOP_IRQ2_0_r,SIMCOP_IRQ2_1_r"
newline
rbitfld.long 0x04 13. "SIMCOP_IRQ1,Event generated by SIMCOP" "SIMCOP_IRQ1_0_r,SIMCOP_IRQ1_1_r"
rbitfld.long 0x04 12. "SIMCOP_IRQ0,Event generated by SIMCOP" "SIMCOP_IRQ0_0_r,SIMCOP_IRQ0_1_r"
rbitfld.long 0x04 11. "BTE_IRQ,Event generated by the burst translation engine" "BTE_IRQ_0_r,BTE_IRQ_1_r"
rbitfld.long 0x04 10. "CBUFF_IRQ,Event generated by the circular buffer" "CBUFF_IRQ_0_r,CBUFF_IRQ_1_r"
newline
rbitfld.long 0x04 9. "CCP2_IRQ3,Event generated by the CCP2 receiver" "CCP2_IRQ3_0_r,CCP2_IRQ3_1_r"
rbitfld.long 0x04 8. "CCP2_IRQ2,Event generated by the CCP2 receiver" "CCP2_IRQ2_0_r,CCP2_IRQ2_1_r"
rbitfld.long 0x04 7. "CCP2_IRQ1,Event generated by the CCP2 receiver" "CCP2_IRQ1_0_r,CCP2_IRQ1_1_r"
rbitfld.long 0x04 6. "CCP2_IRQ0,Event generated by the CCP2 receiver" "CCP2_IRQ0_0_r,CCP2_IRQ0_1_r"
newline
rbitfld.long 0x04 5. "CSIB_IRQ,Event generated by the CSI2 receiver #b" "CSIB_IRQ_0_r,CSIB_IRQ_1_r"
rbitfld.long 0x04 4. "CSIA_IRQ,Event generated by the CSI2 receiver #a" "CSIA_IRQ_0_r,CSIA_IRQ_1_r"
rbitfld.long 0x04 3. "ISP_IRQ3,Combined interrupt event provided by the ISP" "ISP_IRQ3_0_r,ISP_IRQ3_1_r"
rbitfld.long 0x04 2. "ISP_IRQ2,Combined interrupt event provided by the ISP" "ISP_IRQ2_0_r,ISP_IRQ2_1_r"
newline
rbitfld.long 0x04 1. "ISP_IRQ1,Combined interrupt event provided by the ISP" "ISP_IRQ1_0_r,ISP_IRQ1_1_r"
rbitfld.long 0x04 0. "ISP_IRQ0,Combined interrupt event provided by the ISP" "ISP_IRQ0_0_r,ISP_IRQ0_1_r"
tree.end
group.long 0x84++0x07
line.long 0x00 "ISS_CLKCTRL,ISS clock control register"
bitfld.long 0x00 31. "VPORT3_CLK,Enables the pixel clock from the parallel interface" "VPORT3_CLK_0,VPORT3_CLK_1"
bitfld.long 0x00 30. "VPORT2_CLK,Enables the pixel clock from the CCP2 protocol engine" "VPORT2_CLK_0,VPORT2_CLK_1"
bitfld.long 0x00 29. "VPORT1_CLK,Enables the pixel clock from the CSI2_B protocol engine" "VPORT1_CLK_0,VPORT1_CLK_1"
bitfld.long 0x00 28. "VPORT0_CLK,Enables the pixel clock from the CSI2_A protocol engine" "VPORT0_CLK_0,VPORT0_CLK_1"
newline
bitfld.long 0x00 4. "CCP2,CCP2" "CCP2_0_w,CCP2_1_w"
bitfld.long 0x00 3. "CSI2_B,CSI2_B" "CSI2_B_0_w,CSI2_B_1_w"
bitfld.long 0x00 2. "CSI2_A,CSI2_A" "CSI2_A_0_w,CSI2_A_1_w"
bitfld.long 0x00 1. "ISP,ISP" "ISP_0_w,ISP_1_w"
newline
bitfld.long 0x00 0. "SIMCOP,SIMCOP" "SIMCOP_0_w,SIMCOP_1_w"
line.long 0x04 "ISS_CLKSTAT,ISS clock status register"
bitfld.long 0x04 31. "VPORT3_CLK,Status of the pixel clock from the parallel interface" "VPORT3_CLK_0_r,VPORT3_CLK_1_r"
bitfld.long 0x04 30. "VPORT2_CLK,Status of the pixel clock from the CCP2 protocol engine" "VPORT2_CLK_0_r,VPORT2_CLK_1_r"
bitfld.long 0x04 29. "VPORT1_CLK,Status of the pixel clock from the CSI2_B protocol engine" "VPORT1_CLK_0_r,VPORT1_CLK_1_r"
bitfld.long 0x04 28. "VPORT0_CLK,Status of the pixel clock from the CSI2_A protocol engine" "VPORT0_CLK_0_r,VPORT0_CLK_1_r"
newline
bitfld.long 0x04 4. "CCP2,CCP2" "CCP2_0_r,CCP2_1_r"
bitfld.long 0x04 3. "CSI2_B,CSI2_B" "CSI2_B_0_r,CSI2_B_1_r"
bitfld.long 0x04 2. "CSI2_A,CSI2_A" "CSI2_A_0_r,CSI2_A_1_r"
bitfld.long 0x04 1. "ISP,ISP" "ISP_0_r,ISP_1_r"
newline
bitfld.long 0x04 0. "SIMCOP,SIMCOP" "SIMCOP_0_r,SIMCOP_1_r"
group.long 0x80++0x03
line.long 0x00 "ISS_CTRL,ISS control register"
bitfld.long 0x00 28.--31. "CSI2_B_TAG_CNT,Defines the maximum number of tags that could be used by the CSI2 b write bridge" "CSI2_B_TAG_CNT_0,CSI2_B_TAG_CNT_1,CSI2_B_TAG_CNT_2,CSI2_B_TAG_CNT_3,CSI2_B_TAG_CNT_4,CSI2_B_TAG_CNT_5,CSI2_B_TAG_CNT_6,CSI2_B_TAG_CNT_7,CSI2_B_TAG_CNT_8,CSI2_B_TAG_CNT_9,CSI2_B_TAG_CNT_10,CSI2_B_TAG_CNT_11,CSI2_B_TAG_CNT_12,CSI2_B_TAG_CNT_13,CSI2_B_TAG_CNT_14,CSI2_B_TAG_CNT_15"
bitfld.long 0x00 24.--27. "CSI2_A_TAG_CNT,Defines the maximum number of tags that could be used by the CSI2 a write bridge" "CSI2_A_TAG_CNT_0,CSI2_A_TAG_CNT_1,CSI2_A_TAG_CNT_2,CSI2_A_TAG_CNT_3,CSI2_A_TAG_CNT_4,CSI2_A_TAG_CNT_5,CSI2_A_TAG_CNT_6,CSI2_A_TAG_CNT_7,CSI2_A_TAG_CNT_8,CSI2_A_TAG_CNT_9,CSI2_A_TAG_CNT_10,CSI2_A_TAG_CNT_11,CSI2_A_TAG_CNT_12,CSI2_A_TAG_CNT_13,CSI2_A_TAG_CNT_14,CSI2_A_TAG_CNT_15"
bitfld.long 0x00 20.--23. "CCP2W_TAG_CNT,Defines the maximum number of tags that could be used by the CCP2 write bridge Note: Tag count must be set to 16 for best performance" "CCP2W_TAG_CNT_0,CCP2W_TAG_CNT_1,CCP2W_TAG_CNT_2,CCP2W_TAG_CNT_3,CCP2W_TAG_CNT_4,CCP2W_TAG_CNT_5,CCP2W_TAG_CNT_6,CCP2W_TAG_CNT_7,CCP2W_TAG_CNT_8,CCP2W_TAG_CNT_9,CCP2W_TAG_CNT_10,CCP2W_TAG_CNT_11,CCP2W_TAG_CNT_12,CCP2W_TAG_CNT_13,CCP2W_TAG_CNT_14,CCP2W_TAG_CNT_15"
bitfld.long 0x00 16.--19. "CCP2R_TAG_CNT,Defines the maximum number of tags that could be used by the CCP2 read bridge Note: Tag count must be set to 16 for best performance" "CCP2R_TAG_CNT_0,CCP2R_TAG_CNT_1,CCP2R_TAG_CNT_2,CCP2R_TAG_CNT_3,CCP2R_TAG_CNT_4,CCP2R_TAG_CNT_5,CCP2R_TAG_CNT_6,CCP2R_TAG_CNT_7,CCP2R_TAG_CNT_8,CCP2R_TAG_CNT_9,CCP2R_TAG_CNT_10,CCP2R_TAG_CNT_11,CCP2R_TAG_CNT_12,CCP2R_TAG_CNT_13,CCP2R_TAG_CNT_14,CCP2R_TAG_CNT_15"
newline
bitfld.long 0x00 4.--5. "ISS_CLK_DIV,ISS functional clock division CLK refers to the input clock provided to the ISS" "ISS_CLK_DIV_0,ISS_CLK_DIV_1,ISS_CLK_DIV_2,ISS_CLK_DIV_3"
bitfld.long 0x00 2.--3. "INPUT_SEL,Selects ISP input" "INPUT_SEL_0,INPUT_SEL_1,INPUT_SEL_2,INPUT_SEL_3"
bitfld.long 0x00 0.--1. "SYNC_DETECT,Chooses among rising and falling edge for the HS_VS_IRQ synchronization event" "SYNC_DETECT_0,SYNC_DETECT_1,SYNC_DETECT_2,SYNC_DETECT_3"
rgroup.long 0x00++0x03
line.long 0x00 "ISS_HL_REVISION,IP Revision Identifier (X.Y.R) Used by software to track features. bugs. and compatibility"
group.long 0x10++0x03
line.long 0x00 "ISS_HL_SYSCONFIG,Clock management configuration"
bitfld.long 0x00 4.--5. "STANDBYMODE,Master interface power management standby/Wait control" "STANDBYMODE_0,STANDBYMODE_1,STANDBYMODE_2,STANDBYMODE_3"
bitfld.long 0x00 2.--3. "IDLEMODE,IDLE protocol configuration" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 0. "SOFTRESET,Software reset" "SOFTRESET_0_r,SOFTRESET_1_r"
rgroup.long 0x8C++0x03
line.long 0x00 "ISS_PM_STATUS,ISS power manager status register"
bitfld.long 0x00 12.--13. "CBUFF_PM,Power status of the CBUFF" "CBUFF_PM_0_r,CBUFF_PM_1_r,CBUFF_PM_2_r,?"
bitfld.long 0x00 10.--11. "BTE_PM,Power status of the BTE" "BTE_PM_0_r,BTE_PM_1_r,BTE_PM_2_r,?"
bitfld.long 0x00 8.--9. "SIMCOP_PM,Power status of the SIMCOP" "SIMCOP_PM_0_r,SIMCOP_PM_1_r,SIMCOP_PM_2_r,?"
bitfld.long 0x00 6.--7. "ISP_PM,Power status of the ISP" "ISP_PM_0_r,ISP_PM_1_r,ISP_PM_2_r,?"
newline
bitfld.long 0x00 4.--5. "CCP2_PM,Power status of the CCP2" "CCP2_PM_0_r,CCP2_PM_1_r,CCP2_PM_2_r,?"
bitfld.long 0x00 2.--3. "CSI2_B_PM,Power status of the CSI2 module b" "CSI2_B_PM_0_r,CSI2_B_PM_1_r,CSI2_B_PM_2_r,?"
bitfld.long 0x00 0.--1. "CSI2_A_PM,Power status of the CSI2 module a" "CSI2_A_PM_0_r,CSI2_A_PM_1_r,CSI2_A_PM_2_r,?"
tree.end
tree.end
tree "ISS_SIMCOP_Discrete_Cosine_Transform_Module"
tree "DCT_Cortex_M3"
base ansd:0x55060800
rgroup.long 0x00++0x13
line.long 0x00 "DCT_VERSION,IP Revision"
line.long 0x04 "DCT_CTRL,DCT control register"
bitfld.long 0x04 15. "BUSY,IDCT/busy status" "Idle,Busy"
bitfld.long 0x04 0. "EN,Write 1 whenDCT_CFG[4] TRIG_SRC = 0 to start module operation" "EN_0,EN_1"
line.long 0x08 "DCT_CFG,DCT configuration register"
bitfld.long 0x08 8.--13. "NMCUS,Number of MCUs (for FMT = 0 1) or blocks (for FMT = 2)" "1 MCU or block,2 MCUs or blocks,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,64 MCUs or blocks"
bitfld.long 0x08 5. "AUTOGATING,Internal clock gating on interface and functional clocks" "Clocks are free-running,Clocks are gated off in subblocks that are not.."
bitfld.long 0x08 4. "TRIG_SRC,Trigger source" "Memory mapper register,Hardware start signal"
newline
bitfld.long 0x08 3. "INTEN," "INTEN_0,INTEN_1"
bitfld.long 0x08 1.--2. "FMT,Data format" "YUV4:2:0 format,YUV4:2:2 format,Sequential blocks format,Reserved"
bitfld.long 0x08 0. "MODE," "MODE_0,MODE_1"
line.long 0x0C "DCT_SPTR,Spatial-domain data pointer. byte address"
hexmask.long.byte 0x0C 5.--12. 1. "ADDR,Address in 256-bit words Intention is that software write a byte address into the register"
line.long 0x10 "DCT_FPTR,Frequency-domain data pointer. byte address"
hexmask.long.word 0x10 4.--13. 1. "ADDR,Address in 128-bit words"
tree.end
tree "DCT_L3Interconnect"
base ansd:0x52020800
rgroup.long 0x00++0x13
line.long 0x00 "DCT_VERSION,IP Revision"
line.long 0x04 "DCT_CTRL,DCT control register"
bitfld.long 0x04 15. "BUSY,IDCT/busy status" "Idle,Busy"
bitfld.long 0x04 0. "EN,Write 1 whenDCT_CFG[4] TRIG_SRC = 0 to start module operation" "EN_0,EN_1"
line.long 0x08 "DCT_CFG,DCT configuration register"
bitfld.long 0x08 8.--13. "NMCUS,Number of MCUs (for FMT = 0 1) or blocks (for FMT = 2)" "1 MCU or block,2 MCUs or blocks,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,64 MCUs or blocks"
bitfld.long 0x08 5. "AUTOGATING,Internal clock gating on interface and functional clocks" "Clocks are free-running,Clocks are gated off in subblocks that are not.."
bitfld.long 0x08 4. "TRIG_SRC,Trigger source" "Memory mapper register,Hardware start signal"
newline
bitfld.long 0x08 3. "INTEN," "INTEN_0,INTEN_1"
bitfld.long 0x08 1.--2. "FMT,Data format" "YUV4:2:0 format,YUV4:2:2 format,Sequential blocks format,Reserved"
bitfld.long 0x08 0. "MODE," "MODE_0,MODE_1"
line.long 0x0C "DCT_SPTR,Spatial-domain data pointer. byte address"
hexmask.long.byte 0x0C 5.--12. 1. "ADDR,Address in 256-bit words Intention is that software write a byte address into the register"
line.long 0x10 "DCT_FPTR,Frequency-domain data pointer. byte address"
hexmask.long.word 0x10 4.--13. 1. "ADDR,Address in 128-bit words"
tree.end
tree.end
tree "ISS_SIMCOP_DMA_Module"
tree "DMA_L3Interconnect"
base ansd:0x52020200
tree "DMA_Channel_0"
group.long 0x94++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_BLOCK_SIZE_i_0,2D block size"
hexmask.long.word 0x00 16.--28. 1. "YNUM,Height in lines per 2D block Valid values are 1- 8191"
hexmask.long.word 0x00 4.--13. 1. "XNUM,Width in 128-bit words per 2D block"
group.long 0xA4++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_BLOCK_STEP_i_0,Offset between 2D blocks"
hexmask.long.word 0x00 16.--29. 1. "YSTEP,Vertical offset in lines between rows of 2D blocks"
hexmask.long.word 0x00 4.--14. 1. "XSTEP,Horizontal offset in 128-bit words between 2D block columns"
group.long 0x90++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_BUF_ADDR_i_0,SIMCOP memory address"
hexmask.long.tbyte 0x00 4.--23. 1. "ADDR,Address in 128-bit words"
group.long 0x8C++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_BUF_OFST_i_0,SIMCOP memory line offset"
hexmask.long.tbyte 0x00 4.--23. 1. "OFST,Line offset"
group.long 0x80++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_CTRL_i_0,Logical channel control register"
bitfld.long 0x00 20.--22. "HWSTOP,DMA logical channel hardware synchronization" "HWSTOP_0,?,?,?,HWSTOP_4,HWSTOP_5,HWSTOP_6,HWSTOP_7"
bitfld.long 0x00 17.--19. "HWSTART,DMA logical channel hardware synchronization" "HWSTART_0,?,?,?,HWSTART_4,HWSTART_5,HWSTART_6,HWSTART_7"
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bitfld.long 0x00 12.--16. "LINKED,DMA logical channel linking" "LINKED_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,LINKED_16,LINKED_17,LINKED_18,LINKED_19,LINKED_20,LINKED_21,LINKED_22,LINKED_23,?,?,?,?,?,?,?,?"
bitfld.long 0x00 6. "TILERMODE,Selects OCP transaction breakdown" "TILERMODE_0,TILERMODE_1"
newline
bitfld.long 0x00 5. "DIR,Transfer direction" "DIR_0,DIR_1"
rbitfld.long 0x00 3.--4. "STATUS,SW could poll this bit to know the state of" "STATUS_0_r,STATUS_1_r,STATUS_2_r,STATUS_3_r"
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bitfld.long 0x00 2. "SWTRIGGER,Software trigger of the DMA channel" "SWTRIGGER_0_w,SWTRIGGER_1_w"
bitfld.long 0x00 1. "DISABLE,Disable control of the logical channel" "DISABLE_0_w,DISABLE_1_w"
newline
bitfld.long 0x00 0. "ENABLE,Enable control of the logical channel" "ENABLE_0_w,ENABLE_1_w"
rgroup.long 0xA0++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_CURRENT_BLOCK_i_0,SW could read the coordinates of the last transferred block"
hexmask.long.word 0x00 16.--25. 1. "BY,Vertical position of the last transferred 2D block in the frame"
hexmask.long.word 0x00 0.--9. 1. "BX,Horizontal position of the last transferred 2D block in the frame"
group.long 0x98++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_FRAME_i_0,Defines a frame"
hexmask.long.word 0x00 16.--25. 1. "YCNT,Vertical count of 2D blocks per frame"
hexmask.long.word 0x00 0.--9. 1. "XCNT,Horizontal count of 2D blocks per frame"
group.long 0x84++0x07
line.long 0x00 "SIMCOP_DMA_CHAN_SMEM_ADDR_i_0,System memory address"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128-bit words"
line.long 0x04 "SIMCOP_DMA_CHAN_SMEM_OFST_i_0,System memory line offset in 128-bit words"
hexmask.long.word 0x04 4.--19. 1. "OFST,Line offset"
group.long 0x2C++0x03
line.long 0x00 "SIMCOP_DMA_IRQENABLE_CLR_j_0,Per-event interrupt enable bit vector Write 1 to clear (disable interrupt)"
bitfld.long 0x00 31. "CHAN7_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN7_FRAME_DONE_IRQ_0_r,CHAN7_FRAME_DONE_IRQ_1_w"
bitfld.long 0x00 30. "CHAN6_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN6_FRAME_DONE_IRQ_0_r,CHAN6_FRAME_DONE_IRQ_1_w"
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bitfld.long 0x00 29. "CHAN5_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN5_FRAME_DONE_IRQ_0_r,CHAN5_FRAME_DONE_IRQ_1_w"
bitfld.long 0x00 28. "CHAN4_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN4_FRAME_DONE_IRQ_0_r,CHAN4_FRAME_DONE_IRQ_1_w"
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bitfld.long 0x00 27. "CHAN3_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN3_FRAME_DONE_IRQ_0_r,CHAN3_FRAME_DONE_IRQ_1_w"
bitfld.long 0x00 26. "CHAN2_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN2_FRAME_DONE_IRQ_0_r,CHAN2_FRAME_DONE_IRQ_1_w"
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bitfld.long 0x00 25. "CHAN1_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN1_FRAME_DONE_IRQ_0_r,CHAN1_FRAME_DONE_IRQ_1_w"
bitfld.long 0x00 24. "CHAN0_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN0_FRAME_DONE_IRQ_0_r,CHAN0_FRAME_DONE_IRQ_1_w"
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bitfld.long 0x00 23. "CHAN7_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN7_BLOCK_DONE_IRQ_0_r,CHAN7_BLOCK_DONE_IRQ_1_w"
bitfld.long 0x00 22. "CHAN6_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN6_BLOCK_DONE_IRQ_0_r,CHAN6_BLOCK_DONE_IRQ_1_w"
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bitfld.long 0x00 21. "CHAN5_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN5_BLOCK_DONE_IRQ_0_r,CHAN5_BLOCK_DONE_IRQ_1_w"
bitfld.long 0x00 20. "CHAN4_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN4_BLOCK_DONE_IRQ_0_r,CHAN4_BLOCK_DONE_IRQ_1_w"
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bitfld.long 0x00 19. "CHAN3_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN3_BLOCK_DONE_IRQ_0_r,CHAN3_BLOCK_DONE_IRQ_1_w"
bitfld.long 0x00 18. "CHAN2_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN2_BLOCK_DONE_IRQ_0_r,CHAN2_BLOCK_DONE_IRQ_1_w"
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bitfld.long 0x00 17. "CHAN1_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN1_BLOCK_DONE_IRQ_0_r,CHAN1_BLOCK_DONE_IRQ_1_w"
bitfld.long 0x00 16. "CHAN0_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN0_BLOCK_DONE_IRQ_0_r,CHAN0_BLOCK_DONE_IRQ_1_w"
newline
bitfld.long 0x00 0. "OCP_ERR,OCP error" "OCP_ERR_0_r,OCP_ERR_1_w"
group.long 0x28++0x03
line.long 0x00 "SIMCOP_DMA_IRQENABLE_SET_j_0,Per-event interrupt enable bit vector Write 1 to set (enable interrupt)"
bitfld.long 0x00 31. "CHAN7_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN7_FRAME_DONE_IRQ_0_r,CHAN7_FRAME_DONE_IRQ_1_w"
bitfld.long 0x00 30. "CHAN6_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN6_FRAME_DONE_IRQ_0_r,CHAN6_FRAME_DONE_IRQ_1_w"
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bitfld.long 0x00 29. "CHAN5_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN5_FRAME_DONE_IRQ_0_r,CHAN5_FRAME_DONE_IRQ_1_w"
bitfld.long 0x00 28. "CHAN4_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN4_FRAME_DONE_IRQ_0_r,CHAN4_FRAME_DONE_IRQ_1_w"
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bitfld.long 0x00 27. "CHAN3_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN3_FRAME_DONE_IRQ_0_r,CHAN3_FRAME_DONE_IRQ_1_w"
bitfld.long 0x00 26. "CHAN2_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN2_FRAME_DONE_IRQ_0_r,CHAN2_FRAME_DONE_IRQ_1_w"
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bitfld.long 0x00 25. "CHAN1_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN1_FRAME_DONE_IRQ_0_r,CHAN1_FRAME_DONE_IRQ_1_w"
bitfld.long 0x00 24. "CHAN0_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN0_FRAME_DONE_IRQ_0_r,CHAN0_FRAME_DONE_IRQ_1_w"
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bitfld.long 0x00 23. "CHAN7_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN7_BLOCK_DONE_IRQ_0_r,CHAN7_BLOCK_DONE_IRQ_1_w"
bitfld.long 0x00 22. "CHAN6_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN6_BLOCK_DONE_IRQ_0_r,CHAN6_BLOCK_DONE_IRQ_1_w"
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bitfld.long 0x00 21. "CHAN5_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN5_BLOCK_DONE_IRQ_0_r,CHAN5_BLOCK_DONE_IRQ_1_w"
bitfld.long 0x00 20. "CHAN4_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN4_BLOCK_DONE_IRQ_0_r,CHAN4_BLOCK_DONE_IRQ_1_w"
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bitfld.long 0x00 19. "CHAN3_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN3_BLOCK_DONE_IRQ_0_r,CHAN3_BLOCK_DONE_IRQ_1_w"
bitfld.long 0x00 18. "CHAN2_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN2_BLOCK_DONE_IRQ_0_r,CHAN2_BLOCK_DONE_IRQ_1_w"
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bitfld.long 0x00 17. "CHAN1_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN1_BLOCK_DONE_IRQ_0_r,CHAN1_BLOCK_DONE_IRQ_1_w"
bitfld.long 0x00 16. "CHAN0_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN0_BLOCK_DONE_IRQ_0_r,CHAN0_BLOCK_DONE_IRQ_1_w"
newline
bitfld.long 0x00 0. "OCP_ERR,OCP error" "OCP_ERR_0_r,OCP_ERR_1_w"
group.long 0x20++0x07
line.long 0x00 "SIMCOP_DMA_IRQSTATUS_RAW_j_0,Per-event raw interrupt status vector Raw status is set even if event is not enabled"
bitfld.long 0x00 31. "CHAN7_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN7_FRAME_DONE_IRQ_0_r,CHAN7_FRAME_DONE_IRQ_1_w"
bitfld.long 0x00 30. "CHAN6_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN6_FRAME_DONE_IRQ_0_r,CHAN6_FRAME_DONE_IRQ_1_w"
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bitfld.long 0x00 29. "CHAN5_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN5_FRAME_DONE_IRQ_0_r,CHAN5_FRAME_DONE_IRQ_1_w"
bitfld.long 0x00 28. "CHAN4_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN4_FRAME_DONE_IRQ_0_r,CHAN4_FRAME_DONE_IRQ_1_w"
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bitfld.long 0x00 27. "CHAN3_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN3_FRAME_DONE_IRQ_0_r,CHAN3_FRAME_DONE_IRQ_1_w"
bitfld.long 0x00 26. "CHAN2_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN2_FRAME_DONE_IRQ_0_r,CHAN2_FRAME_DONE_IRQ_1_w"
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bitfld.long 0x00 25. "CHAN1_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN1_FRAME_DONE_IRQ_0_r,CHAN1_FRAME_DONE_IRQ_1_w"
bitfld.long 0x00 24. "CHAN0_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN0_FRAME_DONE_IRQ_0_r,CHAN0_FRAME_DONE_IRQ_1_w"
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bitfld.long 0x00 23. "CHAN7_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN7_BLOCK_DONE_IRQ_0_r,CHAN7_BLOCK_DONE_IRQ_1_w"
bitfld.long 0x00 22. "CHAN6_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN6_BLOCK_DONE_IRQ_0_r,CHAN6_BLOCK_DONE_IRQ_1_w"
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bitfld.long 0x00 21. "CHAN5_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN5_BLOCK_DONE_IRQ_0_r,CHAN5_BLOCK_DONE_IRQ_1_w"
bitfld.long 0x00 20. "CHAN4_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN4_BLOCK_DONE_IRQ_0_r,CHAN4_BLOCK_DONE_IRQ_1_w"
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bitfld.long 0x00 19. "CHAN3_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN3_BLOCK_DONE_IRQ_0_r,CHAN3_BLOCK_DONE_IRQ_1_w"
bitfld.long 0x00 18. "CHAN2_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN2_BLOCK_DONE_IRQ_0_r,CHAN2_BLOCK_DONE_IRQ_1_w"
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bitfld.long 0x00 17. "CHAN1_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN1_BLOCK_DONE_IRQ_0_r,CHAN1_BLOCK_DONE_IRQ_1_w"
bitfld.long 0x00 16. "CHAN0_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN0_BLOCK_DONE_IRQ_0_r,CHAN0_BLOCK_DONE_IRQ_1_w"
newline
bitfld.long 0x00 0. "OCP_ERR,OCP error" "OCP_ERR_0_r,OCP_ERR_1_w"
line.long 0x04 "SIMCOP_DMA_IRQSTATUS_j_0,Per-event 'enabled' interrupt status vector Enabled status is not set unless event is enabled"
bitfld.long 0x04 31. "CHAN7_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN7_FRAME_DONE_IRQ_0_r,CHAN7_FRAME_DONE_IRQ_1_w"
bitfld.long 0x04 30. "CHAN6_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN6_FRAME_DONE_IRQ_0_r,CHAN6_FRAME_DONE_IRQ_1_w"
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bitfld.long 0x04 29. "CHAN5_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN5_FRAME_DONE_IRQ_0_r,CHAN5_FRAME_DONE_IRQ_1_w"
bitfld.long 0x04 28. "CHAN4_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN4_FRAME_DONE_IRQ_0_r,CHAN4_FRAME_DONE_IRQ_1_w"
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bitfld.long 0x04 27. "CHAN3_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN3_FRAME_DONE_IRQ_0_r,CHAN3_FRAME_DONE_IRQ_1_w"
bitfld.long 0x04 26. "CHAN2_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN2_FRAME_DONE_IRQ_0_r,CHAN2_FRAME_DONE_IRQ_1_w"
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bitfld.long 0x04 25. "CHAN1_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN1_FRAME_DONE_IRQ_0_r,CHAN1_FRAME_DONE_IRQ_1_w"
bitfld.long 0x04 24. "CHAN0_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN0_FRAME_DONE_IRQ_0_r,CHAN0_FRAME_DONE_IRQ_1_w"
newline
bitfld.long 0x04 23. "CHAN7_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN7_BLOCK_DONE_IRQ_0_r,CHAN7_BLOCK_DONE_IRQ_1_w"
bitfld.long 0x04 22. "CHAN6_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN6_BLOCK_DONE_IRQ_0_r,CHAN6_BLOCK_DONE_IRQ_1_w"
newline
bitfld.long 0x04 21. "CHAN5_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN5_BLOCK_DONE_IRQ_0_r,CHAN5_BLOCK_DONE_IRQ_1_w"
bitfld.long 0x04 20. "CHAN4_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN4_BLOCK_DONE_IRQ_0_r,CHAN4_BLOCK_DONE_IRQ_1_w"
newline
bitfld.long 0x04 19. "CHAN3_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN3_BLOCK_DONE_IRQ_0_r,CHAN3_BLOCK_DONE_IRQ_1_w"
bitfld.long 0x04 18. "CHAN2_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN2_BLOCK_DONE_IRQ_0_r,CHAN2_BLOCK_DONE_IRQ_1_w"
newline
bitfld.long 0x04 17. "CHAN1_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN1_BLOCK_DONE_IRQ_0_r,CHAN1_BLOCK_DONE_IRQ_1_w"
bitfld.long 0x04 16. "CHAN0_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN0_BLOCK_DONE_IRQ_0_r,CHAN0_BLOCK_DONE_IRQ_1_w"
newline
bitfld.long 0x04 0. "BUS_ERR,BUS error" "BUS_ERR_0_r,BUS_ERR_1_w"
tree.end
tree "DMA_Channel_1"
group.long 0xC4++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_BLOCK_SIZE_i_1,2D block size"
hexmask.long.word 0x00 16.--28. 1. "YNUM,Height in lines per 2D block Valid values are 1- 8191"
hexmask.long.word 0x00 4.--13. 1. "XNUM,Width in 128-bit words per 2D block"
group.long 0xD4++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_BLOCK_STEP_i_1,Offset between 2D blocks"
hexmask.long.word 0x00 16.--29. 1. "YSTEP,Vertical offset in lines between rows of 2D blocks"
hexmask.long.word 0x00 4.--14. 1. "XSTEP,Horizontal offset in 128-bit words between 2D block columns"
group.long 0xC0++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_BUF_ADDR_i_1,SIMCOP memory address"
hexmask.long.tbyte 0x00 4.--23. 1. "ADDR,Address in 128-bit words"
group.long 0xBC++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_BUF_OFST_i_1,SIMCOP memory line offset"
hexmask.long.tbyte 0x00 4.--23. 1. "OFST,Line offset"
group.long 0xB0++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_CTRL_i_1,Logical channel control register"
bitfld.long 0x00 20.--22. "HWSTOP,DMA logical channel hardware synchronization" "HWSTOP_0,?,?,?,HWSTOP_4,HWSTOP_5,HWSTOP_6,HWSTOP_7"
bitfld.long 0x00 17.--19. "HWSTART,DMA logical channel hardware synchronization" "HWSTART_0,?,?,?,HWSTART_4,HWSTART_5,HWSTART_6,HWSTART_7"
newline
bitfld.long 0x00 12.--16. "LINKED,DMA logical channel linking" "LINKED_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,LINKED_16,LINKED_17,LINKED_18,LINKED_19,LINKED_20,LINKED_21,LINKED_22,LINKED_23,?,?,?,?,?,?,?,?"
bitfld.long 0x00 6. "TILERMODE,Selects OCP transaction breakdown" "TILERMODE_0,TILERMODE_1"
newline
bitfld.long 0x00 5. "DIR,Transfer direction" "DIR_0,DIR_1"
rbitfld.long 0x00 3.--4. "STATUS,SW could poll this bit to know the state of" "STATUS_0_r,STATUS_1_r,STATUS_2_r,STATUS_3_r"
newline
bitfld.long 0x00 2. "SWTRIGGER,Software trigger of the DMA channel" "SWTRIGGER_0_w,SWTRIGGER_1_w"
bitfld.long 0x00 1. "DISABLE,Disable control of the logical channel" "DISABLE_0_w,DISABLE_1_w"
newline
bitfld.long 0x00 0. "ENABLE,Enable control of the logical channel" "ENABLE_0_w,ENABLE_1_w"
rgroup.long 0xD0++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_CURRENT_BLOCK_i_1,SW could read the coordinates of the last transferred block"
hexmask.long.word 0x00 16.--25. 1. "BY,Vertical position of the last transferred 2D block in the frame"
hexmask.long.word 0x00 0.--9. 1. "BX,Horizontal position of the last transferred 2D block in the frame"
group.long 0xC8++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_FRAME_i_1,Defines a frame"
hexmask.long.word 0x00 16.--25. 1. "YCNT,Vertical count of 2D blocks per frame"
hexmask.long.word 0x00 0.--9. 1. "XCNT,Horizontal count of 2D blocks per frame"
group.long 0xB4++0x07
line.long 0x00 "SIMCOP_DMA_CHAN_SMEM_ADDR_i_1,System memory address"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128-bit words"
line.long 0x04 "SIMCOP_DMA_CHAN_SMEM_OFST_i_1,System memory line offset in 128-bit words"
hexmask.long.word 0x04 4.--19. 1. "OFST,Line offset"
group.long 0x3C++0x03
line.long 0x00 "SIMCOP_DMA_IRQENABLE_CLR_j_1,Per-event interrupt enable bit vector Write 1 to clear (disable interrupt)"
bitfld.long 0x00 31. "CHAN7_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN7_FRAME_DONE_IRQ_0_r,CHAN7_FRAME_DONE_IRQ_1_w"
bitfld.long 0x00 30. "CHAN6_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN6_FRAME_DONE_IRQ_0_r,CHAN6_FRAME_DONE_IRQ_1_w"
newline
bitfld.long 0x00 29. "CHAN5_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN5_FRAME_DONE_IRQ_0_r,CHAN5_FRAME_DONE_IRQ_1_w"
bitfld.long 0x00 28. "CHAN4_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN4_FRAME_DONE_IRQ_0_r,CHAN4_FRAME_DONE_IRQ_1_w"
newline
bitfld.long 0x00 27. "CHAN3_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN3_FRAME_DONE_IRQ_0_r,CHAN3_FRAME_DONE_IRQ_1_w"
bitfld.long 0x00 26. "CHAN2_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN2_FRAME_DONE_IRQ_0_r,CHAN2_FRAME_DONE_IRQ_1_w"
newline
bitfld.long 0x00 25. "CHAN1_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN1_FRAME_DONE_IRQ_0_r,CHAN1_FRAME_DONE_IRQ_1_w"
bitfld.long 0x00 24. "CHAN0_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN0_FRAME_DONE_IRQ_0_r,CHAN0_FRAME_DONE_IRQ_1_w"
newline
bitfld.long 0x00 23. "CHAN7_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN7_BLOCK_DONE_IRQ_0_r,CHAN7_BLOCK_DONE_IRQ_1_w"
bitfld.long 0x00 22. "CHAN6_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN6_BLOCK_DONE_IRQ_0_r,CHAN6_BLOCK_DONE_IRQ_1_w"
newline
bitfld.long 0x00 21. "CHAN5_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN5_BLOCK_DONE_IRQ_0_r,CHAN5_BLOCK_DONE_IRQ_1_w"
bitfld.long 0x00 20. "CHAN4_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN4_BLOCK_DONE_IRQ_0_r,CHAN4_BLOCK_DONE_IRQ_1_w"
newline
bitfld.long 0x00 19. "CHAN3_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN3_BLOCK_DONE_IRQ_0_r,CHAN3_BLOCK_DONE_IRQ_1_w"
bitfld.long 0x00 18. "CHAN2_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN2_BLOCK_DONE_IRQ_0_r,CHAN2_BLOCK_DONE_IRQ_1_w"
newline
bitfld.long 0x00 17. "CHAN1_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN1_BLOCK_DONE_IRQ_0_r,CHAN1_BLOCK_DONE_IRQ_1_w"
bitfld.long 0x00 16. "CHAN0_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN0_BLOCK_DONE_IRQ_0_r,CHAN0_BLOCK_DONE_IRQ_1_w"
newline
bitfld.long 0x00 0. "OCP_ERR,OCP error" "OCP_ERR_0_r,OCP_ERR_1_w"
group.long 0x38++0x03
line.long 0x00 "SIMCOP_DMA_IRQENABLE_SET_j_1,Per-event interrupt enable bit vector Write 1 to set (enable interrupt)"
bitfld.long 0x00 31. "CHAN7_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN7_FRAME_DONE_IRQ_0_r,CHAN7_FRAME_DONE_IRQ_1_w"
bitfld.long 0x00 30. "CHAN6_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN6_FRAME_DONE_IRQ_0_r,CHAN6_FRAME_DONE_IRQ_1_w"
newline
bitfld.long 0x00 29. "CHAN5_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN5_FRAME_DONE_IRQ_0_r,CHAN5_FRAME_DONE_IRQ_1_w"
bitfld.long 0x00 28. "CHAN4_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN4_FRAME_DONE_IRQ_0_r,CHAN4_FRAME_DONE_IRQ_1_w"
newline
bitfld.long 0x00 27. "CHAN3_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN3_FRAME_DONE_IRQ_0_r,CHAN3_FRAME_DONE_IRQ_1_w"
bitfld.long 0x00 26. "CHAN2_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN2_FRAME_DONE_IRQ_0_r,CHAN2_FRAME_DONE_IRQ_1_w"
newline
bitfld.long 0x00 25. "CHAN1_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN1_FRAME_DONE_IRQ_0_r,CHAN1_FRAME_DONE_IRQ_1_w"
bitfld.long 0x00 24. "CHAN0_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN0_FRAME_DONE_IRQ_0_r,CHAN0_FRAME_DONE_IRQ_1_w"
newline
bitfld.long 0x00 23. "CHAN7_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN7_BLOCK_DONE_IRQ_0_r,CHAN7_BLOCK_DONE_IRQ_1_w"
bitfld.long 0x00 22. "CHAN6_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN6_BLOCK_DONE_IRQ_0_r,CHAN6_BLOCK_DONE_IRQ_1_w"
newline
bitfld.long 0x00 21. "CHAN5_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN5_BLOCK_DONE_IRQ_0_r,CHAN5_BLOCK_DONE_IRQ_1_w"
bitfld.long 0x00 20. "CHAN4_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN4_BLOCK_DONE_IRQ_0_r,CHAN4_BLOCK_DONE_IRQ_1_w"
newline
bitfld.long 0x00 19. "CHAN3_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN3_BLOCK_DONE_IRQ_0_r,CHAN3_BLOCK_DONE_IRQ_1_w"
bitfld.long 0x00 18. "CHAN2_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN2_BLOCK_DONE_IRQ_0_r,CHAN2_BLOCK_DONE_IRQ_1_w"
newline
bitfld.long 0x00 17. "CHAN1_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN1_BLOCK_DONE_IRQ_0_r,CHAN1_BLOCK_DONE_IRQ_1_w"
bitfld.long 0x00 16. "CHAN0_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN0_BLOCK_DONE_IRQ_0_r,CHAN0_BLOCK_DONE_IRQ_1_w"
newline
bitfld.long 0x00 0. "OCP_ERR,OCP error" "OCP_ERR_0_r,OCP_ERR_1_w"
group.long 0x30++0x07
line.long 0x00 "SIMCOP_DMA_IRQSTATUS_RAW_j_1,Per-event raw interrupt status vector Raw status is set even if event is not enabled"
bitfld.long 0x00 31. "CHAN7_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN7_FRAME_DONE_IRQ_0_r,CHAN7_FRAME_DONE_IRQ_1_w"
bitfld.long 0x00 30. "CHAN6_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN6_FRAME_DONE_IRQ_0_r,CHAN6_FRAME_DONE_IRQ_1_w"
newline
bitfld.long 0x00 29. "CHAN5_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN5_FRAME_DONE_IRQ_0_r,CHAN5_FRAME_DONE_IRQ_1_w"
bitfld.long 0x00 28. "CHAN4_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN4_FRAME_DONE_IRQ_0_r,CHAN4_FRAME_DONE_IRQ_1_w"
newline
bitfld.long 0x00 27. "CHAN3_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN3_FRAME_DONE_IRQ_0_r,CHAN3_FRAME_DONE_IRQ_1_w"
bitfld.long 0x00 26. "CHAN2_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN2_FRAME_DONE_IRQ_0_r,CHAN2_FRAME_DONE_IRQ_1_w"
newline
bitfld.long 0x00 25. "CHAN1_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN1_FRAME_DONE_IRQ_0_r,CHAN1_FRAME_DONE_IRQ_1_w"
bitfld.long 0x00 24. "CHAN0_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN0_FRAME_DONE_IRQ_0_r,CHAN0_FRAME_DONE_IRQ_1_w"
newline
bitfld.long 0x00 23. "CHAN7_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN7_BLOCK_DONE_IRQ_0_r,CHAN7_BLOCK_DONE_IRQ_1_w"
bitfld.long 0x00 22. "CHAN6_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN6_BLOCK_DONE_IRQ_0_r,CHAN6_BLOCK_DONE_IRQ_1_w"
newline
bitfld.long 0x00 21. "CHAN5_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN5_BLOCK_DONE_IRQ_0_r,CHAN5_BLOCK_DONE_IRQ_1_w"
bitfld.long 0x00 20. "CHAN4_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN4_BLOCK_DONE_IRQ_0_r,CHAN4_BLOCK_DONE_IRQ_1_w"
newline
bitfld.long 0x00 19. "CHAN3_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN3_BLOCK_DONE_IRQ_0_r,CHAN3_BLOCK_DONE_IRQ_1_w"
bitfld.long 0x00 18. "CHAN2_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN2_BLOCK_DONE_IRQ_0_r,CHAN2_BLOCK_DONE_IRQ_1_w"
newline
bitfld.long 0x00 17. "CHAN1_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN1_BLOCK_DONE_IRQ_0_r,CHAN1_BLOCK_DONE_IRQ_1_w"
bitfld.long 0x00 16. "CHAN0_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN0_BLOCK_DONE_IRQ_0_r,CHAN0_BLOCK_DONE_IRQ_1_w"
newline
bitfld.long 0x00 0. "OCP_ERR,OCP error" "OCP_ERR_0_r,OCP_ERR_1_w"
line.long 0x04 "SIMCOP_DMA_IRQSTATUS_j_1,Per-event 'enabled' interrupt status vector Enabled status is not set unless event is enabled"
bitfld.long 0x04 31. "CHAN7_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN7_FRAME_DONE_IRQ_0_r,CHAN7_FRAME_DONE_IRQ_1_w"
bitfld.long 0x04 30. "CHAN6_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN6_FRAME_DONE_IRQ_0_r,CHAN6_FRAME_DONE_IRQ_1_w"
newline
bitfld.long 0x04 29. "CHAN5_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN5_FRAME_DONE_IRQ_0_r,CHAN5_FRAME_DONE_IRQ_1_w"
bitfld.long 0x04 28. "CHAN4_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN4_FRAME_DONE_IRQ_0_r,CHAN4_FRAME_DONE_IRQ_1_w"
newline
bitfld.long 0x04 27. "CHAN3_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN3_FRAME_DONE_IRQ_0_r,CHAN3_FRAME_DONE_IRQ_1_w"
bitfld.long 0x04 26. "CHAN2_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN2_FRAME_DONE_IRQ_0_r,CHAN2_FRAME_DONE_IRQ_1_w"
newline
bitfld.long 0x04 25. "CHAN1_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN1_FRAME_DONE_IRQ_0_r,CHAN1_FRAME_DONE_IRQ_1_w"
bitfld.long 0x04 24. "CHAN0_FRAME_DONE_IRQ,Channel has completed transfer of the full frame" "CHAN0_FRAME_DONE_IRQ_0_r,CHAN0_FRAME_DONE_IRQ_1_w"
newline
bitfld.long 0x04 23. "CHAN7_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN7_BLOCK_DONE_IRQ_0_r,CHAN7_BLOCK_DONE_IRQ_1_w"
bitfld.long 0x04 22. "CHAN6_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN6_BLOCK_DONE_IRQ_0_r,CHAN6_BLOCK_DONE_IRQ_1_w"
newline
bitfld.long 0x04 21. "CHAN5_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN5_BLOCK_DONE_IRQ_0_r,CHAN5_BLOCK_DONE_IRQ_1_w"
bitfld.long 0x04 20. "CHAN4_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN4_BLOCK_DONE_IRQ_0_r,CHAN4_BLOCK_DONE_IRQ_1_w"
newline
bitfld.long 0x04 19. "CHAN3_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN3_BLOCK_DONE_IRQ_0_r,CHAN3_BLOCK_DONE_IRQ_1_w"
bitfld.long 0x04 18. "CHAN2_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN2_BLOCK_DONE_IRQ_0_r,CHAN2_BLOCK_DONE_IRQ_1_w"
newline
bitfld.long 0x04 17. "CHAN1_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN1_BLOCK_DONE_IRQ_0_r,CHAN1_BLOCK_DONE_IRQ_1_w"
bitfld.long 0x04 16. "CHAN0_BLOCK_DONE_IRQ,Channel has completed transfer of one 2D block" "CHAN0_BLOCK_DONE_IRQ_0_r,CHAN0_BLOCK_DONE_IRQ_1_w"
newline
bitfld.long 0x04 0. "BUS_ERR,BUS error" "BUS_ERR_0_r,BUS_ERR_1_w"
tree.end
tree "DMA_Channel_2"
group.long 0xF4++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_BLOCK_SIZE_i_2,2D block size"
hexmask.long.word 0x00 16.--28. 1. "YNUM,Height in lines per 2D block Valid values are 1- 8191"
hexmask.long.word 0x00 4.--13. 1. "XNUM,Width in 128-bit words per 2D block"
group.long 0x104++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_BLOCK_STEP_i_2,Offset between 2D blocks"
hexmask.long.word 0x00 16.--29. 1. "YSTEP,Vertical offset in lines between rows of 2D blocks"
hexmask.long.word 0x00 4.--14. 1. "XSTEP,Horizontal offset in 128-bit words between 2D block columns"
group.long 0xF0++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_BUF_ADDR_i_2,SIMCOP memory address"
hexmask.long.tbyte 0x00 4.--23. 1. "ADDR,Address in 128-bit words"
group.long 0xEC++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_BUF_OFST_i_2,SIMCOP memory line offset"
hexmask.long.tbyte 0x00 4.--23. 1. "OFST,Line offset"
group.long 0xE0++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_CTRL_i_2,Logical channel control register"
bitfld.long 0x00 20.--22. "HWSTOP,DMA logical channel hardware synchronization" "HWSTOP_0,?,?,?,HWSTOP_4,HWSTOP_5,HWSTOP_6,HWSTOP_7"
bitfld.long 0x00 17.--19. "HWSTART,DMA logical channel hardware synchronization" "HWSTART_0,?,?,?,HWSTART_4,HWSTART_5,HWSTART_6,HWSTART_7"
bitfld.long 0x00 12.--16. "LINKED,DMA logical channel linking" "LINKED_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,LINKED_16,LINKED_17,LINKED_18,LINKED_19,LINKED_20,LINKED_21,LINKED_22,LINKED_23,?,?,?,?,?,?,?,?"
bitfld.long 0x00 6. "TILERMODE,Selects OCP transaction breakdown" "TILERMODE_0,TILERMODE_1"
bitfld.long 0x00 5. "DIR,Transfer direction" "DIR_0,DIR_1"
newline
rbitfld.long 0x00 3.--4. "STATUS,SW could poll this bit to know the state of" "STATUS_0_r,STATUS_1_r,STATUS_2_r,STATUS_3_r"
bitfld.long 0x00 2. "SWTRIGGER,Software trigger of the DMA channel" "SWTRIGGER_0_w,SWTRIGGER_1_w"
bitfld.long 0x00 1. "DISABLE,Disable control of the logical channel" "DISABLE_0_w,DISABLE_1_w"
bitfld.long 0x00 0. "ENABLE,Enable control of the logical channel" "ENABLE_0_w,ENABLE_1_w"
rgroup.long 0x100++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_CURRENT_BLOCK_i_2,SW could read the coordinates of the last transferred block"
hexmask.long.word 0x00 16.--25. 1. "BY,Vertical position of the last transferred 2D block in the frame"
hexmask.long.word 0x00 0.--9. 1. "BX,Horizontal position of the last transferred 2D block in the frame"
group.long 0xF8++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_FRAME_i_2,Defines a frame"
hexmask.long.word 0x00 16.--25. 1. "YCNT,Vertical count of 2D blocks per frame"
hexmask.long.word 0x00 0.--9. 1. "XCNT,Horizontal count of 2D blocks per frame"
group.long 0xE4++0x07
line.long 0x00 "SIMCOP_DMA_CHAN_SMEM_ADDR_i_2,System memory address"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128-bit words"
line.long 0x04 "SIMCOP_DMA_CHAN_SMEM_OFST_i_2,System memory line offset in 128-bit words"
hexmask.long.word 0x04 4.--19. 1. "OFST,Line offset"
tree.end
tree "DMA_Channel_3"
group.long 0x124++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_BLOCK_SIZE_i_3,2D block size"
hexmask.long.word 0x00 16.--28. 1. "YNUM,Height in lines per 2D block Valid values are 1- 8191"
hexmask.long.word 0x00 4.--13. 1. "XNUM,Width in 128-bit words per 2D block"
group.long 0x134++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_BLOCK_STEP_i_3,Offset between 2D blocks"
hexmask.long.word 0x00 16.--29. 1. "YSTEP,Vertical offset in lines between rows of 2D blocks"
hexmask.long.word 0x00 4.--14. 1. "XSTEP,Horizontal offset in 128-bit words between 2D block columns"
group.long 0x120++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_BUF_ADDR_i_3,SIMCOP memory address"
hexmask.long.tbyte 0x00 4.--23. 1. "ADDR,Address in 128-bit words"
group.long 0x11C++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_BUF_OFST_i_3,SIMCOP memory line offset"
hexmask.long.tbyte 0x00 4.--23. 1. "OFST,Line offset"
group.long 0x110++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_CTRL_i_3,Logical channel control register"
bitfld.long 0x00 20.--22. "HWSTOP,DMA logical channel hardware synchronization" "HWSTOP_0,?,?,?,HWSTOP_4,HWSTOP_5,HWSTOP_6,HWSTOP_7"
bitfld.long 0x00 17.--19. "HWSTART,DMA logical channel hardware synchronization" "HWSTART_0,?,?,?,HWSTART_4,HWSTART_5,HWSTART_6,HWSTART_7"
bitfld.long 0x00 12.--16. "LINKED,DMA logical channel linking" "LINKED_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,LINKED_16,LINKED_17,LINKED_18,LINKED_19,LINKED_20,LINKED_21,LINKED_22,LINKED_23,?,?,?,?,?,?,?,?"
bitfld.long 0x00 6. "TILERMODE,Selects OCP transaction breakdown" "TILERMODE_0,TILERMODE_1"
bitfld.long 0x00 5. "DIR,Transfer direction" "DIR_0,DIR_1"
newline
rbitfld.long 0x00 3.--4. "STATUS,SW could poll this bit to know the state of" "STATUS_0_r,STATUS_1_r,STATUS_2_r,STATUS_3_r"
bitfld.long 0x00 2. "SWTRIGGER,Software trigger of the DMA channel" "SWTRIGGER_0_w,SWTRIGGER_1_w"
bitfld.long 0x00 1. "DISABLE,Disable control of the logical channel" "DISABLE_0_w,DISABLE_1_w"
bitfld.long 0x00 0. "ENABLE,Enable control of the logical channel" "ENABLE_0_w,ENABLE_1_w"
rgroup.long 0x130++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_CURRENT_BLOCK_i_3,SW could read the coordinates of the last transferred block"
hexmask.long.word 0x00 16.--25. 1. "BY,Vertical position of the last transferred 2D block in the frame"
hexmask.long.word 0x00 0.--9. 1. "BX,Horizontal position of the last transferred 2D block in the frame"
group.long 0x128++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_FRAME_i_3,Defines a frame"
hexmask.long.word 0x00 16.--25. 1. "YCNT,Vertical count of 2D blocks per frame"
hexmask.long.word 0x00 0.--9. 1. "XCNT,Horizontal count of 2D blocks per frame"
group.long 0x114++0x07
line.long 0x00 "SIMCOP_DMA_CHAN_SMEM_ADDR_i_3,System memory address"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128-bit words"
line.long 0x04 "SIMCOP_DMA_CHAN_SMEM_OFST_i_3,System memory line offset in 128-bit words"
hexmask.long.word 0x04 4.--19. 1. "OFST,Line offset"
tree.end
tree "DMA_Channel_4"
group.long 0x154++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_BLOCK_SIZE_i_4,2D block size"
hexmask.long.word 0x00 16.--28. 1. "YNUM,Height in lines per 2D block Valid values are 1- 8191"
hexmask.long.word 0x00 4.--13. 1. "XNUM,Width in 128-bit words per 2D block"
group.long 0x164++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_BLOCK_STEP_i_4,Offset between 2D blocks"
hexmask.long.word 0x00 16.--29. 1. "YSTEP,Vertical offset in lines between rows of 2D blocks"
hexmask.long.word 0x00 4.--14. 1. "XSTEP,Horizontal offset in 128-bit words between 2D block columns"
group.long 0x150++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_BUF_ADDR_i_4,SIMCOP memory address"
hexmask.long.tbyte 0x00 4.--23. 1. "ADDR,Address in 128-bit words"
group.long 0x14C++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_BUF_OFST_i_4,SIMCOP memory line offset"
hexmask.long.tbyte 0x00 4.--23. 1. "OFST,Line offset"
group.long 0x140++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_CTRL_i_4,Logical channel control register"
bitfld.long 0x00 20.--22. "HWSTOP,DMA logical channel hardware synchronization" "HWSTOP_0,?,?,?,HWSTOP_4,HWSTOP_5,HWSTOP_6,HWSTOP_7"
bitfld.long 0x00 17.--19. "HWSTART,DMA logical channel hardware synchronization" "HWSTART_0,?,?,?,HWSTART_4,HWSTART_5,HWSTART_6,HWSTART_7"
bitfld.long 0x00 12.--16. "LINKED,DMA logical channel linking" "LINKED_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,LINKED_16,LINKED_17,LINKED_18,LINKED_19,LINKED_20,LINKED_21,LINKED_22,LINKED_23,?,?,?,?,?,?,?,?"
bitfld.long 0x00 6. "TILERMODE,Selects OCP transaction breakdown" "TILERMODE_0,TILERMODE_1"
bitfld.long 0x00 5. "DIR,Transfer direction" "DIR_0,DIR_1"
newline
rbitfld.long 0x00 3.--4. "STATUS,SW could poll this bit to know the state of" "STATUS_0_r,STATUS_1_r,STATUS_2_r,STATUS_3_r"
bitfld.long 0x00 2. "SWTRIGGER,Software trigger of the DMA channel" "SWTRIGGER_0_w,SWTRIGGER_1_w"
bitfld.long 0x00 1. "DISABLE,Disable control of the logical channel" "DISABLE_0_w,DISABLE_1_w"
bitfld.long 0x00 0. "ENABLE,Enable control of the logical channel" "ENABLE_0_w,ENABLE_1_w"
rgroup.long 0x160++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_CURRENT_BLOCK_i_4,SW could read the coordinates of the last transferred block"
hexmask.long.word 0x00 16.--25. 1. "BY,Vertical position of the last transferred 2D block in the frame"
hexmask.long.word 0x00 0.--9. 1. "BX,Horizontal position of the last transferred 2D block in the frame"
group.long 0x158++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_FRAME_i_4,Defines a frame"
hexmask.long.word 0x00 16.--25. 1. "YCNT,Vertical count of 2D blocks per frame"
hexmask.long.word 0x00 0.--9. 1. "XCNT,Horizontal count of 2D blocks per frame"
group.long 0x144++0x07
line.long 0x00 "SIMCOP_DMA_CHAN_SMEM_ADDR_i_4,System memory address"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128-bit words"
line.long 0x04 "SIMCOP_DMA_CHAN_SMEM_OFST_i_4,System memory line offset in 128-bit words"
hexmask.long.word 0x04 4.--19. 1. "OFST,Line offset"
tree.end
tree "DMA_Channel_5"
group.long 0x184++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_BLOCK_SIZE_i_5,2D block size"
hexmask.long.word 0x00 16.--28. 1. "YNUM,Height in lines per 2D block Valid values are 1- 8191"
hexmask.long.word 0x00 4.--13. 1. "XNUM,Width in 128-bit words per 2D block"
group.long 0x194++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_BLOCK_STEP_i_5,Offset between 2D blocks"
hexmask.long.word 0x00 16.--29. 1. "YSTEP,Vertical offset in lines between rows of 2D blocks"
hexmask.long.word 0x00 4.--14. 1. "XSTEP,Horizontal offset in 128-bit words between 2D block columns"
group.long 0x180++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_BUF_ADDR_i_5,SIMCOP memory address"
hexmask.long.tbyte 0x00 4.--23. 1. "ADDR,Address in 128-bit words"
group.long 0x17C++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_BUF_OFST_i_5,SIMCOP memory line offset"
hexmask.long.tbyte 0x00 4.--23. 1. "OFST,Line offset"
group.long 0x170++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_CTRL_i_5,Logical channel control register"
bitfld.long 0x00 20.--22. "HWSTOP,DMA logical channel hardware synchronization" "HWSTOP_0,?,?,?,HWSTOP_4,HWSTOP_5,HWSTOP_6,HWSTOP_7"
bitfld.long 0x00 17.--19. "HWSTART,DMA logical channel hardware synchronization" "HWSTART_0,?,?,?,HWSTART_4,HWSTART_5,HWSTART_6,HWSTART_7"
bitfld.long 0x00 12.--16. "LINKED,DMA logical channel linking" "LINKED_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,LINKED_16,LINKED_17,LINKED_18,LINKED_19,LINKED_20,LINKED_21,LINKED_22,LINKED_23,?,?,?,?,?,?,?,?"
bitfld.long 0x00 6. "TILERMODE,Selects OCP transaction breakdown" "TILERMODE_0,TILERMODE_1"
bitfld.long 0x00 5. "DIR,Transfer direction" "DIR_0,DIR_1"
newline
rbitfld.long 0x00 3.--4. "STATUS,SW could poll this bit to know the state of" "STATUS_0_r,STATUS_1_r,STATUS_2_r,STATUS_3_r"
bitfld.long 0x00 2. "SWTRIGGER,Software trigger of the DMA channel" "SWTRIGGER_0_w,SWTRIGGER_1_w"
bitfld.long 0x00 1. "DISABLE,Disable control of the logical channel" "DISABLE_0_w,DISABLE_1_w"
bitfld.long 0x00 0. "ENABLE,Enable control of the logical channel" "ENABLE_0_w,ENABLE_1_w"
rgroup.long 0x190++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_CURRENT_BLOCK_i_5,SW could read the coordinates of the last transferred block"
hexmask.long.word 0x00 16.--25. 1. "BY,Vertical position of the last transferred 2D block in the frame"
hexmask.long.word 0x00 0.--9. 1. "BX,Horizontal position of the last transferred 2D block in the frame"
group.long 0x188++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_FRAME_i_5,Defines a frame"
hexmask.long.word 0x00 16.--25. 1. "YCNT,Vertical count of 2D blocks per frame"
hexmask.long.word 0x00 0.--9. 1. "XCNT,Horizontal count of 2D blocks per frame"
group.long 0x174++0x07
line.long 0x00 "SIMCOP_DMA_CHAN_SMEM_ADDR_i_5,System memory address"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128-bit words"
line.long 0x04 "SIMCOP_DMA_CHAN_SMEM_OFST_i_5,System memory line offset in 128-bit words"
hexmask.long.word 0x04 4.--19. 1. "OFST,Line offset"
tree.end
tree "DMA_Channel_6"
group.long 0x1B4++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_BLOCK_SIZE_i_6,2D block size"
hexmask.long.word 0x00 16.--28. 1. "YNUM,Height in lines per 2D block Valid values are 1- 8191"
hexmask.long.word 0x00 4.--13. 1. "XNUM,Width in 128-bit words per 2D block"
group.long 0x1C4++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_BLOCK_STEP_i_6,Offset between 2D blocks"
hexmask.long.word 0x00 16.--29. 1. "YSTEP,Vertical offset in lines between rows of 2D blocks"
hexmask.long.word 0x00 4.--14. 1. "XSTEP,Horizontal offset in 128-bit words between 2D block columns"
group.long 0x1B0++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_BUF_ADDR_i_6,SIMCOP memory address"
hexmask.long.tbyte 0x00 4.--23. 1. "ADDR,Address in 128-bit words"
group.long 0x1AC++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_BUF_OFST_i_6,SIMCOP memory line offset"
hexmask.long.tbyte 0x00 4.--23. 1. "OFST,Line offset"
group.long 0x1A0++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_CTRL_i_6,Logical channel control register"
bitfld.long 0x00 20.--22. "HWSTOP,DMA logical channel hardware synchronization" "HWSTOP_0,?,?,?,HWSTOP_4,HWSTOP_5,HWSTOP_6,HWSTOP_7"
bitfld.long 0x00 17.--19. "HWSTART,DMA logical channel hardware synchronization" "HWSTART_0,?,?,?,HWSTART_4,HWSTART_5,HWSTART_6,HWSTART_7"
bitfld.long 0x00 12.--16. "LINKED,DMA logical channel linking" "LINKED_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,LINKED_16,LINKED_17,LINKED_18,LINKED_19,LINKED_20,LINKED_21,LINKED_22,LINKED_23,?,?,?,?,?,?,?,?"
bitfld.long 0x00 6. "TILERMODE,Selects OCP transaction breakdown" "TILERMODE_0,TILERMODE_1"
bitfld.long 0x00 5. "DIR,Transfer direction" "DIR_0,DIR_1"
newline
rbitfld.long 0x00 3.--4. "STATUS,SW could poll this bit to know the state of" "STATUS_0_r,STATUS_1_r,STATUS_2_r,STATUS_3_r"
bitfld.long 0x00 2. "SWTRIGGER,Software trigger of the DMA channel" "SWTRIGGER_0_w,SWTRIGGER_1_w"
bitfld.long 0x00 1. "DISABLE,Disable control of the logical channel" "DISABLE_0_w,DISABLE_1_w"
bitfld.long 0x00 0. "ENABLE,Enable control of the logical channel" "ENABLE_0_w,ENABLE_1_w"
rgroup.long 0x1C0++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_CURRENT_BLOCK_i_6,SW could read the coordinates of the last transferred block"
hexmask.long.word 0x00 16.--25. 1. "BY,Vertical position of the last transferred 2D block in the frame"
hexmask.long.word 0x00 0.--9. 1. "BX,Horizontal position of the last transferred 2D block in the frame"
group.long 0x1B8++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_FRAME_i_6,Defines a frame"
hexmask.long.word 0x00 16.--25. 1. "YCNT,Vertical count of 2D blocks per frame"
hexmask.long.word 0x00 0.--9. 1. "XCNT,Horizontal count of 2D blocks per frame"
group.long 0x1A4++0x07
line.long 0x00 "SIMCOP_DMA_CHAN_SMEM_ADDR_i_6,System memory address"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128-bit words"
line.long 0x04 "SIMCOP_DMA_CHAN_SMEM_OFST_i_6,System memory line offset in 128-bit words"
hexmask.long.word 0x04 4.--19. 1. "OFST,Line offset"
tree.end
tree "DMA_Channel_7"
group.long 0x1E4++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_BLOCK_SIZE_i_7,2D block size"
hexmask.long.word 0x00 16.--28. 1. "YNUM,Height in lines per 2D block Valid values are 1- 8191"
hexmask.long.word 0x00 4.--13. 1. "XNUM,Width in 128-bit words per 2D block"
group.long 0x1F4++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_BLOCK_STEP_i_7,Offset between 2D blocks"
hexmask.long.word 0x00 16.--29. 1. "YSTEP,Vertical offset in lines between rows of 2D blocks"
hexmask.long.word 0x00 4.--14. 1. "XSTEP,Horizontal offset in 128-bit words between 2D block columns"
group.long 0x1E0++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_BUF_ADDR_i_7,SIMCOP memory address"
hexmask.long.tbyte 0x00 4.--23. 1. "ADDR,Address in 128-bit words"
group.long 0x1DC++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_BUF_OFST_i_7,SIMCOP memory line offset"
hexmask.long.tbyte 0x00 4.--23. 1. "OFST,Line offset"
group.long 0x1D0++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_CTRL_i_7,Logical channel control register"
bitfld.long 0x00 20.--22. "HWSTOP,DMA logical channel hardware synchronization" "HWSTOP_0,?,?,?,HWSTOP_4,HWSTOP_5,HWSTOP_6,HWSTOP_7"
bitfld.long 0x00 17.--19. "HWSTART,DMA logical channel hardware synchronization" "HWSTART_0,?,?,?,HWSTART_4,HWSTART_5,HWSTART_6,HWSTART_7"
bitfld.long 0x00 12.--16. "LINKED,DMA logical channel linking" "LINKED_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,LINKED_16,LINKED_17,LINKED_18,LINKED_19,LINKED_20,LINKED_21,LINKED_22,LINKED_23,?,?,?,?,?,?,?,?"
bitfld.long 0x00 6. "TILERMODE,Selects OCP transaction breakdown" "TILERMODE_0,TILERMODE_1"
bitfld.long 0x00 5. "DIR,Transfer direction" "DIR_0,DIR_1"
newline
rbitfld.long 0x00 3.--4. "STATUS,SW could poll this bit to know the state of" "STATUS_0_r,STATUS_1_r,STATUS_2_r,STATUS_3_r"
bitfld.long 0x00 2. "SWTRIGGER,Software trigger of the DMA channel" "SWTRIGGER_0_w,SWTRIGGER_1_w"
bitfld.long 0x00 1. "DISABLE,Disable control of the logical channel" "DISABLE_0_w,DISABLE_1_w"
bitfld.long 0x00 0. "ENABLE,Enable control of the logical channel" "ENABLE_0_w,ENABLE_1_w"
rgroup.long 0x1F0++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_CURRENT_BLOCK_i_7,SW could read the coordinates of the last transferred block"
hexmask.long.word 0x00 16.--25. 1. "BY,Vertical position of the last transferred 2D block in the frame"
hexmask.long.word 0x00 0.--9. 1. "BX,Horizontal position of the last transferred 2D block in the frame"
group.long 0x1E8++0x03
line.long 0x00 "SIMCOP_DMA_CHAN_FRAME_i_7,Defines a frame"
hexmask.long.word 0x00 16.--25. 1. "YCNT,Vertical count of 2D blocks per frame"
hexmask.long.word 0x00 0.--9. 1. "XCNT,Horizontal count of 2D blocks per frame"
group.long 0x1D4++0x07
line.long 0x00 "SIMCOP_DMA_CHAN_SMEM_ADDR_i_7,System memory address"
hexmask.long 0x00 4.--31. 1. "ADDR,Address in 128-bit words"
line.long 0x04 "SIMCOP_DMA_CHAN_SMEM_OFST_i_7,System memory line offset in 128-bit words"
hexmask.long.word 0x04 4.--19. 1. "OFST,Line offset"
tree.end
group.long 0x1C++0x03
line.long 0x00 "SIMCOP_DMA_CTRL,"
hexmask.long.word 0x00 16.--31. 1. "BW_LIMITER,SIMCOP DMA guarantees that there are at least BW_LIMITER functional clock cycles between two OCP requests"
bitfld.long 0x00 4.--7. "TAG_CNT,Limits the outstanding transactions count" "TAG_CNT_0,TAG_CNT_1,TAG_CNT_2,TAG_CNT_3,TAG_CNT_4,TAG_CNT_5,TAG_CNT_6,TAG_CNT_7,TAG_CNT_8,TAG_CNT_9,TAG_CNT_10,TAG_CNT_11,TAG_CNT_12,TAG_CNT_13,TAG_CNT_14,TAG_CNT_15"
bitfld.long 0x00 3. "POSTED_WRITES,Select write type" "POSTED_WRITES_0,POSTED_WRITES_1"
bitfld.long 0x00 0.--1. "MAX_BURST_SIZE,Defines the maximum burst length for INCR bursts" "MAX_BURST_SIZE_0,MAX_BURST_SIZE_1,MAX_BURST_SIZE_2,MAX_BURST_SIZE_3"
rgroup.long 0x04++0x03
line.long 0x00 "SIMCOP_DMA_HWINFO,Information about the IP module's hardware configuration. that is. typically the module's HDL generics"
bitfld.long 0x00 2. "CHAN,Logical" "CHAN_0_r,CHAN_1_r"
bitfld.long 0x00 0.--1. "CONTEXT,Maximum outstanding OCP transactions" "CONTEXT_0_r,CONTEXT_1_r,CONTEXT_2_r,?"
rgroup.long 0x00++0x03
line.long 0x00 "SIMCOP_DMA_REVISION,IP Revision Identifier (X.Y.R) Used by software to track features. bugs. and compatibility"
group.long 0x10++0x03
line.long 0x00 "SIMCOP_DMA_SYSCONFIG,Clock management configuration"
bitfld.long 0x00 4.--5. "STANDBYMODE,Configuration of the local initiator state management mode" "STANDBYMODE_0,STANDBYMODE_1,STANDBYMODE_2,STANDBYMODE_3"
tree.end
tree.end
tree "ISS_SIMCOP_Hardware_Sequencer_and_Buffers"
tree "HWSEQ_Cortex_M3"
base ansd:0x55060000
tree "Channel_0"
group.long 0x8C++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_CTRL2_i_0,Hardware sequencer step control register"
bitfld.long 0x00 10.--11. "NSF2_IO_OFST,Controls NSF_IO bus mapping to image buffers: 0x0000" "NSF2_IO_OFST_0,NSF2_IO_OFST_1,NSF2_IO_OFST_2,NSF2_IO_OFST_3"
bitfld.long 0x00 8.--9. "LDC_O_OFST,Controls LDC.O bus mapping to image buffers: 0x0000 0x1000 0x2000" "LDC_O_OFST_0,LDC_O_OFST_1,LDC_O_OFST_2,LDC_O_OFST_3"
bitfld.long 0x00 4.--6. "COEFF_B,Coefficient buffer b switch" "COEFF_B_0,COEFF_B_1,COEFF_B_2,COEFF_B_3,COEFF_B_4,COEFF_B_5,COEFF_B_6,COEFF_B_7"
bitfld.long 0x00 0.--2. "COEFF_A,Coefficient buffer a switch" "COEFF_A_0,COEFF_A_1,COEFF_A_2,COEFF_A_3,COEFF_A_4,COEFF_A_5,COEFF_A_6,COEFF_A_7"
group.long 0x80++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_CTRL_i_0,Hardware sequencer step control register"
bitfld.long 0x00 31. "CPU_SYNC,Enable hardware synchronization with the CPU so that it can be used for some processing on in the macroblock pipeline" "CPU_SYNC_0,CPU_SYNC_1"
bitfld.long 0x00 28.--30. "DMA_OFST,Controls DMA bus mapping to image buffers: 0x0000 0x1000 0x2000 0x3000 0x4000 0x5000 0x6000" "DMA_OFST_0,DMA_OFST_1,DMA_OFST_2,DMA_OFST_3,DMA_OFST_4,DMA_OFST_5,DMA_OFST_6,DMA_OFST_7"
bitfld.long 0x00 26.--27. "ROT_O_OFST,Controls ROT.O bus mapping to image buffers: 0x0000 0x1000 0x2000" "ROT_O_OFST_0,ROT_O_OFST_1,ROT_O_OFST_2,ROT_O_OFST_3"
bitfld.long 0x00 24.--25. "ROT_I_OFST,Controls ROT_I bus mapping to image buffers: 0x0000 0x1000 0x2000" "ROT_I_OFST_0,ROT_I_OFST_1,ROT_I_OFST_2,ROT_I_OFST_3"
newline
bitfld.long 0x00 20.--22. "DCT_F_OFST,Controls DCT.F bus mapping to image buffers: 0x0000 0x1000 0x2000" "DCT_F_OFST_0,DCT_F_OFST_1,DCT_F_OFST_2,DCT_F_OFST_3,DCT_F_OFST_4,DCT_F_OFST_5,?,?"
bitfld.long 0x00 18.--19. "DCT_S_OFST,Controls DCT.S bus mapping to image buffers: 0x0000" "DCT_S_OFST_0,DCT_S_OFST_1,DCT_S_OFST_2,DCT_S_OFST_3"
bitfld.long 0x00 15.--17. "VLCDJ_IO_OFST,Controls VLCDJ IO data bus mapping to image buffers: 0x0000 0x1000 0x2000" "VLCDJ_IO_OFST_0,VLCDJ_IO_OFST_1,VLCDJ_IO_OFST_2,VLCDJ_IO_OFST_3,VLCDJ_IO_OFST_4,VLCDJ_IO_OFST_5,?,?"
bitfld.long 0x00 13.--14. "IMX_B_D_OFST,Controls iMX B data bus mapping to image buffers: 0x0000 0x1000 0x2000" "IMX_B_D_OFST_0,IMX_B_D_OFST_1,IMX_B_D_OFST_2,IMX_B_D_OFST_3"
newline
bitfld.long 0x00 11.--12. "IMX_A_D_OFST,Controls iMX A data bus mapping to image buffers: 0x0000 0x1000 0x2000" "IMX_A_D_OFST_0,IMX_A_D_OFST_1,IMX_A_D_OFST_2,IMX_A_D_OFST_3"
bitfld.long 0x00 9.--10. "NEXT,Next channel in the sync" "NEXT_0,NEXT_1,NEXT_2,NEXT_3"
bitfld.long 0x00 5.--7. "DMA_SYNC,Enable hardware synchronization with the SIMCOP DMA" "DMA_SYNC_0,DMA_SYNC_1,DMA_SYNC_2,DMA_SYNC_3,DMA_SYNC_4,DMA_SYNC_5,DMA_SYNC_6,DMA_SYNC_7"
bitfld.long 0x00 4. "ROT_A_SYNC,Enable hardware synchronization with the ROT #a module" "ROT_A_SYNC_0,ROT_A_SYNC_1"
newline
bitfld.long 0x00 3. "NSF_SYNC,Enable hardware synchronization with the NSF module" "NSF_SYNC_0,NSF_SYNC_1"
bitfld.long 0x00 2. "VLCDJ_SYNC,Enable hardware synchronization with the VLCDJ module" "VLCDJ_SYNC_0,VLCDJ_SYNC_1"
bitfld.long 0x00 1. "DCT_SYNC,Enable hardware synchronization with the DCT module" "DCT_SYNC_0,DCT_SYNC_1"
bitfld.long 0x00 0. "LDC_SYNC,Enable hardware synchronization with the LDC module" "LDC_SYNC_0,LDC_SYNC_1"
group.long 0x88++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_IMX_CTRL_i_0,Hardware sequencer step control register The configuration of step #0 is used when hardware sequencer is idle"
bitfld.long 0x00 31. "IMX_B_SYNC,Enable hardware synchronization with the iMX B module" "IMX_B_SYNC_0,IMX_B_SYNC_1"
hexmask.long.word 0x00 16.--28. 1. "IMX_B_START,This register is only used whenSIMCOP_HWSEQ_STEP_IMX_CTRL_i[31] IMX_B_SYNC=1"
bitfld.long 0x00 15. "IMX_A_SYNC,Enable hardware synchronization with the iMX A module" "IMX_A_SYNC_0,IMX_A_SYNC_1"
hexmask.long.word 0x00 0.--12. 1. "IMX_A_START,This register is only used whenSIMCOP_HWSEQ_STEP_IMX_CTRL_i[15] IMX_A_SYNC=1"
group.long 0x84++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_SWITCH_i_0,Image buffer switch control"
bitfld.long 0x00 28.--31. "IMBUFF_H,Switch for image buffer h" "IMBUFF_H_0,IMBUFF_H_1,IMBUFF_H_2,IMBUFF_H_3,IMBUFF_H_4,IMBUFF_H_5,IMBUFF_H_6,IMBUFF_H_7,IMBUFF_H_8,IMBUFF_H_9,?,?,?,?,?,?"
bitfld.long 0x00 24.--27. "IMBUFF_G,Switch for image buffer g" "IMBUFF_G_0,IMBUFF_G_1,IMBUFF_G_2,IMBUFF_G_3,IMBUFF_G_4,IMBUFF_G_5,IMBUFF_G_6,IMBUFF_G_7,IMBUFF_G_8,IMBUFF_G_9,?,?,?,?,?,?"
bitfld.long 0x00 20.--22. "IMBUFF_F,Switch for image buffer f" "IMBUFF_F_0,IMBUFF_F_1,IMBUFF_F_2,IMBUFF_F_3,IMBUFF_F_4,IMBUFF_F_5,IMBUFF_F_6,IMBUFF_F_7"
bitfld.long 0x00 16.--18. "IMBUFF_E,Switch for image buffer e" "IMBUFF_E_0,IMBUFF_E_1,IMBUFF_E_2,IMBUFF_E_3,IMBUFF_E_4,IMBUFF_E_5,IMBUFF_E_6,IMBUFF_E_7"
newline
bitfld.long 0x00 12.--14. "IMBUFF_D,Switch for image buffer d" "IMBUFF_D_0,IMBUFF_D_1,IMBUFF_D_2,IMBUFF_D_3,IMBUFF_D_4,IMBUFF_D_5,IMBUFF_D_6,IMBUFF_D_7"
bitfld.long 0x00 8.--10. "IMBUFF_C,Switch for image buffer c" "IMBUFF_C_0,IMBUFF_C_1,IMBUFF_C_2,IMBUFF_C_3,IMBUFF_C_4,IMBUFF_C_5,IMBUFF_C_6,IMBUFF_C_7"
bitfld.long 0x00 4.--6. "IMBUFF_B,Switch for image buffer b" "IMBUFF_B_0,IMBUFF_B_1,IMBUFF_B_2,IMBUFF_B_3,IMBUFF_B_4,IMBUFF_B_5,IMBUFF_B_6,IMBUFF_B_7"
bitfld.long 0x00 0.--2. "IMBUFF_A,Switch for image buffer a" "IMBUFF_A_0,IMBUFF_A_1,IMBUFF_A_2,IMBUFF_A_3,IMBUFF_A_4,IMBUFF_A_5,IMBUFF_A_6,IMBUFF_A_7"
tree.end
tree "Channel_1"
group.long 0x9C++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_CTRL2_i_1,Hardware sequencer step control register"
bitfld.long 0x00 10.--11. "NSF2_IO_OFST,Controls NSF_IO bus mapping to image buffers: 0x0000" "NSF2_IO_OFST_0,NSF2_IO_OFST_1,NSF2_IO_OFST_2,NSF2_IO_OFST_3"
bitfld.long 0x00 8.--9. "LDC_O_OFST,Controls LDC.O bus mapping to image buffers: 0x0000 0x1000 0x2000" "LDC_O_OFST_0,LDC_O_OFST_1,LDC_O_OFST_2,LDC_O_OFST_3"
bitfld.long 0x00 4.--6. "COEFF_B,Coefficient buffer b switch" "COEFF_B_0,COEFF_B_1,COEFF_B_2,COEFF_B_3,COEFF_B_4,COEFF_B_5,COEFF_B_6,COEFF_B_7"
bitfld.long 0x00 0.--2. "COEFF_A,Coefficient buffer a switch" "COEFF_A_0,COEFF_A_1,COEFF_A_2,COEFF_A_3,COEFF_A_4,COEFF_A_5,COEFF_A_6,COEFF_A_7"
group.long 0x90++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_CTRL_i_1,Hardware sequencer step control register"
bitfld.long 0x00 31. "CPU_SYNC,Enable hardware synchronization with the CPU so that it can be used for some processing on in the macroblock pipeline" "CPU_SYNC_0,CPU_SYNC_1"
bitfld.long 0x00 28.--30. "DMA_OFST,Controls DMA bus mapping to image buffers: 0x0000 0x1000 0x2000 0x3000 0x4000 0x5000 0x6000" "DMA_OFST_0,DMA_OFST_1,DMA_OFST_2,DMA_OFST_3,DMA_OFST_4,DMA_OFST_5,DMA_OFST_6,DMA_OFST_7"
bitfld.long 0x00 26.--27. "ROT_O_OFST,Controls ROT.O bus mapping to image buffers: 0x0000 0x1000 0x2000" "ROT_O_OFST_0,ROT_O_OFST_1,ROT_O_OFST_2,ROT_O_OFST_3"
bitfld.long 0x00 24.--25. "ROT_I_OFST,Controls ROT_I bus mapping to image buffers: 0x0000 0x1000 0x2000" "ROT_I_OFST_0,ROT_I_OFST_1,ROT_I_OFST_2,ROT_I_OFST_3"
newline
bitfld.long 0x00 20.--22. "DCT_F_OFST,Controls DCT.F bus mapping to image buffers: 0x0000 0x1000 0x2000" "DCT_F_OFST_0,DCT_F_OFST_1,DCT_F_OFST_2,DCT_F_OFST_3,DCT_F_OFST_4,DCT_F_OFST_5,?,?"
bitfld.long 0x00 18.--19. "DCT_S_OFST,Controls DCT.S bus mapping to image buffers: 0x0000" "DCT_S_OFST_0,DCT_S_OFST_1,DCT_S_OFST_2,DCT_S_OFST_3"
bitfld.long 0x00 15.--17. "VLCDJ_IO_OFST,Controls VLCDJ IO data bus mapping to image buffers: 0x0000 0x1000 0x2000" "VLCDJ_IO_OFST_0,VLCDJ_IO_OFST_1,VLCDJ_IO_OFST_2,VLCDJ_IO_OFST_3,VLCDJ_IO_OFST_4,VLCDJ_IO_OFST_5,?,?"
bitfld.long 0x00 13.--14. "IMX_B_D_OFST,Controls iMX B data bus mapping to image buffers: 0x0000 0x1000 0x2000" "IMX_B_D_OFST_0,IMX_B_D_OFST_1,IMX_B_D_OFST_2,IMX_B_D_OFST_3"
newline
bitfld.long 0x00 11.--12. "IMX_A_D_OFST,Controls iMX A data bus mapping to image buffers: 0x0000 0x1000 0x2000" "IMX_A_D_OFST_0,IMX_A_D_OFST_1,IMX_A_D_OFST_2,IMX_A_D_OFST_3"
bitfld.long 0x00 9.--10. "NEXT,Next channel in the sync" "NEXT_0,NEXT_1,NEXT_2,NEXT_3"
bitfld.long 0x00 5.--7. "DMA_SYNC,Enable hardware synchronization with the SIMCOP DMA" "DMA_SYNC_0,DMA_SYNC_1,DMA_SYNC_2,DMA_SYNC_3,DMA_SYNC_4,DMA_SYNC_5,DMA_SYNC_6,DMA_SYNC_7"
bitfld.long 0x00 4. "ROT_A_SYNC,Enable hardware synchronization with the ROT #a module" "ROT_A_SYNC_0,ROT_A_SYNC_1"
newline
bitfld.long 0x00 3. "NSF_SYNC,Enable hardware synchronization with the NSF module" "NSF_SYNC_0,NSF_SYNC_1"
bitfld.long 0x00 2. "VLCDJ_SYNC,Enable hardware synchronization with the VLCDJ module" "VLCDJ_SYNC_0,VLCDJ_SYNC_1"
bitfld.long 0x00 1. "DCT_SYNC,Enable hardware synchronization with the DCT module" "DCT_SYNC_0,DCT_SYNC_1"
bitfld.long 0x00 0. "LDC_SYNC,Enable hardware synchronization with the LDC module" "LDC_SYNC_0,LDC_SYNC_1"
group.long 0x98++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_IMX_CTRL_i_1,Hardware sequencer step control register The configuration of step #0 is used when hardware sequencer is idle"
bitfld.long 0x00 31. "IMX_B_SYNC,Enable hardware synchronization with the iMX B module" "IMX_B_SYNC_0,IMX_B_SYNC_1"
hexmask.long.word 0x00 16.--28. 1. "IMX_B_START,This register is only used whenSIMCOP_HWSEQ_STEP_IMX_CTRL_i[31] IMX_B_SYNC=1"
bitfld.long 0x00 15. "IMX_A_SYNC,Enable hardware synchronization with the iMX A module" "IMX_A_SYNC_0,IMX_A_SYNC_1"
hexmask.long.word 0x00 0.--12. 1. "IMX_A_START,This register is only used whenSIMCOP_HWSEQ_STEP_IMX_CTRL_i[15] IMX_A_SYNC=1"
group.long 0x94++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_SWITCH_i_1,Image buffer switch control"
bitfld.long 0x00 28.--31. "IMBUFF_H,Switch for image buffer h" "IMBUFF_H_0,IMBUFF_H_1,IMBUFF_H_2,IMBUFF_H_3,IMBUFF_H_4,IMBUFF_H_5,IMBUFF_H_6,IMBUFF_H_7,IMBUFF_H_8,IMBUFF_H_9,?,?,?,?,?,?"
bitfld.long 0x00 24.--27. "IMBUFF_G,Switch for image buffer g" "IMBUFF_G_0,IMBUFF_G_1,IMBUFF_G_2,IMBUFF_G_3,IMBUFF_G_4,IMBUFF_G_5,IMBUFF_G_6,IMBUFF_G_7,IMBUFF_G_8,IMBUFF_G_9,?,?,?,?,?,?"
bitfld.long 0x00 20.--22. "IMBUFF_F,Switch for image buffer f" "IMBUFF_F_0,IMBUFF_F_1,IMBUFF_F_2,IMBUFF_F_3,IMBUFF_F_4,IMBUFF_F_5,IMBUFF_F_6,IMBUFF_F_7"
bitfld.long 0x00 16.--18. "IMBUFF_E,Switch for image buffer e" "IMBUFF_E_0,IMBUFF_E_1,IMBUFF_E_2,IMBUFF_E_3,IMBUFF_E_4,IMBUFF_E_5,IMBUFF_E_6,IMBUFF_E_7"
newline
bitfld.long 0x00 12.--14. "IMBUFF_D,Switch for image buffer d" "IMBUFF_D_0,IMBUFF_D_1,IMBUFF_D_2,IMBUFF_D_3,IMBUFF_D_4,IMBUFF_D_5,IMBUFF_D_6,IMBUFF_D_7"
bitfld.long 0x00 8.--10. "IMBUFF_C,Switch for image buffer c" "IMBUFF_C_0,IMBUFF_C_1,IMBUFF_C_2,IMBUFF_C_3,IMBUFF_C_4,IMBUFF_C_5,IMBUFF_C_6,IMBUFF_C_7"
bitfld.long 0x00 4.--6. "IMBUFF_B,Switch for image buffer b" "IMBUFF_B_0,IMBUFF_B_1,IMBUFF_B_2,IMBUFF_B_3,IMBUFF_B_4,IMBUFF_B_5,IMBUFF_B_6,IMBUFF_B_7"
bitfld.long 0x00 0.--2. "IMBUFF_A,Switch for image buffer a" "IMBUFF_A_0,IMBUFF_A_1,IMBUFF_A_2,IMBUFF_A_3,IMBUFF_A_4,IMBUFF_A_5,IMBUFF_A_6,IMBUFF_A_7"
tree.end
tree "Channel_2"
group.long 0xAC++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_CTRL2_i_2,Hardware sequencer step control register"
bitfld.long 0x00 10.--11. "NSF2_IO_OFST,Controls NSF_IO bus mapping to image buffers: 0x0000" "NSF2_IO_OFST_0,NSF2_IO_OFST_1,NSF2_IO_OFST_2,NSF2_IO_OFST_3"
bitfld.long 0x00 8.--9. "LDC_O_OFST,Controls LDC.O bus mapping to image buffers: 0x0000 0x1000 0x2000" "LDC_O_OFST_0,LDC_O_OFST_1,LDC_O_OFST_2,LDC_O_OFST_3"
bitfld.long 0x00 4.--6. "COEFF_B,Coefficient buffer b switch" "COEFF_B_0,COEFF_B_1,COEFF_B_2,COEFF_B_3,COEFF_B_4,COEFF_B_5,COEFF_B_6,COEFF_B_7"
bitfld.long 0x00 0.--2. "COEFF_A,Coefficient buffer a switch" "COEFF_A_0,COEFF_A_1,COEFF_A_2,COEFF_A_3,COEFF_A_4,COEFF_A_5,COEFF_A_6,COEFF_A_7"
group.long 0xA0++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_CTRL_i_2,Hardware sequencer step control register"
bitfld.long 0x00 31. "CPU_SYNC,Enable hardware synchronization with the CPU so that it can be used for some processing on in the macroblock pipeline" "CPU_SYNC_0,CPU_SYNC_1"
bitfld.long 0x00 28.--30. "DMA_OFST,Controls DMA bus mapping to image buffers: 0x0000 0x1000 0x2000 0x3000 0x4000 0x5000 0x6000" "DMA_OFST_0,DMA_OFST_1,DMA_OFST_2,DMA_OFST_3,DMA_OFST_4,DMA_OFST_5,DMA_OFST_6,DMA_OFST_7"
bitfld.long 0x00 26.--27. "ROT_O_OFST,Controls ROT.O bus mapping to image buffers: 0x0000 0x1000 0x2000" "ROT_O_OFST_0,ROT_O_OFST_1,ROT_O_OFST_2,ROT_O_OFST_3"
bitfld.long 0x00 24.--25. "ROT_I_OFST,Controls ROT_I bus mapping to image buffers: 0x0000 0x1000 0x2000" "ROT_I_OFST_0,ROT_I_OFST_1,ROT_I_OFST_2,ROT_I_OFST_3"
newline
bitfld.long 0x00 20.--22. "DCT_F_OFST,Controls DCT.F bus mapping to image buffers: 0x0000 0x1000 0x2000" "DCT_F_OFST_0,DCT_F_OFST_1,DCT_F_OFST_2,DCT_F_OFST_3,DCT_F_OFST_4,DCT_F_OFST_5,?,?"
bitfld.long 0x00 18.--19. "DCT_S_OFST,Controls DCT.S bus mapping to image buffers: 0x0000" "DCT_S_OFST_0,DCT_S_OFST_1,DCT_S_OFST_2,DCT_S_OFST_3"
bitfld.long 0x00 15.--17. "VLCDJ_IO_OFST,Controls VLCDJ IO data bus mapping to image buffers: 0x0000 0x1000 0x2000" "VLCDJ_IO_OFST_0,VLCDJ_IO_OFST_1,VLCDJ_IO_OFST_2,VLCDJ_IO_OFST_3,VLCDJ_IO_OFST_4,VLCDJ_IO_OFST_5,?,?"
bitfld.long 0x00 13.--14. "IMX_B_D_OFST,Controls iMX B data bus mapping to image buffers: 0x0000 0x1000 0x2000" "IMX_B_D_OFST_0,IMX_B_D_OFST_1,IMX_B_D_OFST_2,IMX_B_D_OFST_3"
newline
bitfld.long 0x00 11.--12. "IMX_A_D_OFST,Controls iMX A data bus mapping to image buffers: 0x0000 0x1000 0x2000" "IMX_A_D_OFST_0,IMX_A_D_OFST_1,IMX_A_D_OFST_2,IMX_A_D_OFST_3"
bitfld.long 0x00 9.--10. "NEXT,Next channel in the sync" "NEXT_0,NEXT_1,NEXT_2,NEXT_3"
bitfld.long 0x00 5.--7. "DMA_SYNC,Enable hardware synchronization with the SIMCOP DMA" "DMA_SYNC_0,DMA_SYNC_1,DMA_SYNC_2,DMA_SYNC_3,DMA_SYNC_4,DMA_SYNC_5,DMA_SYNC_6,DMA_SYNC_7"
bitfld.long 0x00 4. "ROT_A_SYNC,Enable hardware synchronization with the ROT #a module" "ROT_A_SYNC_0,ROT_A_SYNC_1"
newline
bitfld.long 0x00 3. "NSF_SYNC,Enable hardware synchronization with the NSF module" "NSF_SYNC_0,NSF_SYNC_1"
bitfld.long 0x00 2. "VLCDJ_SYNC,Enable hardware synchronization with the VLCDJ module" "VLCDJ_SYNC_0,VLCDJ_SYNC_1"
bitfld.long 0x00 1. "DCT_SYNC,Enable hardware synchronization with the DCT module" "DCT_SYNC_0,DCT_SYNC_1"
bitfld.long 0x00 0. "LDC_SYNC,Enable hardware synchronization with the LDC module" "LDC_SYNC_0,LDC_SYNC_1"
group.long 0xA8++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_IMX_CTRL_i_2,Hardware sequencer step control register The configuration of step #0 is used when hardware sequencer is idle"
bitfld.long 0x00 31. "IMX_B_SYNC,Enable hardware synchronization with the iMX B module" "IMX_B_SYNC_0,IMX_B_SYNC_1"
hexmask.long.word 0x00 16.--28. 1. "IMX_B_START,This register is only used whenSIMCOP_HWSEQ_STEP_IMX_CTRL_i[31] IMX_B_SYNC=1"
bitfld.long 0x00 15. "IMX_A_SYNC,Enable hardware synchronization with the iMX A module" "IMX_A_SYNC_0,IMX_A_SYNC_1"
hexmask.long.word 0x00 0.--12. 1. "IMX_A_START,This register is only used whenSIMCOP_HWSEQ_STEP_IMX_CTRL_i[15] IMX_A_SYNC=1"
group.long 0xA4++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_SWITCH_i_2,Image buffer switch control"
bitfld.long 0x00 28.--31. "IMBUFF_H,Switch for image buffer h" "IMBUFF_H_0,IMBUFF_H_1,IMBUFF_H_2,IMBUFF_H_3,IMBUFF_H_4,IMBUFF_H_5,IMBUFF_H_6,IMBUFF_H_7,IMBUFF_H_8,IMBUFF_H_9,?,?,?,?,?,?"
bitfld.long 0x00 24.--27. "IMBUFF_G,Switch for image buffer g" "IMBUFF_G_0,IMBUFF_G_1,IMBUFF_G_2,IMBUFF_G_3,IMBUFF_G_4,IMBUFF_G_5,IMBUFF_G_6,IMBUFF_G_7,IMBUFF_G_8,IMBUFF_G_9,?,?,?,?,?,?"
bitfld.long 0x00 20.--22. "IMBUFF_F,Switch for image buffer f" "IMBUFF_F_0,IMBUFF_F_1,IMBUFF_F_2,IMBUFF_F_3,IMBUFF_F_4,IMBUFF_F_5,IMBUFF_F_6,IMBUFF_F_7"
bitfld.long 0x00 16.--18. "IMBUFF_E,Switch for image buffer e" "IMBUFF_E_0,IMBUFF_E_1,IMBUFF_E_2,IMBUFF_E_3,IMBUFF_E_4,IMBUFF_E_5,IMBUFF_E_6,IMBUFF_E_7"
newline
bitfld.long 0x00 12.--14. "IMBUFF_D,Switch for image buffer d" "IMBUFF_D_0,IMBUFF_D_1,IMBUFF_D_2,IMBUFF_D_3,IMBUFF_D_4,IMBUFF_D_5,IMBUFF_D_6,IMBUFF_D_7"
bitfld.long 0x00 8.--10. "IMBUFF_C,Switch for image buffer c" "IMBUFF_C_0,IMBUFF_C_1,IMBUFF_C_2,IMBUFF_C_3,IMBUFF_C_4,IMBUFF_C_5,IMBUFF_C_6,IMBUFF_C_7"
bitfld.long 0x00 4.--6. "IMBUFF_B,Switch for image buffer b" "IMBUFF_B_0,IMBUFF_B_1,IMBUFF_B_2,IMBUFF_B_3,IMBUFF_B_4,IMBUFF_B_5,IMBUFF_B_6,IMBUFF_B_7"
bitfld.long 0x00 0.--2. "IMBUFF_A,Switch for image buffer a" "IMBUFF_A_0,IMBUFF_A_1,IMBUFF_A_2,IMBUFF_A_3,IMBUFF_A_4,IMBUFF_A_5,IMBUFF_A_6,IMBUFF_A_7"
tree.end
tree "Channel_3"
group.long 0xBC++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_CTRL2_i_3,Hardware sequencer step control register"
bitfld.long 0x00 10.--11. "NSF2_IO_OFST,Controls NSF_IO bus mapping to image buffers: 0x0000" "NSF2_IO_OFST_0,NSF2_IO_OFST_1,NSF2_IO_OFST_2,NSF2_IO_OFST_3"
bitfld.long 0x00 8.--9. "LDC_O_OFST,Controls LDC.O bus mapping to image buffers: 0x0000 0x1000 0x2000" "LDC_O_OFST_0,LDC_O_OFST_1,LDC_O_OFST_2,LDC_O_OFST_3"
bitfld.long 0x00 4.--6. "COEFF_B,Coefficient buffer b switch" "COEFF_B_0,COEFF_B_1,COEFF_B_2,COEFF_B_3,COEFF_B_4,COEFF_B_5,COEFF_B_6,COEFF_B_7"
bitfld.long 0x00 0.--2. "COEFF_A,Coefficient buffer a switch" "COEFF_A_0,COEFF_A_1,COEFF_A_2,COEFF_A_3,COEFF_A_4,COEFF_A_5,COEFF_A_6,COEFF_A_7"
group.long 0xB0++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_CTRL_i_3,Hardware sequencer step control register"
bitfld.long 0x00 31. "CPU_SYNC,Enable hardware synchronization with the CPU so that it can be used for some processing on in the macroblock pipeline" "CPU_SYNC_0,CPU_SYNC_1"
bitfld.long 0x00 28.--30. "DMA_OFST,Controls DMA bus mapping to image buffers: 0x0000 0x1000 0x2000 0x3000 0x4000 0x5000 0x6000" "DMA_OFST_0,DMA_OFST_1,DMA_OFST_2,DMA_OFST_3,DMA_OFST_4,DMA_OFST_5,DMA_OFST_6,DMA_OFST_7"
bitfld.long 0x00 26.--27. "ROT_O_OFST,Controls ROT.O bus mapping to image buffers: 0x0000 0x1000 0x2000" "ROT_O_OFST_0,ROT_O_OFST_1,ROT_O_OFST_2,ROT_O_OFST_3"
bitfld.long 0x00 24.--25. "ROT_I_OFST,Controls ROT_I bus mapping to image buffers: 0x0000 0x1000 0x2000" "ROT_I_OFST_0,ROT_I_OFST_1,ROT_I_OFST_2,ROT_I_OFST_3"
newline
bitfld.long 0x00 20.--22. "DCT_F_OFST,Controls DCT.F bus mapping to image buffers: 0x0000 0x1000 0x2000" "DCT_F_OFST_0,DCT_F_OFST_1,DCT_F_OFST_2,DCT_F_OFST_3,DCT_F_OFST_4,DCT_F_OFST_5,?,?"
bitfld.long 0x00 18.--19. "DCT_S_OFST,Controls DCT.S bus mapping to image buffers: 0x0000" "DCT_S_OFST_0,DCT_S_OFST_1,DCT_S_OFST_2,DCT_S_OFST_3"
bitfld.long 0x00 15.--17. "VLCDJ_IO_OFST,Controls VLCDJ IO data bus mapping to image buffers: 0x0000 0x1000 0x2000" "VLCDJ_IO_OFST_0,VLCDJ_IO_OFST_1,VLCDJ_IO_OFST_2,VLCDJ_IO_OFST_3,VLCDJ_IO_OFST_4,VLCDJ_IO_OFST_5,?,?"
bitfld.long 0x00 13.--14. "IMX_B_D_OFST,Controls iMX B data bus mapping to image buffers: 0x0000 0x1000 0x2000" "IMX_B_D_OFST_0,IMX_B_D_OFST_1,IMX_B_D_OFST_2,IMX_B_D_OFST_3"
newline
bitfld.long 0x00 11.--12. "IMX_A_D_OFST,Controls iMX A data bus mapping to image buffers: 0x0000 0x1000 0x2000" "IMX_A_D_OFST_0,IMX_A_D_OFST_1,IMX_A_D_OFST_2,IMX_A_D_OFST_3"
bitfld.long 0x00 9.--10. "NEXT,Next channel in the sync" "NEXT_0,NEXT_1,NEXT_2,NEXT_3"
bitfld.long 0x00 5.--7. "DMA_SYNC,Enable hardware synchronization with the SIMCOP DMA" "DMA_SYNC_0,DMA_SYNC_1,DMA_SYNC_2,DMA_SYNC_3,DMA_SYNC_4,DMA_SYNC_5,DMA_SYNC_6,DMA_SYNC_7"
bitfld.long 0x00 4. "ROT_A_SYNC,Enable hardware synchronization with the ROT #a module" "ROT_A_SYNC_0,ROT_A_SYNC_1"
newline
bitfld.long 0x00 3. "NSF_SYNC,Enable hardware synchronization with the NSF module" "NSF_SYNC_0,NSF_SYNC_1"
bitfld.long 0x00 2. "VLCDJ_SYNC,Enable hardware synchronization with the VLCDJ module" "VLCDJ_SYNC_0,VLCDJ_SYNC_1"
bitfld.long 0x00 1. "DCT_SYNC,Enable hardware synchronization with the DCT module" "DCT_SYNC_0,DCT_SYNC_1"
bitfld.long 0x00 0. "LDC_SYNC,Enable hardware synchronization with the LDC module" "LDC_SYNC_0,LDC_SYNC_1"
group.long 0xB8++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_IMX_CTRL_i_3,Hardware sequencer step control register The configuration of step #0 is used when hardware sequencer is idle"
bitfld.long 0x00 31. "IMX_B_SYNC,Enable hardware synchronization with the iMX B module" "IMX_B_SYNC_0,IMX_B_SYNC_1"
hexmask.long.word 0x00 16.--28. 1. "IMX_B_START,This register is only used whenSIMCOP_HWSEQ_STEP_IMX_CTRL_i[31] IMX_B_SYNC=1"
bitfld.long 0x00 15. "IMX_A_SYNC,Enable hardware synchronization with the iMX A module" "IMX_A_SYNC_0,IMX_A_SYNC_1"
hexmask.long.word 0x00 0.--12. 1. "IMX_A_START,This register is only used whenSIMCOP_HWSEQ_STEP_IMX_CTRL_i[15] IMX_A_SYNC=1"
group.long 0xB4++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_SWITCH_i_3,Image buffer switch control"
bitfld.long 0x00 28.--31. "IMBUFF_H,Switch for image buffer h" "IMBUFF_H_0,IMBUFF_H_1,IMBUFF_H_2,IMBUFF_H_3,IMBUFF_H_4,IMBUFF_H_5,IMBUFF_H_6,IMBUFF_H_7,IMBUFF_H_8,IMBUFF_H_9,?,?,?,?,?,?"
bitfld.long 0x00 24.--27. "IMBUFF_G,Switch for image buffer g" "IMBUFF_G_0,IMBUFF_G_1,IMBUFF_G_2,IMBUFF_G_3,IMBUFF_G_4,IMBUFF_G_5,IMBUFF_G_6,IMBUFF_G_7,IMBUFF_G_8,IMBUFF_G_9,?,?,?,?,?,?"
bitfld.long 0x00 20.--22. "IMBUFF_F,Switch for image buffer f" "IMBUFF_F_0,IMBUFF_F_1,IMBUFF_F_2,IMBUFF_F_3,IMBUFF_F_4,IMBUFF_F_5,IMBUFF_F_6,IMBUFF_F_7"
bitfld.long 0x00 16.--18. "IMBUFF_E,Switch for image buffer e" "IMBUFF_E_0,IMBUFF_E_1,IMBUFF_E_2,IMBUFF_E_3,IMBUFF_E_4,IMBUFF_E_5,IMBUFF_E_6,IMBUFF_E_7"
newline
bitfld.long 0x00 12.--14. "IMBUFF_D,Switch for image buffer d" "IMBUFF_D_0,IMBUFF_D_1,IMBUFF_D_2,IMBUFF_D_3,IMBUFF_D_4,IMBUFF_D_5,IMBUFF_D_6,IMBUFF_D_7"
bitfld.long 0x00 8.--10. "IMBUFF_C,Switch for image buffer c" "IMBUFF_C_0,IMBUFF_C_1,IMBUFF_C_2,IMBUFF_C_3,IMBUFF_C_4,IMBUFF_C_5,IMBUFF_C_6,IMBUFF_C_7"
bitfld.long 0x00 4.--6. "IMBUFF_B,Switch for image buffer b" "IMBUFF_B_0,IMBUFF_B_1,IMBUFF_B_2,IMBUFF_B_3,IMBUFF_B_4,IMBUFF_B_5,IMBUFF_B_6,IMBUFF_B_7"
bitfld.long 0x00 0.--2. "IMBUFF_A,Switch for image buffer a" "IMBUFF_A_0,IMBUFF_A_1,IMBUFF_A_2,IMBUFF_A_3,IMBUFF_A_4,IMBUFF_A_5,IMBUFF_A_6,IMBUFF_A_7"
tree.end
group.long 0x68++0x03
line.long 0x00 "SIMCOP_HWSEQ_CTRL,SIMCOP hardware sequencer control register"
hexmask.long.word 0x00 16.--31. 1. "HW_SEQ_STEP_COUNTER,Number of steps executed by the hardware sequencer"
bitfld.long 0x00 11.--12. "STEP,This register is automatically updated by the hardware sequencer when it is active" "STEP_0,STEP_1,STEP_2,STEP_3"
bitfld.long 0x00 10. "CPU_PROC_DONE,Used by the CPU to tell that it has completed data processing" "CPU_PROC_DONE_0_w,CPU_PROC_DONE_1_w"
newline
bitfld.long 0x00 8.--9. "BBM_SYNC_CHAN,Defines the SIMCOP DMA hardware synchronization channel to be used for BBM" "BBM_SYNC_CHAN_0,BBM_SYNC_CHAN_1,BBM_SYNC_CHAN_2,BBM_SYNC_CHAN_3"
bitfld.long 0x00 7. "BBM_STATUS,Status of the Bitstream buffer management hardware.Used only during automatic mode [BITSTREAM=5 or 6]" "BBM is idle,BBM is busy.Read"
bitfld.long 0x00 4.--6. "BITSTREAM,Bitstream buffer access control" "BITSTREAM_0,BITSTREAM_1,BITSTREAM_2,BITSTREAM_3,BITSTREAM_4,BITSTREAM_5,BITSTREAM_6,?"
newline
bitfld.long 0x00 2.--3. "BITSTR_XFER_SIZE,Defines the amount of data to be transferred per hardware request to the SIMCOP DMA" "BITSTR_XFER_SIZE_0,BITSTR_XFER_SIZE_1,BITSTR_XFER_SIZE_2,BITSTR_XFER_SIZE_3"
bitfld.long 0x00 1. "HW_SEQ_STOP,Stop the hardware sequencer" "HW_SEQ_STOP_0_w,HW_SEQ_STOP_1_w"
bitfld.long 0x00 0. "HW_SEQ_START,Start the hardware sequencer" "HW_SEQ_START_0_w,HW_SEQ_START_1_w"
group.long 0x70++0x03
line.long 0x00 "SIMCOP_HWSEQ_OVERRIDE,Hardware sequencer override control register"
bitfld.long 0x00 18. "COEFF_B,See register description" "COEFF_B_0,COEFF_B_1"
bitfld.long 0x00 17. "COEFF_A,See register description" "COEFF_A_0,COEFF_A_1"
bitfld.long 0x00 16. "IMBUFF_H,See register description" "IMBUFF_H_0,IMBUFF_H_1"
newline
bitfld.long 0x00 15. "IMBUFF_G,See register description" "IMBUFF_G_0,IMBUFF_G_1"
bitfld.long 0x00 14. "IMBUFF_F,See register description" "IMBUFF_F_0,IMBUFF_F_1"
bitfld.long 0x00 13. "IMBUFF_E,See register description" "IMBUFF_E_0,IMBUFF_E_1"
newline
bitfld.long 0x00 12. "IMBUFF_D,See register description" "IMBUFF_D_0,IMBUFF_D_1"
bitfld.long 0x00 11. "IMBUFF_C,See register description" "IMBUFF_C_0,IMBUFF_C_1"
bitfld.long 0x00 10. "IMBUFF_B,See register description" "IMBUFF_B_0,IMBUFF_B_1"
newline
bitfld.long 0x00 9. "IMBUFF_A,See register description" "IMBUFF_A_0,IMBUFF_A_1"
bitfld.long 0x00 8. "LDC_O_OFST_OVR,See register description" "LDC_O_OFST_OVR_0,LDC_O_OFST_OVR_1"
bitfld.long 0x00 7. "ROT_O_OFST_OVR,See register description" "ROT_O_OFST_OVR_0,ROT_O_OFST_OVR_1"
newline
bitfld.long 0x00 6. "ROT_I_OFST_OVR,See register description" "ROT_I_OFST_OVR_0,ROT_I_OFST_OVR_1"
bitfld.long 0x00 5. "NSF_IO_OFST_OVR,See register description" "NSF_IO_OFST_OVR_0,NSF_IO_OFST_OVR_1"
bitfld.long 0x00 4. "DCT_F_OFST_OVR,See register description" "DCT_F_OFST_OVR_0,DCT_F_OFST_OVR_1"
newline
bitfld.long 0x00 3. "DCT_S_OFST_OVR,See register description" "DCT_S_OFST_OVR_0,DCT_S_OFST_OVR_1"
bitfld.long 0x00 2. "VLCDJ_IO_OFST_OVR,See register description" "VLCDJ_IO_OFST_OVR_0,VLCDJ_IO_OFST_OVR_1"
bitfld.long 0x00 1. "IMX_B_D_OFST_OVR,See register description" "IMX_B_D_OFST_OVR_0,IMX_B_D_OFST_OVR_1"
newline
bitfld.long 0x00 0. "IMX_A_D_OFST_OVR,See register description" "IMX_A_D_OFST_OVR_0,IMX_A_D_OFST_OVR_1"
rgroup.long 0x6C++0x03
line.long 0x00 "SIMCOP_HWSEQ_STATUS,Hardware sequencer status register"
hexmask.long.word 0x00 16.--31. 1. "HW_SEQ_STEP_COUNTER,Current step number"
bitfld.long 0x00 0. "STATE,Current state" "STATE_0_r,STATE_1_r"
group.long 0x7C++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_CTRL2_OVERRIDE,Hardware sequencer override register"
bitfld.long 0x00 10.--11. "NSF2_IO_OFST,Controls NSF_IO bus mapping to image buffers: 0x0000" "NSF2_IO_OFST_0,NSF2_IO_OFST_1,NSF2_IO_OFST_2,NSF2_IO_OFST_3"
bitfld.long 0x00 8.--9. "LDC_O_OFST,Controls LDC.O bus mapping to image buffers: 0x0000 0x1000 0x2000" "LDC_O_OFST_0,LDC_O_OFST_1,LDC_O_OFST_2,LDC_O_OFST_3"
bitfld.long 0x00 4.--6. "COEFF_B,Coefficient buffer b switch" "COEFF_B_0,COEFF_B_1,COEFF_B_2,COEFF_B_3,COEFF_B_4,COEFF_B_5,COEFF_B_6,COEFF_B_7"
newline
bitfld.long 0x00 0.--2. "COEFF_A,Coefficient buffer a switch" "COEFF_A_0,COEFF_A_1,COEFF_A_2,COEFF_A_3,COEFF_A_4,COEFF_A_5,COEFF_A_6,COEFF_A_7"
group.long 0x74++0x07
line.long 0x00 "SIMCOP_HWSEQ_STEP_CTRL_OVERRIDE,Hardware sequencer override register"
bitfld.long 0x00 26.--27. "ROT_O_OFST,Controls ROT.O bus mapping to image buffers: 0x0000 0x1000 0x2000" "ROT_O_OFST_0,ROT_O_OFST_1,ROT_O_OFST_2,ROT_O_OFST_3"
bitfld.long 0x00 24.--25. "ROT_I_OFST,Controls ROT_I bus mapping to image buffers: 0x0000 0x1000 0x2000" "ROT_I_OFST_0,ROT_I_OFST_1,ROT_I_OFST_2,ROT_I_OFST_3"
bitfld.long 0x00 20.--22. "DCT_F_OFST,Controls DCT.F bus mapping to image buffers: 0x0000 0x1000 0x2000" "DCT_F_OFST_0,DCT_F_OFST_1,DCT_F_OFST_2,DCT_F_OFST_3,DCT_F_OFST_4,DCT_F_OFST_5,?,?"
newline
bitfld.long 0x00 18.--19. "DCT_S_OFST,Controls DCT.S bus mapping to image buffers: 0x0000" "DCT_S_OFST_0,DCT_S_OFST_1,DCT_S_OFST_2,DCT_S_OFST_3"
bitfld.long 0x00 15.--17. "VLCDJ_IO_OFST,Controls VLCDJ IO data bus mapping to image buffers: 0x0000 0x1000 0x2000" "VLCDJ_IO_OFST_0,VLCDJ_IO_OFST_1,VLCDJ_IO_OFST_2,VLCDJ_IO_OFST_3,VLCDJ_IO_OFST_4,VLCDJ_IO_OFST_5,?,?"
bitfld.long 0x00 13.--14. "IMX_B_D_OFST,Controls iMX B data bus mapping to image buffers: 0x0000 0x1000 0x2000" "IMX_B_D_OFST_0,IMX_B_D_OFST_1,IMX_B_D_OFST_2,IMX_B_D_OFST_3"
newline
bitfld.long 0x00 11.--12. "IMX_A_D_OFST,Controls iMX A data bus mapping to image buffers: 0x0000 0x1000 0x2000" "IMX_A_D_OFST_0,IMX_A_D_OFST_1,IMX_A_D_OFST_2,IMX_A_D_OFST_3"
bitfld.long 0x00 5.--7. "DMA_TRIGGER,Software controlled START/DONE synchronization" "DMA_TRIGGER_0_r,DMA_TRIGGER_1_w,DMA_TRIGGER_2_r,DMA_TRIGGER_3_w,DMA_TRIGGER_4_w,DMA_TRIGGER_5_r,DMA_TRIGGER_6_w,DMA_TRIGGER_7_r"
bitfld.long 0x00 4. "ROT_A_TRIGGER,Software controlled START/DONE synchronization" "ROT_A_TRIGGER_0_r,ROT_A_TRIGGER_1_w"
newline
bitfld.long 0x00 3. "NSF_TRIGGER,Software controlled START/DONE synchronization" "NSF_TRIGGER_0_r,NSF_TRIGGER_1_w"
bitfld.long 0x00 2. "VLCDJ_TRIGGER,Software controlled START/DONE synchronization" "VLCDJ_TRIGGER_0_r,VLCDJ_TRIGGER_1_w"
bitfld.long 0x00 1. "DCT_TRIGGER,Software controlled START/DONE synchronization" "DCT_TRIGGER_0_r,DCT_TRIGGER_1_w"
newline
bitfld.long 0x00 0. "LDC_TRIGGER,Software controlled START/DONE synchronization" "LDC_TRIGGER_0_r,LDC_TRIGGER_1_w"
line.long 0x04 "SIMCOP_HWSEQ_STEP_SWITCH_OVERRIDE,Hardware sequencer override register"
bitfld.long 0x04 28.--31. "IMBUFF_H,Switch for image buffer h" "IMBUFF_H_0,IMBUFF_H_1,IMBUFF_H_2,IMBUFF_H_3,IMBUFF_H_4,IMBUFF_H_5,IMBUFF_H_6,IMBUFF_H_7,IMBUFF_H_8,IMBUFF_H_9,?,?,?,?,?,?"
bitfld.long 0x04 24.--27. "IMBUFF_G,Switch for image buffer g" "IMBUFF_G_0,IMBUFF_G_1,IMBUFF_G_2,IMBUFF_G_3,IMBUFF_G_4,IMBUFF_G_5,IMBUFF_G_6,IMBUFF_G_7,IMBUFF_G_8,IMBUFF_G_9,?,?,?,?,?,?"
bitfld.long 0x04 20.--22. "IMBUFF_F,Switch for image buffer f" "IMBUFF_F_0,IMBUFF_F_1,IMBUFF_F_2,IMBUFF_F_3,IMBUFF_F_4,IMBUFF_F_5,IMBUFF_F_6,IMBUFF_F_7"
newline
bitfld.long 0x04 16.--18. "IMBUFF_E,Switch for image buffer e" "IMBUFF_E_0,IMBUFF_E_1,IMBUFF_E_2,IMBUFF_E_3,IMBUFF_E_4,IMBUFF_E_5,IMBUFF_E_6,IMBUFF_E_7"
bitfld.long 0x04 12.--14. "IMBUFF_D,Switch for image buffer d" "IMBUFF_D_0,IMBUFF_D_1,IMBUFF_D_2,IMBUFF_D_3,IMBUFF_D_4,IMBUFF_D_5,IMBUFF_D_6,IMBUFF_D_7"
bitfld.long 0x04 8.--10. "IMBUFF_C,Switch for image buffer c" "IMBUFF_C_0,IMBUFF_C_1,IMBUFF_C_2,IMBUFF_C_3,IMBUFF_C_4,IMBUFF_C_5,IMBUFF_C_6,IMBUFF_C_7"
newline
bitfld.long 0x04 4.--6. "IMBUFF_B,Switch for image buffer b" "IMBUFF_B_0,IMBUFF_B_1,IMBUFF_B_2,IMBUFF_B_3,IMBUFF_B_4,IMBUFF_B_5,IMBUFF_B_6,IMBUFF_B_7"
bitfld.long 0x04 0.--2. "IMBUFF_A,Switch for image buffer a" "IMBUFF_A_0,IMBUFF_A_1,IMBUFF_A_2,IMBUFF_A_3,IMBUFF_A_4,IMBUFF_A_5,IMBUFF_A_6,IMBUFF_A_7"
tree.end
tree "HWSEQ_L3Interconnect"
base ansd:0x52020000
tree "Channel_0"
group.long 0x8C++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_CTRL2_i_0,Hardware sequencer step control register"
bitfld.long 0x00 10.--11. "NSF2_IO_OFST,Controls NSF_IO bus mapping to image buffers: 0x0000" "NSF2_IO_OFST_0,NSF2_IO_OFST_1,NSF2_IO_OFST_2,NSF2_IO_OFST_3"
bitfld.long 0x00 8.--9. "LDC_O_OFST,Controls LDC.O bus mapping to image buffers: 0x0000 0x1000 0x2000" "LDC_O_OFST_0,LDC_O_OFST_1,LDC_O_OFST_2,LDC_O_OFST_3"
bitfld.long 0x00 4.--6. "COEFF_B,Coefficient buffer b switch" "COEFF_B_0,COEFF_B_1,COEFF_B_2,COEFF_B_3,COEFF_B_4,COEFF_B_5,COEFF_B_6,COEFF_B_7"
bitfld.long 0x00 0.--2. "COEFF_A,Coefficient buffer a switch" "COEFF_A_0,COEFF_A_1,COEFF_A_2,COEFF_A_3,COEFF_A_4,COEFF_A_5,COEFF_A_6,COEFF_A_7"
group.long 0x80++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_CTRL_i_0,Hardware sequencer step control register"
bitfld.long 0x00 31. "CPU_SYNC,Enable hardware synchronization with the CPU so that it can be used for some processing on in the macroblock pipeline" "CPU_SYNC_0,CPU_SYNC_1"
bitfld.long 0x00 28.--30. "DMA_OFST,Controls DMA bus mapping to image buffers: 0x0000 0x1000 0x2000 0x3000 0x4000 0x5000 0x6000" "DMA_OFST_0,DMA_OFST_1,DMA_OFST_2,DMA_OFST_3,DMA_OFST_4,DMA_OFST_5,DMA_OFST_6,DMA_OFST_7"
bitfld.long 0x00 26.--27. "ROT_O_OFST,Controls ROT.O bus mapping to image buffers: 0x0000 0x1000 0x2000" "ROT_O_OFST_0,ROT_O_OFST_1,ROT_O_OFST_2,ROT_O_OFST_3"
bitfld.long 0x00 24.--25. "ROT_I_OFST,Controls ROT_I bus mapping to image buffers: 0x0000 0x1000 0x2000" "ROT_I_OFST_0,ROT_I_OFST_1,ROT_I_OFST_2,ROT_I_OFST_3"
newline
bitfld.long 0x00 20.--22. "DCT_F_OFST,Controls DCT.F bus mapping to image buffers: 0x0000 0x1000 0x2000" "DCT_F_OFST_0,DCT_F_OFST_1,DCT_F_OFST_2,DCT_F_OFST_3,DCT_F_OFST_4,DCT_F_OFST_5,?,?"
bitfld.long 0x00 18.--19. "DCT_S_OFST,Controls DCT.S bus mapping to image buffers: 0x0000" "DCT_S_OFST_0,DCT_S_OFST_1,DCT_S_OFST_2,DCT_S_OFST_3"
bitfld.long 0x00 15.--17. "VLCDJ_IO_OFST,Controls VLCDJ IO data bus mapping to image buffers: 0x0000 0x1000 0x2000" "VLCDJ_IO_OFST_0,VLCDJ_IO_OFST_1,VLCDJ_IO_OFST_2,VLCDJ_IO_OFST_3,VLCDJ_IO_OFST_4,VLCDJ_IO_OFST_5,?,?"
bitfld.long 0x00 13.--14. "IMX_B_D_OFST,Controls iMX B data bus mapping to image buffers: 0x0000 0x1000 0x2000" "IMX_B_D_OFST_0,IMX_B_D_OFST_1,IMX_B_D_OFST_2,IMX_B_D_OFST_3"
newline
bitfld.long 0x00 11.--12. "IMX_A_D_OFST,Controls iMX A data bus mapping to image buffers: 0x0000 0x1000 0x2000" "IMX_A_D_OFST_0,IMX_A_D_OFST_1,IMX_A_D_OFST_2,IMX_A_D_OFST_3"
bitfld.long 0x00 9.--10. "NEXT,Next channel in the sync" "NEXT_0,NEXT_1,NEXT_2,NEXT_3"
bitfld.long 0x00 5.--7. "DMA_SYNC,Enable hardware synchronization with the SIMCOP DMA" "DMA_SYNC_0,DMA_SYNC_1,DMA_SYNC_2,DMA_SYNC_3,DMA_SYNC_4,DMA_SYNC_5,DMA_SYNC_6,DMA_SYNC_7"
bitfld.long 0x00 4. "ROT_A_SYNC,Enable hardware synchronization with the ROT #a module" "ROT_A_SYNC_0,ROT_A_SYNC_1"
newline
bitfld.long 0x00 3. "NSF_SYNC,Enable hardware synchronization with the NSF module" "NSF_SYNC_0,NSF_SYNC_1"
bitfld.long 0x00 2. "VLCDJ_SYNC,Enable hardware synchronization with the VLCDJ module" "VLCDJ_SYNC_0,VLCDJ_SYNC_1"
bitfld.long 0x00 1. "DCT_SYNC,Enable hardware synchronization with the DCT module" "DCT_SYNC_0,DCT_SYNC_1"
bitfld.long 0x00 0. "LDC_SYNC,Enable hardware synchronization with the LDC module" "LDC_SYNC_0,LDC_SYNC_1"
group.long 0x88++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_IMX_CTRL_i_0,Hardware sequencer step control register The configuration of step #0 is used when hardware sequencer is idle"
bitfld.long 0x00 31. "IMX_B_SYNC,Enable hardware synchronization with the iMX B module" "IMX_B_SYNC_0,IMX_B_SYNC_1"
hexmask.long.word 0x00 16.--28. 1. "IMX_B_START,This register is only used whenSIMCOP_HWSEQ_STEP_IMX_CTRL_i[31] IMX_B_SYNC=1"
bitfld.long 0x00 15. "IMX_A_SYNC,Enable hardware synchronization with the iMX A module" "IMX_A_SYNC_0,IMX_A_SYNC_1"
hexmask.long.word 0x00 0.--12. 1. "IMX_A_START,This register is only used whenSIMCOP_HWSEQ_STEP_IMX_CTRL_i[15] IMX_A_SYNC=1"
group.long 0x84++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_SWITCH_i_0,Image buffer switch control"
bitfld.long 0x00 28.--31. "IMBUFF_H,Switch for image buffer h" "IMBUFF_H_0,IMBUFF_H_1,IMBUFF_H_2,IMBUFF_H_3,IMBUFF_H_4,IMBUFF_H_5,IMBUFF_H_6,IMBUFF_H_7,IMBUFF_H_8,IMBUFF_H_9,?,?,?,?,?,?"
bitfld.long 0x00 24.--27. "IMBUFF_G,Switch for image buffer g" "IMBUFF_G_0,IMBUFF_G_1,IMBUFF_G_2,IMBUFF_G_3,IMBUFF_G_4,IMBUFF_G_5,IMBUFF_G_6,IMBUFF_G_7,IMBUFF_G_8,IMBUFF_G_9,?,?,?,?,?,?"
bitfld.long 0x00 20.--22. "IMBUFF_F,Switch for image buffer f" "IMBUFF_F_0,IMBUFF_F_1,IMBUFF_F_2,IMBUFF_F_3,IMBUFF_F_4,IMBUFF_F_5,IMBUFF_F_6,IMBUFF_F_7"
bitfld.long 0x00 16.--18. "IMBUFF_E,Switch for image buffer e" "IMBUFF_E_0,IMBUFF_E_1,IMBUFF_E_2,IMBUFF_E_3,IMBUFF_E_4,IMBUFF_E_5,IMBUFF_E_6,IMBUFF_E_7"
newline
bitfld.long 0x00 12.--14. "IMBUFF_D,Switch for image buffer d" "IMBUFF_D_0,IMBUFF_D_1,IMBUFF_D_2,IMBUFF_D_3,IMBUFF_D_4,IMBUFF_D_5,IMBUFF_D_6,IMBUFF_D_7"
bitfld.long 0x00 8.--10. "IMBUFF_C,Switch for image buffer c" "IMBUFF_C_0,IMBUFF_C_1,IMBUFF_C_2,IMBUFF_C_3,IMBUFF_C_4,IMBUFF_C_5,IMBUFF_C_6,IMBUFF_C_7"
bitfld.long 0x00 4.--6. "IMBUFF_B,Switch for image buffer b" "IMBUFF_B_0,IMBUFF_B_1,IMBUFF_B_2,IMBUFF_B_3,IMBUFF_B_4,IMBUFF_B_5,IMBUFF_B_6,IMBUFF_B_7"
bitfld.long 0x00 0.--2. "IMBUFF_A,Switch for image buffer a" "IMBUFF_A_0,IMBUFF_A_1,IMBUFF_A_2,IMBUFF_A_3,IMBUFF_A_4,IMBUFF_A_5,IMBUFF_A_6,IMBUFF_A_7"
tree.end
tree "Channel_1"
group.long 0x9C++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_CTRL2_i_1,Hardware sequencer step control register"
bitfld.long 0x00 10.--11. "NSF2_IO_OFST,Controls NSF_IO bus mapping to image buffers: 0x0000" "NSF2_IO_OFST_0,NSF2_IO_OFST_1,NSF2_IO_OFST_2,NSF2_IO_OFST_3"
bitfld.long 0x00 8.--9. "LDC_O_OFST,Controls LDC.O bus mapping to image buffers: 0x0000 0x1000 0x2000" "LDC_O_OFST_0,LDC_O_OFST_1,LDC_O_OFST_2,LDC_O_OFST_3"
bitfld.long 0x00 4.--6. "COEFF_B,Coefficient buffer b switch" "COEFF_B_0,COEFF_B_1,COEFF_B_2,COEFF_B_3,COEFF_B_4,COEFF_B_5,COEFF_B_6,COEFF_B_7"
bitfld.long 0x00 0.--2. "COEFF_A,Coefficient buffer a switch" "COEFF_A_0,COEFF_A_1,COEFF_A_2,COEFF_A_3,COEFF_A_4,COEFF_A_5,COEFF_A_6,COEFF_A_7"
group.long 0x90++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_CTRL_i_1,Hardware sequencer step control register"
bitfld.long 0x00 31. "CPU_SYNC,Enable hardware synchronization with the CPU so that it can be used for some processing on in the macroblock pipeline" "CPU_SYNC_0,CPU_SYNC_1"
bitfld.long 0x00 28.--30. "DMA_OFST,Controls DMA bus mapping to image buffers: 0x0000 0x1000 0x2000 0x3000 0x4000 0x5000 0x6000" "DMA_OFST_0,DMA_OFST_1,DMA_OFST_2,DMA_OFST_3,DMA_OFST_4,DMA_OFST_5,DMA_OFST_6,DMA_OFST_7"
bitfld.long 0x00 26.--27. "ROT_O_OFST,Controls ROT.O bus mapping to image buffers: 0x0000 0x1000 0x2000" "ROT_O_OFST_0,ROT_O_OFST_1,ROT_O_OFST_2,ROT_O_OFST_3"
bitfld.long 0x00 24.--25. "ROT_I_OFST,Controls ROT_I bus mapping to image buffers: 0x0000 0x1000 0x2000" "ROT_I_OFST_0,ROT_I_OFST_1,ROT_I_OFST_2,ROT_I_OFST_3"
newline
bitfld.long 0x00 20.--22. "DCT_F_OFST,Controls DCT.F bus mapping to image buffers: 0x0000 0x1000 0x2000" "DCT_F_OFST_0,DCT_F_OFST_1,DCT_F_OFST_2,DCT_F_OFST_3,DCT_F_OFST_4,DCT_F_OFST_5,?,?"
bitfld.long 0x00 18.--19. "DCT_S_OFST,Controls DCT.S bus mapping to image buffers: 0x0000" "DCT_S_OFST_0,DCT_S_OFST_1,DCT_S_OFST_2,DCT_S_OFST_3"
bitfld.long 0x00 15.--17. "VLCDJ_IO_OFST,Controls VLCDJ IO data bus mapping to image buffers: 0x0000 0x1000 0x2000" "VLCDJ_IO_OFST_0,VLCDJ_IO_OFST_1,VLCDJ_IO_OFST_2,VLCDJ_IO_OFST_3,VLCDJ_IO_OFST_4,VLCDJ_IO_OFST_5,?,?"
bitfld.long 0x00 13.--14. "IMX_B_D_OFST,Controls iMX B data bus mapping to image buffers: 0x0000 0x1000 0x2000" "IMX_B_D_OFST_0,IMX_B_D_OFST_1,IMX_B_D_OFST_2,IMX_B_D_OFST_3"
newline
bitfld.long 0x00 11.--12. "IMX_A_D_OFST,Controls iMX A data bus mapping to image buffers: 0x0000 0x1000 0x2000" "IMX_A_D_OFST_0,IMX_A_D_OFST_1,IMX_A_D_OFST_2,IMX_A_D_OFST_3"
bitfld.long 0x00 9.--10. "NEXT,Next channel in the sync" "NEXT_0,NEXT_1,NEXT_2,NEXT_3"
bitfld.long 0x00 5.--7. "DMA_SYNC,Enable hardware synchronization with the SIMCOP DMA" "DMA_SYNC_0,DMA_SYNC_1,DMA_SYNC_2,DMA_SYNC_3,DMA_SYNC_4,DMA_SYNC_5,DMA_SYNC_6,DMA_SYNC_7"
bitfld.long 0x00 4. "ROT_A_SYNC,Enable hardware synchronization with the ROT #a module" "ROT_A_SYNC_0,ROT_A_SYNC_1"
newline
bitfld.long 0x00 3. "NSF_SYNC,Enable hardware synchronization with the NSF module" "NSF_SYNC_0,NSF_SYNC_1"
bitfld.long 0x00 2. "VLCDJ_SYNC,Enable hardware synchronization with the VLCDJ module" "VLCDJ_SYNC_0,VLCDJ_SYNC_1"
bitfld.long 0x00 1. "DCT_SYNC,Enable hardware synchronization with the DCT module" "DCT_SYNC_0,DCT_SYNC_1"
bitfld.long 0x00 0. "LDC_SYNC,Enable hardware synchronization with the LDC module" "LDC_SYNC_0,LDC_SYNC_1"
group.long 0x98++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_IMX_CTRL_i_1,Hardware sequencer step control register The configuration of step #0 is used when hardware sequencer is idle"
bitfld.long 0x00 31. "IMX_B_SYNC,Enable hardware synchronization with the iMX B module" "IMX_B_SYNC_0,IMX_B_SYNC_1"
hexmask.long.word 0x00 16.--28. 1. "IMX_B_START,This register is only used whenSIMCOP_HWSEQ_STEP_IMX_CTRL_i[31] IMX_B_SYNC=1"
bitfld.long 0x00 15. "IMX_A_SYNC,Enable hardware synchronization with the iMX A module" "IMX_A_SYNC_0,IMX_A_SYNC_1"
hexmask.long.word 0x00 0.--12. 1. "IMX_A_START,This register is only used whenSIMCOP_HWSEQ_STEP_IMX_CTRL_i[15] IMX_A_SYNC=1"
group.long 0x94++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_SWITCH_i_1,Image buffer switch control"
bitfld.long 0x00 28.--31. "IMBUFF_H,Switch for image buffer h" "IMBUFF_H_0,IMBUFF_H_1,IMBUFF_H_2,IMBUFF_H_3,IMBUFF_H_4,IMBUFF_H_5,IMBUFF_H_6,IMBUFF_H_7,IMBUFF_H_8,IMBUFF_H_9,?,?,?,?,?,?"
bitfld.long 0x00 24.--27. "IMBUFF_G,Switch for image buffer g" "IMBUFF_G_0,IMBUFF_G_1,IMBUFF_G_2,IMBUFF_G_3,IMBUFF_G_4,IMBUFF_G_5,IMBUFF_G_6,IMBUFF_G_7,IMBUFF_G_8,IMBUFF_G_9,?,?,?,?,?,?"
bitfld.long 0x00 20.--22. "IMBUFF_F,Switch for image buffer f" "IMBUFF_F_0,IMBUFF_F_1,IMBUFF_F_2,IMBUFF_F_3,IMBUFF_F_4,IMBUFF_F_5,IMBUFF_F_6,IMBUFF_F_7"
bitfld.long 0x00 16.--18. "IMBUFF_E,Switch for image buffer e" "IMBUFF_E_0,IMBUFF_E_1,IMBUFF_E_2,IMBUFF_E_3,IMBUFF_E_4,IMBUFF_E_5,IMBUFF_E_6,IMBUFF_E_7"
newline
bitfld.long 0x00 12.--14. "IMBUFF_D,Switch for image buffer d" "IMBUFF_D_0,IMBUFF_D_1,IMBUFF_D_2,IMBUFF_D_3,IMBUFF_D_4,IMBUFF_D_5,IMBUFF_D_6,IMBUFF_D_7"
bitfld.long 0x00 8.--10. "IMBUFF_C,Switch for image buffer c" "IMBUFF_C_0,IMBUFF_C_1,IMBUFF_C_2,IMBUFF_C_3,IMBUFF_C_4,IMBUFF_C_5,IMBUFF_C_6,IMBUFF_C_7"
bitfld.long 0x00 4.--6. "IMBUFF_B,Switch for image buffer b" "IMBUFF_B_0,IMBUFF_B_1,IMBUFF_B_2,IMBUFF_B_3,IMBUFF_B_4,IMBUFF_B_5,IMBUFF_B_6,IMBUFF_B_7"
bitfld.long 0x00 0.--2. "IMBUFF_A,Switch for image buffer a" "IMBUFF_A_0,IMBUFF_A_1,IMBUFF_A_2,IMBUFF_A_3,IMBUFF_A_4,IMBUFF_A_5,IMBUFF_A_6,IMBUFF_A_7"
tree.end
tree "Channel_2"
group.long 0xAC++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_CTRL2_i_2,Hardware sequencer step control register"
bitfld.long 0x00 10.--11. "NSF2_IO_OFST,Controls NSF_IO bus mapping to image buffers: 0x0000" "NSF2_IO_OFST_0,NSF2_IO_OFST_1,NSF2_IO_OFST_2,NSF2_IO_OFST_3"
bitfld.long 0x00 8.--9. "LDC_O_OFST,Controls LDC.O bus mapping to image buffers: 0x0000 0x1000 0x2000" "LDC_O_OFST_0,LDC_O_OFST_1,LDC_O_OFST_2,LDC_O_OFST_3"
bitfld.long 0x00 4.--6. "COEFF_B,Coefficient buffer b switch" "COEFF_B_0,COEFF_B_1,COEFF_B_2,COEFF_B_3,COEFF_B_4,COEFF_B_5,COEFF_B_6,COEFF_B_7"
bitfld.long 0x00 0.--2. "COEFF_A,Coefficient buffer a switch" "COEFF_A_0,COEFF_A_1,COEFF_A_2,COEFF_A_3,COEFF_A_4,COEFF_A_5,COEFF_A_6,COEFF_A_7"
group.long 0xA0++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_CTRL_i_2,Hardware sequencer step control register"
bitfld.long 0x00 31. "CPU_SYNC,Enable hardware synchronization with the CPU so that it can be used for some processing on in the macroblock pipeline" "CPU_SYNC_0,CPU_SYNC_1"
bitfld.long 0x00 28.--30. "DMA_OFST,Controls DMA bus mapping to image buffers: 0x0000 0x1000 0x2000 0x3000 0x4000 0x5000 0x6000" "DMA_OFST_0,DMA_OFST_1,DMA_OFST_2,DMA_OFST_3,DMA_OFST_4,DMA_OFST_5,DMA_OFST_6,DMA_OFST_7"
bitfld.long 0x00 26.--27. "ROT_O_OFST,Controls ROT.O bus mapping to image buffers: 0x0000 0x1000 0x2000" "ROT_O_OFST_0,ROT_O_OFST_1,ROT_O_OFST_2,ROT_O_OFST_3"
bitfld.long 0x00 24.--25. "ROT_I_OFST,Controls ROT_I bus mapping to image buffers: 0x0000 0x1000 0x2000" "ROT_I_OFST_0,ROT_I_OFST_1,ROT_I_OFST_2,ROT_I_OFST_3"
newline
bitfld.long 0x00 20.--22. "DCT_F_OFST,Controls DCT.F bus mapping to image buffers: 0x0000 0x1000 0x2000" "DCT_F_OFST_0,DCT_F_OFST_1,DCT_F_OFST_2,DCT_F_OFST_3,DCT_F_OFST_4,DCT_F_OFST_5,?,?"
bitfld.long 0x00 18.--19. "DCT_S_OFST,Controls DCT.S bus mapping to image buffers: 0x0000" "DCT_S_OFST_0,DCT_S_OFST_1,DCT_S_OFST_2,DCT_S_OFST_3"
bitfld.long 0x00 15.--17. "VLCDJ_IO_OFST,Controls VLCDJ IO data bus mapping to image buffers: 0x0000 0x1000 0x2000" "VLCDJ_IO_OFST_0,VLCDJ_IO_OFST_1,VLCDJ_IO_OFST_2,VLCDJ_IO_OFST_3,VLCDJ_IO_OFST_4,VLCDJ_IO_OFST_5,?,?"
bitfld.long 0x00 13.--14. "IMX_B_D_OFST,Controls iMX B data bus mapping to image buffers: 0x0000 0x1000 0x2000" "IMX_B_D_OFST_0,IMX_B_D_OFST_1,IMX_B_D_OFST_2,IMX_B_D_OFST_3"
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bitfld.long 0x00 11.--12. "IMX_A_D_OFST,Controls iMX A data bus mapping to image buffers: 0x0000 0x1000 0x2000" "IMX_A_D_OFST_0,IMX_A_D_OFST_1,IMX_A_D_OFST_2,IMX_A_D_OFST_3"
bitfld.long 0x00 9.--10. "NEXT,Next channel in the sync" "NEXT_0,NEXT_1,NEXT_2,NEXT_3"
bitfld.long 0x00 5.--7. "DMA_SYNC,Enable hardware synchronization with the SIMCOP DMA" "DMA_SYNC_0,DMA_SYNC_1,DMA_SYNC_2,DMA_SYNC_3,DMA_SYNC_4,DMA_SYNC_5,DMA_SYNC_6,DMA_SYNC_7"
bitfld.long 0x00 4. "ROT_A_SYNC,Enable hardware synchronization with the ROT #a module" "ROT_A_SYNC_0,ROT_A_SYNC_1"
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bitfld.long 0x00 3. "NSF_SYNC,Enable hardware synchronization with the NSF module" "NSF_SYNC_0,NSF_SYNC_1"
bitfld.long 0x00 2. "VLCDJ_SYNC,Enable hardware synchronization with the VLCDJ module" "VLCDJ_SYNC_0,VLCDJ_SYNC_1"
bitfld.long 0x00 1. "DCT_SYNC,Enable hardware synchronization with the DCT module" "DCT_SYNC_0,DCT_SYNC_1"
bitfld.long 0x00 0. "LDC_SYNC,Enable hardware synchronization with the LDC module" "LDC_SYNC_0,LDC_SYNC_1"
group.long 0xA8++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_IMX_CTRL_i_2,Hardware sequencer step control register The configuration of step #0 is used when hardware sequencer is idle"
bitfld.long 0x00 31. "IMX_B_SYNC,Enable hardware synchronization with the iMX B module" "IMX_B_SYNC_0,IMX_B_SYNC_1"
hexmask.long.word 0x00 16.--28. 1. "IMX_B_START,This register is only used whenSIMCOP_HWSEQ_STEP_IMX_CTRL_i[31] IMX_B_SYNC=1"
bitfld.long 0x00 15. "IMX_A_SYNC,Enable hardware synchronization with the iMX A module" "IMX_A_SYNC_0,IMX_A_SYNC_1"
hexmask.long.word 0x00 0.--12. 1. "IMX_A_START,This register is only used whenSIMCOP_HWSEQ_STEP_IMX_CTRL_i[15] IMX_A_SYNC=1"
group.long 0xA4++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_SWITCH_i_2,Image buffer switch control"
bitfld.long 0x00 28.--31. "IMBUFF_H,Switch for image buffer h" "IMBUFF_H_0,IMBUFF_H_1,IMBUFF_H_2,IMBUFF_H_3,IMBUFF_H_4,IMBUFF_H_5,IMBUFF_H_6,IMBUFF_H_7,IMBUFF_H_8,IMBUFF_H_9,?,?,?,?,?,?"
bitfld.long 0x00 24.--27. "IMBUFF_G,Switch for image buffer g" "IMBUFF_G_0,IMBUFF_G_1,IMBUFF_G_2,IMBUFF_G_3,IMBUFF_G_4,IMBUFF_G_5,IMBUFF_G_6,IMBUFF_G_7,IMBUFF_G_8,IMBUFF_G_9,?,?,?,?,?,?"
bitfld.long 0x00 20.--22. "IMBUFF_F,Switch for image buffer f" "IMBUFF_F_0,IMBUFF_F_1,IMBUFF_F_2,IMBUFF_F_3,IMBUFF_F_4,IMBUFF_F_5,IMBUFF_F_6,IMBUFF_F_7"
bitfld.long 0x00 16.--18. "IMBUFF_E,Switch for image buffer e" "IMBUFF_E_0,IMBUFF_E_1,IMBUFF_E_2,IMBUFF_E_3,IMBUFF_E_4,IMBUFF_E_5,IMBUFF_E_6,IMBUFF_E_7"
newline
bitfld.long 0x00 12.--14. "IMBUFF_D,Switch for image buffer d" "IMBUFF_D_0,IMBUFF_D_1,IMBUFF_D_2,IMBUFF_D_3,IMBUFF_D_4,IMBUFF_D_5,IMBUFF_D_6,IMBUFF_D_7"
bitfld.long 0x00 8.--10. "IMBUFF_C,Switch for image buffer c" "IMBUFF_C_0,IMBUFF_C_1,IMBUFF_C_2,IMBUFF_C_3,IMBUFF_C_4,IMBUFF_C_5,IMBUFF_C_6,IMBUFF_C_7"
bitfld.long 0x00 4.--6. "IMBUFF_B,Switch for image buffer b" "IMBUFF_B_0,IMBUFF_B_1,IMBUFF_B_2,IMBUFF_B_3,IMBUFF_B_4,IMBUFF_B_5,IMBUFF_B_6,IMBUFF_B_7"
bitfld.long 0x00 0.--2. "IMBUFF_A,Switch for image buffer a" "IMBUFF_A_0,IMBUFF_A_1,IMBUFF_A_2,IMBUFF_A_3,IMBUFF_A_4,IMBUFF_A_5,IMBUFF_A_6,IMBUFF_A_7"
tree.end
tree "Channel_3"
group.long 0xBC++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_CTRL2_i_3,Hardware sequencer step control register"
bitfld.long 0x00 10.--11. "NSF2_IO_OFST,Controls NSF_IO bus mapping to image buffers: 0x0000" "NSF2_IO_OFST_0,NSF2_IO_OFST_1,NSF2_IO_OFST_2,NSF2_IO_OFST_3"
bitfld.long 0x00 8.--9. "LDC_O_OFST,Controls LDC.O bus mapping to image buffers: 0x0000 0x1000 0x2000" "LDC_O_OFST_0,LDC_O_OFST_1,LDC_O_OFST_2,LDC_O_OFST_3"
bitfld.long 0x00 4.--6. "COEFF_B,Coefficient buffer b switch" "COEFF_B_0,COEFF_B_1,COEFF_B_2,COEFF_B_3,COEFF_B_4,COEFF_B_5,COEFF_B_6,COEFF_B_7"
bitfld.long 0x00 0.--2. "COEFF_A,Coefficient buffer a switch" "COEFF_A_0,COEFF_A_1,COEFF_A_2,COEFF_A_3,COEFF_A_4,COEFF_A_5,COEFF_A_6,COEFF_A_7"
group.long 0xB0++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_CTRL_i_3,Hardware sequencer step control register"
bitfld.long 0x00 31. "CPU_SYNC,Enable hardware synchronization with the CPU so that it can be used for some processing on in the macroblock pipeline" "CPU_SYNC_0,CPU_SYNC_1"
bitfld.long 0x00 28.--30. "DMA_OFST,Controls DMA bus mapping to image buffers: 0x0000 0x1000 0x2000 0x3000 0x4000 0x5000 0x6000" "DMA_OFST_0,DMA_OFST_1,DMA_OFST_2,DMA_OFST_3,DMA_OFST_4,DMA_OFST_5,DMA_OFST_6,DMA_OFST_7"
bitfld.long 0x00 26.--27. "ROT_O_OFST,Controls ROT.O bus mapping to image buffers: 0x0000 0x1000 0x2000" "ROT_O_OFST_0,ROT_O_OFST_1,ROT_O_OFST_2,ROT_O_OFST_3"
bitfld.long 0x00 24.--25. "ROT_I_OFST,Controls ROT_I bus mapping to image buffers: 0x0000 0x1000 0x2000" "ROT_I_OFST_0,ROT_I_OFST_1,ROT_I_OFST_2,ROT_I_OFST_3"
newline
bitfld.long 0x00 20.--22. "DCT_F_OFST,Controls DCT.F bus mapping to image buffers: 0x0000 0x1000 0x2000" "DCT_F_OFST_0,DCT_F_OFST_1,DCT_F_OFST_2,DCT_F_OFST_3,DCT_F_OFST_4,DCT_F_OFST_5,?,?"
bitfld.long 0x00 18.--19. "DCT_S_OFST,Controls DCT.S bus mapping to image buffers: 0x0000" "DCT_S_OFST_0,DCT_S_OFST_1,DCT_S_OFST_2,DCT_S_OFST_3"
bitfld.long 0x00 15.--17. "VLCDJ_IO_OFST,Controls VLCDJ IO data bus mapping to image buffers: 0x0000 0x1000 0x2000" "VLCDJ_IO_OFST_0,VLCDJ_IO_OFST_1,VLCDJ_IO_OFST_2,VLCDJ_IO_OFST_3,VLCDJ_IO_OFST_4,VLCDJ_IO_OFST_5,?,?"
bitfld.long 0x00 13.--14. "IMX_B_D_OFST,Controls iMX B data bus mapping to image buffers: 0x0000 0x1000 0x2000" "IMX_B_D_OFST_0,IMX_B_D_OFST_1,IMX_B_D_OFST_2,IMX_B_D_OFST_3"
newline
bitfld.long 0x00 11.--12. "IMX_A_D_OFST,Controls iMX A data bus mapping to image buffers: 0x0000 0x1000 0x2000" "IMX_A_D_OFST_0,IMX_A_D_OFST_1,IMX_A_D_OFST_2,IMX_A_D_OFST_3"
bitfld.long 0x00 9.--10. "NEXT,Next channel in the sync" "NEXT_0,NEXT_1,NEXT_2,NEXT_3"
bitfld.long 0x00 5.--7. "DMA_SYNC,Enable hardware synchronization with the SIMCOP DMA" "DMA_SYNC_0,DMA_SYNC_1,DMA_SYNC_2,DMA_SYNC_3,DMA_SYNC_4,DMA_SYNC_5,DMA_SYNC_6,DMA_SYNC_7"
bitfld.long 0x00 4. "ROT_A_SYNC,Enable hardware synchronization with the ROT #a module" "ROT_A_SYNC_0,ROT_A_SYNC_1"
newline
bitfld.long 0x00 3. "NSF_SYNC,Enable hardware synchronization with the NSF module" "NSF_SYNC_0,NSF_SYNC_1"
bitfld.long 0x00 2. "VLCDJ_SYNC,Enable hardware synchronization with the VLCDJ module" "VLCDJ_SYNC_0,VLCDJ_SYNC_1"
bitfld.long 0x00 1. "DCT_SYNC,Enable hardware synchronization with the DCT module" "DCT_SYNC_0,DCT_SYNC_1"
bitfld.long 0x00 0. "LDC_SYNC,Enable hardware synchronization with the LDC module" "LDC_SYNC_0,LDC_SYNC_1"
group.long 0xB8++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_IMX_CTRL_i_3,Hardware sequencer step control register The configuration of step #0 is used when hardware sequencer is idle"
bitfld.long 0x00 31. "IMX_B_SYNC,Enable hardware synchronization with the iMX B module" "IMX_B_SYNC_0,IMX_B_SYNC_1"
hexmask.long.word 0x00 16.--28. 1. "IMX_B_START,This register is only used whenSIMCOP_HWSEQ_STEP_IMX_CTRL_i[31] IMX_B_SYNC=1"
bitfld.long 0x00 15. "IMX_A_SYNC,Enable hardware synchronization with the iMX A module" "IMX_A_SYNC_0,IMX_A_SYNC_1"
hexmask.long.word 0x00 0.--12. 1. "IMX_A_START,This register is only used whenSIMCOP_HWSEQ_STEP_IMX_CTRL_i[15] IMX_A_SYNC=1"
group.long 0xB4++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_SWITCH_i_3,Image buffer switch control"
bitfld.long 0x00 28.--31. "IMBUFF_H,Switch for image buffer h" "IMBUFF_H_0,IMBUFF_H_1,IMBUFF_H_2,IMBUFF_H_3,IMBUFF_H_4,IMBUFF_H_5,IMBUFF_H_6,IMBUFF_H_7,IMBUFF_H_8,IMBUFF_H_9,?,?,?,?,?,?"
bitfld.long 0x00 24.--27. "IMBUFF_G,Switch for image buffer g" "IMBUFF_G_0,IMBUFF_G_1,IMBUFF_G_2,IMBUFF_G_3,IMBUFF_G_4,IMBUFF_G_5,IMBUFF_G_6,IMBUFF_G_7,IMBUFF_G_8,IMBUFF_G_9,?,?,?,?,?,?"
bitfld.long 0x00 20.--22. "IMBUFF_F,Switch for image buffer f" "IMBUFF_F_0,IMBUFF_F_1,IMBUFF_F_2,IMBUFF_F_3,IMBUFF_F_4,IMBUFF_F_5,IMBUFF_F_6,IMBUFF_F_7"
bitfld.long 0x00 16.--18. "IMBUFF_E,Switch for image buffer e" "IMBUFF_E_0,IMBUFF_E_1,IMBUFF_E_2,IMBUFF_E_3,IMBUFF_E_4,IMBUFF_E_5,IMBUFF_E_6,IMBUFF_E_7"
newline
bitfld.long 0x00 12.--14. "IMBUFF_D,Switch for image buffer d" "IMBUFF_D_0,IMBUFF_D_1,IMBUFF_D_2,IMBUFF_D_3,IMBUFF_D_4,IMBUFF_D_5,IMBUFF_D_6,IMBUFF_D_7"
bitfld.long 0x00 8.--10. "IMBUFF_C,Switch for image buffer c" "IMBUFF_C_0,IMBUFF_C_1,IMBUFF_C_2,IMBUFF_C_3,IMBUFF_C_4,IMBUFF_C_5,IMBUFF_C_6,IMBUFF_C_7"
bitfld.long 0x00 4.--6. "IMBUFF_B,Switch for image buffer b" "IMBUFF_B_0,IMBUFF_B_1,IMBUFF_B_2,IMBUFF_B_3,IMBUFF_B_4,IMBUFF_B_5,IMBUFF_B_6,IMBUFF_B_7"
bitfld.long 0x00 0.--2. "IMBUFF_A,Switch for image buffer a" "IMBUFF_A_0,IMBUFF_A_1,IMBUFF_A_2,IMBUFF_A_3,IMBUFF_A_4,IMBUFF_A_5,IMBUFF_A_6,IMBUFF_A_7"
tree.end
group.long 0x68++0x03
line.long 0x00 "SIMCOP_HWSEQ_CTRL,SIMCOP hardware sequencer control register"
hexmask.long.word 0x00 16.--31. 1. "HW_SEQ_STEP_COUNTER,Number of steps executed by the hardware sequencer"
bitfld.long 0x00 11.--12. "STEP,This register is automatically updated by the hardware sequencer when it is active" "STEP_0,STEP_1,STEP_2,STEP_3"
bitfld.long 0x00 10. "CPU_PROC_DONE,Used by the CPU to tell that it has completed data processing" "CPU_PROC_DONE_0_w,CPU_PROC_DONE_1_w"
newline
bitfld.long 0x00 8.--9. "BBM_SYNC_CHAN,Defines the SIMCOP DMA hardware synchronization channel to be used for BBM" "BBM_SYNC_CHAN_0,BBM_SYNC_CHAN_1,BBM_SYNC_CHAN_2,BBM_SYNC_CHAN_3"
bitfld.long 0x00 7. "BBM_STATUS,Status of the Bitstream buffer management hardware.Used only during automatic mode [BITSTREAM=5 or 6]" "BBM is idle,BBM is busy.Read"
bitfld.long 0x00 4.--6. "BITSTREAM,Bitstream buffer access control" "BITSTREAM_0,BITSTREAM_1,BITSTREAM_2,BITSTREAM_3,BITSTREAM_4,BITSTREAM_5,BITSTREAM_6,?"
newline
bitfld.long 0x00 2.--3. "BITSTR_XFER_SIZE,Defines the amount of data to be transferred per hardware request to the SIMCOP DMA" "BITSTR_XFER_SIZE_0,BITSTR_XFER_SIZE_1,BITSTR_XFER_SIZE_2,BITSTR_XFER_SIZE_3"
bitfld.long 0x00 1. "HW_SEQ_STOP,Stop the hardware sequencer" "HW_SEQ_STOP_0_w,HW_SEQ_STOP_1_w"
bitfld.long 0x00 0. "HW_SEQ_START,Start the hardware sequencer" "HW_SEQ_START_0_w,HW_SEQ_START_1_w"
group.long 0x70++0x03
line.long 0x00 "SIMCOP_HWSEQ_OVERRIDE,Hardware sequencer override control register"
bitfld.long 0x00 18. "COEFF_B,See register description" "COEFF_B_0,COEFF_B_1"
bitfld.long 0x00 17. "COEFF_A,See register description" "COEFF_A_0,COEFF_A_1"
bitfld.long 0x00 16. "IMBUFF_H,See register description" "IMBUFF_H_0,IMBUFF_H_1"
newline
bitfld.long 0x00 15. "IMBUFF_G,See register description" "IMBUFF_G_0,IMBUFF_G_1"
bitfld.long 0x00 14. "IMBUFF_F,See register description" "IMBUFF_F_0,IMBUFF_F_1"
bitfld.long 0x00 13. "IMBUFF_E,See register description" "IMBUFF_E_0,IMBUFF_E_1"
newline
bitfld.long 0x00 12. "IMBUFF_D,See register description" "IMBUFF_D_0,IMBUFF_D_1"
bitfld.long 0x00 11. "IMBUFF_C,See register description" "IMBUFF_C_0,IMBUFF_C_1"
bitfld.long 0x00 10. "IMBUFF_B,See register description" "IMBUFF_B_0,IMBUFF_B_1"
newline
bitfld.long 0x00 9. "IMBUFF_A,See register description" "IMBUFF_A_0,IMBUFF_A_1"
bitfld.long 0x00 8. "LDC_O_OFST_OVR,See register description" "LDC_O_OFST_OVR_0,LDC_O_OFST_OVR_1"
bitfld.long 0x00 7. "ROT_O_OFST_OVR,See register description" "ROT_O_OFST_OVR_0,ROT_O_OFST_OVR_1"
newline
bitfld.long 0x00 6. "ROT_I_OFST_OVR,See register description" "ROT_I_OFST_OVR_0,ROT_I_OFST_OVR_1"
bitfld.long 0x00 5. "NSF_IO_OFST_OVR,See register description" "NSF_IO_OFST_OVR_0,NSF_IO_OFST_OVR_1"
bitfld.long 0x00 4. "DCT_F_OFST_OVR,See register description" "DCT_F_OFST_OVR_0,DCT_F_OFST_OVR_1"
newline
bitfld.long 0x00 3. "DCT_S_OFST_OVR,See register description" "DCT_S_OFST_OVR_0,DCT_S_OFST_OVR_1"
bitfld.long 0x00 2. "VLCDJ_IO_OFST_OVR,See register description" "VLCDJ_IO_OFST_OVR_0,VLCDJ_IO_OFST_OVR_1"
bitfld.long 0x00 1. "IMX_B_D_OFST_OVR,See register description" "IMX_B_D_OFST_OVR_0,IMX_B_D_OFST_OVR_1"
newline
bitfld.long 0x00 0. "IMX_A_D_OFST_OVR,See register description" "IMX_A_D_OFST_OVR_0,IMX_A_D_OFST_OVR_1"
rgroup.long 0x6C++0x03
line.long 0x00 "SIMCOP_HWSEQ_STATUS,Hardware sequencer status register"
hexmask.long.word 0x00 16.--31. 1. "HW_SEQ_STEP_COUNTER,Current step number"
bitfld.long 0x00 0. "STATE,Current state" "STATE_0_r,STATE_1_r"
group.long 0x7C++0x03
line.long 0x00 "SIMCOP_HWSEQ_STEP_CTRL2_OVERRIDE,Hardware sequencer override register"
bitfld.long 0x00 10.--11. "NSF2_IO_OFST,Controls NSF_IO bus mapping to image buffers: 0x0000" "NSF2_IO_OFST_0,NSF2_IO_OFST_1,NSF2_IO_OFST_2,NSF2_IO_OFST_3"
bitfld.long 0x00 8.--9. "LDC_O_OFST,Controls LDC.O bus mapping to image buffers: 0x0000 0x1000 0x2000" "LDC_O_OFST_0,LDC_O_OFST_1,LDC_O_OFST_2,LDC_O_OFST_3"
bitfld.long 0x00 4.--6. "COEFF_B,Coefficient buffer b switch" "COEFF_B_0,COEFF_B_1,COEFF_B_2,COEFF_B_3,COEFF_B_4,COEFF_B_5,COEFF_B_6,COEFF_B_7"
newline
bitfld.long 0x00 0.--2. "COEFF_A,Coefficient buffer a switch" "COEFF_A_0,COEFF_A_1,COEFF_A_2,COEFF_A_3,COEFF_A_4,COEFF_A_5,COEFF_A_6,COEFF_A_7"
group.long 0x74++0x07
line.long 0x00 "SIMCOP_HWSEQ_STEP_CTRL_OVERRIDE,Hardware sequencer override register"
bitfld.long 0x00 26.--27. "ROT_O_OFST,Controls ROT.O bus mapping to image buffers: 0x0000 0x1000 0x2000" "ROT_O_OFST_0,ROT_O_OFST_1,ROT_O_OFST_2,ROT_O_OFST_3"
bitfld.long 0x00 24.--25. "ROT_I_OFST,Controls ROT_I bus mapping to image buffers: 0x0000 0x1000 0x2000" "ROT_I_OFST_0,ROT_I_OFST_1,ROT_I_OFST_2,ROT_I_OFST_3"
bitfld.long 0x00 20.--22. "DCT_F_OFST,Controls DCT.F bus mapping to image buffers: 0x0000 0x1000 0x2000" "DCT_F_OFST_0,DCT_F_OFST_1,DCT_F_OFST_2,DCT_F_OFST_3,DCT_F_OFST_4,DCT_F_OFST_5,?,?"
newline
bitfld.long 0x00 18.--19. "DCT_S_OFST,Controls DCT.S bus mapping to image buffers: 0x0000" "DCT_S_OFST_0,DCT_S_OFST_1,DCT_S_OFST_2,DCT_S_OFST_3"
bitfld.long 0x00 15.--17. "VLCDJ_IO_OFST,Controls VLCDJ IO data bus mapping to image buffers: 0x0000 0x1000 0x2000" "VLCDJ_IO_OFST_0,VLCDJ_IO_OFST_1,VLCDJ_IO_OFST_2,VLCDJ_IO_OFST_3,VLCDJ_IO_OFST_4,VLCDJ_IO_OFST_5,?,?"
bitfld.long 0x00 13.--14. "IMX_B_D_OFST,Controls iMX B data bus mapping to image buffers: 0x0000 0x1000 0x2000" "IMX_B_D_OFST_0,IMX_B_D_OFST_1,IMX_B_D_OFST_2,IMX_B_D_OFST_3"
newline
bitfld.long 0x00 11.--12. "IMX_A_D_OFST,Controls iMX A data bus mapping to image buffers: 0x0000 0x1000 0x2000" "IMX_A_D_OFST_0,IMX_A_D_OFST_1,IMX_A_D_OFST_2,IMX_A_D_OFST_3"
bitfld.long 0x00 5.--7. "DMA_TRIGGER,Software controlled START/DONE synchronization" "DMA_TRIGGER_0_r,DMA_TRIGGER_1_w,DMA_TRIGGER_2_r,DMA_TRIGGER_3_w,DMA_TRIGGER_4_w,DMA_TRIGGER_5_r,DMA_TRIGGER_6_w,DMA_TRIGGER_7_r"
bitfld.long 0x00 4. "ROT_A_TRIGGER,Software controlled START/DONE synchronization" "ROT_A_TRIGGER_0_r,ROT_A_TRIGGER_1_w"
newline
bitfld.long 0x00 3. "NSF_TRIGGER,Software controlled START/DONE synchronization" "NSF_TRIGGER_0_r,NSF_TRIGGER_1_w"
bitfld.long 0x00 2. "VLCDJ_TRIGGER,Software controlled START/DONE synchronization" "VLCDJ_TRIGGER_0_r,VLCDJ_TRIGGER_1_w"
bitfld.long 0x00 1. "DCT_TRIGGER,Software controlled START/DONE synchronization" "DCT_TRIGGER_0_r,DCT_TRIGGER_1_w"
newline
bitfld.long 0x00 0. "LDC_TRIGGER,Software controlled START/DONE synchronization" "LDC_TRIGGER_0_r,LDC_TRIGGER_1_w"
line.long 0x04 "SIMCOP_HWSEQ_STEP_SWITCH_OVERRIDE,Hardware sequencer override register"
bitfld.long 0x04 28.--31. "IMBUFF_H,Switch for image buffer h" "IMBUFF_H_0,IMBUFF_H_1,IMBUFF_H_2,IMBUFF_H_3,IMBUFF_H_4,IMBUFF_H_5,IMBUFF_H_6,IMBUFF_H_7,IMBUFF_H_8,IMBUFF_H_9,?,?,?,?,?,?"
bitfld.long 0x04 24.--27. "IMBUFF_G,Switch for image buffer g" "IMBUFF_G_0,IMBUFF_G_1,IMBUFF_G_2,IMBUFF_G_3,IMBUFF_G_4,IMBUFF_G_5,IMBUFF_G_6,IMBUFF_G_7,IMBUFF_G_8,IMBUFF_G_9,?,?,?,?,?,?"
bitfld.long 0x04 20.--22. "IMBUFF_F,Switch for image buffer f" "IMBUFF_F_0,IMBUFF_F_1,IMBUFF_F_2,IMBUFF_F_3,IMBUFF_F_4,IMBUFF_F_5,IMBUFF_F_6,IMBUFF_F_7"
newline
bitfld.long 0x04 16.--18. "IMBUFF_E,Switch for image buffer e" "IMBUFF_E_0,IMBUFF_E_1,IMBUFF_E_2,IMBUFF_E_3,IMBUFF_E_4,IMBUFF_E_5,IMBUFF_E_6,IMBUFF_E_7"
bitfld.long 0x04 12.--14. "IMBUFF_D,Switch for image buffer d" "IMBUFF_D_0,IMBUFF_D_1,IMBUFF_D_2,IMBUFF_D_3,IMBUFF_D_4,IMBUFF_D_5,IMBUFF_D_6,IMBUFF_D_7"
bitfld.long 0x04 8.--10. "IMBUFF_C,Switch for image buffer c" "IMBUFF_C_0,IMBUFF_C_1,IMBUFF_C_2,IMBUFF_C_3,IMBUFF_C_4,IMBUFF_C_5,IMBUFF_C_6,IMBUFF_C_7"
newline
bitfld.long 0x04 4.--6. "IMBUFF_B,Switch for image buffer b" "IMBUFF_B_0,IMBUFF_B_1,IMBUFF_B_2,IMBUFF_B_3,IMBUFF_B_4,IMBUFF_B_5,IMBUFF_B_6,IMBUFF_B_7"
bitfld.long 0x04 0.--2. "IMBUFF_A,Switch for image buffer a" "IMBUFF_A_0,IMBUFF_A_1,IMBUFF_A_2,IMBUFF_A_3,IMBUFF_A_4,IMBUFF_A_5,IMBUFF_A_6,IMBUFF_A_7"
tree.end
tree.end
tree "ISS_SIMCOP_Overview"
tree "SIMCOP_CONTROL_L3Interconnect"
base ansd:0x52020000
tree "IRQ_Line_0"
group.long 0x2C++0x03
line.long 0x00 "SIMCOP_HL_IRQENABLE_CLR_i_0,Per-event interrupt enable bit vector"
bitfld.long 0x00 19. "CPU_PROC_START_IRQ,Event triggered by the hardware sequencer to instruct the CPU to process a macroblock" "CPU_PROC_START_IRQ_0_r,CPU_PROC_START_IRQ_1_w"
bitfld.long 0x00 18. "SIMCOP_DMA_IRQ1,Event triggered by the SIMCOP DMA" "SIMCOP_DMA_IRQ1_0_r,SIMCOP_DMA_IRQ1_1_w"
newline
bitfld.long 0x00 17. "LDC2BRIDGE_ERR_IRQ,The LDC2 bridge has generated an error" "LDC2BRIDGE_ERR_IRQ_0_r,LDC2BRIDGE_ERR_IRQ_1_w"
bitfld.long 0x00 16. "ICNT_ERR_IRQ,An error has been received on the SIMCOP master port" "ICNT_ERR_IRQ_0_r,ICNT_ERR_IRQ_1_w"
newline
bitfld.long 0x00 15. "VLCDJ_DECODE_ERR_IRQ,A decode error has been signaled by the VLCDJ module" "VLCDJ_DECODE_ERR_IRQ_0_r,VLCDJ_DECODE_ERR_IRQ_1_w"
bitfld.long 0x00 14. "DONE_IRQ,Event triggered when the hardware sequencer finishes the sequence: The sequence step counter has reached the limit" "DONE_IRQ_0_r,DONE_IRQ_1_w"
newline
bitfld.long 0x00 13. "STEP3_IRQ,Event triggered when Step 3 is activated by the hardware sequencer" "STEP3_IRQ_0_r,STEP3_IRQ_1_w"
bitfld.long 0x00 12. "STEP2_IRQ,Event triggered when Step 2 is activated by the hardware sequencer" "STEP2_IRQ_0_r,STEP2_IRQ_1_w"
newline
bitfld.long 0x00 11. "STEP1_IRQ,Event triggered when Step 1 is activated by the hardware sequencer" "STEP1_IRQ_0_r,STEP1_IRQ_1_w"
bitfld.long 0x00 10. "STEP0_IRQ,Event triggered when Step 0 is activated by the hardware sequencer" "STEP0_IRQ_0_r,STEP0_IRQ_1_w"
newline
bitfld.long 0x00 9. "LDC_BLOCK_IRQ,This event is triggered by LDC when a macroblock has been processed" "LDC_BLOCK_IRQ_0_r,LDC_BLOCK_IRQ_1_w"
bitfld.long 0x00 7. "ROT_A,Event triggered by the ROT a engine" "ROT_A_0_r,ROT_A_1_w"
newline
bitfld.long 0x00 6. "IMX_B_IRQ,Event triggered when iMX has executed a SLEEP instruction" "IMX_B_IRQ_0_r,IMX_B_IRQ_1_w"
bitfld.long 0x00 5. "IMX_A_IRQ,Event triggered when iMX has executed a SLEEP instruction" "IMX_A_IRQ_0_r,IMX_A_IRQ_1_w"
newline
bitfld.long 0x00 4. "NSF_IRQ_IRQ,Event triggered by the NSF2 imaging accelerator when processing of a block is done" "NSF_IRQ_IRQ_0_r,NSF_IRQ_IRQ_1_w"
bitfld.long 0x00 3. "VLCDJ_BLOC_IRQ,This event is triggered by VLCDJ when a macroblock has been processed (encode/decode)" "VLCDJ_BLOC_IRQ_0_r,VLCDJ_BLOC_IRQ_1_w"
newline
bitfld.long 0x00 2. "DCT_IRQ,Event triggered when a block has been processed by the DCT module and the filter outcome has been stored to an image buffer" "DCT_IRQ_0_r,DCT_IRQ_1_w"
bitfld.long 0x00 1. "LDC_FRAME_IRQ,This event is triggered by LDC when a full frame has been processed" "LDC_FRAME_IRQ_0_r,LDC_FRAME_IRQ_1_w"
newline
bitfld.long 0x00 0. "SIMCOP_DMA_IRQ0,Event triggered by the SIMCOP DMA" "SIMCOP_DMA_IRQ0_0_r,SIMCOP_DMA_IRQ0_1_w"
group.long 0x28++0x03
line.long 0x00 "SIMCOP_HL_IRQENABLE_SET_i_0,Per-event interrupt enable bit vector"
bitfld.long 0x00 19. "CPU_PROC_START_IRQ,Event triggered by the hardware sequencer to instruct the CPU to process a macroblock" "CPU_PROC_START_IRQ_0_r,CPU_PROC_START_IRQ_1_w"
bitfld.long 0x00 18. "SIMCOP_DMA_IRQ1,Event triggered by the SIMCOP DMA" "SIMCOP_DMA_IRQ1_0_r,SIMCOP_DMA_IRQ1_1_w"
newline
bitfld.long 0x00 17. "LDC2BRIDGE_ERR_IRQ,The LDC2 bridge has generated an error" "LDC2BRIDGE_ERR_IRQ_0_r,LDC2BRIDGE_ERR_IRQ_1_w"
bitfld.long 0x00 16. "ICNT_ERR_IRQ,An error has been received on the SIMCOP master port" "ICNT_ERR_IRQ_0_r,ICNT_ERR_IRQ_1_w"
newline
bitfld.long 0x00 15. "VLCDJ_DECODE_ERR_IRQ,A decode error has been signaled by the VLCDJ module" "VLCDJ_DECODE_ERR_IRQ_0_r,VLCDJ_DECODE_ERR_IRQ_1_w"
bitfld.long 0x00 14. "DONE_IRQ,Event triggered when the hardware sequencer finishes the sequence: The sequence step counter has reached the limit" "DONE_IRQ_0_r,DONE_IRQ_1_w"
newline
bitfld.long 0x00 13. "STEP3_IRQ,Event triggered when Step 3 is activated by the hardware sequencer" "STEP3_IRQ_0_r,STEP3_IRQ_1_w"
bitfld.long 0x00 12. "STEP2_IRQ,Event triggered when Step 2 is activated by the hardware sequencer" "STEP2_IRQ_0_r,STEP2_IRQ_1_w"
newline
bitfld.long 0x00 11. "STEP1_IRQ,Event triggered when Step 1 is activated by the hardware sequencer" "STEP1_IRQ_0_r,STEP1_IRQ_1_w"
bitfld.long 0x00 10. "STEP0_IRQ,Event triggered when Step 0 is activated by the hardware sequencer" "STEP0_IRQ_0_r,STEP0_IRQ_1_w"
newline
bitfld.long 0x00 9. "LDC_BLOCK_IRQ,This event is triggered by LDC when a macroblock has been processed" "LDC_BLOCK_IRQ_0_r,LDC_BLOCK_IRQ_1_w"
bitfld.long 0x00 7. "ROT_A,Event triggered by the ROT a engine" "ROT_A_0_r,ROT_A_1_w"
newline
bitfld.long 0x00 6. "IMX_B_IRQ,Event triggered when iMX has executed a SLEEP instruction" "IMX_B_IRQ_0_r,IMX_B_IRQ_1_w"
bitfld.long 0x00 5. "IMX_A_IRQ,Event triggered when iMX has executed a SLEEP instruction" "IMX_A_IRQ_0_r,IMX_A_IRQ_1_w"
newline
bitfld.long 0x00 4. "NSF_IRQ_IRQ,Event triggered by the NSF2 imaging accelerator when processing of a block is done" "NSF_IRQ_IRQ_0_r,NSF_IRQ_IRQ_1_w"
bitfld.long 0x00 3. "VLCDJ_BLOC_IRQ,This event is triggered by VLCDJ when a macroblock has been processed (encode/decode)" "VLCDJ_BLOC_IRQ_0_r,VLCDJ_BLOC_IRQ_1_w"
newline
bitfld.long 0x00 2. "DCT_IRQ,Event triggered when a block has been processed by the DCT module and the filter outcome has been stored to an image buffer" "DCT_IRQ_0_r,DCT_IRQ_1_w"
bitfld.long 0x00 1. "LDC_FRAME_IRQ,This event is triggered by LDC when a full frame has been processed" "LDC_FRAME_IRQ_0_r,LDC_FRAME_IRQ_1_w"
newline
bitfld.long 0x00 0. "SIMCOP_DMA_IRQ0,Event triggered by the SIMCOP DMA" "SIMCOP_DMA_IRQ0_0_r,SIMCOP_DMA_IRQ0_1_w"
group.long 0x20++0x07
line.long 0x00 "SIMCOP_HL_IRQSTATUS_RAW_i_0,Per-event raw interrupt status vector Raw status is set even if event is not enabled"
bitfld.long 0x00 19. "CPU_PROC_START_IRQ,Event triggered by the hardware sequencer to instruct the CPU to process a macroblock" "CPU_PROC_START_IRQ_0_r,CPU_PROC_START_IRQ_1_w"
rbitfld.long 0x00 18. "SIMCOP_DMA_IRQ1,Event triggered by the SIMCOP DMA" "SIMCOP_DMA_IRQ1_0_r,SIMCOP_DMA_IRQ1_1_r"
newline
bitfld.long 0x00 17. "LDC2BRIDGE_ERR_IRQ,The LDC2 bridge has generated an error" "LDC2BRIDGE_ERR_IRQ_0_r,LDC2BRIDGE_ERR_IRQ_1_w"
bitfld.long 0x00 16. "ICNT_ERR_IRQ,An error has been received on the SIMCOP master port" "ICNT_ERR_IRQ_0_r,ICNT_ERR_IRQ_1_w"
newline
bitfld.long 0x00 15. "VLCDJ_DECODE_ERR_IRQ,A decode error has been signaled by the VLCDJ module" "VLCDJ_DECODE_ERR_IRQ_0_r,VLCDJ_DECODE_ERR_IRQ_1_w"
bitfld.long 0x00 14. "DONE_IRQ,Event triggered when the hardware sequencer finishes the sequence: - the sequence step counter has reached the limit - all accelerator and DMA events for the last sequence step have been received" "DONE_IRQ_0_r,DONE_IRQ_1_w"
newline
bitfld.long 0x00 13. "STEP3_IRQ,Event triggered when Step 3 is activated by the hardware sequencer" "STEP3_IRQ_0_r,STEP3_IRQ_1_w"
bitfld.long 0x00 12. "STEP2_IRQ,Event triggered when Step 2 is activated by the hardware sequencer" "STEP2_IRQ_0_r,STEP2_IRQ_1_w"
newline
bitfld.long 0x00 11. "STEP1_IRQ,Event triggered when Step 1 is activated by the hardware sequencer" "STEP1_IRQ_0_r,STEP1_IRQ_1_w"
bitfld.long 0x00 10. "STEP0_IRQ,Event triggered when Step 0 is activated by the hardware sequencer" "STEP0_IRQ_0_r,STEP0_IRQ_1_w"
newline
bitfld.long 0x00 9. "LDC_BLOCK_IRQ,This event is triggered by LDC when a macroblock has been processed" "LDC_BLOCK_IRQ_0_r,LDC_BLOCK_IRQ_1_w"
bitfld.long 0x00 7. "ROT_A,Event triggered by the ROT a engine" "ROT_A_0_r,ROT_A_1_w"
newline
bitfld.long 0x00 6. "IMX_B_IRQ,Event triggered when iMX has executed a SLEEP instruction" "IMX_B_IRQ_0_r,IMX_B_IRQ_1_w"
bitfld.long 0x00 5. "IMX_A_IRQ,Event triggered when iMX has executed a SLEEP instruction" "IMX_A_IRQ_0_r,IMX_A_IRQ_1_w"
newline
bitfld.long 0x00 4. "NSF_IRQ_IRQ,Event triggered by the NSF2 imaging accelerator when processing of a block is done" "NSF_IRQ_IRQ_0_r,NSF_IRQ_IRQ_1_w"
bitfld.long 0x00 3. "VLCDJ_BLOC_IRQ,This event is triggered by VLCDJ when a macroblock has been processed (encode/decode)" "VLCDJ_BLOC_IRQ_0_r,VLCDJ_BLOC_IRQ_1_w"
newline
bitfld.long 0x00 2. "DCT_IRQ,Event triggered when a block has been processed by the DCT module and the filter outcome has been stored to an image buffer" "DCT_IRQ_0_r,DCT_IRQ_1_w"
bitfld.long 0x00 1. "LDC_FRAME_IRQ,This event is triggered by LDC when a full frame has been processed" "LDC_FRAME_IRQ_0_r,LDC_FRAME_IRQ_1_w"
newline
rbitfld.long 0x00 0. "SIMCOP_DMA_IRQ0,Event triggered by the SIMCOP DMA" "SIMCOP_DMA_IRQ0_0_r,SIMCOP_DMA_IRQ0_1_r"
line.long 0x04 "SIMCOP_HL_IRQSTATUS_i_0,Per-event 'enabled' interrupt status vector"
bitfld.long 0x04 19. "CPU_PROC_START_IRQ,Event triggered by the hardware sequencer to instruct the CPU to process a macroblock" "CPU_PROC_START_IRQ_0_r,CPU_PROC_START_IRQ_1_w"
rbitfld.long 0x04 18. "SIMCOP_DMA_IRQ1,Event triggered by the SIMCOP DMA" "SIMCOP_DMA_IRQ1_0_r,SIMCOP_DMA_IRQ1_1_r"
newline
bitfld.long 0x04 17. "LDC2BRIDGE_ERR_IRQ,The LDC2 bridge has generated an error" "LDC2BRIDGE_ERR_IRQ_0_r,LDC2BRIDGE_ERR_IRQ_1_w"
bitfld.long 0x04 16. "ICNT_ERR_IRQ,An error has been received on the SIMCOP master port" "ICNT_ERR_IRQ_0_r,ICNT_ERR_IRQ_1_w"
newline
bitfld.long 0x04 15. "VLCDJ_DECODE_ERR_IRQ,A decode error has been signaled by the VLCDJ module" "VLCDJ_DECODE_ERR_IRQ_0_r,VLCDJ_DECODE_ERR_IRQ_1_w"
bitfld.long 0x04 14. "DONE_IRQ,Event triggered when the hardware sequencer finishes the sequence: -The sequence step counter has reached the limit" "DONE_IRQ_0_r,DONE_IRQ_1_w"
newline
bitfld.long 0x04 13. "STEP3_IRQ,Event triggered when Step 3 is activated by the hardware sequencer" "STEP3_IRQ_0_r,STEP3_IRQ_1_w"
bitfld.long 0x04 12. "STEP2_IRQ,Event triggered when Step 2 is activated by the hardware sequencer" "STEP2_IRQ_0_r,STEP2_IRQ_1_w"
newline
bitfld.long 0x04 11. "STEP1_IRQ,Event triggered when Step 1 is activated by the hardware sequencer" "STEP1_IRQ_0_r,STEP1_IRQ_1_w"
bitfld.long 0x04 10. "STEP0_IRQ,Event triggered when Step 0 is activated by the hardware sequencer" "STEP0_IRQ_0_r,STEP0_IRQ_1_w"
newline
bitfld.long 0x04 9. "LDC_BLOCK_IRQ,This event is triggered by LDC when a macroblock has been processed" "LDC_BLOCK_IRQ_0_r,LDC_BLOCK_IRQ_1_w"
bitfld.long 0x04 7. "ROT_A,Event triggered by the ROT a engine" "ROT_A_0_r,ROT_A_1_w"
newline
bitfld.long 0x04 6. "IMX_B_IRQ,Event triggered when iMX has executed a SLEEP instruction" "IMX_B_IRQ_0_r,IMX_B_IRQ_1_w"
bitfld.long 0x04 5. "IMX_A_IRQ,Event triggered when iMX has executed a SLEEP instruction" "IMX_A_IRQ_0_r,IMX_A_IRQ_1_w"
newline
bitfld.long 0x04 4. "NSF_IRQ_IRQ,Event triggered by the NSF2 imaging accelerator when processing of a block is done" "NSF_IRQ_IRQ_0_r,NSF_IRQ_IRQ_1_w"
bitfld.long 0x04 3. "VLCDJ_BLOC_IRQ,This event is triggered by VLCDJ when a macroblock has been processed (encode/decode)" "VLCDJ_BLOC_IRQ_0_r,VLCDJ_BLOC_IRQ_1_w"
newline
bitfld.long 0x04 2. "DCT_IRQ,Event triggered when a block has been processed by the DCT module and the filter outcome has been stored to an image buffer" "DCT_IRQ_0_r,DCT_IRQ_1_w"
bitfld.long 0x04 1. "LDC_FRAME_IRQ,This event is triggered by LDC when a full frame has been processed" "LDC_FRAME_IRQ_0_r,LDC_FRAME_IRQ_1_w"
newline
rbitfld.long 0x04 0. "SIMCOP_DMA_IRQ0,Event triggered by the SIMCOP DMA" "SIMCOP_DMA_IRQ0_0_r,SIMCOP_DMA_IRQ0_1_r"
tree.end
tree "IRQ_Line_1"
group.long 0x3C++0x03
line.long 0x00 "SIMCOP_HL_IRQENABLE_CLR_i_1,Per-event interrupt enable bit vector"
bitfld.long 0x00 19. "CPU_PROC_START_IRQ,Event triggered by the hardware sequencer to instruct the CPU to process a macroblock" "CPU_PROC_START_IRQ_0_r,CPU_PROC_START_IRQ_1_w"
bitfld.long 0x00 18. "SIMCOP_DMA_IRQ1,Event triggered by the SIMCOP DMA" "SIMCOP_DMA_IRQ1_0_r,SIMCOP_DMA_IRQ1_1_w"
newline
bitfld.long 0x00 17. "LDC2BRIDGE_ERR_IRQ,The LDC2 bridge has generated an error" "LDC2BRIDGE_ERR_IRQ_0_r,LDC2BRIDGE_ERR_IRQ_1_w"
bitfld.long 0x00 16. "ICNT_ERR_IRQ,An error has been received on the SIMCOP master port" "ICNT_ERR_IRQ_0_r,ICNT_ERR_IRQ_1_w"
newline
bitfld.long 0x00 15. "VLCDJ_DECODE_ERR_IRQ,A decode error has been signaled by the VLCDJ module" "VLCDJ_DECODE_ERR_IRQ_0_r,VLCDJ_DECODE_ERR_IRQ_1_w"
bitfld.long 0x00 14. "DONE_IRQ,Event triggered when the hardware sequencer finishes the sequence: The sequence step counter has reached the limit" "DONE_IRQ_0_r,DONE_IRQ_1_w"
newline
bitfld.long 0x00 13. "STEP3_IRQ,Event triggered when Step 3 is activated by the hardware sequencer" "STEP3_IRQ_0_r,STEP3_IRQ_1_w"
bitfld.long 0x00 12. "STEP2_IRQ,Event triggered when Step 2 is activated by the hardware sequencer" "STEP2_IRQ_0_r,STEP2_IRQ_1_w"
newline
bitfld.long 0x00 11. "STEP1_IRQ,Event triggered when Step 1 is activated by the hardware sequencer" "STEP1_IRQ_0_r,STEP1_IRQ_1_w"
bitfld.long 0x00 10. "STEP0_IRQ,Event triggered when Step 0 is activated by the hardware sequencer" "STEP0_IRQ_0_r,STEP0_IRQ_1_w"
newline
bitfld.long 0x00 9. "LDC_BLOCK_IRQ,This event is triggered by LDC when a macroblock has been processed" "LDC_BLOCK_IRQ_0_r,LDC_BLOCK_IRQ_1_w"
bitfld.long 0x00 7. "ROT_A,Event triggered by the ROT a engine" "ROT_A_0_r,ROT_A_1_w"
newline
bitfld.long 0x00 6. "IMX_B_IRQ,Event triggered when iMX has executed a SLEEP instruction" "IMX_B_IRQ_0_r,IMX_B_IRQ_1_w"
bitfld.long 0x00 5. "IMX_A_IRQ,Event triggered when iMX has executed a SLEEP instruction" "IMX_A_IRQ_0_r,IMX_A_IRQ_1_w"
newline
bitfld.long 0x00 4. "NSF_IRQ_IRQ,Event triggered by the NSF2 imaging accelerator when processing of a block is done" "NSF_IRQ_IRQ_0_r,NSF_IRQ_IRQ_1_w"
bitfld.long 0x00 3. "VLCDJ_BLOC_IRQ,This event is triggered by VLCDJ when a macroblock has been processed (encode/decode)" "VLCDJ_BLOC_IRQ_0_r,VLCDJ_BLOC_IRQ_1_w"
newline
bitfld.long 0x00 2. "DCT_IRQ,Event triggered when a block has been processed by the DCT module and the filter outcome has been stored to an image buffer" "DCT_IRQ_0_r,DCT_IRQ_1_w"
bitfld.long 0x00 1. "LDC_FRAME_IRQ,This event is triggered by LDC when a full frame has been processed" "LDC_FRAME_IRQ_0_r,LDC_FRAME_IRQ_1_w"
newline
bitfld.long 0x00 0. "SIMCOP_DMA_IRQ0,Event triggered by the SIMCOP DMA" "SIMCOP_DMA_IRQ0_0_r,SIMCOP_DMA_IRQ0_1_w"
group.long 0x38++0x03
line.long 0x00 "SIMCOP_HL_IRQENABLE_SET_i_1,Per-event interrupt enable bit vector"
bitfld.long 0x00 19. "CPU_PROC_START_IRQ,Event triggered by the hardware sequencer to instruct the CPU to process a macroblock" "CPU_PROC_START_IRQ_0_r,CPU_PROC_START_IRQ_1_w"
bitfld.long 0x00 18. "SIMCOP_DMA_IRQ1,Event triggered by the SIMCOP DMA" "SIMCOP_DMA_IRQ1_0_r,SIMCOP_DMA_IRQ1_1_w"
newline
bitfld.long 0x00 17. "LDC2BRIDGE_ERR_IRQ,The LDC2 bridge has generated an error" "LDC2BRIDGE_ERR_IRQ_0_r,LDC2BRIDGE_ERR_IRQ_1_w"
bitfld.long 0x00 16. "ICNT_ERR_IRQ,An error has been received on the SIMCOP master port" "ICNT_ERR_IRQ_0_r,ICNT_ERR_IRQ_1_w"
newline
bitfld.long 0x00 15. "VLCDJ_DECODE_ERR_IRQ,A decode error has been signaled by the VLCDJ module" "VLCDJ_DECODE_ERR_IRQ_0_r,VLCDJ_DECODE_ERR_IRQ_1_w"
bitfld.long 0x00 14. "DONE_IRQ,Event triggered when the hardware sequencer finishes the sequence: The sequence step counter has reached the limit" "DONE_IRQ_0_r,DONE_IRQ_1_w"
newline
bitfld.long 0x00 13. "STEP3_IRQ,Event triggered when Step 3 is activated by the hardware sequencer" "STEP3_IRQ_0_r,STEP3_IRQ_1_w"
bitfld.long 0x00 12. "STEP2_IRQ,Event triggered when Step 2 is activated by the hardware sequencer" "STEP2_IRQ_0_r,STEP2_IRQ_1_w"
newline
bitfld.long 0x00 11. "STEP1_IRQ,Event triggered when Step 1 is activated by the hardware sequencer" "STEP1_IRQ_0_r,STEP1_IRQ_1_w"
bitfld.long 0x00 10. "STEP0_IRQ,Event triggered when Step 0 is activated by the hardware sequencer" "STEP0_IRQ_0_r,STEP0_IRQ_1_w"
newline
bitfld.long 0x00 9. "LDC_BLOCK_IRQ,This event is triggered by LDC when a macroblock has been processed" "LDC_BLOCK_IRQ_0_r,LDC_BLOCK_IRQ_1_w"
bitfld.long 0x00 7. "ROT_A,Event triggered by the ROT a engine" "ROT_A_0_r,ROT_A_1_w"
newline
bitfld.long 0x00 6. "IMX_B_IRQ,Event triggered when iMX has executed a SLEEP instruction" "IMX_B_IRQ_0_r,IMX_B_IRQ_1_w"
bitfld.long 0x00 5. "IMX_A_IRQ,Event triggered when iMX has executed a SLEEP instruction" "IMX_A_IRQ_0_r,IMX_A_IRQ_1_w"
newline
bitfld.long 0x00 4. "NSF_IRQ_IRQ,Event triggered by the NSF2 imaging accelerator when processing of a block is done" "NSF_IRQ_IRQ_0_r,NSF_IRQ_IRQ_1_w"
bitfld.long 0x00 3. "VLCDJ_BLOC_IRQ,This event is triggered by VLCDJ when a macroblock has been processed (encode/decode)" "VLCDJ_BLOC_IRQ_0_r,VLCDJ_BLOC_IRQ_1_w"
newline
bitfld.long 0x00 2. "DCT_IRQ,Event triggered when a block has been processed by the DCT module and the filter outcome has been stored to an image buffer" "DCT_IRQ_0_r,DCT_IRQ_1_w"
bitfld.long 0x00 1. "LDC_FRAME_IRQ,This event is triggered by LDC when a full frame has been processed" "LDC_FRAME_IRQ_0_r,LDC_FRAME_IRQ_1_w"
newline
bitfld.long 0x00 0. "SIMCOP_DMA_IRQ0,Event triggered by the SIMCOP DMA" "SIMCOP_DMA_IRQ0_0_r,SIMCOP_DMA_IRQ0_1_w"
group.long 0x30++0x07
line.long 0x00 "SIMCOP_HL_IRQSTATUS_RAW_i_1,Per-event raw interrupt status vector Raw status is set even if event is not enabled"
bitfld.long 0x00 19. "CPU_PROC_START_IRQ,Event triggered by the hardware sequencer to instruct the CPU to process a macroblock" "CPU_PROC_START_IRQ_0_r,CPU_PROC_START_IRQ_1_w"
rbitfld.long 0x00 18. "SIMCOP_DMA_IRQ1,Event triggered by the SIMCOP DMA" "SIMCOP_DMA_IRQ1_0_r,SIMCOP_DMA_IRQ1_1_r"
newline
bitfld.long 0x00 17. "LDC2BRIDGE_ERR_IRQ,The LDC2 bridge has generated an error" "LDC2BRIDGE_ERR_IRQ_0_r,LDC2BRIDGE_ERR_IRQ_1_w"
bitfld.long 0x00 16. "ICNT_ERR_IRQ,An error has been received on the SIMCOP master port" "ICNT_ERR_IRQ_0_r,ICNT_ERR_IRQ_1_w"
newline
bitfld.long 0x00 15. "VLCDJ_DECODE_ERR_IRQ,A decode error has been signaled by the VLCDJ module" "VLCDJ_DECODE_ERR_IRQ_0_r,VLCDJ_DECODE_ERR_IRQ_1_w"
bitfld.long 0x00 14. "DONE_IRQ,Event triggered when the hardware sequencer finishes the sequence: - the sequence step counter has reached the limit - all accelerator and DMA events for the last sequence step have been received" "DONE_IRQ_0_r,DONE_IRQ_1_w"
newline
bitfld.long 0x00 13. "STEP3_IRQ,Event triggered when Step 3 is activated by the hardware sequencer" "STEP3_IRQ_0_r,STEP3_IRQ_1_w"
bitfld.long 0x00 12. "STEP2_IRQ,Event triggered when Step 2 is activated by the hardware sequencer" "STEP2_IRQ_0_r,STEP2_IRQ_1_w"
newline
bitfld.long 0x00 11. "STEP1_IRQ,Event triggered when Step 1 is activated by the hardware sequencer" "STEP1_IRQ_0_r,STEP1_IRQ_1_w"
bitfld.long 0x00 10. "STEP0_IRQ,Event triggered when Step 0 is activated by the hardware sequencer" "STEP0_IRQ_0_r,STEP0_IRQ_1_w"
newline
bitfld.long 0x00 9. "LDC_BLOCK_IRQ,This event is triggered by LDC when a macroblock has been processed" "LDC_BLOCK_IRQ_0_r,LDC_BLOCK_IRQ_1_w"
bitfld.long 0x00 7. "ROT_A,Event triggered by the ROT a engine" "ROT_A_0_r,ROT_A_1_w"
newline
bitfld.long 0x00 6. "IMX_B_IRQ,Event triggered when iMX has executed a SLEEP instruction" "IMX_B_IRQ_0_r,IMX_B_IRQ_1_w"
bitfld.long 0x00 5. "IMX_A_IRQ,Event triggered when iMX has executed a SLEEP instruction" "IMX_A_IRQ_0_r,IMX_A_IRQ_1_w"
newline
bitfld.long 0x00 4. "NSF_IRQ_IRQ,Event triggered by the NSF2 imaging accelerator when processing of a block is done" "NSF_IRQ_IRQ_0_r,NSF_IRQ_IRQ_1_w"
bitfld.long 0x00 3. "VLCDJ_BLOC_IRQ,This event is triggered by VLCDJ when a macroblock has been processed (encode/decode)" "VLCDJ_BLOC_IRQ_0_r,VLCDJ_BLOC_IRQ_1_w"
newline
bitfld.long 0x00 2. "DCT_IRQ,Event triggered when a block has been processed by the DCT module and the filter outcome has been stored to an image buffer" "DCT_IRQ_0_r,DCT_IRQ_1_w"
bitfld.long 0x00 1. "LDC_FRAME_IRQ,This event is triggered by LDC when a full frame has been processed" "LDC_FRAME_IRQ_0_r,LDC_FRAME_IRQ_1_w"
newline
rbitfld.long 0x00 0. "SIMCOP_DMA_IRQ0,Event triggered by the SIMCOP DMA" "SIMCOP_DMA_IRQ0_0_r,SIMCOP_DMA_IRQ0_1_r"
line.long 0x04 "SIMCOP_HL_IRQSTATUS_i_1,Per-event 'enabled' interrupt status vector"
bitfld.long 0x04 19. "CPU_PROC_START_IRQ,Event triggered by the hardware sequencer to instruct the CPU to process a macroblock" "CPU_PROC_START_IRQ_0_r,CPU_PROC_START_IRQ_1_w"
rbitfld.long 0x04 18. "SIMCOP_DMA_IRQ1,Event triggered by the SIMCOP DMA" "SIMCOP_DMA_IRQ1_0_r,SIMCOP_DMA_IRQ1_1_r"
newline
bitfld.long 0x04 17. "LDC2BRIDGE_ERR_IRQ,The LDC2 bridge has generated an error" "LDC2BRIDGE_ERR_IRQ_0_r,LDC2BRIDGE_ERR_IRQ_1_w"
bitfld.long 0x04 16. "ICNT_ERR_IRQ,An error has been received on the SIMCOP master port" "ICNT_ERR_IRQ_0_r,ICNT_ERR_IRQ_1_w"
newline
bitfld.long 0x04 15. "VLCDJ_DECODE_ERR_IRQ,A decode error has been signaled by the VLCDJ module" "VLCDJ_DECODE_ERR_IRQ_0_r,VLCDJ_DECODE_ERR_IRQ_1_w"
bitfld.long 0x04 14. "DONE_IRQ,Event triggered when the hardware sequencer finishes the sequence: -The sequence step counter has reached the limit" "DONE_IRQ_0_r,DONE_IRQ_1_w"
newline
bitfld.long 0x04 13. "STEP3_IRQ,Event triggered when Step 3 is activated by the hardware sequencer" "STEP3_IRQ_0_r,STEP3_IRQ_1_w"
bitfld.long 0x04 12. "STEP2_IRQ,Event triggered when Step 2 is activated by the hardware sequencer" "STEP2_IRQ_0_r,STEP2_IRQ_1_w"
newline
bitfld.long 0x04 11. "STEP1_IRQ,Event triggered when Step 1 is activated by the hardware sequencer" "STEP1_IRQ_0_r,STEP1_IRQ_1_w"
bitfld.long 0x04 10. "STEP0_IRQ,Event triggered when Step 0 is activated by the hardware sequencer" "STEP0_IRQ_0_r,STEP0_IRQ_1_w"
newline
bitfld.long 0x04 9. "LDC_BLOCK_IRQ,This event is triggered by LDC when a macroblock has been processed" "LDC_BLOCK_IRQ_0_r,LDC_BLOCK_IRQ_1_w"
bitfld.long 0x04 7. "ROT_A,Event triggered by the ROT a engine" "ROT_A_0_r,ROT_A_1_w"
newline
bitfld.long 0x04 6. "IMX_B_IRQ,Event triggered when iMX has executed a SLEEP instruction" "IMX_B_IRQ_0_r,IMX_B_IRQ_1_w"
bitfld.long 0x04 5. "IMX_A_IRQ,Event triggered when iMX has executed a SLEEP instruction" "IMX_A_IRQ_0_r,IMX_A_IRQ_1_w"
newline
bitfld.long 0x04 4. "NSF_IRQ_IRQ,Event triggered by the NSF2 imaging accelerator when processing of a block is done" "NSF_IRQ_IRQ_0_r,NSF_IRQ_IRQ_1_w"
bitfld.long 0x04 3. "VLCDJ_BLOC_IRQ,This event is triggered by VLCDJ when a macroblock has been processed (encode/decode)" "VLCDJ_BLOC_IRQ_0_r,VLCDJ_BLOC_IRQ_1_w"
newline
bitfld.long 0x04 2. "DCT_IRQ,Event triggered when a block has been processed by the DCT module and the filter outcome has been stored to an image buffer" "DCT_IRQ_0_r,DCT_IRQ_1_w"
bitfld.long 0x04 1. "LDC_FRAME_IRQ,This event is triggered by LDC when a full frame has been processed" "LDC_FRAME_IRQ_0_r,LDC_FRAME_IRQ_1_w"
newline
rbitfld.long 0x04 0. "SIMCOP_DMA_IRQ0,Event triggered by the SIMCOP DMA" "SIMCOP_DMA_IRQ0_0_r,SIMCOP_DMA_IRQ0_1_r"
tree.end
tree "IRQ_Line_2"
group.long 0x4C++0x03
line.long 0x00 "SIMCOP_HL_IRQENABLE_CLR_i_2,Per-event interrupt enable bit vector"
bitfld.long 0x00 19. "CPU_PROC_START_IRQ,Event triggered by the hardware sequencer to instruct the CPU to process a macroblock" "CPU_PROC_START_IRQ_0_r,CPU_PROC_START_IRQ_1_w"
bitfld.long 0x00 18. "SIMCOP_DMA_IRQ1,Event triggered by the SIMCOP DMA" "SIMCOP_DMA_IRQ1_0_r,SIMCOP_DMA_IRQ1_1_w"
newline
bitfld.long 0x00 17. "LDC2BRIDGE_ERR_IRQ,The LDC2 bridge has generated an error" "LDC2BRIDGE_ERR_IRQ_0_r,LDC2BRIDGE_ERR_IRQ_1_w"
bitfld.long 0x00 16. "ICNT_ERR_IRQ,An error has been received on the SIMCOP master port" "ICNT_ERR_IRQ_0_r,ICNT_ERR_IRQ_1_w"
newline
bitfld.long 0x00 15. "VLCDJ_DECODE_ERR_IRQ,A decode error has been signaled by the VLCDJ module" "VLCDJ_DECODE_ERR_IRQ_0_r,VLCDJ_DECODE_ERR_IRQ_1_w"
bitfld.long 0x00 14. "DONE_IRQ,Event triggered when the hardware sequencer finishes the sequence: The sequence step counter has reached the limit" "DONE_IRQ_0_r,DONE_IRQ_1_w"
newline
bitfld.long 0x00 13. "STEP3_IRQ,Event triggered when Step 3 is activated by the hardware sequencer" "STEP3_IRQ_0_r,STEP3_IRQ_1_w"
bitfld.long 0x00 12. "STEP2_IRQ,Event triggered when Step 2 is activated by the hardware sequencer" "STEP2_IRQ_0_r,STEP2_IRQ_1_w"
newline
bitfld.long 0x00 11. "STEP1_IRQ,Event triggered when Step 1 is activated by the hardware sequencer" "STEP1_IRQ_0_r,STEP1_IRQ_1_w"
bitfld.long 0x00 10. "STEP0_IRQ,Event triggered when Step 0 is activated by the hardware sequencer" "STEP0_IRQ_0_r,STEP0_IRQ_1_w"
newline
bitfld.long 0x00 9. "LDC_BLOCK_IRQ,This event is triggered by LDC when a macroblock has been processed" "LDC_BLOCK_IRQ_0_r,LDC_BLOCK_IRQ_1_w"
bitfld.long 0x00 7. "ROT_A,Event triggered by the ROT a engine" "ROT_A_0_r,ROT_A_1_w"
newline
bitfld.long 0x00 6. "IMX_B_IRQ,Event triggered when iMX has executed a SLEEP instruction" "IMX_B_IRQ_0_r,IMX_B_IRQ_1_w"
bitfld.long 0x00 5. "IMX_A_IRQ,Event triggered when iMX has executed a SLEEP instruction" "IMX_A_IRQ_0_r,IMX_A_IRQ_1_w"
newline
bitfld.long 0x00 4. "NSF_IRQ_IRQ,Event triggered by the NSF2 imaging accelerator when processing of a block is done" "NSF_IRQ_IRQ_0_r,NSF_IRQ_IRQ_1_w"
bitfld.long 0x00 3. "VLCDJ_BLOC_IRQ,This event is triggered by VLCDJ when a macroblock has been processed (encode/decode)" "VLCDJ_BLOC_IRQ_0_r,VLCDJ_BLOC_IRQ_1_w"
newline
bitfld.long 0x00 2. "DCT_IRQ,Event triggered when a block has been processed by the DCT module and the filter outcome has been stored to an image buffer" "DCT_IRQ_0_r,DCT_IRQ_1_w"
bitfld.long 0x00 1. "LDC_FRAME_IRQ,This event is triggered by LDC when a full frame has been processed" "LDC_FRAME_IRQ_0_r,LDC_FRAME_IRQ_1_w"
newline
bitfld.long 0x00 0. "SIMCOP_DMA_IRQ0,Event triggered by the SIMCOP DMA" "SIMCOP_DMA_IRQ0_0_r,SIMCOP_DMA_IRQ0_1_w"
group.long 0x48++0x03
line.long 0x00 "SIMCOP_HL_IRQENABLE_SET_i_2,Per-event interrupt enable bit vector"
bitfld.long 0x00 19. "CPU_PROC_START_IRQ,Event triggered by the hardware sequencer to instruct the CPU to process a macroblock" "CPU_PROC_START_IRQ_0_r,CPU_PROC_START_IRQ_1_w"
bitfld.long 0x00 18. "SIMCOP_DMA_IRQ1,Event triggered by the SIMCOP DMA" "SIMCOP_DMA_IRQ1_0_r,SIMCOP_DMA_IRQ1_1_w"
newline
bitfld.long 0x00 17. "LDC2BRIDGE_ERR_IRQ,The LDC2 bridge has generated an error" "LDC2BRIDGE_ERR_IRQ_0_r,LDC2BRIDGE_ERR_IRQ_1_w"
bitfld.long 0x00 16. "ICNT_ERR_IRQ,An error has been received on the SIMCOP master port" "ICNT_ERR_IRQ_0_r,ICNT_ERR_IRQ_1_w"
newline
bitfld.long 0x00 15. "VLCDJ_DECODE_ERR_IRQ,A decode error has been signaled by the VLCDJ module" "VLCDJ_DECODE_ERR_IRQ_0_r,VLCDJ_DECODE_ERR_IRQ_1_w"
bitfld.long 0x00 14. "DONE_IRQ,Event triggered when the hardware sequencer finishes the sequence: The sequence step counter has reached the limit" "DONE_IRQ_0_r,DONE_IRQ_1_w"
newline
bitfld.long 0x00 13. "STEP3_IRQ,Event triggered when Step 3 is activated by the hardware sequencer" "STEP3_IRQ_0_r,STEP3_IRQ_1_w"
bitfld.long 0x00 12. "STEP2_IRQ,Event triggered when Step 2 is activated by the hardware sequencer" "STEP2_IRQ_0_r,STEP2_IRQ_1_w"
newline
bitfld.long 0x00 11. "STEP1_IRQ,Event triggered when Step 1 is activated by the hardware sequencer" "STEP1_IRQ_0_r,STEP1_IRQ_1_w"
bitfld.long 0x00 10. "STEP0_IRQ,Event triggered when Step 0 is activated by the hardware sequencer" "STEP0_IRQ_0_r,STEP0_IRQ_1_w"
newline
bitfld.long 0x00 9. "LDC_BLOCK_IRQ,This event is triggered by LDC when a macroblock has been processed" "LDC_BLOCK_IRQ_0_r,LDC_BLOCK_IRQ_1_w"
bitfld.long 0x00 7. "ROT_A,Event triggered by the ROT a engine" "ROT_A_0_r,ROT_A_1_w"
newline
bitfld.long 0x00 6. "IMX_B_IRQ,Event triggered when iMX has executed a SLEEP instruction" "IMX_B_IRQ_0_r,IMX_B_IRQ_1_w"
bitfld.long 0x00 5. "IMX_A_IRQ,Event triggered when iMX has executed a SLEEP instruction" "IMX_A_IRQ_0_r,IMX_A_IRQ_1_w"
newline
bitfld.long 0x00 4. "NSF_IRQ_IRQ,Event triggered by the NSF2 imaging accelerator when processing of a block is done" "NSF_IRQ_IRQ_0_r,NSF_IRQ_IRQ_1_w"
bitfld.long 0x00 3. "VLCDJ_BLOC_IRQ,This event is triggered by VLCDJ when a macroblock has been processed (encode/decode)" "VLCDJ_BLOC_IRQ_0_r,VLCDJ_BLOC_IRQ_1_w"
newline
bitfld.long 0x00 2. "DCT_IRQ,Event triggered when a block has been processed by the DCT module and the filter outcome has been stored to an image buffer" "DCT_IRQ_0_r,DCT_IRQ_1_w"
bitfld.long 0x00 1. "LDC_FRAME_IRQ,This event is triggered by LDC when a full frame has been processed" "LDC_FRAME_IRQ_0_r,LDC_FRAME_IRQ_1_w"
newline
bitfld.long 0x00 0. "SIMCOP_DMA_IRQ0,Event triggered by the SIMCOP DMA" "SIMCOP_DMA_IRQ0_0_r,SIMCOP_DMA_IRQ0_1_w"
group.long 0x40++0x07
line.long 0x00 "SIMCOP_HL_IRQSTATUS_RAW_i_2,Per-event raw interrupt status vector Raw status is set even if event is not enabled"
bitfld.long 0x00 19. "CPU_PROC_START_IRQ,Event triggered by the hardware sequencer to instruct the CPU to process a macroblock" "CPU_PROC_START_IRQ_0_r,CPU_PROC_START_IRQ_1_w"
rbitfld.long 0x00 18. "SIMCOP_DMA_IRQ1,Event triggered by the SIMCOP DMA" "SIMCOP_DMA_IRQ1_0_r,SIMCOP_DMA_IRQ1_1_r"
newline
bitfld.long 0x00 17. "LDC2BRIDGE_ERR_IRQ,The LDC2 bridge has generated an error" "LDC2BRIDGE_ERR_IRQ_0_r,LDC2BRIDGE_ERR_IRQ_1_w"
bitfld.long 0x00 16. "ICNT_ERR_IRQ,An error has been received on the SIMCOP master port" "ICNT_ERR_IRQ_0_r,ICNT_ERR_IRQ_1_w"
newline
bitfld.long 0x00 15. "VLCDJ_DECODE_ERR_IRQ,A decode error has been signaled by the VLCDJ module" "VLCDJ_DECODE_ERR_IRQ_0_r,VLCDJ_DECODE_ERR_IRQ_1_w"
bitfld.long 0x00 14. "DONE_IRQ,Event triggered when the hardware sequencer finishes the sequence: - the sequence step counter has reached the limit - all accelerator and DMA events for the last sequence step have been received" "DONE_IRQ_0_r,DONE_IRQ_1_w"
newline
bitfld.long 0x00 13. "STEP3_IRQ,Event triggered when Step 3 is activated by the hardware sequencer" "STEP3_IRQ_0_r,STEP3_IRQ_1_w"
bitfld.long 0x00 12. "STEP2_IRQ,Event triggered when Step 2 is activated by the hardware sequencer" "STEP2_IRQ_0_r,STEP2_IRQ_1_w"
newline
bitfld.long 0x00 11. "STEP1_IRQ,Event triggered when Step 1 is activated by the hardware sequencer" "STEP1_IRQ_0_r,STEP1_IRQ_1_w"
bitfld.long 0x00 10. "STEP0_IRQ,Event triggered when Step 0 is activated by the hardware sequencer" "STEP0_IRQ_0_r,STEP0_IRQ_1_w"
newline
bitfld.long 0x00 9. "LDC_BLOCK_IRQ,This event is triggered by LDC when a macroblock has been processed" "LDC_BLOCK_IRQ_0_r,LDC_BLOCK_IRQ_1_w"
bitfld.long 0x00 7. "ROT_A,Event triggered by the ROT a engine" "ROT_A_0_r,ROT_A_1_w"
newline
bitfld.long 0x00 6. "IMX_B_IRQ,Event triggered when iMX has executed a SLEEP instruction" "IMX_B_IRQ_0_r,IMX_B_IRQ_1_w"
bitfld.long 0x00 5. "IMX_A_IRQ,Event triggered when iMX has executed a SLEEP instruction" "IMX_A_IRQ_0_r,IMX_A_IRQ_1_w"
newline
bitfld.long 0x00 4. "NSF_IRQ_IRQ,Event triggered by the NSF2 imaging accelerator when processing of a block is done" "NSF_IRQ_IRQ_0_r,NSF_IRQ_IRQ_1_w"
bitfld.long 0x00 3. "VLCDJ_BLOC_IRQ,This event is triggered by VLCDJ when a macroblock has been processed (encode/decode)" "VLCDJ_BLOC_IRQ_0_r,VLCDJ_BLOC_IRQ_1_w"
newline
bitfld.long 0x00 2. "DCT_IRQ,Event triggered when a block has been processed by the DCT module and the filter outcome has been stored to an image buffer" "DCT_IRQ_0_r,DCT_IRQ_1_w"
bitfld.long 0x00 1. "LDC_FRAME_IRQ,This event is triggered by LDC when a full frame has been processed" "LDC_FRAME_IRQ_0_r,LDC_FRAME_IRQ_1_w"
newline
rbitfld.long 0x00 0. "SIMCOP_DMA_IRQ0,Event triggered by the SIMCOP DMA" "SIMCOP_DMA_IRQ0_0_r,SIMCOP_DMA_IRQ0_1_r"
line.long 0x04 "SIMCOP_HL_IRQSTATUS_i_2,Per-event 'enabled' interrupt status vector"
bitfld.long 0x04 19. "CPU_PROC_START_IRQ,Event triggered by the hardware sequencer to instruct the CPU to process a macroblock" "CPU_PROC_START_IRQ_0_r,CPU_PROC_START_IRQ_1_w"
rbitfld.long 0x04 18. "SIMCOP_DMA_IRQ1,Event triggered by the SIMCOP DMA" "SIMCOP_DMA_IRQ1_0_r,SIMCOP_DMA_IRQ1_1_r"
newline
bitfld.long 0x04 17. "LDC2BRIDGE_ERR_IRQ,The LDC2 bridge has generated an error" "LDC2BRIDGE_ERR_IRQ_0_r,LDC2BRIDGE_ERR_IRQ_1_w"
bitfld.long 0x04 16. "ICNT_ERR_IRQ,An error has been received on the SIMCOP master port" "ICNT_ERR_IRQ_0_r,ICNT_ERR_IRQ_1_w"
newline
bitfld.long 0x04 15. "VLCDJ_DECODE_ERR_IRQ,A decode error has been signaled by the VLCDJ module" "VLCDJ_DECODE_ERR_IRQ_0_r,VLCDJ_DECODE_ERR_IRQ_1_w"
bitfld.long 0x04 14. "DONE_IRQ,Event triggered when the hardware sequencer finishes the sequence: -The sequence step counter has reached the limit" "DONE_IRQ_0_r,DONE_IRQ_1_w"
newline
bitfld.long 0x04 13. "STEP3_IRQ,Event triggered when Step 3 is activated by the hardware sequencer" "STEP3_IRQ_0_r,STEP3_IRQ_1_w"
bitfld.long 0x04 12. "STEP2_IRQ,Event triggered when Step 2 is activated by the hardware sequencer" "STEP2_IRQ_0_r,STEP2_IRQ_1_w"
newline
bitfld.long 0x04 11. "STEP1_IRQ,Event triggered when Step 1 is activated by the hardware sequencer" "STEP1_IRQ_0_r,STEP1_IRQ_1_w"
bitfld.long 0x04 10. "STEP0_IRQ,Event triggered when Step 0 is activated by the hardware sequencer" "STEP0_IRQ_0_r,STEP0_IRQ_1_w"
newline
bitfld.long 0x04 9. "LDC_BLOCK_IRQ,This event is triggered by LDC when a macroblock has been processed" "LDC_BLOCK_IRQ_0_r,LDC_BLOCK_IRQ_1_w"
bitfld.long 0x04 7. "ROT_A,Event triggered by the ROT a engine" "ROT_A_0_r,ROT_A_1_w"
newline
bitfld.long 0x04 6. "IMX_B_IRQ,Event triggered when iMX has executed a SLEEP instruction" "IMX_B_IRQ_0_r,IMX_B_IRQ_1_w"
bitfld.long 0x04 5. "IMX_A_IRQ,Event triggered when iMX has executed a SLEEP instruction" "IMX_A_IRQ_0_r,IMX_A_IRQ_1_w"
newline
bitfld.long 0x04 4. "NSF_IRQ_IRQ,Event triggered by the NSF2 imaging accelerator when processing of a block is done" "NSF_IRQ_IRQ_0_r,NSF_IRQ_IRQ_1_w"
bitfld.long 0x04 3. "VLCDJ_BLOC_IRQ,This event is triggered by VLCDJ when a macroblock has been processed (encode/decode)" "VLCDJ_BLOC_IRQ_0_r,VLCDJ_BLOC_IRQ_1_w"
newline
bitfld.long 0x04 2. "DCT_IRQ,Event triggered when a block has been processed by the DCT module and the filter outcome has been stored to an image buffer" "DCT_IRQ_0_r,DCT_IRQ_1_w"
bitfld.long 0x04 1. "LDC_FRAME_IRQ,This event is triggered by LDC when a full frame has been processed" "LDC_FRAME_IRQ_0_r,LDC_FRAME_IRQ_1_w"
newline
rbitfld.long 0x04 0. "SIMCOP_DMA_IRQ0,Event triggered by the SIMCOP DMA" "SIMCOP_DMA_IRQ0_0_r,SIMCOP_DMA_IRQ0_1_r"
tree.end
tree "IRQ_Line_3"
group.long 0x5C++0x03
line.long 0x00 "SIMCOP_HL_IRQENABLE_CLR_i_3,Per-event interrupt enable bit vector"
bitfld.long 0x00 19. "CPU_PROC_START_IRQ,Event triggered by the hardware sequencer to instruct the CPU to process a macroblock" "CPU_PROC_START_IRQ_0_r,CPU_PROC_START_IRQ_1_w"
bitfld.long 0x00 18. "SIMCOP_DMA_IRQ1,Event triggered by the SIMCOP DMA" "SIMCOP_DMA_IRQ1_0_r,SIMCOP_DMA_IRQ1_1_w"
newline
bitfld.long 0x00 17. "LDC2BRIDGE_ERR_IRQ,The LDC2 bridge has generated an error" "LDC2BRIDGE_ERR_IRQ_0_r,LDC2BRIDGE_ERR_IRQ_1_w"
bitfld.long 0x00 16. "ICNT_ERR_IRQ,An error has been received on the SIMCOP master port" "ICNT_ERR_IRQ_0_r,ICNT_ERR_IRQ_1_w"
newline
bitfld.long 0x00 15. "VLCDJ_DECODE_ERR_IRQ,A decode error has been signaled by the VLCDJ module" "VLCDJ_DECODE_ERR_IRQ_0_r,VLCDJ_DECODE_ERR_IRQ_1_w"
bitfld.long 0x00 14. "DONE_IRQ,Event triggered when the hardware sequencer finishes the sequence: The sequence step counter has reached the limit" "DONE_IRQ_0_r,DONE_IRQ_1_w"
newline
bitfld.long 0x00 13. "STEP3_IRQ,Event triggered when Step 3 is activated by the hardware sequencer" "STEP3_IRQ_0_r,STEP3_IRQ_1_w"
bitfld.long 0x00 12. "STEP2_IRQ,Event triggered when Step 2 is activated by the hardware sequencer" "STEP2_IRQ_0_r,STEP2_IRQ_1_w"
newline
bitfld.long 0x00 11. "STEP1_IRQ,Event triggered when Step 1 is activated by the hardware sequencer" "STEP1_IRQ_0_r,STEP1_IRQ_1_w"
bitfld.long 0x00 10. "STEP0_IRQ,Event triggered when Step 0 is activated by the hardware sequencer" "STEP0_IRQ_0_r,STEP0_IRQ_1_w"
newline
bitfld.long 0x00 9. "LDC_BLOCK_IRQ,This event is triggered by LDC when a macroblock has been processed" "LDC_BLOCK_IRQ_0_r,LDC_BLOCK_IRQ_1_w"
bitfld.long 0x00 7. "ROT_A,Event triggered by the ROT a engine" "ROT_A_0_r,ROT_A_1_w"
newline
bitfld.long 0x00 6. "IMX_B_IRQ,Event triggered when iMX has executed a SLEEP instruction" "IMX_B_IRQ_0_r,IMX_B_IRQ_1_w"
bitfld.long 0x00 5. "IMX_A_IRQ,Event triggered when iMX has executed a SLEEP instruction" "IMX_A_IRQ_0_r,IMX_A_IRQ_1_w"
newline
bitfld.long 0x00 4. "NSF_IRQ_IRQ,Event triggered by the NSF2 imaging accelerator when processing of a block is done" "NSF_IRQ_IRQ_0_r,NSF_IRQ_IRQ_1_w"
bitfld.long 0x00 3. "VLCDJ_BLOC_IRQ,This event is triggered by VLCDJ when a macroblock has been processed (encode/decode)" "VLCDJ_BLOC_IRQ_0_r,VLCDJ_BLOC_IRQ_1_w"
newline
bitfld.long 0x00 2. "DCT_IRQ,Event triggered when a block has been processed by the DCT module and the filter outcome has been stored to an image buffer" "DCT_IRQ_0_r,DCT_IRQ_1_w"
bitfld.long 0x00 1. "LDC_FRAME_IRQ,This event is triggered by LDC when a full frame has been processed" "LDC_FRAME_IRQ_0_r,LDC_FRAME_IRQ_1_w"
newline
bitfld.long 0x00 0. "SIMCOP_DMA_IRQ0,Event triggered by the SIMCOP DMA" "SIMCOP_DMA_IRQ0_0_r,SIMCOP_DMA_IRQ0_1_w"
group.long 0x58++0x03
line.long 0x00 "SIMCOP_HL_IRQENABLE_SET_i_3,Per-event interrupt enable bit vector"
bitfld.long 0x00 19. "CPU_PROC_START_IRQ,Event triggered by the hardware sequencer to instruct the CPU to process a macroblock" "CPU_PROC_START_IRQ_0_r,CPU_PROC_START_IRQ_1_w"
bitfld.long 0x00 18. "SIMCOP_DMA_IRQ1,Event triggered by the SIMCOP DMA" "SIMCOP_DMA_IRQ1_0_r,SIMCOP_DMA_IRQ1_1_w"
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bitfld.long 0x00 17. "LDC2BRIDGE_ERR_IRQ,The LDC2 bridge has generated an error" "LDC2BRIDGE_ERR_IRQ_0_r,LDC2BRIDGE_ERR_IRQ_1_w"
bitfld.long 0x00 16. "ICNT_ERR_IRQ,An error has been received on the SIMCOP master port" "ICNT_ERR_IRQ_0_r,ICNT_ERR_IRQ_1_w"
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bitfld.long 0x00 15. "VLCDJ_DECODE_ERR_IRQ,A decode error has been signaled by the VLCDJ module" "VLCDJ_DECODE_ERR_IRQ_0_r,VLCDJ_DECODE_ERR_IRQ_1_w"
bitfld.long 0x00 14. "DONE_IRQ,Event triggered when the hardware sequencer finishes the sequence: The sequence step counter has reached the limit" "DONE_IRQ_0_r,DONE_IRQ_1_w"
newline
bitfld.long 0x00 13. "STEP3_IRQ,Event triggered when Step 3 is activated by the hardware sequencer" "STEP3_IRQ_0_r,STEP3_IRQ_1_w"
bitfld.long 0x00 12. "STEP2_IRQ,Event triggered when Step 2 is activated by the hardware sequencer" "STEP2_IRQ_0_r,STEP2_IRQ_1_w"
newline
bitfld.long 0x00 11. "STEP1_IRQ,Event triggered when Step 1 is activated by the hardware sequencer" "STEP1_IRQ_0_r,STEP1_IRQ_1_w"
bitfld.long 0x00 10. "STEP0_IRQ,Event triggered when Step 0 is activated by the hardware sequencer" "STEP0_IRQ_0_r,STEP0_IRQ_1_w"
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bitfld.long 0x00 9. "LDC_BLOCK_IRQ,This event is triggered by LDC when a macroblock has been processed" "LDC_BLOCK_IRQ_0_r,LDC_BLOCK_IRQ_1_w"
bitfld.long 0x00 7. "ROT_A,Event triggered by the ROT a engine" "ROT_A_0_r,ROT_A_1_w"
newline
bitfld.long 0x00 6. "IMX_B_IRQ,Event triggered when iMX has executed a SLEEP instruction" "IMX_B_IRQ_0_r,IMX_B_IRQ_1_w"
bitfld.long 0x00 5. "IMX_A_IRQ,Event triggered when iMX has executed a SLEEP instruction" "IMX_A_IRQ_0_r,IMX_A_IRQ_1_w"
newline
bitfld.long 0x00 4. "NSF_IRQ_IRQ,Event triggered by the NSF2 imaging accelerator when processing of a block is done" "NSF_IRQ_IRQ_0_r,NSF_IRQ_IRQ_1_w"
bitfld.long 0x00 3. "VLCDJ_BLOC_IRQ,This event is triggered by VLCDJ when a macroblock has been processed (encode/decode)" "VLCDJ_BLOC_IRQ_0_r,VLCDJ_BLOC_IRQ_1_w"
newline
bitfld.long 0x00 2. "DCT_IRQ,Event triggered when a block has been processed by the DCT module and the filter outcome has been stored to an image buffer" "DCT_IRQ_0_r,DCT_IRQ_1_w"
bitfld.long 0x00 1. "LDC_FRAME_IRQ,This event is triggered by LDC when a full frame has been processed" "LDC_FRAME_IRQ_0_r,LDC_FRAME_IRQ_1_w"
newline
bitfld.long 0x00 0. "SIMCOP_DMA_IRQ0,Event triggered by the SIMCOP DMA" "SIMCOP_DMA_IRQ0_0_r,SIMCOP_DMA_IRQ0_1_w"
group.long 0x50++0x07
line.long 0x00 "SIMCOP_HL_IRQSTATUS_RAW_i_3,Per-event raw interrupt status vector Raw status is set even if event is not enabled"
bitfld.long 0x00 19. "CPU_PROC_START_IRQ,Event triggered by the hardware sequencer to instruct the CPU to process a macroblock" "CPU_PROC_START_IRQ_0_r,CPU_PROC_START_IRQ_1_w"
rbitfld.long 0x00 18. "SIMCOP_DMA_IRQ1,Event triggered by the SIMCOP DMA" "SIMCOP_DMA_IRQ1_0_r,SIMCOP_DMA_IRQ1_1_r"
newline
bitfld.long 0x00 17. "LDC2BRIDGE_ERR_IRQ,The LDC2 bridge has generated an error" "LDC2BRIDGE_ERR_IRQ_0_r,LDC2BRIDGE_ERR_IRQ_1_w"
bitfld.long 0x00 16. "ICNT_ERR_IRQ,An error has been received on the SIMCOP master port" "ICNT_ERR_IRQ_0_r,ICNT_ERR_IRQ_1_w"
newline
bitfld.long 0x00 15. "VLCDJ_DECODE_ERR_IRQ,A decode error has been signaled by the VLCDJ module" "VLCDJ_DECODE_ERR_IRQ_0_r,VLCDJ_DECODE_ERR_IRQ_1_w"
bitfld.long 0x00 14. "DONE_IRQ,Event triggered when the hardware sequencer finishes the sequence: - the sequence step counter has reached the limit - all accelerator and DMA events for the last sequence step have been received" "DONE_IRQ_0_r,DONE_IRQ_1_w"
newline
bitfld.long 0x00 13. "STEP3_IRQ,Event triggered when Step 3 is activated by the hardware sequencer" "STEP3_IRQ_0_r,STEP3_IRQ_1_w"
bitfld.long 0x00 12. "STEP2_IRQ,Event triggered when Step 2 is activated by the hardware sequencer" "STEP2_IRQ_0_r,STEP2_IRQ_1_w"
newline
bitfld.long 0x00 11. "STEP1_IRQ,Event triggered when Step 1 is activated by the hardware sequencer" "STEP1_IRQ_0_r,STEP1_IRQ_1_w"
bitfld.long 0x00 10. "STEP0_IRQ,Event triggered when Step 0 is activated by the hardware sequencer" "STEP0_IRQ_0_r,STEP0_IRQ_1_w"
newline
bitfld.long 0x00 9. "LDC_BLOCK_IRQ,This event is triggered by LDC when a macroblock has been processed" "LDC_BLOCK_IRQ_0_r,LDC_BLOCK_IRQ_1_w"
bitfld.long 0x00 7. "ROT_A,Event triggered by the ROT a engine" "ROT_A_0_r,ROT_A_1_w"
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bitfld.long 0x00 6. "IMX_B_IRQ,Event triggered when iMX has executed a SLEEP instruction" "IMX_B_IRQ_0_r,IMX_B_IRQ_1_w"
bitfld.long 0x00 5. "IMX_A_IRQ,Event triggered when iMX has executed a SLEEP instruction" "IMX_A_IRQ_0_r,IMX_A_IRQ_1_w"
newline
bitfld.long 0x00 4. "NSF_IRQ_IRQ,Event triggered by the NSF2 imaging accelerator when processing of a block is done" "NSF_IRQ_IRQ_0_r,NSF_IRQ_IRQ_1_w"
bitfld.long 0x00 3. "VLCDJ_BLOC_IRQ,This event is triggered by VLCDJ when a macroblock has been processed (encode/decode)" "VLCDJ_BLOC_IRQ_0_r,VLCDJ_BLOC_IRQ_1_w"
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bitfld.long 0x00 2. "DCT_IRQ,Event triggered when a block has been processed by the DCT module and the filter outcome has been stored to an image buffer" "DCT_IRQ_0_r,DCT_IRQ_1_w"
bitfld.long 0x00 1. "LDC_FRAME_IRQ,This event is triggered by LDC when a full frame has been processed" "LDC_FRAME_IRQ_0_r,LDC_FRAME_IRQ_1_w"
newline
rbitfld.long 0x00 0. "SIMCOP_DMA_IRQ0,Event triggered by the SIMCOP DMA" "SIMCOP_DMA_IRQ0_0_r,SIMCOP_DMA_IRQ0_1_r"
line.long 0x04 "SIMCOP_HL_IRQSTATUS_i_3,Per-event 'enabled' interrupt status vector"
bitfld.long 0x04 19. "CPU_PROC_START_IRQ,Event triggered by the hardware sequencer to instruct the CPU to process a macroblock" "CPU_PROC_START_IRQ_0_r,CPU_PROC_START_IRQ_1_w"
rbitfld.long 0x04 18. "SIMCOP_DMA_IRQ1,Event triggered by the SIMCOP DMA" "SIMCOP_DMA_IRQ1_0_r,SIMCOP_DMA_IRQ1_1_r"
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bitfld.long 0x04 17. "LDC2BRIDGE_ERR_IRQ,The LDC2 bridge has generated an error" "LDC2BRIDGE_ERR_IRQ_0_r,LDC2BRIDGE_ERR_IRQ_1_w"
bitfld.long 0x04 16. "ICNT_ERR_IRQ,An error has been received on the SIMCOP master port" "ICNT_ERR_IRQ_0_r,ICNT_ERR_IRQ_1_w"
newline
bitfld.long 0x04 15. "VLCDJ_DECODE_ERR_IRQ,A decode error has been signaled by the VLCDJ module" "VLCDJ_DECODE_ERR_IRQ_0_r,VLCDJ_DECODE_ERR_IRQ_1_w"
bitfld.long 0x04 14. "DONE_IRQ,Event triggered when the hardware sequencer finishes the sequence: -The sequence step counter has reached the limit" "DONE_IRQ_0_r,DONE_IRQ_1_w"
newline
bitfld.long 0x04 13. "STEP3_IRQ,Event triggered when Step 3 is activated by the hardware sequencer" "STEP3_IRQ_0_r,STEP3_IRQ_1_w"
bitfld.long 0x04 12. "STEP2_IRQ,Event triggered when Step 2 is activated by the hardware sequencer" "STEP2_IRQ_0_r,STEP2_IRQ_1_w"
newline
bitfld.long 0x04 11. "STEP1_IRQ,Event triggered when Step 1 is activated by the hardware sequencer" "STEP1_IRQ_0_r,STEP1_IRQ_1_w"
bitfld.long 0x04 10. "STEP0_IRQ,Event triggered when Step 0 is activated by the hardware sequencer" "STEP0_IRQ_0_r,STEP0_IRQ_1_w"
newline
bitfld.long 0x04 9. "LDC_BLOCK_IRQ,This event is triggered by LDC when a macroblock has been processed" "LDC_BLOCK_IRQ_0_r,LDC_BLOCK_IRQ_1_w"
bitfld.long 0x04 7. "ROT_A,Event triggered by the ROT a engine" "ROT_A_0_r,ROT_A_1_w"
newline
bitfld.long 0x04 6. "IMX_B_IRQ,Event triggered when iMX has executed a SLEEP instruction" "IMX_B_IRQ_0_r,IMX_B_IRQ_1_w"
bitfld.long 0x04 5. "IMX_A_IRQ,Event triggered when iMX has executed a SLEEP instruction" "IMX_A_IRQ_0_r,IMX_A_IRQ_1_w"
newline
bitfld.long 0x04 4. "NSF_IRQ_IRQ,Event triggered by the NSF2 imaging accelerator when processing of a block is done" "NSF_IRQ_IRQ_0_r,NSF_IRQ_IRQ_1_w"
bitfld.long 0x04 3. "VLCDJ_BLOC_IRQ,This event is triggered by VLCDJ when a macroblock has been processed (encode/decode)" "VLCDJ_BLOC_IRQ_0_r,VLCDJ_BLOC_IRQ_1_w"
newline
bitfld.long 0x04 2. "DCT_IRQ,Event triggered when a block has been processed by the DCT module and the filter outcome has been stored to an image buffer" "DCT_IRQ_0_r,DCT_IRQ_1_w"
bitfld.long 0x04 1. "LDC_FRAME_IRQ,This event is triggered by LDC when a full frame has been processed" "LDC_FRAME_IRQ_0_r,LDC_FRAME_IRQ_1_w"
newline
rbitfld.long 0x04 0. "SIMCOP_DMA_IRQ0,Event triggered by the SIMCOP DMA" "SIMCOP_DMA_IRQ0_0_r,SIMCOP_DMA_IRQ0_1_r"
tree.end
group.long 0x64++0x03
line.long 0x00 "SIMCOP_CLKCTRL,SIMCOP clock control register"
bitfld.long 0x00 7. "ROT_A,ROT A" "ROT_A_0_r,ROT_A_1_w"
bitfld.long 0x00 6. "IMX_B,iMX B" "IMX_B_0_r,IMX_B_1_w"
bitfld.long 0x00 5. "IMX_A,iMX A" "IMX_A_0_r,IMX_A_1_w"
newline
bitfld.long 0x00 4. "NSF2,NSF2" "NSF2_0_r,NSF2_1_w"
bitfld.long 0x00 3. "VLCDJ,VLCDJ" "VLCDJ_0_r,VLCDJ_1_w"
bitfld.long 0x00 2. "DCT,DCT" "DCT_0_r,DCT_1_w"
newline
bitfld.long 0x00 1. "LDC,LDC" "LDC_0_r,LDC_1_w"
bitfld.long 0x00 0. "DMA,DMA" "DMA_0_r,DMA_1_w"
group.long 0x60++0x03
line.long 0x00 "SIMCOP_CTRL,SIMCOP control register"
bitfld.long 0x00 28. "LDC_R_BURST_BREAK,Controls if bursts issued by the LDC2 bridge could cross burst length boundaries" "LDC_R_BURST_BREAK_0,LDC_R_BURST_BREAK_1"
bitfld.long 0x00 26.--27. "LDC_R_MAX_BURST_LENGHT,Limits the maximum burst length that could be used by the LDC2 bridge" "LDC_R_MAX_BURST_LENGHT_0,LDC_R_MAX_BURST_LENGHT_1,LDC_R_MAX_BURST_LENGHT_2,LDC_R_MAX_BURST_LENGHT_3"
bitfld.long 0x00 21.--24. "LDC_R_TAG_CNT,Limits the maximum number of outstanding requests to LDC_R_TAG_CNT+1" "LDC_R_TAG_CNT_0,LDC_R_TAG_CNT_1,LDC_R_TAG_CNT_2,LDC_R_TAG_CNT_3,LDC_R_TAG_CNT_4,LDC_R_TAG_CNT_5,LDC_R_TAG_CNT_6,LDC_R_TAG_CNT_7,LDC_R_TAG_CNT_8,LDC_R_TAG_CNT_9,LDC_R_TAG_CNT_10,LDC_R_TAG_CNT_11,LDC_R_TAG_CNT_12,LDC_R_TAG_CNT_13,LDC_R_TAG_CNT_14,LDC_R_TAG_CNT_15"
newline
bitfld.long 0x00 16.--19. "LDC_R_TAG_OFST,First OCP tag ID that can be used by LDC reads.Software must prevent overlap with tags generated by the SIMCOP DMA.Typically this value should be equal to SIMCP_DMA_CTRL.TAG_CNT+1" "LDC_R_TAG_OFST_0,LDC_R_TAG_OFST_1,LDC_R_TAG_OFST_2,LDC_R_TAG_OFST_3,LDC_R_TAG_OFST_4,LDC_R_TAG_OFST_5,LDC_R_TAG_OFST_6,LDC_R_TAG_OFST_7,LDC_R_TAG_OFST_8,LDC_R_TAG_OFST_9,LDC_R_TAG_OFST_10,LDC_R_TAG_OFST_11,LDC_R_TAG_OFST_12,LDC_R_TAG_OFST_13,LDC_R_TAG_OFST_14,LDC_R_TAG_OFST_15"
bitfld.long 0x00 14. "IMX_B_CMD,Switch for iMX # command memory" "IMX_B_CMD_0,IMX_B_CMD_1"
bitfld.long 0x00 12.--13. "IMX_A_CMD,Switch for iMX A command memory" "IMX_A_CMD_0,IMX_A_CMD_1,IMX_A_CMD_2,?"
newline
bitfld.long 0x00 11. "HUFF,Switch for Huffman table" "HUFF_0,HUFF_1"
bitfld.long 0x00 10. "QUANT,Switch for quantization table" "QUANT_0,QUANT_1"
bitfld.long 0x00 8. "LDC_LUT,Switch for LDC LUT" "LDC_LUT_0,LDC_LUT_1"
newline
bitfld.long 0x00 6.--7. "LDC_INPUT,Selects input data buffer for LDC" "LDC_INPUT_0,LDC_INPUT_1,LDC_INPUT_2,LDC_INPUT_3"
bitfld.long 0x00 4.--5. "NSF_WMEM,Selects working memory for NSF" "NSF_WMEM_0,NSF_WMEM_1,NSF_WMEM_2,NSF_WMEM_3"
bitfld.long 0x00 3. "IRQ3_MODE,Interrupt generation method" "IRQ3_MODE_0,IRQ3_MODE_1"
newline
bitfld.long 0x00 2. "IRQ2_MODE,Interrupt generation method" "IRQ2_MODE_0,IRQ2_MODE_1"
bitfld.long 0x00 1. "IRQ1_MODE,Interrupt generation method" "IRQ1_MODE_0,IRQ1_MODE_1"
bitfld.long 0x00 0. "IRQ0_MODE,Interrupt generation method" "IRQ0_MODE_0,IRQ0_MODE_1"
rgroup.long 0x04++0x03
line.long 0x00 "SIMCOP_HL_HWINFO,Information about the IP module's hardware configuration"
bitfld.long 0x00 10.--12. "LDCR_RESP_FIFO,Defines the size of the LDC read master response FIFO in words of 128-bits" "?,?,LDCR_RESP_FIFO_2_r,LDCR_RESP_FIFO_3_r,LDCR_RESP_FIFO_4_r,LDCR_RESP_FIFO_5_r,LDCR_RESP_FIFO_6_r,LDCR_RESP_FIFO_7_r"
bitfld.long 0x00 8.--9. "IMAGE_BUFFERS,This parameter defines the image buffer count" "IMAGE_BUFFERS_0_r,IMAGE_BUFFERS_1_r,?,?"
bitfld.long 0x00 6. "ROT_A_ENABLE,The ROT a is present when this parameter is set" "ROT_A_ENABLE_0_r,ROT_A_ENABLE_1_r"
newline
bitfld.long 0x00 5. "IMX_B_ENABLE,The iMX B module and the CMD b COEFF b memories are present when this parameter is set" "IMX_B_ENABLE_0_r,IMX_B_ENABLE_1_r"
bitfld.long 0x00 4. "IMX_A_ENABLE,The iMX A module and the CMD a COEFF a memories are present when this parameter is set" "IMX_A_ENABLE_0_r,IMX_A_ENABLE_1_r"
bitfld.long 0x00 3. "NSF_ENABLE,The NSF2 is present when this parameter is set" "NSF_ENABLE_0_r,NSF_ENABLE_1_r"
newline
bitfld.long 0x00 2. "VLCDJ_ENABLE,The VLCD module and the QUANT HUFFMAN BITSTREAM memories are present when this parameter is set" "VLCDJ_ENABLE_0_r,VLCDJ_ENABLE_1_r"
bitfld.long 0x00 1. "DCT_ENABLE,The DCT module is present when this parameter is set" "DCT_ENABLE_0_r,DCT_ENABLE_1_r"
bitfld.long 0x00 0. "LDC_ENABLE,The LDC module and the LDC LUT are present when this parameter is set" "LDC_ENABLE_0_r,LDC_ENABLE_1_r"
rgroup.long 0x00++0x03
line.long 0x00 "SIMCOP_HL_REVISION,MODULE REVISION This register contains the IP revision code in binary coded digital"
group.long 0x10++0x03
line.long 0x00 "SIMCOP_HL_SYSCONFIG,This register controls the various parameters of the OCP interface"
bitfld.long 0x00 4.--5. "STANDBYMODE,Configuration of the local initiator state management mode" "STANDBYMODE_0,STANDBYMODE_1,STANDBYMODE_2,?"
bitfld.long 0x00 0. "SOFTRESET,Software reset" "SOFTRESET_0_w,SOFTRESET_1_r"
tree.end
tree.end
tree "ISS_SIMCOP_Rotation_Accelerator_Module"
tree "ROT_L3Interconnect"
base ansd:0x52020700
hgroup.long 0x00++0x03
hide.long 0x00 "ROT_REVISION,Module revision"
group.long 0x04++0x23
line.long 0x00 "ROT_CTRL,Control"
bitfld.long 0x00 15. "BUSY,Idle/busy status (read-only)" "Idle,Busy"
bitfld.long 0x00 0. "EN,Module enable writing 1 starts the module; always reads as 0" "EN_0,EN_1"
line.long 0x04 "ROT_CFG,Configuration"
bitfld.long 0x04 12.--15. "NBLKS,Number of blocks minus 1" "1 block,2 blocks etc,?..."
bitfld.long 0x04 9. "AUTOGATING,Internal interconnect and functional clock gating" "Interconnect and functional clocks are..,Automatic clock gating is applied based on the.."
newline
bitfld.long 0x04 8. "TRIG_SRC,Trigger source" "MMR,Hardware start signal"
bitfld.long 0x04 4.--6. "FMT,Data format" "8-bit data,16-bit data,32-bit data,YUV4:2:2 data,YUV4:2:0 data,?..."
newline
bitfld.long 0x04 0.--2. "OP,Operation" "Rotate 0 degree,Rotate 90 degrees,Rotate 180 degrees,Rotate 270 degrees,Data shift (FMT = 0),Horizontal circular (FMT = 0) shift,?..."
line.long 0x08 "ROT_BLKSZ,Block size"
hexmask.long.word 0x08 16.--27. 1. "BLKH,Block height in pixels (YUV4:2:0/4:2:2) or number of rows (8-/16-/32-bit)"
hexmask.long.word 0x08 0.--11. 1. "BLKW,Block width in pixels (YUV4:2:0/4:2:2) or data units (8-/16-/32-bit)"
line.long 0x0C "ROT_SRC_START1,Source starting address"
hexmask.long.word 0x0C 0.--13. 1. "ADDR,Byte address Should be a multiple of 8 for rotation"
line.long 0x10 "ROT_SRC_LOFST,Source line offset"
hexmask.long.word 0x10 0.--15. 1. "LOFST,Line offset in bytes Should be a multiple of 8 for rotation and normal data shifting"
line.long 0x14 "ROT_DST_START1,Destination starting address"
hexmask.long.word 0x14 0.--13. 1. "ADDR,Byte address Should be a multiple of 8 for rotation"
line.long 0x18 "ROT_DST_LOFST,Destination line offset"
hexmask.long.word 0x18 0.--15. 1. "LOFST,Line offset in bytes Should be a multiple of 8 for rotation and normal data shifting"
line.long 0x1C "ROT_SRC_START2,Source starting address 2 (only form YUV4:2:0 FMT = 2)"
hexmask.long.word 0x1C 0.--13. 1. "ADDR,Byte address should be a multiple of 8"
line.long 0x20 "ROT_DST_START2,Destination starting address 2 (only form YUV4:2:0 FMT = 2)"
hexmask.long.word 0x20 0.--13. 1. "ADDR,Byte address should be a multiple of 8"
tree.end
tree.end
tree "ISS_SIMCOP_Variable_Length_Coder_Decoder_for_JPEG_Module"
tree "VLCDJ_L3Interconnect"
base ansd:0x52020600
rgroup.long 0x00++0x2F
line.long 0x00 "VLCDJ_REVISION,IP revision"
line.long 0x04 "VLCDJ_CTRL,Controls common to encoding and decoding"
bitfld.long 0x04 16. "BUSY,Idle/busy status" "Idle,Busy"
bitfld.long 0x04 7. "CLRRB,Write only; read returns 0" "CLRRB_0,CLRRB_1"
newline
bitfld.long 0x04 6. "RBEN,Enable RB signaling" "RBEN_0,RBEN_1"
bitfld.long 0x04 5. "INTEN_ERR,Interrupt enable for decode error" "No interrupt generated on decode error,Interrupt generated on decode error"
newline
bitfld.long 0x04 4. "INTEN_DONE,Interrupt enable for task completion" "No interrupt generated on task completion,Interrupt generated on task completion"
bitfld.long 0x04 3. "AUTOGATING,Internal clock gating on OCP clock and functional clock" "Clocks are free-running,Clocks are gated off in sub-blocks that are not.."
newline
bitfld.long 0x04 2. "TRIG_SRC,Which mechanism starts VLCDJ operation" "MMR write to VLCDJ_CTRL.EN,Hardware start signal"
bitfld.long 0x04 1. "MODE," "MODE_0,MODE_1"
newline
bitfld.long 0x04 0. "EN,Module enable by software (write-only read returns 0)" "EN_0,EN_1"
line.long 0x08 "VLCDJE_CFG,Encode configuration"
bitfld.long 0x08 8.--13. "NMCUS,Number of MCUs (FMT = 0 1) or blocks (FMT = 2) to encode" "1 MCU,2 MCUs etc,?..."
bitfld.long 0x08 3. "RLOCEN,Restart marker location recording enable" "Restart marker location recording disabled,Restart marker location recording enabled"
newline
bitfld.long 0x08 2. "RSTEN,Restart marker insertion enable" "Restart marker insertion disabled,Restart marker insertion enabled"
bitfld.long 0x08 0.--1. "FMT," "?,YUV4:2:2,Sequential blocks,?..."
line.long 0x0C "VLCDJE_DCPREDY,Encode DC predictor for Y"
hexmask.long.word 0x0C 0.--11. 1. "PREDY,DC predictor for Y"
line.long 0x10 "VLCDJE_DCPREDUV,Encode DC predictor for U and V"
hexmask.long.word 0x10 16.--27. 1. "PREDV,DC predictor for V"
hexmask.long.word 0x10 0.--11. 1. "PREDU,DC predictor for U"
line.long 0x14 "VLCDJE_BSPTR,Encode bitstream pointer"
bitfld.long 0x14 16.--19. "BITPTR,Bit pointer 1..8 indicates number of available bits" "BITPTR_0,BITPTR_1,BITPTR_2,BITPTR_3,BITPTR_4,BITPTR_5,BITPTR_6,BITPTR_7,BITPTR_8,BITPTR_9,BITPTR_10,BITPTR_11,BITPTR_12,BITPTR_13,BITPTR_14,BITPTR_15"
hexmask.long.word 0x14 0.--11. 1. "BYTEPTR,Byte pointer (to BSMEM)"
line.long 0x18 "VLCDJE_CBUF,Encode bitstream circular buffer"
bitfld.long 0x18 26.--27. "END,Ending quarter (1KB each unit) of bitstream buffer" "END_0,END_1,END_2,END_3"
bitfld.long 0x18 10.--11. "START,Starting quarter (1KB each unit) of bitstream buffer" "START_0,START_1,START_2,START_3"
line.long 0x1C "VLCDJE_RSTCFG,Encode restart marker configuration"
bitfld.long 0x1C 28.--30. "INC,Restart count increment value" "INC_0,INC_1,INC_2,INC_3,INC_4,INC_5,INC_6,INC_7"
bitfld.long 0x1C 24.--26. "INIT,Restart marker initial count" "INIT_0,INIT_1,INIT_2,INIT_3,INIT_4,INIT_5,INIT_6,INIT_7"
newline
hexmask.long.word 0x1C 12.--21. 1. "PHASE,MCU count within the interval"
hexmask.long.word 0x1C 0.--9. 1. "INTRVL,Restart interval (in MCUs)"
line.long 0x20 "VLCDJE_DCTQM,Encode DCT coefficient and quantizer matrix pointers"
bitfld.long 0x20 23.--24. "QMR,Quarter (128 bytes/unit) of quantization matrix reciprocal" "QMR_0,QMR_1,QMR_2,QMR_3"
hexmask.long.word 0x20 4.--13. 1. "DCT,128-bit/word address of DCT coefficients"
line.long 0x24 "VLCDJE_VLCTBL,Encode Huffman table pointer"
hexmask.long.word 0x24 2.--11. 1. "ADDR,Encode Huffman table pointer 32-bit word address"
line.long 0x28 "VLCDJE_RSTPTR,Encode restart marker locations"
hexmask.long.word 0x28 4.--13. 1. "ADDR,Pointer to restart marker locations in image buffer 128-bit/word address Software can write a byte address into the entire register"
line.long 0x2C "VLCDJE_RSTOFST,SDRAM address to add to encode restart marker locations"
group.long 0x40++0x27
line.long 0x00 "VLCDJD_CFG,Decode configuration"
bitfld.long 0x00 8.--13. "NMCUS,Number of MCUs (FMT = 0 1) or blocks (FMT = 2) to decode" "1 MCU,2 MCUs etc,?..."
bitfld.long 0x00 2. "RSTEN,Restart marker detection/processing enable" "Restart marker detection/processing disabled,Restart marker detection/processing enabled"
newline
bitfld.long 0x00 0.--1. "FMT," "?,YUV4:2:2,Sequential blocks,?..."
line.long 0x04 "VLCDJD_DCPREDY,Decode DC predictor for Y"
hexmask.long.word 0x04 0.--11. 1. "PREDY,DC predictor for Y"
line.long 0x08 "VLCDJD_DCPREDUV,Decode DC predictor for U and V"
hexmask.long.word 0x08 16.--27. 1. "PREDV,DC predictor for V"
hexmask.long.word 0x08 0.--11. 1. "PREDU,DC predictor for U"
line.long 0x0C "VLCDJD_BSPTR,Decode bitstream pointer"
bitfld.long 0x0C 16.--19. "BITPTR,Bit pointer 1..8 indicates number of available bits" "BITPTR_0,BITPTR_1,BITPTR_2,BITPTR_3,BITPTR_4,BITPTR_5,BITPTR_6,BITPTR_7,BITPTR_8,BITPTR_9,BITPTR_10,BITPTR_11,BITPTR_12,BITPTR_13,BITPTR_14,BITPTR_15"
hexmask.long.word 0x0C 0.--11. 1. "BYTEPTR,Byte pointer (to BSMEM)"
line.long 0x10 "VLCDJD_CBUF,Decode bitstream circular buffer"
bitfld.long 0x10 26.--27. "END,Ending quarter (1KB each unit) of bitstream buffer" "END_0,END_1,END_2,END_3"
bitfld.long 0x10 10.--11. "START,Starting quarter (1KB each unit) of bitstream buffer" "START_0,START_1,START_2,START_3"
line.long 0x14 "VLCDJD_DCTQM,Decode DCT coefficient and quantizer matrix pointers"
bitfld.long 0x14 23.--24. "QM,Quarter (128 bytes/unit) of quantization matrix" "QM_0,QM_1,QM_2,QM_3"
hexmask.long.word 0x14 4.--13. 1. "DCT,128-bit/word address of DCT coefficients"
line.long 0x18 "VLCDJD_CTRLTBL,Decode control table base"
hexmask.long.word 0x18 2.--11. 1. "ADDR,Starting address of decode control table 32-bit word"
line.long 0x1C "VLCDJD_DCDTBL01,Decode Huffman tables 0 and 1"
hexmask.long.word 0x1C 18.--27. 1. "DCDTBL1,Starting byte address of decode table 1 32-bit word"
hexmask.long.word 0x1C 2.--11. 1. "DCDTBL0,Starting byte address of decode table 0 32-bit word"
line.long 0x20 "VLCDJD_DCDTBL23,Decode Huffman tables 2 and 3"
hexmask.long.word 0x20 18.--27. 1. "DCDTBL3,Starting byte address of decode table 3 32-bit word"
hexmask.long.word 0x20 2.--11. 1. "DCDTBL2,Starting byte address of decode table 2 32-bit word"
line.long 0x24 "VLCDJD_DCTERR,"
hexmask.long.word 0x24 0.--13. 1. "ERRPTR,Byte address pointer to DCT coefficients near where decode error occurs (read-only)"
tree.end
tree.end
tree "IVA_HD_Overview"
tree "SYSCTRL_L3Interconnect"
base ansd:0x5A05A400
rgroup.long 0x00++0x07
line.long 0x00 "IVAHD_REVISION,IP revision identifier (X.Y.R)"
line.long 0x04 "IVAHD_HWINFO,Information about the IP module's hardware configuration"
bitfld.long 0x04 14. "ECD3,ECD3 available" "ECD3 not present,ECD3 present"
newline
bitfld.long 0x04 13. "MC3,MC3 available" "MC3 not present,MC3 present"
newline
bitfld.long 0x04 12. "IPE3,iPE3 available" "iPE3 not present,iPE3 present"
newline
bitfld.long 0x04 11. "CALC3,CALC3 available" "CALC3 not present,CALC3 present"
newline
bitfld.long 0x04 10. "IME3,iME3 available" "iME3 not present,iME3 present"
newline
bitfld.long 0x04 9. "ILF3,iLF3 available" "iLF3 not present,iLF3 present"
newline
bitfld.long 0x04 8. "VDMA,vDMA available" "vDMA not present,vDMA present"
newline
bitfld.long 0x04 7. "ICONT2,iCONT2 available" "iCONT2 not present,iCONT2 present"
newline
bitfld.long 0x04 6. "ICONT1,iCONT1 available" "iCONT1 not present,iCONT1 present"
newline
bitfld.long 0x04 4.--5. "SL2BANK," "SL2BANK_0_r,SL2BANK_1_r,SL2BANK_2_r,SL2BANK_3_r"
newline
bitfld.long 0x04 0.--3. "SL2SIZE,Size of SL2 memory" "?,SL2SIZE_1_r,SL2SIZE_2_r,SL2SIZE_3_r,SL2SIZE_4_r,SL2SIZE_5_r,SL2SIZE_6_r,SL2SIZE_7_r,SL2SIZE_8_r,SL2SIZE_9_r,SL2SIZE_10_r,SL2SIZE_11_r,SL2SIZE_12_r,SL2SIZE_13_r,SL2SIZE_14_r,?"
group.long 0x10++0x03
line.long 0x00 "IVAHD_SYSCONFIG,Clock management configuration"
bitfld.long 0x00 4.--5. "STANDBYMODE,Configuration of the local initiator state management mode" "?,STANDBYMODE_1,STANDBYMODE_2,?"
newline
bitfld.long 0x00 2.--3. "IDLEMODE,Configuration of the local target state management mode" "?,IDLEMODE_1,IDLEMODE_2,?"
group.long 0x24++0x1F
line.long 0x00 "IVAHD_IRQSTATUS_RAW,Per-event raw interrupt status vector"
bitfld.long 0x00 0. "SYSCTRL_CLKERR,Settable raw status for Clock Programming Error event" "SYSCTRL_CLKERR_0_r,SYSCTRL_CLKERR_1_w"
line.long 0x04 "IVAHD_IRQSTATUS,Per-event 'enabled' interrupt status vector. line 0"
bitfld.long 0x04 0. "SYSCTRL_CLKERR,Clearable enabled status for Clock Programming Error event" "SYSCTRL_CLKERR_0_r,SYSCTRL_CLKERR_1_w"
line.long 0x08 "IVAHD_IRQENABLE_SET,Per-event interrupt enable bit vector"
bitfld.long 0x08 0. "SYSCTRL_CLKERR,Clock Programing Error" "SYSCTRL_CLKERR_0_r,SYSCTRL_CLKERR_1_w"
line.long 0x0C "IVAHD_IRQENABLE_CLR,Per-event interrupt enable bit vector"
bitfld.long 0x0C 0. "SYSCTRL_CLKERR,Clock Programing Error" "SYSCTRL_CLKERR_0_r,SYSCTRL_CLKERR_1_w"
line.long 0x10 "IVAHD_SYNC_IRQSTATUS_RAW,Per-event raw interrupt status vector"
abitfld.long 0x10 0.--7. "SYNC_INPUT7_0,Settable raw status for SYNC INPUT event" "0x00=No action Write,0x01=Set event (debug)"
line.long 0x14 "IVAHD_SYNC_IRQSTATUS,Per-event 'enabled' interrupt status vector. line 0"
abitfld.long 0x14 0.--7. "SYNC_INPUT7_0,Clearable enabled status for SYNC INPUT event" "0x00=No action Write,0x01=Clear (raw) event"
line.long 0x18 "IVAHD_SYNC_IRQENABLE_SET,Per-event interrupt enable bit vector"
abitfld.long 0x18 0.--7. "SYNC_INPUT7_0,Enable for interrupt event" "0x00=No action Write,0x01=Enable interrupt"
line.long 0x1C "IVAHD_SYNC_IRQENABLE_CLR,Per-event interrupt enable bit vector"
abitfld.long 0x1C 0.--7. "SYNC_INPUT7_0,Enable for interrupt event" "0x00=No action Write,0x01=Disable interrupt"
group.long 0x50++0x0B
line.long 0x00 "IVAHD_CLKCTRL,IVA-HD clock control register"
bitfld.long 0x00 10. "SMSET,Clock control of SMSET" "Exit idle state and start SMSET clock,Request SMSET to go to idle state and stop SMSET.."
newline
bitfld.long 0x00 9. "MSGIF,Clock control of MSGIF" "Exit idle state and start MSGIF clock,Request MSGIF to go to idle state and stop MSGIF.."
newline
bitfld.long 0x00 8. "ECD3,Clock control of ECD3" "Exit idle state and start ECD3 clock,Request ECD3 to go to idle state and stop ECD3.."
newline
bitfld.long 0x00 7. "MC3,Clock control of MC3" "Exit idle state and start MC3 clock,Request MC3 to go to idle state and stop MC3 clock"
newline
bitfld.long 0x00 6. "IPE3,Clock control of iPE3" "Exit idle state and start iPE3 clock,Request iME3 to go to idle state and stop iPE3.."
newline
bitfld.long 0x00 5. "CALC3,Clock control of CALC3" "Exit idle state and start CALC3 clock,Request CALC3 to go to idle state and stop CALC3.."
newline
bitfld.long 0x00 4. "ILF3,Clock control of iLF3" "Exit idle state and start iLF3 clock,Request iLF3 to go to idle state and stop iLF3.."
newline
bitfld.long 0x00 3. "IME3,Clock control of iME3" "Exit idle state and start iME3 clock,Request iME3 to go to idle state and stop iME3.."
newline
bitfld.long 0x00 2. "VDMA,Clock control of vDMA" "Exit idle state and start vDMA clock,Request vDMA to go to idle state and stop vDMA.."
newline
bitfld.long 0x00 1. "ICONT2,Clock control of iCONT2" "Exit idle state and start iCONT2 clock,Request iCONT2 to go to idle state and stop.."
newline
bitfld.long 0x00 0. "ICONT1,Clock control of iCONT1" "Exit idle state and start iCONT1 clock,Request iCONT1 to go to idle state and stop.."
line.long 0x04 "IVAHD_CLKST,IVA-HD clock status register"
bitfld.long 0x04 10. "SMSET,Clock status of SMSET" "SMSET clock is idled,SMSET clock is active"
newline
bitfld.long 0x04 9. "MSGIF,Clock status of MSGIF" "MSGIF clock is idled,MSGIF clock is active"
newline
bitfld.long 0x04 8. "ECD3,Clock status of ECD3" "ECD3 clock is idled,ECD3 clock is active"
newline
bitfld.long 0x04 7. "MC3,Clock status of MC3" "MC3 clock is idled,MC3 clock is active"
newline
bitfld.long 0x04 6. "IPE3,Clock status of iPE3" "iPE3 clock is idled,iPE3 clock is active"
newline
bitfld.long 0x04 5. "CALC3,Clock status of CALC3" "CALC3 clock is idled,CALC3 clock is active"
newline
bitfld.long 0x04 4. "ILF3,Clock status of iLF3" "iLF3 clock is idled,iLF3 clock is active"
newline
bitfld.long 0x04 3. "IME3,Clock status of iME3" "iME3 clock is idled,iME3 clock is active"
newline
bitfld.long 0x04 2. "VDMA,Clock status of vDMA" "vDMA clock is idled,vDMA clock is active"
newline
bitfld.long 0x04 1. "ICONT2,Clock status of iCONT2" "iCONT2 clock is idled,iCONT2 clock is active"
newline
bitfld.long 0x04 0. "ICONT1,Clock status of iCONT1" "iCONT1 clock is idled,iCONT1 clock is active"
line.long 0x08 "IVAHD_STDBYST,IVA-HD STANDBY status"
bitfld.long 0x08 2. "vDMA,vDMA Standby status" "module is not in Standby,module is in Standby"
newline
bitfld.long 0x08 1. "ICONT2,iCONT2 Standby status" "module is not in Standby,module is in Standby"
newline
bitfld.long 0x08 0. "ICONT1,iCONT1 Standby status" "module is not in Standby,module is in Standby"
tree.end
tree.end
tree "Keyboard_Controller"
tree "Keyboard_Controller"
base ansd:0x4A31C000
rgroup.long 0x00++0x03
line.long 0x00 "KBD_REVISION,This register contains the IP revision code"
group.long 0x10++0x4F
line.long 0x00 "KBD_SYSCONFIG,This register controls the various parameters of the L4 interface"
bitfld.long 0x00 8.--9. "CLOCKACTIVITY,Clock(s) activity during wake-up mode period" "CLOCKACTIVITY_0,CLOCKACTIVITY_1,CLOCKACTIVITY_2,CLOCKACTIVITY_3"
bitfld.long 0x00 5. "EMUFREE,Emulation mode" "EMUFREE_0,EMUFREE_1"
bitfld.long 0x00 3.--4. "IDLEMODE,Power management req/ack control" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
newline
bitfld.long 0x00 2. "ENAWAKEUP,Wake-up feature global control" "ENAWAKEUP_0,ENAWAKEUP_1"
bitfld.long 0x00 1. "SOFTRESET,Software reset" "SOFTRESET_0,SOFTRESET_1"
bitfld.long 0x00 0. "AUTOGATING,Internal L4 interface clock gating strategy" "AUTOGATING_0,AUTOGATING_1"
line.long 0x04 "KBD_SYSSTATUS,This register controls optional features specific to the timer function"
bitfld.long 0x04 0. "RESETDONE,Internal reset monitoring" "RESETDONE_0_r,RESETDONE_1_r"
line.long 0x08 "KBD_IRQSTATUS,The keyboard interrupt-status register is used to determine which of the keyboard events requested an interrupt"
bitfld.long 0x08 3. "MISS_EVENT,Indicates when a miss event occurs" "MISS_EVENT_0,MISS_EVENT_1"
bitfld.long 0x08 2. "IT_TIMEOUT,Indicates when a time-out event is detected" "IT_TIMEOUT_0,IT_TIMEOUT_1"
bitfld.long 0x08 1. "IT_LONG_KEY,Indicates when a long-key event is detected" "IT_LONG_KEY_0,IT_LONG_KEY_1"
newline
bitfld.long 0x08 0. "IT_EVENT,Indicates when an event is detected" "IT_EVENT_0,IT_EVENT_1"
line.long 0x0C "KBD_IRQENABLE,The keyboard interrupt-enable register lets the user enable certain keyboard event for generating an interrupt request"
bitfld.long 0x0C 2. "IT_TIMEOUT_EN,Time-out interrupt enable" "IT_TIMEOUT_EN_0,IT_TIMEOUT_EN_1"
bitfld.long 0x0C 1. "IT_LONG_KEY_EN,Long-key interrupt enable" "IT_LONG_KEY_EN_0,IT_LONG_KEY_EN_1"
bitfld.long 0x0C 0. "IT_EVENT_EN,Enable event interrupt" "IT_EVENT_EN_0,IT_EVENT_EN_1"
line.long 0x10 "KBD_WAKEUPENABLE,The keyboard wake-up enable register lets the user mask the expected source of wake-up event that generates a wake-up request"
bitfld.long 0x10 2. "WUP_TIMEOUT_ENA,Time-out wake-up enable" "WUP_TIMEOUT_ENA_0,WUP_TIMEOUT_ENA_1"
bitfld.long 0x10 1. "WUP_LONG_KEY_ENA,Long-key wake-up enable" "WUP_LONG_KEY_ENA_0,WUP_LONG_KEY_ENA_1"
bitfld.long 0x10 0. "WUP_EVENT_ENA,Event wake-up enable" "WUP_EVENT_ENA_0,WUP_EVENT_ENA_1"
line.long 0x14 "KBD_PENDING,Software must read the pending write bits to ensure that following write access is not discarded due to ongoing write synchronization process"
bitfld.long 0x14 3. "PEND_TIMEOUT,Write-pending bit forKBD_TIMEOUT register" "PEND_TIMEOUT_0_r,PEND_TIMEOUT_1_r"
bitfld.long 0x14 2. "PEND_LONG_KEY,Write-pending bit forKBD_KEYLONGTIME register" "PEND_LONG_KEY_0_r,PEND_LONG_KEY_1_r"
bitfld.long 0x14 1. "PEND_DEBOUNCING,Write-pending bit forKBD_DEBOUNCINGTIME register" "PEND_DEBOUNCING_0_r,PEND_DEBOUNCING_1_r"
newline
bitfld.long 0x14 0. "PEND_CTRL,Write pending bit forKBD_CTRL register" "PEND_CTRL_0_r,PEND_CTRL_1_r"
line.long 0x18 "KBD_CTRL,This register sets the functional configuration of the module"
bitfld.long 0x18 8. "REPEAT_MODE,Repeat mode enable" "REPEAT_MODE_0,REPEAT_MODE_1"
bitfld.long 0x18 7. "TIMEOUT_LONG_KEY,Time-out long key mode enable" "TIMEOUT_LONG_KEY_0,TIMEOUT_LONG_KEY_1"
bitfld.long 0x18 6. "TIMEOUT_EMPTY,Time-out empty mode enable" "TIMEOUT_EMPTY_0,TIMEOUT_EMPTY_1"
newline
bitfld.long 0x18 5. "LONG_KEY,Long-key mode enable" "LONG_KEY_0,LONG_KEY_1"
bitfld.long 0x18 2.--4. "PTV,Prescale clock timer value" "PTV_0,PTV_1,PTV_2,PTV_3,PTV_4,PTV_5,PTV_6,PTV_7"
bitfld.long 0x18 1. "NSOFTWARE_MODE,Select hardware or software mode for key decoding" "NSOFTWARE_MODE_0,NSOFTWARE_MODE_1"
line.long 0x1C "KBD_DEBOUNCINGTIME,This register is used to filter glitches on the press key or release key"
bitfld.long 0x1C 0.--5. "DEBOUNCING_VALUE,This value corresponds to the desired value of debouncing time" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
line.long 0x20 "KBD_KEYLONGTIME,This register is used to measure duration of a key press to allow shortcut detection"
hexmask.long.word 0x20 0.--11. 1. "LONG_KEY_VALUE,This value corresponds to the desired value of the long-key interrupt or repeat mode value"
line.long 0x24 "KBD_TIMEOUT,This register is used to detect a long inactivity on the keyboard"
hexmask.long.word 0x24 0.--15. 1. "TIMEOUT_VALUE,This value corresponds to the desired value of the time-out interrupt"
line.long 0x28 "KBD_STATEMACHINE,This register indicates the state of the sequencer"
bitfld.long 0x28 0.--3. "STATE_MACHINE,The state of internal state machine" "STATE_MACHINE_0,STATE_MACHINE_1,STATE_MACHINE_2,STATE_MACHINE_3,STATE_MACHINE_4,STATE_MACHINE_5,STATE_MACHINE_6,STATE_MACHINE_7,STATE_MACHINE_8,STATE_MACHINE_9,STATE_MACHINE_10,STATE_MACHINE_11,STATE_MACHINE_12,STATE_MACHINE_13,STATE_MACHINE_14,STATE_MACHINE_15"
line.long 0x2C "KBD_ROWINPUTS,This register stores the value of the row inputs"
hexmask.long.word 0x2C 0.--8. 1. "KBR_LATCH,The value of the rows input"
line.long 0x30 "KBD_COLUMNOUTPUTS,This register holds the value of the columns output"
hexmask.long.word 0x30 0.--8. 1. "KBC_REG,The value of the columns output"
line.long 0x34 "KBD_FULLCODE31_0,The register codes the row 0. row 1. row 2. and row 3"
line.long 0x38 "KBD_FULLCODE63_32,The register codes rows 4. 5. 6. and 7"
line.long 0x3C "KBD_FULLCODE17_0,The register codes row 0 and row 1"
hexmask.long.word 0x3C 16.--24. 1. "ROW1,A bit set to 1 indicates that the corresponding key is pressed"
hexmask.long.word 0x3C 0.--8. 1. "ROW0,A bit set to 1 indicates that the corresponding key is pressed"
line.long 0x40 "KBD_FULLCODE35_18,The register codes row 2 and row 3"
hexmask.long.word 0x40 16.--24. 1. "ROW3,A bit set to 1 indicates that the corresponding key is pressed"
hexmask.long.word 0x40 0.--8. 1. "ROW2,A bit set to 1 indicates that the corresponding key is pressed"
line.long 0x44 "KBD_FULLCODE53_36,The register codes row 4 and row 5"
hexmask.long.word 0x44 16.--24. 1. "ROW5,A bit set to 1 indicates that the corresponding key is pressed"
hexmask.long.word 0x44 0.--8. 1. "ROW4,A bit set to 1 indicates that the corresponding key is pressed"
line.long 0x48 "KBD_FULLCODE71_54,The register codes row 6 and row 7"
hexmask.long.word 0x48 16.--24. 1. "ROW7,A bit set to 1 indicates that the corresponding key is pressed"
hexmask.long.word 0x48 0.--8. 1. "ROW6,A bit set to 1 indicates that the corresponding key is pressed"
line.long 0x4C "KBD_FULLCODE80_72,The register codes row 8"
hexmask.long.word 0x4C 0.--8. 1. "ROW8,A bit set to 1 indicates that the corresponding key is pressed"
tree.end
tree.end
tree "L3_Interconnect"
tree "C2C_Master_NIU_Firewall"
base ansd:0x4A204000
group.long 0x00++0x07
line.long 0x00 "ERROR_LOG_k,Error log register for port k"
bitfld.long 0x00 23. "BLK_BURST_VIOLATION," "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"
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"
line.long 0x04 "LOGICAL_ADDR_ERRLOG_k,Logical Physical Address Error log register for port k"
group.long 0x8C++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
newline
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"
bitfld.long 0x00 16. "R8,Master NIU ConnID = 8 read permission" "0,1"
newline
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"
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"
newline
bitfld.long 0x00 11. "W5,Master NIU ConnID = 5 write permission" "0,1"
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"
newline
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
bitfld.long 0x00 10. "PUB_PRV_READ,Public Privilege Read Allowed" "0,1"
newline
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"
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 "REG_Bundle_1"
group.long 0x94++0x03
line.long 0x00 "END_REGION_i_1,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0x90++0x03
line.long 0x00 "START_REGION_i_1,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
tree "REG_Bundle_2"
group.long 0xA4++0x03
line.long 0x00 "END_REGION_i_2,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0xA0++0x03
line.long 0x00 "START_REGION_i_2,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
tree "REG_Bundle_3"
group.long 0xB4++0x03
line.long 0x00 "END_REGION_i_3,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0xB0++0x03
line.long 0x00 "START_REGION_i_3,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
group.long 0x40++0x03
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
rbitfld.long 0x00 1. "FW_LOAD_REQ,Hadrdware set/Software clear" "FW_LOAD_REQ_0,FW_LOAD_REQ_1"
bitfld.long 0x00 0. "BUSY_REQ,Busy request" "BUSY_REQ_0,BUSY_REQ_1"
tree.end
tree "C2C_Slave_NIU_Firewall"
base ansd:0x4A206000
group.long 0x00++0x03
line.long 0x00 "ERROR_LOG_k,Error log register for port k"
bitfld.long 0x00 23. "BLK_BURST_VIOLATION," "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"
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 0x20004++0x03
line.long 0x00 "LOGICAL_ADDR_ERRLOG_k,Logical Physical Address Error log register for port k"
tree "REG_Bundle_0"
group.long 0x2008C++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_0,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
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"
newline
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"
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"
bitfld.long 0x00 10. "R5,Master NIU ConnID = 5 read permission" "0,1"
newline
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"
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"
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"
newline
bitfld.long 0x00 2. "R1,Master NIU ConnID = 1 read permission" "0,1"
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 0x20088++0x03
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"
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"
bitfld.long 0x00 7. "PUB_USR_READ,Public User Read Access Allowed" "0,1"
newline
bitfld.long 0x00 6. "PUB_USR_EXE,Public User Exe Access Allowed" "0,1"
tree.end
tree "REG_Bundle_1"
group.long 0x2009C++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_1,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
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"
newline
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"
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"
bitfld.long 0x00 10. "R5,Master NIU ConnID = 5 read permission" "0,1"
newline
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"
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"
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"
newline
bitfld.long 0x00 2. "R1,Master NIU ConnID = 1 read permission" "0,1"
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 0x20098++0x03
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"
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"
bitfld.long 0x00 7. "PUB_USR_READ,Public User Read Access Allowed" "0,1"
newline
bitfld.long 0x00 6. "PUB_USR_EXE,Public User Exe Access Allowed" "0,1"
tree.end
tree "REG_Bundle_2"
group.long 0x200AC++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_2,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
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"
newline
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"
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"
bitfld.long 0x00 10. "R5,Master NIU ConnID = 5 read permission" "0,1"
newline
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"
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"
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"
newline
bitfld.long 0x00 2. "R1,Master NIU ConnID = 1 read permission" "0,1"
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 0x200A8++0x03
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"
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"
bitfld.long 0x00 7. "PUB_USR_READ,Public User Read Access Allowed" "0,1"
newline
bitfld.long 0x00 6. "PUB_USR_EXE,Public User Exe Access Allowed" "0,1"
tree.end
tree "REG_Bundle_3"
group.long 0x200BC++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_3,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
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"
newline
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"
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"
bitfld.long 0x00 10. "R5,Master NIU ConnID = 5 read permission" "0,1"
newline
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"
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"
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"
newline
bitfld.long 0x00 2. "R1,Master NIU ConnID = 1 read permission" "0,1"
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 0x200B8++0x03
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"
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"
bitfld.long 0x00 7. "PUB_USR_READ,Public User Read Access Allowed" "0,1"
newline
bitfld.long 0x00 6. "PUB_USR_EXE,Public User Exe Access Allowed" "0,1"
tree.end
group.long 0x20040++0x03
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
rbitfld.long 0x00 1. "FW_LOAD_REQ,Hadrdware set/Software clear" "FW_LOAD_REQ_0,FW_LOAD_REQ_1"
bitfld.long 0x00 0. "BUSY_REQ,Busy request" "BUSY_REQ_0,BUSY_REQ_1"
tree.end
tree "CLK1_CLK1_TARG_PWR_DISC_CLK2"
base ansd:0x44000600
rgroup.long 0x00++0x0B
line.long 0x00 "L3_PWR_DISC_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. "STDHOSTHDR_COREREG_CORECODE,The Core Code field is a constant reporting a vendor-specific core generator code" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_VENDORCODE_0_r,STDHOSTHDR_COREREG_VENDORCODE_1_r"
line.long 0x04 "L3_PWR_DISC_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
newline
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_PWR_DISC_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x08 3. "STDHOSTHDR_MAINCTLREG_CM,Reserved for internal testing" "0,1"
newline
bitfld.long 0x08 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" "0,1"
group.long 0x40++0x03
line.long 0x00 "L3_PWR_DISC_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. "STDERRLOG_SVRTSTDLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTSTDLVL_0_0,STDERRLOG_SVRTSTDLVL_0_1,STDERRLOG_SVRTSTDLVL_0_2,?"
group.long 0x48++0x1B
line.long 0x00 "L3_PWR_DISC_STDERRLOG_MAIN,"
bitfld.long 0x00 31. "STDERRLOG_MAIN_CLRLOG,Clears Error Logging Valid bit when written to 1" "0,1"
newline
bitfld.long 0x00 19. "STDERRLOG_MAIN_FLTCNT,Asserted when at least one error with severity level FAULT is detected" "0,1"
newline
bitfld.long 0x00 18. "STDERRLOG_MAIN_ERRCNT,Asserted when at least one error with severity level ERROR is detected" "0,1"
newline
rbitfld.long 0x00 1. "STDERRLOG_MAIN_ERRTYPE,Indicates logging type" "STDERRLOG_MAIN_ERRTYPE_0_r,STDERRLOG_MAIN_ERRTYPE_1_r"
newline
rbitfld.long 0x00 0. "STDERRLOG_MAIN_ERRLOGVLD,Error Logging Valid" "0,1"
line.long 0x04 "L3_PWR_DISC_STDERRLOG_HDR,"
bitfld.long 0x04 18.--23. "STDERRLOG_HDR_LEN1,This field contains the number of payload cell(s) minus one of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x04 12.--15. "STDERRLOG_HDR_STOPOFSWRPSZ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x04 11. "STDERRLOG_HDR_ERR,Err bit of the logged packet" "0,1"
newline
bitfld.long 0x04 6. "STDERRLOG_HDR_PRESSURE,Pressure field of the logged packet" "0,1"
newline
bitfld.long 0x04 0.--3. "STDERRLOG_HDR_OPCODE,Opcode of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x08 "L3_PWR_DISC_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x08 0.--7. 1. "STDERRLOG_MSTADDR,Master Address field of the logged packet"
line.long 0x0C "L3_PWR_DISC_STDERRLOG_SLVADDR,"
bitfld.long 0x0C 0.--4. "STDERRLOG_SLVADDR,Slave Address field of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
line.long 0x10 "L3_PWR_DISC_STDERRLOG_INFO,"
hexmask.long.byte 0x10 0.--7. 1. "STDERRLOG_INFO,Info field of the logged packet"
line.long 0x14 "L3_PWR_DISC_STDERRLOG_SLVOFSLSB,"
line.long 0x18 "L3_PWR_DISC_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x18 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)" "0,1"
tree.end
tree "CLK2_CLK2_TARG_PWR_DISC_CLK1"
base ansd:0x44801100
rgroup.long 0x00++0x0B
line.long 0x00 "L3_PWR_DISC_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. "STDHOSTHDR_COREREG_CORECODE,The Core Code field is a constant reporting a vendor-specific core generator code" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_VENDORCODE_0_r,STDHOSTHDR_COREREG_VENDORCODE_1_r"
line.long 0x04 "L3_PWR_DISC_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
newline
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_PWR_DISC_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x08 3. "STDHOSTHDR_MAINCTLREG_CM,Reserved for internal testing" "0,1"
newline
bitfld.long 0x08 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" "0,1"
group.long 0x40++0x03
line.long 0x00 "L3_PWR_DISC_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. "STDERRLOG_SVRTSTDLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTSTDLVL_0_0,STDERRLOG_SVRTSTDLVL_0_1,STDERRLOG_SVRTSTDLVL_0_2,?"
group.long 0x48++0x1B
line.long 0x00 "L3_PWR_DISC_STDERRLOG_MAIN,"
bitfld.long 0x00 31. "STDERRLOG_MAIN_CLRLOG,Clears Error Logging Valid bit when written to 1" "0,1"
newline
bitfld.long 0x00 19. "STDERRLOG_MAIN_FLTCNT,Asserted when at least one error with severity level FAULT is detected" "0,1"
newline
bitfld.long 0x00 18. "STDERRLOG_MAIN_ERRCNT,Asserted when at least one error with severity level ERROR is detected" "0,1"
newline
rbitfld.long 0x00 1. "STDERRLOG_MAIN_ERRTYPE,Indicates logging type" "STDERRLOG_MAIN_ERRTYPE_0_r,STDERRLOG_MAIN_ERRTYPE_1_r"
newline
rbitfld.long 0x00 0. "STDERRLOG_MAIN_ERRLOGVLD,Error Logging Valid" "0,1"
line.long 0x04 "L3_PWR_DISC_STDERRLOG_HDR,"
bitfld.long 0x04 18.--23. "STDERRLOG_HDR_LEN1,This field contains the number of payload cell(s) minus one of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x04 12.--15. "STDERRLOG_HDR_STOPOFSWRPSZ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x04 11. "STDERRLOG_HDR_ERR,Err bit of the logged packet" "0,1"
newline
bitfld.long 0x04 6. "STDERRLOG_HDR_PRESSURE,Pressure field of the logged packet" "0,1"
newline
bitfld.long 0x04 0.--3. "STDERRLOG_HDR_OPCODE,Opcode of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x08 "L3_PWR_DISC_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x08 0.--7. 1. "STDERRLOG_MSTADDR,Master Address field of the logged packet"
line.long 0x0C "L3_PWR_DISC_STDERRLOG_SLVADDR,"
bitfld.long 0x0C 0.--4. "STDERRLOG_SLVADDR,Slave Address field of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
line.long 0x10 "L3_PWR_DISC_STDERRLOG_INFO,"
hexmask.long.byte 0x10 0.--7. 1. "STDERRLOG_INFO,Info field of the logged packet"
line.long 0x14 "L3_PWR_DISC_STDERRLOG_SLVOFSLSB,"
line.long 0x18 "L3_PWR_DISC_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x18 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)" "0,1"
tree.end
tree "CLK1_ABE_TARG"
base ansd:0x44000300
rgroup.long 0x00++0x0B
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" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_ VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_ VENDORCODE_0_r,STDHOSTHDR_COREREG_ VENDORCODE_1_r"
line.long 0x04 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
newline
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
rbitfld.long 0x08 3. "STDHOSTHDR_MAINCTLREG_CM,Reserved for internal testing" "0,1"
newline
rbitfld.long 0x08 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" "0,1"
newline
bitfld.long 0x08 0. "STDHOSTHDR_MAINCTLREG_EN,Sets the global core enable" "0,1"
rgroup.long 0x10++0x03
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
bitfld.long 0x00 0.--4. "STDHOSTHDR_NTTPADDR_0,Sets the RX port address" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x40++0x2F
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. "STDERRLOG_SVRTSTDLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTSTDLVL_0_0,STDERRLOG_SVRTSTDLVL_0_1,STDERRLOG_SVRTSTDLVL_0_2,?"
line.long 0x04 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x04 0.--1. "STDERRLOG_SVRTCUSTOMLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTCUSTOMLVL_0_0,STDERRLOG_SVRTCUSTOMLVL_0_1,STDERRLOG_SVRTCUSTOMLVL_0_2,?"
line.long 0x08 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x08 31. "STDERRLOG_MAIN_CLRLOG,Clears Error Logging Valid bit when written to 1" "0,1"
newline
bitfld.long 0x08 19. "STDERRLOG_MAIN_FLTCNT,Asserted when at least one error with severity level FAULT is detected" "0,1"
newline
bitfld.long 0x08 18. "STDERRLOG_MAIN_ERRCNT,Asserted when at least one error with severity level ERROR is detected" "0,1"
newline
rbitfld.long 0x08 1. "STDERRLOG_MAIN_ERRTYPE,Indicates logging type" "STDERRLOG_MAIN_ERRTYPE_0_r,STDERRLOG_MAIN_ERRTYPE_1_r"
newline
rbitfld.long 0x08 0. "STDERRLOG_MAIN_ERRLOGVLD,Error Logging Valid" "0,1"
line.long 0x0C "L3_TARG_STDERRLOG_HDR,"
bitfld.long 0x0C 18.--23. "STDERRLOG_HDR_LEN1,This field contains the number of payload cell(s) minus one of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x0C 12.--15. "STDERRLOG_HDR_STOPOFSWRPSZ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x0C 11. "STDERRLOG_HDR_ERR,Err bit of the logged packet" "0,1"
newline
bitfld.long 0x0C 6. "STDERRLOG_HDR_PRESSURE,Pressure field of the logged packet" "0,1"
newline
bitfld.long 0x0C 0.--3. "STDERRLOG_HDR_OPCODE,Opcode of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x10 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x10 0.--7. 1. "STDERRLOG_MSTADDR,Master Address field of the logged packet"
line.long 0x14 "L3_TARG_STDERRLOG_SLVADDR,"
bitfld.long 0x14 0.--4. "STDERRLOG_SLVADDR,Slave Address field of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
line.long 0x18 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x18 0.--7. 1. "STDERRLOG_INFO,Info field of the logged packet"
line.long 0x1C "L3_TARG_STDERRLOG_SLVOFSLSB,"
line.long 0x20 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x20 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)" "0,1"
line.long 0x24 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x24 0.--7. 1. "STDERRLOG_CUSTOMINFO_INFO,Info field of the response packet"
line.long 0x28 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x28 0.--7. 1. "STDERRLOG_CUSTOMINFO_MSTADDR,MstAddr field of the response packet"
line.long 0x2C "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x2C 0.--1. "STDERRLOG_CUSTOMINFO_OPCODE,Opcode of the response packet" "0,1,2,3"
group.long 0x80++0x03
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. "ADDRSPACESIZELOG,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
tree.end
tree "CLK1_DMM1_TARG"
base ansd:0x44000100
rgroup.long 0x00++0x0B
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" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_ VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_ VENDORCODE_0_r,STDHOSTHDR_COREREG_ VENDORCODE_1_r"
line.long 0x04 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
newline
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
rbitfld.long 0x08 3. "STDHOSTHDR_MAINCTLREG_CM,Reserved for internal testing" "0,1"
newline
rbitfld.long 0x08 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" "0,1"
newline
bitfld.long 0x08 0. "STDHOSTHDR_MAINCTLREG_EN,Sets the global core enable" "0,1"
rgroup.long 0x10++0x03
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
bitfld.long 0x00 0.--4. "STDHOSTHDR_NTTPADDR_0,Sets the RX port address" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x40++0x2F
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. "STDERRLOG_SVRTSTDLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTSTDLVL_0_0,STDERRLOG_SVRTSTDLVL_0_1,STDERRLOG_SVRTSTDLVL_0_2,?"
line.long 0x04 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x04 0.--1. "STDERRLOG_SVRTCUSTOMLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTCUSTOMLVL_0_0,STDERRLOG_SVRTCUSTOMLVL_0_1,STDERRLOG_SVRTCUSTOMLVL_0_2,?"
line.long 0x08 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x08 31. "STDERRLOG_MAIN_CLRLOG,Clears Error Logging Valid bit when written to 1" "0,1"
newline
bitfld.long 0x08 19. "STDERRLOG_MAIN_FLTCNT,Asserted when at least one error with severity level FAULT is detected" "0,1"
newline
bitfld.long 0x08 18. "STDERRLOG_MAIN_ERRCNT,Asserted when at least one error with severity level ERROR is detected" "0,1"
newline
rbitfld.long 0x08 1. "STDERRLOG_MAIN_ERRTYPE,Indicates logging type" "STDERRLOG_MAIN_ERRTYPE_0_r,STDERRLOG_MAIN_ERRTYPE_1_r"
newline
rbitfld.long 0x08 0. "STDERRLOG_MAIN_ERRLOGVLD,Error Logging Valid" "0,1"
line.long 0x0C "L3_TARG_STDERRLOG_HDR,"
bitfld.long 0x0C 18.--23. "STDERRLOG_HDR_LEN1,This field contains the number of payload cell(s) minus one of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x0C 12.--15. "STDERRLOG_HDR_STOPOFSWRPSZ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x0C 11. "STDERRLOG_HDR_ERR,Err bit of the logged packet" "0,1"
newline
bitfld.long 0x0C 6. "STDERRLOG_HDR_PRESSURE,Pressure field of the logged packet" "0,1"
newline
bitfld.long 0x0C 0.--3. "STDERRLOG_HDR_OPCODE,Opcode of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x10 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x10 0.--7. 1. "STDERRLOG_MSTADDR,Master Address field of the logged packet"
line.long 0x14 "L3_TARG_STDERRLOG_SLVADDR,"
bitfld.long 0x14 0.--4. "STDERRLOG_SLVADDR,Slave Address field of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
line.long 0x18 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x18 0.--7. 1. "STDERRLOG_INFO,Info field of the logged packet"
line.long 0x1C "L3_TARG_STDERRLOG_SLVOFSLSB,"
line.long 0x20 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x20 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)" "0,1"
line.long 0x24 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x24 0.--7. 1. "STDERRLOG_CUSTOMINFO_INFO,Info field of the response packet"
line.long 0x28 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x28 0.--7. 1. "STDERRLOG_CUSTOMINFO_MSTADDR,MstAddr field of the response packet"
line.long 0x2C "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x2C 0.--1. "STDERRLOG_CUSTOMINFO_OPCODE,Opcode of the response packet" "0,1,2,3"
group.long 0x80++0x03
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. "ADDRSPACESIZELOG,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
tree.end
tree "CLK1_DMM2_TARG"
base ansd:0x44000200
rgroup.long 0x00++0x0B
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" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_ VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_ VENDORCODE_0_r,STDHOSTHDR_COREREG_ VENDORCODE_1_r"
line.long 0x04 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
newline
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
rbitfld.long 0x08 3. "STDHOSTHDR_MAINCTLREG_CM,Reserved for internal testing" "0,1"
newline
rbitfld.long 0x08 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" "0,1"
newline
bitfld.long 0x08 0. "STDHOSTHDR_MAINCTLREG_EN,Sets the global core enable" "0,1"
rgroup.long 0x10++0x03
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
bitfld.long 0x00 0.--4. "STDHOSTHDR_NTTPADDR_0,Sets the RX port address" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x40++0x2F
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. "STDERRLOG_SVRTSTDLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTSTDLVL_0_0,STDERRLOG_SVRTSTDLVL_0_1,STDERRLOG_SVRTSTDLVL_0_2,?"
line.long 0x04 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x04 0.--1. "STDERRLOG_SVRTCUSTOMLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTCUSTOMLVL_0_0,STDERRLOG_SVRTCUSTOMLVL_0_1,STDERRLOG_SVRTCUSTOMLVL_0_2,?"
line.long 0x08 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x08 31. "STDERRLOG_MAIN_CLRLOG,Clears Error Logging Valid bit when written to 1" "0,1"
newline
bitfld.long 0x08 19. "STDERRLOG_MAIN_FLTCNT,Asserted when at least one error with severity level FAULT is detected" "0,1"
newline
bitfld.long 0x08 18. "STDERRLOG_MAIN_ERRCNT,Asserted when at least one error with severity level ERROR is detected" "0,1"
newline
rbitfld.long 0x08 1. "STDERRLOG_MAIN_ERRTYPE,Indicates logging type" "STDERRLOG_MAIN_ERRTYPE_0_r,STDERRLOG_MAIN_ERRTYPE_1_r"
newline
rbitfld.long 0x08 0. "STDERRLOG_MAIN_ERRLOGVLD,Error Logging Valid" "0,1"
line.long 0x0C "L3_TARG_STDERRLOG_HDR,"
bitfld.long 0x0C 18.--23. "STDERRLOG_HDR_LEN1,This field contains the number of payload cell(s) minus one of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x0C 12.--15. "STDERRLOG_HDR_STOPOFSWRPSZ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x0C 11. "STDERRLOG_HDR_ERR,Err bit of the logged packet" "0,1"
newline
bitfld.long 0x0C 6. "STDERRLOG_HDR_PRESSURE,Pressure field of the logged packet" "0,1"
newline
bitfld.long 0x0C 0.--3. "STDERRLOG_HDR_OPCODE,Opcode of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x10 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x10 0.--7. 1. "STDERRLOG_MSTADDR,Master Address field of the logged packet"
line.long 0x14 "L3_TARG_STDERRLOG_SLVADDR,"
bitfld.long 0x14 0.--4. "STDERRLOG_SLVADDR,Slave Address field of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
line.long 0x18 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x18 0.--7. 1. "STDERRLOG_INFO,Info field of the logged packet"
line.long 0x1C "L3_TARG_STDERRLOG_SLVOFSLSB,"
line.long 0x20 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x20 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)" "0,1"
line.long 0x24 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x24 0.--7. 1. "STDERRLOG_CUSTOMINFO_INFO,Info field of the response packet"
line.long 0x28 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x28 0.--7. 1. "STDERRLOG_CUSTOMINFO_MSTADDR,MstAddr field of the response packet"
line.long 0x2C "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x2C 0.--1. "STDERRLOG_CUSTOMINFO_OPCODE,Opcode of the response packet" "0,1,2,3"
group.long 0x80++0x03
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. "ADDRSPACESIZELOG,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
tree.end
tree "CLK1_L4CFG_TARG"
base ansd:0x44000400
rgroup.long 0x00++0x0B
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" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_ VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_ VENDORCODE_0_r,STDHOSTHDR_COREREG_ VENDORCODE_1_r"
line.long 0x04 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
newline
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
rbitfld.long 0x08 3. "STDHOSTHDR_MAINCTLREG_CM,Reserved for internal testing" "0,1"
newline
rbitfld.long 0x08 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" "0,1"
newline
bitfld.long 0x08 0. "STDHOSTHDR_MAINCTLREG_EN,Sets the global core enable" "0,1"
rgroup.long 0x10++0x03
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
bitfld.long 0x00 0.--4. "STDHOSTHDR_NTTPADDR_0,Sets the RX port address" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x40++0x2F
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. "STDERRLOG_SVRTSTDLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTSTDLVL_0_0,STDERRLOG_SVRTSTDLVL_0_1,STDERRLOG_SVRTSTDLVL_0_2,?"
line.long 0x04 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x04 0.--1. "STDERRLOG_SVRTCUSTOMLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTCUSTOMLVL_0_0,STDERRLOG_SVRTCUSTOMLVL_0_1,STDERRLOG_SVRTCUSTOMLVL_0_2,?"
line.long 0x08 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x08 31. "STDERRLOG_MAIN_CLRLOG,Clears Error Logging Valid bit when written to 1" "0,1"
newline
bitfld.long 0x08 19. "STDERRLOG_MAIN_FLTCNT,Asserted when at least one error with severity level FAULT is detected" "0,1"
newline
bitfld.long 0x08 18. "STDERRLOG_MAIN_ERRCNT,Asserted when at least one error with severity level ERROR is detected" "0,1"
newline
rbitfld.long 0x08 1. "STDERRLOG_MAIN_ERRTYPE,Indicates logging type" "STDERRLOG_MAIN_ERRTYPE_0_r,STDERRLOG_MAIN_ERRTYPE_1_r"
newline
rbitfld.long 0x08 0. "STDERRLOG_MAIN_ERRLOGVLD,Error Logging Valid" "0,1"
line.long 0x0C "L3_TARG_STDERRLOG_HDR,"
bitfld.long 0x0C 18.--23. "STDERRLOG_HDR_LEN1,This field contains the number of payload cell(s) minus one of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x0C 12.--15. "STDERRLOG_HDR_STOPOFSWRPSZ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x0C 11. "STDERRLOG_HDR_ERR,Err bit of the logged packet" "0,1"
newline
bitfld.long 0x0C 6. "STDERRLOG_HDR_PRESSURE,Pressure field of the logged packet" "0,1"
newline
bitfld.long 0x0C 0.--3. "STDERRLOG_HDR_OPCODE,Opcode of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x10 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x10 0.--7. 1. "STDERRLOG_MSTADDR,Master Address field of the logged packet"
line.long 0x14 "L3_TARG_STDERRLOG_SLVADDR,"
bitfld.long 0x14 0.--4. "STDERRLOG_SLVADDR,Slave Address field of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
line.long 0x18 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x18 0.--7. 1. "STDERRLOG_INFO,Info field of the logged packet"
line.long 0x1C "L3_TARG_STDERRLOG_SLVOFSLSB,"
line.long 0x20 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x20 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)" "0,1"
line.long 0x24 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x24 0.--7. 1. "STDERRLOG_CUSTOMINFO_INFO,Info field of the response packet"
line.long 0x28 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x28 0.--7. 1. "STDERRLOG_CUSTOMINFO_MSTADDR,MstAddr field of the response packet"
line.long 0x2C "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x2C 0.--1. "STDERRLOG_CUSTOMINFO_OPCODE,Opcode of the response packet" "0,1,2,3"
group.long 0x80++0x03
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. "ADDRSPACESIZELOG,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
tree.end
tree "CLK2_C2C_TARG"
base ansd:0x44801600
rgroup.long 0x00++0x0B
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" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_ VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_ VENDORCODE_0_r,STDHOSTHDR_COREREG_ VENDORCODE_1_r"
line.long 0x04 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
newline
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
rbitfld.long 0x08 3. "STDHOSTHDR_MAINCTLREG_CM,Reserved for internal testing" "0,1"
newline
rbitfld.long 0x08 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" "0,1"
newline
bitfld.long 0x08 0. "STDHOSTHDR_MAINCTLREG_EN,Sets the global core enable" "0,1"
rgroup.long 0x10++0x03
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
bitfld.long 0x00 0.--4. "STDHOSTHDR_NTTPADDR_0,Sets the RX port address" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x40++0x2F
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. "STDERRLOG_SVRTSTDLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTSTDLVL_0_0,STDERRLOG_SVRTSTDLVL_0_1,STDERRLOG_SVRTSTDLVL_0_2,?"
line.long 0x04 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x04 0.--1. "STDERRLOG_SVRTCUSTOMLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTCUSTOMLVL_0_0,STDERRLOG_SVRTCUSTOMLVL_0_1,STDERRLOG_SVRTCUSTOMLVL_0_2,?"
line.long 0x08 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x08 31. "STDERRLOG_MAIN_CLRLOG,Clears Error Logging Valid bit when written to 1" "0,1"
newline
bitfld.long 0x08 19. "STDERRLOG_MAIN_FLTCNT,Asserted when at least one error with severity level FAULT is detected" "0,1"
newline
bitfld.long 0x08 18. "STDERRLOG_MAIN_ERRCNT,Asserted when at least one error with severity level ERROR is detected" "0,1"
newline
rbitfld.long 0x08 1. "STDERRLOG_MAIN_ERRTYPE,Indicates logging type" "STDERRLOG_MAIN_ERRTYPE_0_r,STDERRLOG_MAIN_ERRTYPE_1_r"
newline
rbitfld.long 0x08 0. "STDERRLOG_MAIN_ERRLOGVLD,Error Logging Valid" "0,1"
line.long 0x0C "L3_TARG_STDERRLOG_HDR,"
bitfld.long 0x0C 18.--23. "STDERRLOG_HDR_LEN1,This field contains the number of payload cell(s) minus one of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x0C 12.--15. "STDERRLOG_HDR_STOPOFSWRPSZ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x0C 11. "STDERRLOG_HDR_ERR,Err bit of the logged packet" "0,1"
newline
bitfld.long 0x0C 6. "STDERRLOG_HDR_PRESSURE,Pressure field of the logged packet" "0,1"
newline
bitfld.long 0x0C 0.--3. "STDERRLOG_HDR_OPCODE,Opcode of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x10 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x10 0.--7. 1. "STDERRLOG_MSTADDR,Master Address field of the logged packet"
line.long 0x14 "L3_TARG_STDERRLOG_SLVADDR,"
bitfld.long 0x14 0.--4. "STDERRLOG_SLVADDR,Slave Address field of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
line.long 0x18 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x18 0.--7. 1. "STDERRLOG_INFO,Info field of the logged packet"
line.long 0x1C "L3_TARG_STDERRLOG_SLVOFSLSB,"
line.long 0x20 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x20 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)" "0,1"
line.long 0x24 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x24 0.--7. 1. "STDERRLOG_CUSTOMINFO_INFO,Info field of the response packet"
line.long 0x28 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x28 0.--7. 1. "STDERRLOG_CUSTOMINFO_MSTADDR,MstAddr field of the response packet"
line.long 0x2C "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x2C 0.--1. "STDERRLOG_CUSTOMINFO_OPCODE,Opcode of the response packet" "0,1,2,3"
group.long 0x80++0x03
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. "ADDRSPACESIZELOG,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
tree.end
tree "CLK2_CORTEXM3_TARG"
base ansd:0x44800500
rgroup.long 0x00++0x0B
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" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_ VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_ VENDORCODE_0_r,STDHOSTHDR_COREREG_ VENDORCODE_1_r"
line.long 0x04 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
newline
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
rbitfld.long 0x08 3. "STDHOSTHDR_MAINCTLREG_CM,Reserved for internal testing" "0,1"
newline
rbitfld.long 0x08 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" "0,1"
newline
bitfld.long 0x08 0. "STDHOSTHDR_MAINCTLREG_EN,Sets the global core enable" "0,1"
rgroup.long 0x10++0x03
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
bitfld.long 0x00 0.--4. "STDHOSTHDR_NTTPADDR_0,Sets the RX port address" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x40++0x2F
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. "STDERRLOG_SVRTSTDLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTSTDLVL_0_0,STDERRLOG_SVRTSTDLVL_0_1,STDERRLOG_SVRTSTDLVL_0_2,?"
line.long 0x04 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x04 0.--1. "STDERRLOG_SVRTCUSTOMLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTCUSTOMLVL_0_0,STDERRLOG_SVRTCUSTOMLVL_0_1,STDERRLOG_SVRTCUSTOMLVL_0_2,?"
line.long 0x08 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x08 31. "STDERRLOG_MAIN_CLRLOG,Clears Error Logging Valid bit when written to 1" "0,1"
newline
bitfld.long 0x08 19. "STDERRLOG_MAIN_FLTCNT,Asserted when at least one error with severity level FAULT is detected" "0,1"
newline
bitfld.long 0x08 18. "STDERRLOG_MAIN_ERRCNT,Asserted when at least one error with severity level ERROR is detected" "0,1"
newline
rbitfld.long 0x08 1. "STDERRLOG_MAIN_ERRTYPE,Indicates logging type" "STDERRLOG_MAIN_ERRTYPE_0_r,STDERRLOG_MAIN_ERRTYPE_1_r"
newline
rbitfld.long 0x08 0. "STDERRLOG_MAIN_ERRLOGVLD,Error Logging Valid" "0,1"
line.long 0x0C "L3_TARG_STDERRLOG_HDR,"
bitfld.long 0x0C 18.--23. "STDERRLOG_HDR_LEN1,This field contains the number of payload cell(s) minus one of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x0C 12.--15. "STDERRLOG_HDR_STOPOFSWRPSZ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x0C 11. "STDERRLOG_HDR_ERR,Err bit of the logged packet" "0,1"
newline
bitfld.long 0x0C 6. "STDERRLOG_HDR_PRESSURE,Pressure field of the logged packet" "0,1"
newline
bitfld.long 0x0C 0.--3. "STDERRLOG_HDR_OPCODE,Opcode of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x10 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x10 0.--7. 1. "STDERRLOG_MSTADDR,Master Address field of the logged packet"
line.long 0x14 "L3_TARG_STDERRLOG_SLVADDR,"
bitfld.long 0x14 0.--4. "STDERRLOG_SLVADDR,Slave Address field of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
line.long 0x18 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x18 0.--7. 1. "STDERRLOG_INFO,Info field of the logged packet"
line.long 0x1C "L3_TARG_STDERRLOG_SLVOFSLSB,"
line.long 0x20 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x20 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)" "0,1"
line.long 0x24 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x24 0.--7. 1. "STDERRLOG_CUSTOMINFO_INFO,Info field of the response packet"
line.long 0x28 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x28 0.--7. 1. "STDERRLOG_CUSTOMINFO_MSTADDR,MstAddr field of the response packet"
line.long 0x2C "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x2C 0.--1. "STDERRLOG_CUSTOMINFO_OPCODE,Opcode of the response packet" "0,1,2,3"
group.long 0x80++0x03
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. "ADDRSPACESIZELOG,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
tree.end
tree "CLK2_DSS_TARG"
base ansd:0x44800300
rgroup.long 0x00++0x0B
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" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_ VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_ VENDORCODE_0_r,STDHOSTHDR_COREREG_ VENDORCODE_1_r"
line.long 0x04 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
newline
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
rbitfld.long 0x08 3. "STDHOSTHDR_MAINCTLREG_CM,Reserved for internal testing" "0,1"
newline
rbitfld.long 0x08 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" "0,1"
newline
bitfld.long 0x08 0. "STDHOSTHDR_MAINCTLREG_EN,Sets the global core enable" "0,1"
rgroup.long 0x10++0x03
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
bitfld.long 0x00 0.--4. "STDHOSTHDR_NTTPADDR_0,Sets the RX port address" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x40++0x2F
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. "STDERRLOG_SVRTSTDLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTSTDLVL_0_0,STDERRLOG_SVRTSTDLVL_0_1,STDERRLOG_SVRTSTDLVL_0_2,?"
line.long 0x04 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x04 0.--1. "STDERRLOG_SVRTCUSTOMLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTCUSTOMLVL_0_0,STDERRLOG_SVRTCUSTOMLVL_0_1,STDERRLOG_SVRTCUSTOMLVL_0_2,?"
line.long 0x08 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x08 31. "STDERRLOG_MAIN_CLRLOG,Clears Error Logging Valid bit when written to 1" "0,1"
newline
bitfld.long 0x08 19. "STDERRLOG_MAIN_FLTCNT,Asserted when at least one error with severity level FAULT is detected" "0,1"
newline
bitfld.long 0x08 18. "STDERRLOG_MAIN_ERRCNT,Asserted when at least one error with severity level ERROR is detected" "0,1"
newline
rbitfld.long 0x08 1. "STDERRLOG_MAIN_ERRTYPE,Indicates logging type" "STDERRLOG_MAIN_ERRTYPE_0_r,STDERRLOG_MAIN_ERRTYPE_1_r"
newline
rbitfld.long 0x08 0. "STDERRLOG_MAIN_ERRLOGVLD,Error Logging Valid" "0,1"
line.long 0x0C "L3_TARG_STDERRLOG_HDR,"
bitfld.long 0x0C 18.--23. "STDERRLOG_HDR_LEN1,This field contains the number of payload cell(s) minus one of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x0C 12.--15. "STDERRLOG_HDR_STOPOFSWRPSZ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x0C 11. "STDERRLOG_HDR_ERR,Err bit of the logged packet" "0,1"
newline
bitfld.long 0x0C 6. "STDERRLOG_HDR_PRESSURE,Pressure field of the logged packet" "0,1"
newline
bitfld.long 0x0C 0.--3. "STDERRLOG_HDR_OPCODE,Opcode of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x10 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x10 0.--7. 1. "STDERRLOG_MSTADDR,Master Address field of the logged packet"
line.long 0x14 "L3_TARG_STDERRLOG_SLVADDR,"
bitfld.long 0x14 0.--4. "STDERRLOG_SLVADDR,Slave Address field of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
line.long 0x18 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x18 0.--7. 1. "STDERRLOG_INFO,Info field of the logged packet"
line.long 0x1C "L3_TARG_STDERRLOG_SLVOFSLSB,"
line.long 0x20 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x20 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)" "0,1"
line.long 0x24 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x24 0.--7. 1. "STDERRLOG_CUSTOMINFO_INFO,Info field of the response packet"
line.long 0x28 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x28 0.--7. 1. "STDERRLOG_CUSTOMINFO_MSTADDR,MstAddr field of the response packet"
line.long 0x2C "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x2C 0.--1. "STDERRLOG_CUSTOMINFO_OPCODE,Opcode of the response packet" "0,1,2,3"
group.long 0x80++0x03
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. "ADDRSPACESIZELOG,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
tree.end
tree "CLK2_GPMC_TARG"
base ansd:0x44800100
rgroup.long 0x00++0x0B
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" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_ VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_ VENDORCODE_0_r,STDHOSTHDR_COREREG_ VENDORCODE_1_r"
line.long 0x04 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
newline
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
rbitfld.long 0x08 3. "STDHOSTHDR_MAINCTLREG_CM,Reserved for internal testing" "0,1"
newline
rbitfld.long 0x08 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" "0,1"
newline
bitfld.long 0x08 0. "STDHOSTHDR_MAINCTLREG_EN,Sets the global core enable" "0,1"
rgroup.long 0x10++0x03
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
bitfld.long 0x00 0.--4. "STDHOSTHDR_NTTPADDR_0,Sets the RX port address" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x40++0x2F
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. "STDERRLOG_SVRTSTDLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTSTDLVL_0_0,STDERRLOG_SVRTSTDLVL_0_1,STDERRLOG_SVRTSTDLVL_0_2,?"
line.long 0x04 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x04 0.--1. "STDERRLOG_SVRTCUSTOMLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTCUSTOMLVL_0_0,STDERRLOG_SVRTCUSTOMLVL_0_1,STDERRLOG_SVRTCUSTOMLVL_0_2,?"
line.long 0x08 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x08 31. "STDERRLOG_MAIN_CLRLOG,Clears Error Logging Valid bit when written to 1" "0,1"
newline
bitfld.long 0x08 19. "STDERRLOG_MAIN_FLTCNT,Asserted when at least one error with severity level FAULT is detected" "0,1"
newline
bitfld.long 0x08 18. "STDERRLOG_MAIN_ERRCNT,Asserted when at least one error with severity level ERROR is detected" "0,1"
newline
rbitfld.long 0x08 1. "STDERRLOG_MAIN_ERRTYPE,Indicates logging type" "STDERRLOG_MAIN_ERRTYPE_0_r,STDERRLOG_MAIN_ERRTYPE_1_r"
newline
rbitfld.long 0x08 0. "STDERRLOG_MAIN_ERRLOGVLD,Error Logging Valid" "0,1"
line.long 0x0C "L3_TARG_STDERRLOG_HDR,"
bitfld.long 0x0C 18.--23. "STDERRLOG_HDR_LEN1,This field contains the number of payload cell(s) minus one of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x0C 12.--15. "STDERRLOG_HDR_STOPOFSWRPSZ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x0C 11. "STDERRLOG_HDR_ERR,Err bit of the logged packet" "0,1"
newline
bitfld.long 0x0C 6. "STDERRLOG_HDR_PRESSURE,Pressure field of the logged packet" "0,1"
newline
bitfld.long 0x0C 0.--3. "STDERRLOG_HDR_OPCODE,Opcode of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x10 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x10 0.--7. 1. "STDERRLOG_MSTADDR,Master Address field of the logged packet"
line.long 0x14 "L3_TARG_STDERRLOG_SLVADDR,"
bitfld.long 0x14 0.--4. "STDERRLOG_SLVADDR,Slave Address field of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
line.long 0x18 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x18 0.--7. 1. "STDERRLOG_INFO,Info field of the logged packet"
line.long 0x1C "L3_TARG_STDERRLOG_SLVOFSLSB,"
line.long 0x20 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x20 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)" "0,1"
line.long 0x24 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x24 0.--7. 1. "STDERRLOG_CUSTOMINFO_INFO,Info field of the response packet"
line.long 0x28 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x28 0.--7. 1. "STDERRLOG_CUSTOMINFO_MSTADDR,MstAddr field of the response packet"
line.long 0x2C "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x2C 0.--1. "STDERRLOG_CUSTOMINFO_OPCODE,Opcode of the response packet" "0,1,2,3"
group.long 0x80++0x03
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. "ADDRSPACESIZELOG,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
tree.end
tree "CLK2_ISS_TARG"
base ansd:0x44800400
rgroup.long 0x00++0x0B
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" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_ VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_ VENDORCODE_0_r,STDHOSTHDR_COREREG_ VENDORCODE_1_r"
line.long 0x04 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
newline
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
rbitfld.long 0x08 3. "STDHOSTHDR_MAINCTLREG_CM,Reserved for internal testing" "0,1"
newline
rbitfld.long 0x08 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" "0,1"
newline
bitfld.long 0x08 0. "STDHOSTHDR_MAINCTLREG_EN,Sets the global core enable" "0,1"
rgroup.long 0x10++0x03
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
bitfld.long 0x00 0.--4. "STDHOSTHDR_NTTPADDR_0,Sets the RX port address" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x40++0x2F
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. "STDERRLOG_SVRTSTDLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTSTDLVL_0_0,STDERRLOG_SVRTSTDLVL_0_1,STDERRLOG_SVRTSTDLVL_0_2,?"
line.long 0x04 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x04 0.--1. "STDERRLOG_SVRTCUSTOMLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTCUSTOMLVL_0_0,STDERRLOG_SVRTCUSTOMLVL_0_1,STDERRLOG_SVRTCUSTOMLVL_0_2,?"
line.long 0x08 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x08 31. "STDERRLOG_MAIN_CLRLOG,Clears Error Logging Valid bit when written to 1" "0,1"
newline
bitfld.long 0x08 19. "STDERRLOG_MAIN_FLTCNT,Asserted when at least one error with severity level FAULT is detected" "0,1"
newline
bitfld.long 0x08 18. "STDERRLOG_MAIN_ERRCNT,Asserted when at least one error with severity level ERROR is detected" "0,1"
newline
rbitfld.long 0x08 1. "STDERRLOG_MAIN_ERRTYPE,Indicates logging type" "STDERRLOG_MAIN_ERRTYPE_0_r,STDERRLOG_MAIN_ERRTYPE_1_r"
newline
rbitfld.long 0x08 0. "STDERRLOG_MAIN_ERRLOGVLD,Error Logging Valid" "0,1"
line.long 0x0C "L3_TARG_STDERRLOG_HDR,"
bitfld.long 0x0C 18.--23. "STDERRLOG_HDR_LEN1,This field contains the number of payload cell(s) minus one of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x0C 12.--15. "STDERRLOG_HDR_STOPOFSWRPSZ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x0C 11. "STDERRLOG_HDR_ERR,Err bit of the logged packet" "0,1"
newline
bitfld.long 0x0C 6. "STDERRLOG_HDR_PRESSURE,Pressure field of the logged packet" "0,1"
newline
bitfld.long 0x0C 0.--3. "STDERRLOG_HDR_OPCODE,Opcode of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x10 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x10 0.--7. 1. "STDERRLOG_MSTADDR,Master Address field of the logged packet"
line.long 0x14 "L3_TARG_STDERRLOG_SLVADDR,"
bitfld.long 0x14 0.--4. "STDERRLOG_SLVADDR,Slave Address field of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
line.long 0x18 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x18 0.--7. 1. "STDERRLOG_INFO,Info field of the logged packet"
line.long 0x1C "L3_TARG_STDERRLOG_SLVOFSLSB,"
line.long 0x20 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x20 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)" "0,1"
line.long 0x24 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x24 0.--7. 1. "STDERRLOG_CUSTOMINFO_INFO,Info field of the response packet"
line.long 0x28 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x28 0.--7. 1. "STDERRLOG_CUSTOMINFO_MSTADDR,MstAddr field of the response packet"
line.long 0x2C "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x2C 0.--1. "STDERRLOG_CUSTOMINFO_OPCODE,Opcode of the response packet" "0,1,2,3"
group.long 0x80++0x03
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. "ADDRSPACESIZELOG,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
tree.end
tree "CLK2_IVAHD_TARG"
base ansd:0x44800700
rgroup.long 0x00++0x0B
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" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_ VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_ VENDORCODE_0_r,STDHOSTHDR_COREREG_ VENDORCODE_1_r"
line.long 0x04 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
newline
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
rbitfld.long 0x08 3. "STDHOSTHDR_MAINCTLREG_CM,Reserved for internal testing" "0,1"
newline
rbitfld.long 0x08 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" "0,1"
newline
bitfld.long 0x08 0. "STDHOSTHDR_MAINCTLREG_EN,Sets the global core enable" "0,1"
rgroup.long 0x10++0x03
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
bitfld.long 0x00 0.--4. "STDHOSTHDR_NTTPADDR_0,Sets the RX port address" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x40++0x2F
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. "STDERRLOG_SVRTSTDLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTSTDLVL_0_0,STDERRLOG_SVRTSTDLVL_0_1,STDERRLOG_SVRTSTDLVL_0_2,?"
line.long 0x04 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x04 0.--1. "STDERRLOG_SVRTCUSTOMLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTCUSTOMLVL_0_0,STDERRLOG_SVRTCUSTOMLVL_0_1,STDERRLOG_SVRTCUSTOMLVL_0_2,?"
line.long 0x08 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x08 31. "STDERRLOG_MAIN_CLRLOG,Clears Error Logging Valid bit when written to 1" "0,1"
newline
bitfld.long 0x08 19. "STDERRLOG_MAIN_FLTCNT,Asserted when at least one error with severity level FAULT is detected" "0,1"
newline
bitfld.long 0x08 18. "STDERRLOG_MAIN_ERRCNT,Asserted when at least one error with severity level ERROR is detected" "0,1"
newline
rbitfld.long 0x08 1. "STDERRLOG_MAIN_ERRTYPE,Indicates logging type" "STDERRLOG_MAIN_ERRTYPE_0_r,STDERRLOG_MAIN_ERRTYPE_1_r"
newline
rbitfld.long 0x08 0. "STDERRLOG_MAIN_ERRLOGVLD,Error Logging Valid" "0,1"
line.long 0x0C "L3_TARG_STDERRLOG_HDR,"
bitfld.long 0x0C 18.--23. "STDERRLOG_HDR_LEN1,This field contains the number of payload cell(s) minus one of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x0C 12.--15. "STDERRLOG_HDR_STOPOFSWRPSZ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x0C 11. "STDERRLOG_HDR_ERR,Err bit of the logged packet" "0,1"
newline
bitfld.long 0x0C 6. "STDERRLOG_HDR_PRESSURE,Pressure field of the logged packet" "0,1"
newline
bitfld.long 0x0C 0.--3. "STDERRLOG_HDR_OPCODE,Opcode of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x10 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x10 0.--7. 1. "STDERRLOG_MSTADDR,Master Address field of the logged packet"
line.long 0x14 "L3_TARG_STDERRLOG_SLVADDR,"
bitfld.long 0x14 0.--4. "STDERRLOG_SLVADDR,Slave Address field of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
line.long 0x18 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x18 0.--7. 1. "STDERRLOG_INFO,Info field of the logged packet"
line.long 0x1C "L3_TARG_STDERRLOG_SLVOFSLSB,"
line.long 0x20 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x20 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)" "0,1"
line.long 0x24 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x24 0.--7. 1. "STDERRLOG_CUSTOMINFO_INFO,Info field of the response packet"
line.long 0x28 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x28 0.--7. 1. "STDERRLOG_CUSTOMINFO_MSTADDR,MstAddr field of the response packet"
line.long 0x2C "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x2C 0.--1. "STDERRLOG_CUSTOMINFO_OPCODE,Opcode of the response packet" "0,1,2,3"
group.long 0x80++0x03
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. "ADDRSPACESIZELOG,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
tree.end
tree "CLK2_L4PER0_TARG"
base ansd:0x44800900
rgroup.long 0x00++0x0B
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" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_ VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_ VENDORCODE_0_r,STDHOSTHDR_COREREG_ VENDORCODE_1_r"
line.long 0x04 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
newline
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
rbitfld.long 0x08 3. "STDHOSTHDR_MAINCTLREG_CM,Reserved for internal testing" "0,1"
newline
rbitfld.long 0x08 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" "0,1"
newline
bitfld.long 0x08 0. "STDHOSTHDR_MAINCTLREG_EN,Sets the global core enable" "0,1"
rgroup.long 0x10++0x03
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
bitfld.long 0x00 0.--4. "STDHOSTHDR_NTTPADDR_0,Sets the RX port address" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x40++0x2F
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. "STDERRLOG_SVRTSTDLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTSTDLVL_0_0,STDERRLOG_SVRTSTDLVL_0_1,STDERRLOG_SVRTSTDLVL_0_2,?"
line.long 0x04 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x04 0.--1. "STDERRLOG_SVRTCUSTOMLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTCUSTOMLVL_0_0,STDERRLOG_SVRTCUSTOMLVL_0_1,STDERRLOG_SVRTCUSTOMLVL_0_2,?"
line.long 0x08 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x08 31. "STDERRLOG_MAIN_CLRLOG,Clears Error Logging Valid bit when written to 1" "0,1"
newline
bitfld.long 0x08 19. "STDERRLOG_MAIN_FLTCNT,Asserted when at least one error with severity level FAULT is detected" "0,1"
newline
bitfld.long 0x08 18. "STDERRLOG_MAIN_ERRCNT,Asserted when at least one error with severity level ERROR is detected" "0,1"
newline
rbitfld.long 0x08 1. "STDERRLOG_MAIN_ERRTYPE,Indicates logging type" "STDERRLOG_MAIN_ERRTYPE_0_r,STDERRLOG_MAIN_ERRTYPE_1_r"
newline
rbitfld.long 0x08 0. "STDERRLOG_MAIN_ERRLOGVLD,Error Logging Valid" "0,1"
line.long 0x0C "L3_TARG_STDERRLOG_HDR,"
bitfld.long 0x0C 18.--23. "STDERRLOG_HDR_LEN1,This field contains the number of payload cell(s) minus one of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x0C 12.--15. "STDERRLOG_HDR_STOPOFSWRPSZ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x0C 11. "STDERRLOG_HDR_ERR,Err bit of the logged packet" "0,1"
newline
bitfld.long 0x0C 6. "STDERRLOG_HDR_PRESSURE,Pressure field of the logged packet" "0,1"
newline
bitfld.long 0x0C 0.--3. "STDERRLOG_HDR_OPCODE,Opcode of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x10 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x10 0.--7. 1. "STDERRLOG_MSTADDR,Master Address field of the logged packet"
line.long 0x14 "L3_TARG_STDERRLOG_SLVADDR,"
bitfld.long 0x14 0.--4. "STDERRLOG_SLVADDR,Slave Address field of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
line.long 0x18 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x18 0.--7. 1. "STDERRLOG_INFO,Info field of the logged packet"
line.long 0x1C "L3_TARG_STDERRLOG_SLVOFSLSB,"
line.long 0x20 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x20 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)" "0,1"
line.long 0x24 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x24 0.--7. 1. "STDERRLOG_CUSTOMINFO_INFO,Info field of the response packet"
line.long 0x28 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x28 0.--7. 1. "STDERRLOG_CUSTOMINFO_MSTADDR,MstAddr field of the response packet"
line.long 0x2C "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x2C 0.--1. "STDERRLOG_CUSTOMINFO_OPCODE,Opcode of the response packet" "0,1,2,3"
group.long 0x80++0x03
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. "ADDRSPACESIZELOG,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
tree.end
tree "CLK2_L4PER1_TARG"
base ansd:0x44800A00
rgroup.long 0x00++0x0B
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" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_ VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_ VENDORCODE_0_r,STDHOSTHDR_COREREG_ VENDORCODE_1_r"
line.long 0x04 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
newline
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
rbitfld.long 0x08 3. "STDHOSTHDR_MAINCTLREG_CM,Reserved for internal testing" "0,1"
newline
rbitfld.long 0x08 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" "0,1"
newline
bitfld.long 0x08 0. "STDHOSTHDR_MAINCTLREG_EN,Sets the global core enable" "0,1"
rgroup.long 0x10++0x03
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
bitfld.long 0x00 0.--4. "STDHOSTHDR_NTTPADDR_0,Sets the RX port address" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x40++0x2F
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. "STDERRLOG_SVRTSTDLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTSTDLVL_0_0,STDERRLOG_SVRTSTDLVL_0_1,STDERRLOG_SVRTSTDLVL_0_2,?"
line.long 0x04 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x04 0.--1. "STDERRLOG_SVRTCUSTOMLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTCUSTOMLVL_0_0,STDERRLOG_SVRTCUSTOMLVL_0_1,STDERRLOG_SVRTCUSTOMLVL_0_2,?"
line.long 0x08 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x08 31. "STDERRLOG_MAIN_CLRLOG,Clears Error Logging Valid bit when written to 1" "0,1"
newline
bitfld.long 0x08 19. "STDERRLOG_MAIN_FLTCNT,Asserted when at least one error with severity level FAULT is detected" "0,1"
newline
bitfld.long 0x08 18. "STDERRLOG_MAIN_ERRCNT,Asserted when at least one error with severity level ERROR is detected" "0,1"
newline
rbitfld.long 0x08 1. "STDERRLOG_MAIN_ERRTYPE,Indicates logging type" "STDERRLOG_MAIN_ERRTYPE_0_r,STDERRLOG_MAIN_ERRTYPE_1_r"
newline
rbitfld.long 0x08 0. "STDERRLOG_MAIN_ERRLOGVLD,Error Logging Valid" "0,1"
line.long 0x0C "L3_TARG_STDERRLOG_HDR,"
bitfld.long 0x0C 18.--23. "STDERRLOG_HDR_LEN1,This field contains the number of payload cell(s) minus one of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x0C 12.--15. "STDERRLOG_HDR_STOPOFSWRPSZ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x0C 11. "STDERRLOG_HDR_ERR,Err bit of the logged packet" "0,1"
newline
bitfld.long 0x0C 6. "STDERRLOG_HDR_PRESSURE,Pressure field of the logged packet" "0,1"
newline
bitfld.long 0x0C 0.--3. "STDERRLOG_HDR_OPCODE,Opcode of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x10 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x10 0.--7. 1. "STDERRLOG_MSTADDR,Master Address field of the logged packet"
line.long 0x14 "L3_TARG_STDERRLOG_SLVADDR,"
bitfld.long 0x14 0.--4. "STDERRLOG_SLVADDR,Slave Address field of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
line.long 0x18 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x18 0.--7. 1. "STDERRLOG_INFO,Info field of the logged packet"
line.long 0x1C "L3_TARG_STDERRLOG_SLVOFSLSB,"
line.long 0x20 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x20 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)" "0,1"
line.long 0x24 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x24 0.--7. 1. "STDERRLOG_CUSTOMINFO_INFO,Info field of the response packet"
line.long 0x28 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x28 0.--7. 1. "STDERRLOG_CUSTOMINFO_MSTADDR,MstAddr field of the response packet"
line.long 0x2C "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x2C 0.--1. "STDERRLOG_CUSTOMINFO_OPCODE,Opcode of the response packet" "0,1,2,3"
group.long 0x80++0x03
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. "ADDRSPACESIZELOG,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
tree.end
tree "CLK2_L4PER2_TARG"
base ansd:0x44800B00
rgroup.long 0x00++0x0B
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" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_ VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_ VENDORCODE_0_r,STDHOSTHDR_COREREG_ VENDORCODE_1_r"
line.long 0x04 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
newline
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
rbitfld.long 0x08 3. "STDHOSTHDR_MAINCTLREG_CM,Reserved for internal testing" "0,1"
newline
rbitfld.long 0x08 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" "0,1"
newline
bitfld.long 0x08 0. "STDHOSTHDR_MAINCTLREG_EN,Sets the global core enable" "0,1"
rgroup.long 0x10++0x03
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
bitfld.long 0x00 0.--4. "STDHOSTHDR_NTTPADDR_0,Sets the RX port address" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x40++0x2F
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. "STDERRLOG_SVRTSTDLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTSTDLVL_0_0,STDERRLOG_SVRTSTDLVL_0_1,STDERRLOG_SVRTSTDLVL_0_2,?"
line.long 0x04 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x04 0.--1. "STDERRLOG_SVRTCUSTOMLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTCUSTOMLVL_0_0,STDERRLOG_SVRTCUSTOMLVL_0_1,STDERRLOG_SVRTCUSTOMLVL_0_2,?"
line.long 0x08 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x08 31. "STDERRLOG_MAIN_CLRLOG,Clears Error Logging Valid bit when written to 1" "0,1"
newline
bitfld.long 0x08 19. "STDERRLOG_MAIN_FLTCNT,Asserted when at least one error with severity level FAULT is detected" "0,1"
newline
bitfld.long 0x08 18. "STDERRLOG_MAIN_ERRCNT,Asserted when at least one error with severity level ERROR is detected" "0,1"
newline
rbitfld.long 0x08 1. "STDERRLOG_MAIN_ERRTYPE,Indicates logging type" "STDERRLOG_MAIN_ERRTYPE_0_r,STDERRLOG_MAIN_ERRTYPE_1_r"
newline
rbitfld.long 0x08 0. "STDERRLOG_MAIN_ERRLOGVLD,Error Logging Valid" "0,1"
line.long 0x0C "L3_TARG_STDERRLOG_HDR,"
bitfld.long 0x0C 18.--23. "STDERRLOG_HDR_LEN1,This field contains the number of payload cell(s) minus one of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x0C 12.--15. "STDERRLOG_HDR_STOPOFSWRPSZ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x0C 11. "STDERRLOG_HDR_ERR,Err bit of the logged packet" "0,1"
newline
bitfld.long 0x0C 6. "STDERRLOG_HDR_PRESSURE,Pressure field of the logged packet" "0,1"
newline
bitfld.long 0x0C 0.--3. "STDERRLOG_HDR_OPCODE,Opcode of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x10 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x10 0.--7. 1. "STDERRLOG_MSTADDR,Master Address field of the logged packet"
line.long 0x14 "L3_TARG_STDERRLOG_SLVADDR,"
bitfld.long 0x14 0.--4. "STDERRLOG_SLVADDR,Slave Address field of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
line.long 0x18 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x18 0.--7. 1. "STDERRLOG_INFO,Info field of the logged packet"
line.long 0x1C "L3_TARG_STDERRLOG_SLVOFSLSB,"
line.long 0x20 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x20 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)" "0,1"
line.long 0x24 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x24 0.--7. 1. "STDERRLOG_CUSTOMINFO_INFO,Info field of the response packet"
line.long 0x28 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x28 0.--7. 1. "STDERRLOG_CUSTOMINFO_MSTADDR,MstAddr field of the response packet"
line.long 0x2C "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x2C 0.--1. "STDERRLOG_CUSTOMINFO_OPCODE,Opcode of the response packet" "0,1,2,3"
group.long 0x80++0x03
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. "ADDRSPACESIZELOG,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
tree.end
tree "CLK2_L4PER3_TARG"
base ansd:0x44800C00
rgroup.long 0x00++0x0B
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" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_ VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_ VENDORCODE_0_r,STDHOSTHDR_COREREG_ VENDORCODE_1_r"
line.long 0x04 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
newline
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
rbitfld.long 0x08 3. "STDHOSTHDR_MAINCTLREG_CM,Reserved for internal testing" "0,1"
newline
rbitfld.long 0x08 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" "0,1"
newline
bitfld.long 0x08 0. "STDHOSTHDR_MAINCTLREG_EN,Sets the global core enable" "0,1"
rgroup.long 0x10++0x03
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
bitfld.long 0x00 0.--4. "STDHOSTHDR_NTTPADDR_0,Sets the RX port address" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x40++0x2F
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. "STDERRLOG_SVRTSTDLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTSTDLVL_0_0,STDERRLOG_SVRTSTDLVL_0_1,STDERRLOG_SVRTSTDLVL_0_2,?"
line.long 0x04 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x04 0.--1. "STDERRLOG_SVRTCUSTOMLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTCUSTOMLVL_0_0,STDERRLOG_SVRTCUSTOMLVL_0_1,STDERRLOG_SVRTCUSTOMLVL_0_2,?"
line.long 0x08 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x08 31. "STDERRLOG_MAIN_CLRLOG,Clears Error Logging Valid bit when written to 1" "0,1"
newline
bitfld.long 0x08 19. "STDERRLOG_MAIN_FLTCNT,Asserted when at least one error with severity level FAULT is detected" "0,1"
newline
bitfld.long 0x08 18. "STDERRLOG_MAIN_ERRCNT,Asserted when at least one error with severity level ERROR is detected" "0,1"
newline
rbitfld.long 0x08 1. "STDERRLOG_MAIN_ERRTYPE,Indicates logging type" "STDERRLOG_MAIN_ERRTYPE_0_r,STDERRLOG_MAIN_ERRTYPE_1_r"
newline
rbitfld.long 0x08 0. "STDERRLOG_MAIN_ERRLOGVLD,Error Logging Valid" "0,1"
line.long 0x0C "L3_TARG_STDERRLOG_HDR,"
bitfld.long 0x0C 18.--23. "STDERRLOG_HDR_LEN1,This field contains the number of payload cell(s) minus one of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x0C 12.--15. "STDERRLOG_HDR_STOPOFSWRPSZ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x0C 11. "STDERRLOG_HDR_ERR,Err bit of the logged packet" "0,1"
newline
bitfld.long 0x0C 6. "STDERRLOG_HDR_PRESSURE,Pressure field of the logged packet" "0,1"
newline
bitfld.long 0x0C 0.--3. "STDERRLOG_HDR_OPCODE,Opcode of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x10 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x10 0.--7. 1. "STDERRLOG_MSTADDR,Master Address field of the logged packet"
line.long 0x14 "L3_TARG_STDERRLOG_SLVADDR,"
bitfld.long 0x14 0.--4. "STDERRLOG_SLVADDR,Slave Address field of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
line.long 0x18 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x18 0.--7. 1. "STDERRLOG_INFO,Info field of the logged packet"
line.long 0x1C "L3_TARG_STDERRLOG_SLVOFSLSB,"
line.long 0x20 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x20 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)" "0,1"
line.long 0x24 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x24 0.--7. 1. "STDERRLOG_CUSTOMINFO_INFO,Info field of the response packet"
line.long 0x28 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x28 0.--7. 1. "STDERRLOG_CUSTOMINFO_MSTADDR,MstAddr field of the response packet"
line.long 0x2C "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x2C 0.--1. "STDERRLOG_CUSTOMINFO_OPCODE,Opcode of the response packet" "0,1,2,3"
group.long 0x80++0x03
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. "ADDRSPACESIZELOG,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
tree.end
tree "CLK2_OCMRAM_TARG"
base ansd:0x44800200
rgroup.long 0x00++0x0B
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" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_ VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_ VENDORCODE_0_r,STDHOSTHDR_COREREG_ VENDORCODE_1_r"
line.long 0x04 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
newline
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
rbitfld.long 0x08 3. "STDHOSTHDR_MAINCTLREG_CM,Reserved for internal testing" "0,1"
newline
rbitfld.long 0x08 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" "0,1"
newline
bitfld.long 0x08 0. "STDHOSTHDR_MAINCTLREG_EN,Sets the global core enable" "0,1"
rgroup.long 0x10++0x03
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
bitfld.long 0x00 0.--4. "STDHOSTHDR_NTTPADDR_0,Sets the RX port address" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x40++0x2F
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. "STDERRLOG_SVRTSTDLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTSTDLVL_0_0,STDERRLOG_SVRTSTDLVL_0_1,STDERRLOG_SVRTSTDLVL_0_2,?"
line.long 0x04 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x04 0.--1. "STDERRLOG_SVRTCUSTOMLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTCUSTOMLVL_0_0,STDERRLOG_SVRTCUSTOMLVL_0_1,STDERRLOG_SVRTCUSTOMLVL_0_2,?"
line.long 0x08 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x08 31. "STDERRLOG_MAIN_CLRLOG,Clears Error Logging Valid bit when written to 1" "0,1"
newline
bitfld.long 0x08 19. "STDERRLOG_MAIN_FLTCNT,Asserted when at least one error with severity level FAULT is detected" "0,1"
newline
bitfld.long 0x08 18. "STDERRLOG_MAIN_ERRCNT,Asserted when at least one error with severity level ERROR is detected" "0,1"
newline
rbitfld.long 0x08 1. "STDERRLOG_MAIN_ERRTYPE,Indicates logging type" "STDERRLOG_MAIN_ERRTYPE_0_r,STDERRLOG_MAIN_ERRTYPE_1_r"
newline
rbitfld.long 0x08 0. "STDERRLOG_MAIN_ERRLOGVLD,Error Logging Valid" "0,1"
line.long 0x0C "L3_TARG_STDERRLOG_HDR,"
bitfld.long 0x0C 18.--23. "STDERRLOG_HDR_LEN1,This field contains the number of payload cell(s) minus one of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x0C 12.--15. "STDERRLOG_HDR_STOPOFSWRPSZ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x0C 11. "STDERRLOG_HDR_ERR,Err bit of the logged packet" "0,1"
newline
bitfld.long 0x0C 6. "STDERRLOG_HDR_PRESSURE,Pressure field of the logged packet" "0,1"
newline
bitfld.long 0x0C 0.--3. "STDERRLOG_HDR_OPCODE,Opcode of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x10 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x10 0.--7. 1. "STDERRLOG_MSTADDR,Master Address field of the logged packet"
line.long 0x14 "L3_TARG_STDERRLOG_SLVADDR,"
bitfld.long 0x14 0.--4. "STDERRLOG_SLVADDR,Slave Address field of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
line.long 0x18 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x18 0.--7. 1. "STDERRLOG_INFO,Info field of the logged packet"
line.long 0x1C "L3_TARG_STDERRLOG_SLVOFSLSB,"
line.long 0x20 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x20 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)" "0,1"
line.long 0x24 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x24 0.--7. 1. "STDERRLOG_CUSTOMINFO_INFO,Info field of the response packet"
line.long 0x28 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x28 0.--7. 1. "STDERRLOG_CUSTOMINFO_MSTADDR,MstAddr field of the response packet"
line.long 0x2C "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x2C 0.--1. "STDERRLOG_CUSTOMINFO_OPCODE,Opcode of the response packet" "0,1,2,3"
group.long 0x80++0x03
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. "ADDRSPACESIZELOG,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
tree.end
tree "CLK2_SGX_TARG"
base ansd:0x44800600
rgroup.long 0x00++0x0B
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" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_ VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_ VENDORCODE_0_r,STDHOSTHDR_COREREG_ VENDORCODE_1_r"
line.long 0x04 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
newline
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
rbitfld.long 0x08 3. "STDHOSTHDR_MAINCTLREG_CM,Reserved for internal testing" "0,1"
newline
rbitfld.long 0x08 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" "0,1"
newline
bitfld.long 0x08 0. "STDHOSTHDR_MAINCTLREG_EN,Sets the global core enable" "0,1"
rgroup.long 0x10++0x03
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
bitfld.long 0x00 0.--4. "STDHOSTHDR_NTTPADDR_0,Sets the RX port address" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x40++0x2F
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. "STDERRLOG_SVRTSTDLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTSTDLVL_0_0,STDERRLOG_SVRTSTDLVL_0_1,STDERRLOG_SVRTSTDLVL_0_2,?"
line.long 0x04 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x04 0.--1. "STDERRLOG_SVRTCUSTOMLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTCUSTOMLVL_0_0,STDERRLOG_SVRTCUSTOMLVL_0_1,STDERRLOG_SVRTCUSTOMLVL_0_2,?"
line.long 0x08 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x08 31. "STDERRLOG_MAIN_CLRLOG,Clears Error Logging Valid bit when written to 1" "0,1"
newline
bitfld.long 0x08 19. "STDERRLOG_MAIN_FLTCNT,Asserted when at least one error with severity level FAULT is detected" "0,1"
newline
bitfld.long 0x08 18. "STDERRLOG_MAIN_ERRCNT,Asserted when at least one error with severity level ERROR is detected" "0,1"
newline
rbitfld.long 0x08 1. "STDERRLOG_MAIN_ERRTYPE,Indicates logging type" "STDERRLOG_MAIN_ERRTYPE_0_r,STDERRLOG_MAIN_ERRTYPE_1_r"
newline
rbitfld.long 0x08 0. "STDERRLOG_MAIN_ERRLOGVLD,Error Logging Valid" "0,1"
line.long 0x0C "L3_TARG_STDERRLOG_HDR,"
bitfld.long 0x0C 18.--23. "STDERRLOG_HDR_LEN1,This field contains the number of payload cell(s) minus one of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x0C 12.--15. "STDERRLOG_HDR_STOPOFSWRPSZ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x0C 11. "STDERRLOG_HDR_ERR,Err bit of the logged packet" "0,1"
newline
bitfld.long 0x0C 6. "STDERRLOG_HDR_PRESSURE,Pressure field of the logged packet" "0,1"
newline
bitfld.long 0x0C 0.--3. "STDERRLOG_HDR_OPCODE,Opcode of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x10 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x10 0.--7. 1. "STDERRLOG_MSTADDR,Master Address field of the logged packet"
line.long 0x14 "L3_TARG_STDERRLOG_SLVADDR,"
bitfld.long 0x14 0.--4. "STDERRLOG_SLVADDR,Slave Address field of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
line.long 0x18 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x18 0.--7. 1. "STDERRLOG_INFO,Info field of the logged packet"
line.long 0x1C "L3_TARG_STDERRLOG_SLVOFSLSB,"
line.long 0x20 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x20 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)" "0,1"
line.long 0x24 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x24 0.--7. 1. "STDERRLOG_CUSTOMINFO_INFO,Info field of the response packet"
line.long 0x28 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x28 0.--7. 1. "STDERRLOG_CUSTOMINFO_MSTADDR,MstAddr field of the response packet"
line.long 0x2C "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x2C 0.--1. "STDERRLOG_CUSTOMINFO_OPCODE,Opcode of the response packet" "0,1,2,3"
group.long 0x80++0x03
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. "ADDRSPACESIZELOG,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
tree.end
tree "CLK2_SL2_TARG"
base ansd:0x44800800
rgroup.long 0x00++0x0B
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" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_ VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_ VENDORCODE_0_r,STDHOSTHDR_COREREG_ VENDORCODE_1_r"
line.long 0x04 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
newline
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
rbitfld.long 0x08 3. "STDHOSTHDR_MAINCTLREG_CM,Reserved for internal testing" "0,1"
newline
rbitfld.long 0x08 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" "0,1"
newline
bitfld.long 0x08 0. "STDHOSTHDR_MAINCTLREG_EN,Sets the global core enable" "0,1"
rgroup.long 0x10++0x03
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
bitfld.long 0x00 0.--4. "STDHOSTHDR_NTTPADDR_0,Sets the RX port address" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x40++0x2F
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. "STDERRLOG_SVRTSTDLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTSTDLVL_0_0,STDERRLOG_SVRTSTDLVL_0_1,STDERRLOG_SVRTSTDLVL_0_2,?"
line.long 0x04 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x04 0.--1. "STDERRLOG_SVRTCUSTOMLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTCUSTOMLVL_0_0,STDERRLOG_SVRTCUSTOMLVL_0_1,STDERRLOG_SVRTCUSTOMLVL_0_2,?"
line.long 0x08 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x08 31. "STDERRLOG_MAIN_CLRLOG,Clears Error Logging Valid bit when written to 1" "0,1"
newline
bitfld.long 0x08 19. "STDERRLOG_MAIN_FLTCNT,Asserted when at least one error with severity level FAULT is detected" "0,1"
newline
bitfld.long 0x08 18. "STDERRLOG_MAIN_ERRCNT,Asserted when at least one error with severity level ERROR is detected" "0,1"
newline
rbitfld.long 0x08 1. "STDERRLOG_MAIN_ERRTYPE,Indicates logging type" "STDERRLOG_MAIN_ERRTYPE_0_r,STDERRLOG_MAIN_ERRTYPE_1_r"
newline
rbitfld.long 0x08 0. "STDERRLOG_MAIN_ERRLOGVLD,Error Logging Valid" "0,1"
line.long 0x0C "L3_TARG_STDERRLOG_HDR,"
bitfld.long 0x0C 18.--23. "STDERRLOG_HDR_LEN1,This field contains the number of payload cell(s) minus one of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x0C 12.--15. "STDERRLOG_HDR_STOPOFSWRPSZ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x0C 11. "STDERRLOG_HDR_ERR,Err bit of the logged packet" "0,1"
newline
bitfld.long 0x0C 6. "STDERRLOG_HDR_PRESSURE,Pressure field of the logged packet" "0,1"
newline
bitfld.long 0x0C 0.--3. "STDERRLOG_HDR_OPCODE,Opcode of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x10 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x10 0.--7. 1. "STDERRLOG_MSTADDR,Master Address field of the logged packet"
line.long 0x14 "L3_TARG_STDERRLOG_SLVADDR,"
bitfld.long 0x14 0.--4. "STDERRLOG_SLVADDR,Slave Address field of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
line.long 0x18 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x18 0.--7. 1. "STDERRLOG_INFO,Info field of the logged packet"
line.long 0x1C "L3_TARG_STDERRLOG_SLVOFSLSB,"
line.long 0x20 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x20 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)" "0,1"
line.long 0x24 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x24 0.--7. 1. "STDERRLOG_CUSTOMINFO_INFO,Info field of the response packet"
line.long 0x28 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x28 0.--7. 1. "STDERRLOG_CUSTOMINFO_MSTADDR,MstAddr field of the response packet"
line.long 0x2C "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x2C 0.--1. "STDERRLOG_CUSTOMINFO_OPCODE,Opcode of the response packet" "0,1,2,3"
group.long 0x80++0x03
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. "ADDRSPACESIZELOG,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
tree.end
tree "CLK3_L4EMU_TARG"
base ansd:0x45000100
rgroup.long 0x00++0x0B
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" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_ VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_ VENDORCODE_0_r,STDHOSTHDR_COREREG_ VENDORCODE_1_r"
line.long 0x04 "L3_TARG_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
newline
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_TARG_STDHOSTHDR_MAINCTLREG,"
rbitfld.long 0x08 3. "STDHOSTHDR_MAINCTLREG_CM,Reserved for internal testing" "0,1"
newline
rbitfld.long 0x08 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" "0,1"
newline
bitfld.long 0x08 0. "STDHOSTHDR_MAINCTLREG_EN,Sets the global core enable" "0,1"
rgroup.long 0x10++0x03
line.long 0x00 "L3_TARG_STDHOSTHDR_NTTPADDR_0,"
bitfld.long 0x00 0.--4. "STDHOSTHDR_NTTPADDR_0,Sets the RX port address" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x40++0x2F
line.long 0x00 "L3_TARG_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. "STDERRLOG_SVRTSTDLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTSTDLVL_0_0,STDERRLOG_SVRTSTDLVL_0_1,STDERRLOG_SVRTSTDLVL_0_2,?"
line.long 0x04 "L3_TARG_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x04 0.--1. "STDERRLOG_SVRTCUSTOMLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTCUSTOMLVL_0_0,STDERRLOG_SVRTCUSTOMLVL_0_1,STDERRLOG_SVRTCUSTOMLVL_0_2,?"
line.long 0x08 "L3_TARG_STDERRLOG_MAIN,"
bitfld.long 0x08 31. "STDERRLOG_MAIN_CLRLOG,Clears Error Logging Valid bit when written to 1" "0,1"
newline
bitfld.long 0x08 19. "STDERRLOG_MAIN_FLTCNT,Asserted when at least one error with severity level FAULT is detected" "0,1"
newline
bitfld.long 0x08 18. "STDERRLOG_MAIN_ERRCNT,Asserted when at least one error with severity level ERROR is detected" "0,1"
newline
rbitfld.long 0x08 1. "STDERRLOG_MAIN_ERRTYPE,Indicates logging type" "STDERRLOG_MAIN_ERRTYPE_0_r,STDERRLOG_MAIN_ERRTYPE_1_r"
newline
rbitfld.long 0x08 0. "STDERRLOG_MAIN_ERRLOGVLD,Error Logging Valid" "0,1"
line.long 0x0C "L3_TARG_STDERRLOG_HDR,"
bitfld.long 0x0C 18.--23. "STDERRLOG_HDR_LEN1,This field contains the number of payload cell(s) minus one of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x0C 12.--15. "STDERRLOG_HDR_STOPOFSWRPSZ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x0C 11. "STDERRLOG_HDR_ERR,Err bit of the logged packet" "0,1"
newline
bitfld.long 0x0C 6. "STDERRLOG_HDR_PRESSURE,Pressure field of the logged packet" "0,1"
newline
bitfld.long 0x0C 0.--3. "STDERRLOG_HDR_OPCODE,Opcode of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x10 "L3_TARG_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x10 0.--7. 1. "STDERRLOG_MSTADDR,Master Address field of the logged packet"
line.long 0x14 "L3_TARG_STDERRLOG_SLVADDR,"
bitfld.long 0x14 0.--4. "STDERRLOG_SLVADDR,Slave Address field of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
line.long 0x18 "L3_TARG_STDERRLOG_INFO,"
hexmask.long.byte 0x18 0.--7. 1. "STDERRLOG_INFO,Info field of the logged packet"
line.long 0x1C "L3_TARG_STDERRLOG_SLVOFSLSB,"
line.long 0x20 "L3_TARG_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x20 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)" "0,1"
line.long 0x24 "L3_TARG_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x24 0.--7. 1. "STDERRLOG_CUSTOMINFO_INFO,Info field of the response packet"
line.long 0x28 "L3_TARG_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x28 0.--7. 1. "STDERRLOG_CUSTOMINFO_MSTADDR,MstAddr field of the response packet"
line.long 0x2C "L3_TARG_STDERRLOG_CUSTOMINFO_OPCODE,"
bitfld.long 0x2C 0.--1. "STDERRLOG_CUSTOMINFO_OPCODE,Opcode of the response packet" "0,1,2,3"
group.long 0x80++0x03
line.long 0x00 "L3_TARG_ADDRSPACESIZELOG,"
bitfld.long 0x00 0.--4. "ADDRSPACESIZELOG,The address space size is equal to 2**AddrSpaceSizeLog * 4K in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
tree.end
tree "CLK1_DSS_BW_REGULATOR"
base ansd:0x44000700
rgroup.long 0x00++0x17
line.long 0x00 "L3_BW_R_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. "STDHOSTHDR_COREREG_CORECODE,The Core Code field is a constant reporting a vendor-specific core generator code" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_VENDORCODE_0_r,STDHOSTHDR_COREREG_VENDORCODE_1_r"
line.long 0x04 "L3_BW_R_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_BW_R_BANDWIDTH,"
hexmask.long.word 0x08 0.--15. 1. "BANDWIDTH,Bandwidth in bytes per second"
line.long 0x0C "L3_BW_R_WATERMARK,"
hexmask.long.word 0x0C 0.--11. 1. "WATERMARK,Peak permissible bandwidth in bytes"
line.long 0x10 "L3_BW_R_PRESS,"
bitfld.long 0x10 1. "PRESS_LOW,Pressure value inserted if the measured bandwidth is over the watermark" "0,1"
bitfld.long 0x10 0. "PRESS_HIGH,Pressure value inserted if the measured bandwidth is under the watermark" "0,1"
line.long 0x14 "L3_BW_R_CLEARHISTORY,"
bitfld.long 0x14 0. "CLEARHISTORY,Write a 1 clear the traffic counter Type: Give_AutoCleared" "0,1"
tree.end
tree "CLK2_ISS_BW_REGULATOR"
base ansd:0x44801300
rgroup.long 0x00++0x17
line.long 0x00 "L3_BW_R_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. "STDHOSTHDR_COREREG_CORECODE,The Core Code field is a constant reporting a vendor-specific core generator code" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_VENDORCODE_0_r,STDHOSTHDR_COREREG_VENDORCODE_1_r"
line.long 0x04 "L3_BW_R_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_BW_R_BANDWIDTH,"
hexmask.long.word 0x08 0.--15. 1. "BANDWIDTH,Bandwidth in bytes per second"
line.long 0x0C "L3_BW_R_WATERMARK,"
hexmask.long.word 0x0C 0.--11. 1. "WATERMARK,Peak permissible bandwidth in bytes"
line.long 0x10 "L3_BW_R_PRESS,"
bitfld.long 0x10 1. "PRESS_LOW,Pressure value inserted if the measured bandwidth is over the watermark" "0,1"
bitfld.long 0x10 0. "PRESS_HIGH,Pressure value inserted if the measured bandwidth is under the watermark" "0,1"
line.long 0x14 "L3_BW_R_CLEARHISTORY,"
bitfld.long 0x14 0. "CLEARHISTORY,Write a 1 clear the traffic counter Type: Give_AutoCleared" "0,1"
tree.end
tree "CLK2_IVAHD_BW_REGULATOR"
base ansd:0x44801400
rgroup.long 0x00++0x17
line.long 0x00 "L3_BW_R_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. "STDHOSTHDR_COREREG_CORECODE,The Core Code field is a constant reporting a vendor-specific core generator code" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_VENDORCODE_0_r,STDHOSTHDR_COREREG_VENDORCODE_1_r"
line.long 0x04 "L3_BW_R_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_BW_R_BANDWIDTH,"
hexmask.long.word 0x08 0.--15. 1. "BANDWIDTH,Bandwidth in bytes per second"
line.long 0x0C "L3_BW_R_WATERMARK,"
hexmask.long.word 0x0C 0.--11. 1. "WATERMARK,Peak permissible bandwidth in bytes"
line.long 0x10 "L3_BW_R_PRESS,"
bitfld.long 0x10 1. "PRESS_LOW,Pressure value inserted if the measured bandwidth is over the watermark" "0,1"
bitfld.long 0x10 0. "PRESS_HIGH,Pressure value inserted if the measured bandwidth is under the watermark" "0,1"
line.long 0x14 "L3_BW_R_CLEARHISTORY,"
bitfld.long 0x14 0. "CLEARHISTORY,Write a 1 clear the traffic counter Type: Give_AutoCleared" "0,1"
tree.end
tree "CLK2_SGX_BW_REGULATOR"
base ansd:0x44801500
rgroup.long 0x00++0x17
line.long 0x00 "L3_BW_R_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. "STDHOSTHDR_COREREG_CORECODE,The Core Code field is a constant reporting a vendor-specific core generator code" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_VENDORCODE_0_r,STDHOSTHDR_COREREG_VENDORCODE_1_r"
line.long 0x04 "L3_BW_R_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_BW_R_BANDWIDTH,"
hexmask.long.word 0x08 0.--15. 1. "BANDWIDTH,Bandwidth in bytes per second"
line.long 0x0C "L3_BW_R_WATERMARK,"
hexmask.long.word 0x0C 0.--11. 1. "WATERMARK,Peak permissible bandwidth in bytes"
line.long 0x10 "L3_BW_R_PRESS,"
bitfld.long 0x10 1. "PRESS_LOW,Pressure value inserted if the measured bandwidth is over the watermark" "0,1"
bitfld.long 0x10 0. "PRESS_HIGH,Pressure value inserted if the measured bandwidth is under the watermark" "0,1"
line.long 0x14 "L3_BW_R_CLEARHISTORY,"
bitfld.long 0x14 0. "CLEARHISTORY,Write a 1 clear the traffic counter Type: Give_AutoCleared" "0,1"
tree.end
tree "CLK1_FLAGMUX_CLK1"
base ansd:0x44000500
rgroup.long 0x00++0x17
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" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_VENDORCODE_0_r,STDHOSTHDR_COREREG_VENDORCODE_1_r"
line.long 0x04 "L3_FLAGMUX_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_FLAGMUX_MASK0,"
hexmask.long.tbyte 0x08 0.--17. 1. "MASK0,Mask flag inputs 0 Type: Control"
line.long 0x0C "L3_FLAGMUX_REGERR0,"
hexmask.long.tbyte 0x0C 0.--17. 1. "REGERR0,Flag inputs 0 Type: Status"
line.long 0x10 "L3_FLAGMUX_MASK1,"
hexmask.long.tbyte 0x10 0.--17. 1. "MASK1,Mask flag inputs 1 Type: Control"
line.long 0x14 "L3_FLAGMUX_REGERR1,"
hexmask.long.tbyte 0x14 0.--17. 1. "REGERR1,Flag inputs 1 Type: Status"
tree.end
tree "CLK2_FLAGMUX_CLK2"
base ansd:0x44801000
rgroup.long 0x00++0x17
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" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_VENDORCODE_0_r,STDHOSTHDR_COREREG_VENDORCODE_1_r"
line.long 0x04 "L3_FLAGMUX_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_FLAGMUX_MASK0,"
hexmask.long.tbyte 0x08 0.--17. 1. "MASK0,Mask flag inputs 0 Type: Control"
line.long 0x0C "L3_FLAGMUX_REGERR0,"
hexmask.long.tbyte 0x0C 0.--17. 1. "REGERR0,Flag inputs 0 Type: Status"
line.long 0x10 "L3_FLAGMUX_MASK1,"
hexmask.long.tbyte 0x10 0.--17. 1. "MASK1,Mask flag inputs 1 Type: Control"
line.long 0x14 "L3_FLAGMUX_REGERR1,"
hexmask.long.tbyte 0x14 0.--17. 1. "REGERR1,Flag inputs 1 Type: Status"
tree.end
tree "CLK3_FLAGMUX_CLK3"
base ansd:0x45000200
rgroup.long 0x00++0x17
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" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_VENDORCODE_0_r,STDHOSTHDR_COREREG_VENDORCODE_1_r"
line.long 0x04 "L3_FLAGMUX_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_FLAGMUX_MASK0,"
hexmask.long.tbyte 0x08 0.--17. 1. "MASK0,Mask flag inputs 0 Type: Control"
line.long 0x0C "L3_FLAGMUX_REGERR0,"
hexmask.long.tbyte 0x0C 0.--17. 1. "REGERR0,Flag inputs 0 Type: Status"
line.long 0x10 "L3_FLAGMUX_MASK1,"
hexmask.long.tbyte 0x10 0.--17. 1. "MASK1,Mask flag inputs 1 Type: Control"
line.long 0x14 "L3_FLAGMUX_REGERR1,"
hexmask.long.tbyte 0x14 0.--17. 1. "REGERR1,Flag inputs 1 Type: Status"
tree.end
tree "CLK1_HOST_CLK1"
base ansd:0x44000000
rgroup.long 0x00++0x0B
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" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_VENDORCODE_0_r,STDHOSTHDR_COREREG_VENDORCODE_1_r"
line.long 0x04 "L3_HOST_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
newline
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_HOST_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x08 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" "0,1"
group.long 0x40++0x37
line.long 0x00 "L3_HOST_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. "STDERRLOG_SVRTSTDLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTSTDLVL_0_0,STDERRLOG_SVRTSTDLVL_0_1,STDERRLOG_SVRTSTDLVL_0_2,?"
line.long 0x04 "L3_HOST_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x04 0.--1. "STDERRLOG_SVRTCUSTOMLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTCUSTOMLVL_0_0,STDERRLOG_SVRTCUSTOMLVL_0_1,STDERRLOG_SVRTCUSTOMLVL_0_2,?"
line.long 0x08 "L3_HOST_STDERRLOG_MAIN,"
bitfld.long 0x08 31. "STDERRLOG_MAIN_CLRLOG,Clears Error Logging Valid bit when written to 1" "0,1"
newline
bitfld.long 0x08 19. "STDERRLOG_MAIN_FLTCNT,Asserted when at least one error with severity level FAULT is detected" "0,1"
newline
bitfld.long 0x08 18. "STDERRLOG_MAIN_ERRCNT,Asserted when at least one error with severity level ERROR is detected" "0,1"
newline
rbitfld.long 0x08 1. "STDERRLOG_MAIN_ERRTYPE,Indicates logging type" "STDERRLOG_MAIN_ERRTYPE_0_r,STDERRLOG_MAIN_ERRTYPE_1_r"
newline
rbitfld.long 0x08 0. "STDERRLOG_MAIN_ERRLOGVLD,Error Logging Valid" "0,1"
line.long 0x0C "L3_HOST_STDERRLOG_HDR,"
bitfld.long 0x0C 18.--23. "STDERRLOG_HDR_LEN1,This field contains the number of payload cell(s) minus one of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x0C 12.--15. "STDERRLOG_HDR_STOPOFSWRPSZ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x0C 11. "STDERRLOG_HDR_ERR,Err bit of the logged packet" "0,1"
newline
bitfld.long 0x0C 6. "STDERRLOG_HDR_PRESSURE,Pressure field of the logged packet" "0,1"
newline
bitfld.long 0x0C 0.--3. "STDERRLOG_HDR_OPCODE,Opcode of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x10 "L3_HOST_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x10 0.--7. 1. "STDERRLOG_MSTADDR,Master Address field of the logged packet"
line.long 0x14 "L3_HOST_STDERRLOG_SLVADDR,"
bitfld.long 0x14 0.--4. "STDERRLOG_SLVADDR,Slave Address field of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
line.long 0x18 "L3_HOST_STDERRLOG_INFO,"
hexmask.long.byte 0x18 0.--7. 1. "STDERRLOG_INFO,Info field of the logged packet"
line.long 0x1C "L3_HOST_STDERRLOG_SLVOFSLSB,"
line.long 0x20 "L3_HOST_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x20 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)" "0,1"
line.long 0x24 "L3_HOST_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x24 0.--7. 1. "STDERRLOG_CUSTOMINFO_MSTADDR,Type: Status"
line.long 0x28 "L3_HOST_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x28 0.--7. 1. "STDERRLOG_CUSTOMINFO_INFO,Type: Status"
line.long 0x2C "L3_HOST_STDERRLOG_CUSTOMINFO_WR,"
bitfld.long 0x2C 0. "STDERRLOG_CUSTOMINFO_WR,Type: Status" "0,1"
line.long 0x30 "L3_HOST_STDERRLOG_CUSTOMINFO_ADDR,"
hexmask.long.tbyte 0x30 0.--20. 1. "STDERRLOG_CUSTOMINFO_ADDR,Type: Status"
line.long 0x34 "L3_HOST_STDERRLOG_CUSTOMINFO_DECERR,"
bitfld.long 0x34 0. "STDERRLOG_CUSTOMINFO_DECERR,Type: Status" "0,1"
tree.end
tree "CLK2_HOST_CLK2"
base ansd:0x44800000
rgroup.long 0x00++0x0B
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" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_VENDORCODE_0_r,STDHOSTHDR_COREREG_VENDORCODE_1_r"
line.long 0x04 "L3_HOST_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
newline
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_HOST_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x08 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" "0,1"
group.long 0x40++0x37
line.long 0x00 "L3_HOST_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. "STDERRLOG_SVRTSTDLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTSTDLVL_0_0,STDERRLOG_SVRTSTDLVL_0_1,STDERRLOG_SVRTSTDLVL_0_2,?"
line.long 0x04 "L3_HOST_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x04 0.--1. "STDERRLOG_SVRTCUSTOMLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTCUSTOMLVL_0_0,STDERRLOG_SVRTCUSTOMLVL_0_1,STDERRLOG_SVRTCUSTOMLVL_0_2,?"
line.long 0x08 "L3_HOST_STDERRLOG_MAIN,"
bitfld.long 0x08 31. "STDERRLOG_MAIN_CLRLOG,Clears Error Logging Valid bit when written to 1" "0,1"
newline
bitfld.long 0x08 19. "STDERRLOG_MAIN_FLTCNT,Asserted when at least one error with severity level FAULT is detected" "0,1"
newline
bitfld.long 0x08 18. "STDERRLOG_MAIN_ERRCNT,Asserted when at least one error with severity level ERROR is detected" "0,1"
newline
rbitfld.long 0x08 1. "STDERRLOG_MAIN_ERRTYPE,Indicates logging type" "STDERRLOG_MAIN_ERRTYPE_0_r,STDERRLOG_MAIN_ERRTYPE_1_r"
newline
rbitfld.long 0x08 0. "STDERRLOG_MAIN_ERRLOGVLD,Error Logging Valid" "0,1"
line.long 0x0C "L3_HOST_STDERRLOG_HDR,"
bitfld.long 0x0C 18.--23. "STDERRLOG_HDR_LEN1,This field contains the number of payload cell(s) minus one of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x0C 12.--15. "STDERRLOG_HDR_STOPOFSWRPSZ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x0C 11. "STDERRLOG_HDR_ERR,Err bit of the logged packet" "0,1"
newline
bitfld.long 0x0C 6. "STDERRLOG_HDR_PRESSURE,Pressure field of the logged packet" "0,1"
newline
bitfld.long 0x0C 0.--3. "STDERRLOG_HDR_OPCODE,Opcode of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x10 "L3_HOST_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x10 0.--7. 1. "STDERRLOG_MSTADDR,Master Address field of the logged packet"
line.long 0x14 "L3_HOST_STDERRLOG_SLVADDR,"
bitfld.long 0x14 0.--4. "STDERRLOG_SLVADDR,Slave Address field of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
line.long 0x18 "L3_HOST_STDERRLOG_INFO,"
hexmask.long.byte 0x18 0.--7. 1. "STDERRLOG_INFO,Info field of the logged packet"
line.long 0x1C "L3_HOST_STDERRLOG_SLVOFSLSB,"
line.long 0x20 "L3_HOST_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x20 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)" "0,1"
line.long 0x24 "L3_HOST_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x24 0.--7. 1. "STDERRLOG_CUSTOMINFO_MSTADDR,Type: Status"
line.long 0x28 "L3_HOST_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x28 0.--7. 1. "STDERRLOG_CUSTOMINFO_INFO,Type: Status"
line.long 0x2C "L3_HOST_STDERRLOG_CUSTOMINFO_WR,"
bitfld.long 0x2C 0. "STDERRLOG_CUSTOMINFO_WR,Type: Status" "0,1"
line.long 0x30 "L3_HOST_STDERRLOG_CUSTOMINFO_ADDR,"
hexmask.long.tbyte 0x30 0.--20. 1. "STDERRLOG_CUSTOMINFO_ADDR,Type: Status"
line.long 0x34 "L3_HOST_STDERRLOG_CUSTOMINFO_DECERR,"
bitfld.long 0x34 0. "STDERRLOG_CUSTOMINFO_DECERR,Type: Status" "0,1"
tree.end
tree "CLK3_HOST_CLK3"
base ansd:0x45000000
rgroup.long 0x00++0x0B
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" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_VENDORCODE_0_r,STDHOSTHDR_COREREG_VENDORCODE_1_r"
line.long 0x04 "L3_HOST_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
newline
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_HOST_STDHOSTHDR_MAINCTLREG,"
bitfld.long 0x08 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" "0,1"
group.long 0x40++0x37
line.long 0x00 "L3_HOST_STDERRLOG_SVRTSTDLVL,"
bitfld.long 0x00 0.--1. "STDERRLOG_SVRTSTDLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTSTDLVL_0_0,STDERRLOG_SVRTSTDLVL_0_1,STDERRLOG_SVRTSTDLVL_0_2,?"
line.long 0x04 "L3_HOST_STDERRLOG_SVRTCUSTOMLVL,"
bitfld.long 0x04 0.--1. "STDERRLOG_SVRTCUSTOMLVL_0,Severity level parameters Type: Control" "STDERRLOG_SVRTCUSTOMLVL_0_0,STDERRLOG_SVRTCUSTOMLVL_0_1,STDERRLOG_SVRTCUSTOMLVL_0_2,?"
line.long 0x08 "L3_HOST_STDERRLOG_MAIN,"
bitfld.long 0x08 31. "STDERRLOG_MAIN_CLRLOG,Clears Error Logging Valid bit when written to 1" "0,1"
newline
bitfld.long 0x08 19. "STDERRLOG_MAIN_FLTCNT,Asserted when at least one error with severity level FAULT is detected" "0,1"
newline
bitfld.long 0x08 18. "STDERRLOG_MAIN_ERRCNT,Asserted when at least one error with severity level ERROR is detected" "0,1"
newline
rbitfld.long 0x08 1. "STDERRLOG_MAIN_ERRTYPE,Indicates logging type" "STDERRLOG_MAIN_ERRTYPE_0_r,STDERRLOG_MAIN_ERRTYPE_1_r"
newline
rbitfld.long 0x08 0. "STDERRLOG_MAIN_ERRLOGVLD,Error Logging Valid" "0,1"
line.long 0x0C "L3_HOST_STDERRLOG_HDR,"
bitfld.long 0x0C 18.--23. "STDERRLOG_HDR_LEN1,This field contains the number of payload cell(s) minus one of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x0C 12.--15. "STDERRLOG_HDR_STOPOFSWRPSZ,StopOfs or WrapSize field of the logged packet (meaning depends on Wrp bit of logged opcode)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x0C 11. "STDERRLOG_HDR_ERR,Err bit of the logged packet" "0,1"
newline
bitfld.long 0x0C 6. "STDERRLOG_HDR_PRESSURE,Pressure field of the logged packet" "0,1"
newline
bitfld.long 0x0C 0.--3. "STDERRLOG_HDR_OPCODE,Opcode of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x10 "L3_HOST_STDERRLOG_MSTADDR,"
hexmask.long.byte 0x10 0.--7. 1. "STDERRLOG_MSTADDR,Master Address field of the logged packet"
line.long 0x14 "L3_HOST_STDERRLOG_SLVADDR,"
bitfld.long 0x14 0.--4. "STDERRLOG_SLVADDR,Slave Address field of the logged packet" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
line.long 0x18 "L3_HOST_STDERRLOG_INFO,"
hexmask.long.byte 0x18 0.--7. 1. "STDERRLOG_INFO,Info field of the logged packet"
line.long 0x1C "L3_HOST_STDERRLOG_SLVOFSLSB,"
line.long 0x20 "L3_HOST_STDERRLOG_SLVOFSMSB,"
bitfld.long 0x20 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)" "0,1"
line.long 0x24 "L3_HOST_STDERRLOG_CUSTOMINFO_MSTADDR,"
hexmask.long.byte 0x24 0.--7. 1. "STDERRLOG_CUSTOMINFO_MSTADDR,Type: Status"
line.long 0x28 "L3_HOST_STDERRLOG_CUSTOMINFO_INFO,"
hexmask.long.byte 0x28 0.--7. 1. "STDERRLOG_CUSTOMINFO_INFO,Type: Status"
line.long 0x2C "L3_HOST_STDERRLOG_CUSTOMINFO_WR,"
bitfld.long 0x2C 0. "STDERRLOG_CUSTOMINFO_WR,Type: Status" "0,1"
line.long 0x30 "L3_HOST_STDERRLOG_CUSTOMINFO_ADDR,"
hexmask.long.tbyte 0x30 0.--20. 1. "STDERRLOG_CUSTOMINFO_ADDR,Type: Status"
line.long 0x34 "L3_HOST_STDERRLOG_CUSTOMINFO_DECERR,"
bitfld.long 0x34 0. "STDERRLOG_CUSTOMINFO_DECERR,Type: Status" "0,1"
tree.end
tree "CLK1_RATE_ADAPT_RESP_32TO128_CLK1"
base ansd:0x44000800
rgroup.long 0x00++0x0B
line.long 0x00 "L3_RA_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. "STDHOSTHDR_COREREG_CORECODE,The Core Code field is a constant reporting a vendor-specific core generator code" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_VENDORCODE_0_r,STDHOSTHDR_COREREG_VENDORCODE_1_r"
line.long 0x04 "L3_RA_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_RA_CNF,"
bitfld.long 0x08 1.--4. "CNF_RATE,Indicates the throughput ratio between input and output (Rate = [16 x (Incoming_Throughput/Outgoing_Throuput)] - 1) when bit StAndFwd bit is reset" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x08 0. "CNF_STANDFWD,When this bit is set the Packet Transport Unit stores the entire NTTP packet then forwards it on TX port" "0,1"
tree.end
tree "CLK2_RATE_ADAPT_RESP_32TO128_CLK2"
base ansd:0x44801200
rgroup.long 0x00++0x0B
line.long 0x00 "L3_RA_STDHOSTHDR_COREREG,"
bitfld.long 0x00 16.--21. "STDHOSTHDR_COREREG_CORECODE,The Core Code field is a constant reporting a vendor-specific core generator code" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_VENDORCODE_0_r,STDHOSTHDR_COREREG_VENDORCODE_1_r"
line.long 0x04 "L3_RA_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_RA_CNF,"
bitfld.long 0x08 1.--4. "CNF_RATE,Indicates the throughput ratio between input and output (Rate = [16 x (Incoming_Throughput/Outgoing_Throuput)] - 1) when bit StAndFwd bit is reset" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x08 0. "CNF_STANDFWD,When this bit is set the Packet Transport Unit stores the entire NTTP packet then forwards it on TX port" "0,1"
tree.end
repeat 2. (list 0. 1. )(list ansd:0x45002000 ansd:0x45003000 )
tree "CLK3_STATCOLL_LAT$1"
base $2
rgroup.long 0x00++0x0F
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" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_VENDORCODE_0_r,STDHOSTHDR_COREREG_VENDORCODE_1_r"
line.long 0x04 "L3_STCOL_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
newline
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_STCOL_EN,"
bitfld.long 0x08 0. "EN,Enable performance monitoring this will also shut down the clock if En = 0 Type: Control" "0,1"
line.long 0x0C "L3_STCOL_SOFTEN,"
bitfld.long 0x0C 0. "SOFTEN,Software enable for performance monitoring Type: Control" "0,1"
group.long 0x14++0x1B
line.long 0x00 "L3_STCOL_TRIGEN,"
bitfld.long 0x00 0. "TRIGEN,TrigEn when set it enable the external trigger start and stop Type: Control" "0,1"
line.long 0x04 "L3_STCOL_REQEVT,"
bitfld.long 0x04 0.--3. "REQEVT,Req event select Type: Control" "REQEVT_0,REQEVT_1,REQEVT_2,REQEVT_3,REQEVT_4,REQEVT_5,REQEVT_6,REQEVT_7,REQEVT_8,?,?,?,?,?,?,?"
line.long 0x08 "L3_STCOL_RSPEVT,"
bitfld.long 0x08 0.--3. "RSPEVT,Rsp event select Type: Control" "RSPEVT_0,RSPEVT_1,RSPEVT_2,RSPEVT_3,RSPEVT_4,RSPEVT_5,RSPEVT_6,RSPEVT_7,RSPEVT_8,?,?,?,?,?,?,?"
line.long 0x0C "L3_STCOL_EVTMUX_SEL0,"
bitfld.long 0x0C 0.--2. "EVTMUX_SEL0,The select of the mux 0 Type: Control" "0,1,2,3,4,5,6,7"
line.long 0x10 "L3_STCOL_EVTMUX_SEL1,"
bitfld.long 0x10 0.--2. "EVTMUX_SEL1,The select of the mux 1 Type: Control" "0,1,2,3,4,5,6,7"
line.long 0x14 "L3_STCOL_EVTMUX_SEL2,"
bitfld.long 0x14 0.--2. "EVTMUX_SEL2,The select of the mux 2 Type: Control" "0,1,2,3,4,5,6,7"
line.long 0x18 "L3_STCOL_EVTMUX_SEL3,"
bitfld.long 0x18 0.--2. "EVTMUX_SEL3,The select of the mux 3 Type: Control" "0,1,2,3,4,5,6,7"
rgroup.long 0x40++0x1B
line.long 0x00 "L3_STCOL_DUMP_IDENTIFIER,"
bitfld.long 0x00 0.--1. "DUMP_IDENTIFIER,Probe identifier Type: Control" "0,1,2,3"
line.long 0x04 "L3_STCOL_DUMP_COLLECTTIME,"
hexmask.long.word 0x04 0.--15. 1. "DUMP_COLLECTTIME,Number of cycle to wait between two statistics frame Type: Control"
line.long 0x08 "L3_STCOL_DUMP_SLVADDR,"
bitfld.long 0x08 0.--4. "DUMP_SLVADDR,Dump slave address Type: 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"
line.long 0x0C "L3_STCOL_DUMP_MSTADDR,"
hexmask.long.byte 0x0C 0.--7. 1. "DUMP_MSTADDR,Dump master address Type: Control"
line.long 0x10 "L3_STCOL_DUMP_SLVOFS,"
line.long 0x14 "L3_STCOL_DUMP_MANUAL,"
bitfld.long 0x14 0. "DUMP_MANUAL,Define the dump mode: if != 0 the dump is controlled by the Send register" "0,1"
line.long 0x18 "L3_STCOL_DUMP_SEND,"
bitfld.long 0x18 0. "DUMP_SEND,In manual mode is used to send the dump content and initialize the counters" "0,1"
group.long 0xAC++0x03
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN,"
bitfld.long 0x00 0. "FILTER_i_GLOBALEN,Filter global enable Type: Control" "0,1"
group.long 0xBC++0x0F
line.long 0x00 "L3_STCOL_FILTER_i_EN_k,"
bitfld.long 0x00 0. "FILTER_i_EN0,Enable filter stage 0 Type: Control" "0,1"
line.long 0x04 "L3_STCOL_FILTER_i_MASK_m_RD,"
bitfld.long 0x04 0. "FILTER_i_MASK_m_RD,Mask/Match of Rd Type: Control" "0,1"
line.long 0x08 "L3_STCOL_FILTER_i_MASK_m_WR,"
bitfld.long 0x08 0. "FILTER_i_MASK_m_WR,Mask/Match of Wr Type: Control" "0,1"
line.long 0x0C "L3_STCOL_FILTER_i_MASK_m_MSTADDR,"
hexmask.long.byte 0x0C 0.--7. 1. "FILTER_i_MASK_m_MSTADDR,Mask/Match of MstAddr Type: Control"
group.long 0xD0++0x03
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR,"
bitfld.long 0x00 0. "FILTER_i_MASK_m_ERR,Mask/Match of Err Type: Control" "0,1"
group.long 0xE0++0x0B
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD,"
bitfld.long 0x00 0. "FILTER_i_MATCH_m_RD,Mask/Match of Rd Type: Control" "0,1"
line.long 0x04 "L3_STCOL_FILTER_i_MATCH_m_WR,"
bitfld.long 0x04 0. "FILTER_i_MATCH_m_WR,Mask/Match of Wr Type: Control" "0,1"
line.long 0x08 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR,"
hexmask.long.byte 0x08 0.--7. 1. "FILTER_i_MATCH_m_MSTADDR,Mask/Match of MstAddr Type: Control"
group.long 0xF0++0x03
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR,"
bitfld.long 0x00 0. "FILTER_i_MATCH_m_ERR,Mask/Match of Err Type: Control" "0,1"
group.long 0x1F0++0x0F
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL,"
hexmask.long.word 0x00 0.--11. 1. "OP_i_THRESHOLD_MINVAL,Min value Type: Control"
line.long 0x04 "L3_STCOL_OP_i_THRESHOLD_MAXVAL,"
hexmask.long.word 0x04 0.--11. 1. "OP_i_THRESHOLD_MAXVAL,Max value Type: Control"
line.long 0x08 "L3_STCOL_OP_i_EVTINFOSEL,"
bitfld.long 0x08 0.--1. "OP_i_EVTINFOSEL,Select event info data to add to counter (len/press or latency) Type: Control" "OP_i_EVTINFOSEL_0,OP_i_EVTINFOSEL_1,OP_i_EVTINFOSEL_2,?"
line.long 0x0C "L3_STCOL_OP_i_SEL,"
bitfld.long 0x0C 0.--3. "OP_i_SEL,Select logical operation Type: Control" "OP_i_SEL_0,OP_i_SEL_1,OP_i_SEL_2,OP_i_SEL_3,OP_i_SEL_4,OP_i_SEL_5,OP_i_SEL_6,OP_i_SEL_7,OP_i_SEL_8,?,?,?,?,?,?,?"
tree.end
repeat.end
tree "CLK3_STATCOLL_SDRAM"
base ansd:0x45001000
rgroup.long 0x00++0x0F
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" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x00 0. "STDHOSTHDR_COREREG_VENDORCODE,The Vendor Code field is a constant reporting the core generator vendor code" "STDHOSTHDR_COREREG_VENDORCODE_0_r,STDHOSTHDR_COREREG_VENDORCODE_1_r"
line.long 0x04 "L3_STCOL_STDHOSTHDR_VERSIONREG,"
hexmask.long.byte 0x04 24.--31. 1. "STDHOSTHDR_VERSIONREG_REVISIONID,The Revision Identifier field is a constant reporting the core generator revision number"
newline
hexmask.long.tbyte 0x04 0.--23. 1. "STDHOSTHDR_VERSIONREG_COREPARAMSCHECKSUM,Reserved"
line.long 0x08 "L3_STCOL_EN,"
bitfld.long 0x08 0. "EN,Enable performance monitoring this will also shut down the clock if En = 0 Type: Control" "0,1"
line.long 0x0C "L3_STCOL_SOFTEN,"
bitfld.long 0x0C 0. "SOFTEN,Software enable for performance monitoring Type: Control" "0,1"
group.long 0x14++0x1F
line.long 0x00 "L3_STCOL_TRIGEN,"
bitfld.long 0x00 0. "TRIGEN,TrigEn when set it enable the external trigger start and stop Type: Control" "0,1"
line.long 0x04 "L3_STCOL_REQEVT,"
bitfld.long 0x04 0.--3. "REQEVT,Req event select Type: Control" "REQEVT_0,REQEVT_1,REQEVT_2,REQEVT_3,REQEVT_4,REQEVT_5,REQEVT_6,REQEVT_7,REQEVT_8,?,?,?,?,?,?,?"
line.long 0x08 "L3_STCOL_RSPEVT,"
bitfld.long 0x08 0.--3. "RSPEVT,Rsp event select Type: Control" "RSPEVT_0,RSPEVT_1,RSPEVT_2,RSPEVT_3,RSPEVT_4,RSPEVT_5,RSPEVT_6,RSPEVT_7,RSPEVT_8,?,?,?,?,?,?,?"
line.long 0x0C "L3_STCOL_EVTMUX_SEL0,"
bitfld.long 0x0C 0.--2. "EVTMUX_SEL0,The select of the mux 0 Type: Control" "0,1,2,3,4,5,6,7"
line.long 0x10 "L3_STCOL_EVTMUX_SEL1,"
bitfld.long 0x10 0.--2. "EVTMUX_SEL1,The select of the mux 1 Type: Control" "0,1,2,3,4,5,6,7"
line.long 0x14 "L3_STCOL_EVTMUX_SEL2,"
bitfld.long 0x14 0.--2. "EVTMUX_SEL2,The select of the mux 2 Type: Control" "0,1,2,3,4,5,6,7"
line.long 0x18 "L3_STCOL_EVTMUX_SEL3,"
bitfld.long 0x18 0.--2. "EVTMUX_SEL3,The select of the mux 3 Type: Control" "0,1,2,3,4,5,6,7"
line.long 0x1C "L3_STCOL_EVTMUX_SEL4,"
bitfld.long 0x1C 0.--2. "EVTMUX_SEL4,The select of the mux 4 Type: Control" "0,1,2,3,4,5,6,7"
rgroup.long 0x40++0x1B
line.long 0x00 "L3_STCOL_DUMP_IDENTIFIER,"
bitfld.long 0x00 0.--1. "DUMP_IDENTIFIER,Probe identifier Type: Control" "0,1,2,3"
line.long 0x04 "L3_STCOL_DUMP_COLLECTTIME,"
hexmask.long.word 0x04 0.--15. 1. "DUMP_COLLECTTIME,Number of cycle to wait between two statistics frame Type: Control"
line.long 0x08 "L3_STCOL_DUMP_SLVADDR,"
bitfld.long 0x08 0.--4. "DUMP_SLVADDR,Dump slave address Type: 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"
line.long 0x0C "L3_STCOL_DUMP_MSTADDR,"
hexmask.long.byte 0x0C 0.--7. 1. "DUMP_MSTADDR,Dump master address Type: Control"
line.long 0x10 "L3_STCOL_DUMP_SLVOFS,"
line.long 0x14 "L3_STCOL_DUMP_MANUAL,"
bitfld.long 0x14 0. "DUMP_MANUAL,Define the dump mode: if != 0 the dump is controlled by the Send register" "0,1"
line.long 0x18 "L3_STCOL_DUMP_SEND,"
bitfld.long 0x18 0. "DUMP_SEND,In manual mode is used to send the dump content and initialize the counters" "0,1"
group.long 0xAC++0x1F
line.long 0x00 "L3_STCOL_FILTER_i_GLOBALEN,"
bitfld.long 0x00 0. "FILTER_i_GLOBALEN,Filter global enable Type: Control" "0,1"
line.long 0x04 "L3_STCOL_FILTER_i_ADDRMIN,"
hexmask.long.tbyte 0x04 0.--22. 1. "FILTER1_ADDRMIN,min addr range Type: Control"
line.long 0x08 "L3_STCOL_FILTER_i_ADDRMAX,"
hexmask.long.tbyte 0x08 0.--22. 1. "FILTER1_ADDRMAX,max addr range Type: Control"
line.long 0x0C "L3_STCOL_FILTER_i_ADDREN,"
bitfld.long 0x0C 0. "FILTER1_ADDREN,max filtering enable Type: Control" "0,1"
line.long 0x10 "L3_STCOL_FILTER_i_EN_k,"
bitfld.long 0x10 0. "FILTER_i_EN0,Enable filter stage 0 Type: Control" "0,1"
line.long 0x14 "L3_STCOL_FILTER_i_MASK_m_RD,"
bitfld.long 0x14 0. "FILTER_i_MASK_m_RD,Mask/Match of Rd Type: Control" "0,1"
line.long 0x18 "L3_STCOL_FILTER_i_MASK_m_WR,"
bitfld.long 0x18 0. "FILTER_i_MASK_m_WR,Mask/Match of Wr Type: Control" "0,1"
line.long 0x1C "L3_STCOL_FILTER_i_MASK_m_MSTADDR,"
hexmask.long.byte 0x1C 0.--7. 1. "FILTER_i_MASK_m_MSTADDR,Mask/Match of MstAddr Type: Control"
group.long 0xD0++0x07
line.long 0x00 "L3_STCOL_FILTER_i_MASK_m_ERR,"
bitfld.long 0x00 0. "FILTER_i_MASK_m_ERR,Mask/Match of Err Type: Control" "0,1"
line.long 0x04 "L3_STCOL_FILTER_i_MASK_m_USERINFO,"
hexmask.long.tbyte 0x04 0.--17. 1. "FILTER_i_MASK_m_USERINFO,Mask/Match of UserInfo Type: Control"
group.long 0xE0++0x0B
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_RD,"
bitfld.long 0x00 0. "FILTER_i_MATCH_m_RD,Mask/Match of Rd Type: Control" "0,1"
line.long 0x04 "L3_STCOL_FILTER_i_MATCH_m_WR,"
bitfld.long 0x04 0. "FILTER_i_MATCH_m_WR,Mask/Match of Wr Type: Control" "0,1"
line.long 0x08 "L3_STCOL_FILTER_i_MATCH_m_MSTADDR,"
hexmask.long.byte 0x08 0.--7. 1. "FILTER_i_MATCH_m_MSTADDR,Mask/Match of MstAddr Type: Control"
group.long 0xF0++0x07
line.long 0x00 "L3_STCOL_FILTER_i_MATCH_m_ERR,"
bitfld.long 0x00 0. "FILTER_i_MATCH_m_ERR,Mask/Match of Err Type: Control" "0,1"
line.long 0x04 "L3_STCOL_FILTER_i_MATCH_m_USERINFO,"
hexmask.long.tbyte 0x04 0.--17. 1. "FILTER_i_MATCH_m_USERINFO,Mask/Match of UserInfo Type: Control"
group.long 0x1F0++0x0F
line.long 0x00 "L3_STCOL_OP_i_THRESHOLD_MINVAL,"
hexmask.long.word 0x00 0.--11. 1. "OP_i_THRESHOLD_MINVAL,Min value Type: Control"
line.long 0x04 "L3_STCOL_OP_i_THRESHOLD_MAXVAL,"
hexmask.long.word 0x04 0.--11. 1. "OP_i_THRESHOLD_MAXVAL,Max value Type: Control"
line.long 0x08 "L3_STCOL_OP_i_EVTINFOSEL,"
bitfld.long 0x08 0.--1. "OP_i_EVTINFOSEL,Select event info data to add to counter (len/press or latency) Type: Control" "OP_i_EVTINFOSEL_0,OP_i_EVTINFOSEL_1,OP_i_EVTINFOSEL_2,?"
line.long 0x0C "L3_STCOL_OP_i_SEL,"
bitfld.long 0x0C 0.--3. "OP_i_SEL,Select logical operation Type: Control" "OP_i_SEL_0,OP_i_SEL_1,OP_i_SEL_2,OP_i_SEL_3,OP_i_SEL_4,OP_i_SEL_5,OP_i_SEL_6,OP_i_SEL_7,OP_i_SEL_8,?,?,?,?,?,?,?"
tree.end
tree "Debug_Firewall"
base ansd:0x4A226000
group.long 0x00++0x07
line.long 0x00 "ERROR_LOG_k,Error log register for port k"
bitfld.long 0x00 23. "BLK_BURST_VIOLATION," "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"
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"
line.long 0x04 "LOGICAL_ADDR_ERRLOG_k,Logical Physical Address Error log register for port k"
tree "REG_Bundle_0"
group.long 0x8C++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_0,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
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"
newline
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"
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"
bitfld.long 0x00 10. "R5,Master NIU ConnID = 5 read permission" "0,1"
newline
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"
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"
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"
newline
bitfld.long 0x00 2. "R1,Master NIU ConnID = 1 read permission" "0,1"
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++0x03
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"
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"
bitfld.long 0x00 7. "PUB_USR_READ,Public User Read Access Allowed" "0,1"
newline
bitfld.long 0x00 6. "PUB_USR_EXE,Public User Exe Access Allowed" "0,1"
tree.end
tree "REG_Bundle_1"
group.long 0x94++0x03
line.long 0x00 "END_REGION_i_1,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0x9C++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_1,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
bitfld.long 0x00 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
newline
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"
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"
newline
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"
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"
newline
bitfld.long 0x00 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
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"
newline
bitfld.long 0x00 8. "PUB_USR_WRITE,Public User Write Access Allowed" "0,1"
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++0x03
line.long 0x00 "START_REGION_i_1,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
group.long 0x40++0x03
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
rbitfld.long 0x00 1. "FW_LOAD_REQ,Hadrdware set/Software clear" "FW_LOAD_REQ_0,FW_LOAD_REQ_1"
bitfld.long 0x00 0. "BUSY_REQ,Busy request" "BUSY_REQ_0,BUSY_REQ_1"
tree.end
tree "GPMC_Firewall"
base ansd:0x4A210000
group.long 0x00++0x07
line.long 0x00 "ERROR_LOG_k,Error log register for port k"
bitfld.long 0x00 23. "BLK_BURST_VIOLATION," "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"
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"
line.long 0x04 "LOGICAL_ADDR_ERRLOG_k,Logical Physical Address Error log register for port k"
tree "REG_Bundle_0"
group.long 0x8C++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_0,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
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"
newline
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"
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"
bitfld.long 0x00 10. "R5,Master NIU ConnID = 5 read permission" "0,1"
newline
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"
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"
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"
newline
bitfld.long 0x00 2. "R1,Master NIU ConnID = 1 read permission" "0,1"
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++0x03
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"
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"
bitfld.long 0x00 7. "PUB_USR_READ,Public User Read Access Allowed" "0,1"
newline
bitfld.long 0x00 6. "PUB_USR_EXE,Public User Exe Access Allowed" "0,1"
tree.end
tree "REG_Bundle_1"
group.long 0x94++0x03
line.long 0x00 "END_REGION_i_1,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0x9C++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_1,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
bitfld.long 0x00 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
newline
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"
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"
newline
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"
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"
newline
bitfld.long 0x00 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
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"
newline
bitfld.long 0x00 8. "PUB_USR_WRITE,Public User Write Access Allowed" "0,1"
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++0x03
line.long 0x00 "START_REGION_i_1,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
tree "REG_Bundle_2"
group.long 0xA4++0x03
line.long 0x00 "END_REGION_i_2,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0xAC++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_2,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
bitfld.long 0x00 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
newline
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"
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"
newline
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"
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"
newline
bitfld.long 0x00 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
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"
newline
bitfld.long 0x00 8. "PUB_USR_WRITE,Public User Write Access Allowed" "0,1"
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++0x03
line.long 0x00 "START_REGION_i_2,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
tree "REG_Bundle_3"
group.long 0xB4++0x03
line.long 0x00 "END_REGION_i_3,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0xBC++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_3,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
bitfld.long 0x00 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
newline
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"
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"
newline
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"
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"
newline
bitfld.long 0x00 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
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"
newline
bitfld.long 0x00 8. "PUB_USR_WRITE,Public User Write Access Allowed" "0,1"
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++0x03
line.long 0x00 "START_REGION_i_3,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
tree "REG_Bundle_4"
group.long 0xC4++0x03
line.long 0x00 "END_REGION_i_4,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0xCC++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_4,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
bitfld.long 0x00 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
newline
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"
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"
newline
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"
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"
newline
bitfld.long 0x00 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
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"
newline
bitfld.long 0x00 8. "PUB_USR_WRITE,Public User Write Access Allowed" "0,1"
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++0x03
line.long 0x00 "START_REGION_i_4,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
tree "REG_Bundle_5"
group.long 0xD4++0x03
line.long 0x00 "END_REGION_i_5,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0xDC++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_5,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
bitfld.long 0x00 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
newline
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"
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"
newline
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"
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"
newline
bitfld.long 0x00 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
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"
newline
bitfld.long 0x00 8. "PUB_USR_WRITE,Public User Write Access Allowed" "0,1"
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++0x03
line.long 0x00 "START_REGION_i_5,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
tree "REG_Bundle_6"
group.long 0xE4++0x03
line.long 0x00 "END_REGION_i_6,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0xEC++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_6,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
bitfld.long 0x00 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
newline
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"
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"
newline
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"
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"
newline
bitfld.long 0x00 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
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"
newline
bitfld.long 0x00 8. "PUB_USR_WRITE,Public User Write Access Allowed" "0,1"
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++0x03
line.long 0x00 "START_REGION_i_6,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
tree "REG_Bundle_7"
group.long 0xF4++0x03
line.long 0x00 "END_REGION_i_7,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0xFC++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_7,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
bitfld.long 0x00 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
newline
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"
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"
newline
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"
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"
newline
bitfld.long 0x00 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
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"
newline
bitfld.long 0x00 8. "PUB_USR_WRITE,Public User Write Access Allowed" "0,1"
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++0x03
line.long 0x00 "START_REGION_i_7,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
group.long 0x40++0x03
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
rbitfld.long 0x00 1. "FW_LOAD_REQ,Hadrdware set/Software clear" "FW_LOAD_REQ_0,FW_LOAD_REQ_1"
bitfld.long 0x00 0. "BUSY_REQ,Busy request" "BUSY_REQ_0,BUSY_REQ_1"
tree.end
tree "L3_RAM_Firewall"
base ansd:0x4A212000
group.long 0x00++0x07
line.long 0x00 "ERROR_LOG_k,Error log register for port k"
bitfld.long 0x00 23. "BLK_BURST_VIOLATION," "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"
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"
line.long 0x04 "LOGICAL_ADDR_ERRLOG_k,Logical Physical Address Error log register for port k"
tree "REG_Bundle_0"
group.long 0x8C++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_0,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
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"
newline
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"
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"
bitfld.long 0x00 10. "R5,Master NIU ConnID = 5 read permission" "0,1"
newline
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"
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"
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"
newline
bitfld.long 0x00 2. "R1,Master NIU ConnID = 1 read permission" "0,1"
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++0x03
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"
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"
bitfld.long 0x00 7. "PUB_USR_READ,Public User Read Access Allowed" "0,1"
newline
bitfld.long 0x00 6. "PUB_USR_EXE,Public User Exe Access Allowed" "0,1"
tree.end
tree "REG_Bundle_1"
group.long 0x94++0x03
line.long 0x00 "END_REGION_i_1,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0x9C++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_1,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
bitfld.long 0x00 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
newline
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"
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"
newline
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"
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"
newline
bitfld.long 0x00 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
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"
newline
bitfld.long 0x00 8. "PUB_USR_WRITE,Public User Write Access Allowed" "0,1"
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++0x03
line.long 0x00 "START_REGION_i_1,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
tree "REG_Bundle_2"
group.long 0xA4++0x03
line.long 0x00 "END_REGION_i_2,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0xAC++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_2,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
bitfld.long 0x00 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
newline
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"
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"
newline
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"
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"
newline
bitfld.long 0x00 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
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"
newline
bitfld.long 0x00 8. "PUB_USR_WRITE,Public User Write Access Allowed" "0,1"
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++0x03
line.long 0x00 "START_REGION_i_2,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
tree "REG_Bundle_3"
group.long 0xB4++0x03
line.long 0x00 "END_REGION_i_3,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0xBC++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_3,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
bitfld.long 0x00 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
newline
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"
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"
newline
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"
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"
newline
bitfld.long 0x00 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
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"
newline
bitfld.long 0x00 8. "PUB_USR_WRITE,Public User Write Access Allowed" "0,1"
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++0x03
line.long 0x00 "START_REGION_i_3,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
tree "REG_Bundle_4"
group.long 0xC4++0x03
line.long 0x00 "END_REGION_i_4,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0xCC++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_4,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
bitfld.long 0x00 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
newline
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"
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"
newline
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"
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"
newline
bitfld.long 0x00 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
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"
newline
bitfld.long 0x00 8. "PUB_USR_WRITE,Public User Write Access Allowed" "0,1"
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++0x03
line.long 0x00 "START_REGION_i_4,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
tree "REG_Bundle_5"
group.long 0xD4++0x03
line.long 0x00 "END_REGION_i_5,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0xDC++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_5,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
bitfld.long 0x00 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
newline
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"
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"
newline
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"
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"
newline
bitfld.long 0x00 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
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"
newline
bitfld.long 0x00 8. "PUB_USR_WRITE,Public User Write Access Allowed" "0,1"
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++0x03
line.long 0x00 "START_REGION_i_5,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
tree "REG_Bundle_6"
group.long 0xE4++0x03
line.long 0x00 "END_REGION_i_6,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0xEC++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_6,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
bitfld.long 0x00 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
newline
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"
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"
newline
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"
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"
newline
bitfld.long 0x00 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
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"
newline
bitfld.long 0x00 8. "PUB_USR_WRITE,Public User Write Access Allowed" "0,1"
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++0x03
line.long 0x00 "START_REGION_i_6,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
tree "REG_Bundle_7"
group.long 0xF4++0x03
line.long 0x00 "END_REGION_i_7,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0xFC++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_7,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
bitfld.long 0x00 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
newline
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"
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"
newline
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"
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"
newline
bitfld.long 0x00 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
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"
newline
bitfld.long 0x00 8. "PUB_USR_WRITE,Public User Write Access Allowed" "0,1"
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++0x03
line.long 0x00 "START_REGION_i_7,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
tree "REG_Bundle_8"
group.long 0x104++0x03
line.long 0x00 "END_REGION_i_8,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0x10C++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_8,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
bitfld.long 0x00 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
newline
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"
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"
newline
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"
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"
newline
bitfld.long 0x00 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
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"
newline
bitfld.long 0x00 8. "PUB_USR_WRITE,Public User Write Access Allowed" "0,1"
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++0x03
line.long 0x00 "START_REGION_i_8,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
tree "REG_Bundle_9"
group.long 0x114++0x03
line.long 0x00 "END_REGION_i_9,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0x11C++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_9,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
bitfld.long 0x00 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
newline
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"
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"
newline
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"
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"
newline
bitfld.long 0x00 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
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"
newline
bitfld.long 0x00 8. "PUB_USR_WRITE,Public User Write Access Allowed" "0,1"
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++0x03
line.long 0x00 "START_REGION_i_9,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
group.long 0x40++0x03
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
rbitfld.long 0x00 1. "FW_LOAD_REQ,Hadrdware set/Software clear" "FW_LOAD_REQ_0,FW_LOAD_REQ_1"
bitfld.long 0x00 0. "BUSY_REQ,Busy request" "BUSY_REQ_0,BUSY_REQ_1"
tree.end
tree "EMIF_Firewall"
base ansd:0x4A20C000
tree "Channel_0"
group.long 0x00++0x07
line.long 0x00 "ERROR_LOG_k_0,Error log register for port k"
bitfld.long 0x00 23. "BLK_BURST_VIOLATION," "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"
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"
line.long 0x04 "LOGICAL_ADDR_ERRLOG_k_0,Logical Physical Address Error log register for port k"
group.long 0x8C++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_0,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
bitfld.long 0x00 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
newline
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"
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"
newline
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"
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"
newline
bitfld.long 0x00 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
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"
newline
bitfld.long 0x00 8. "PUB_USR_WRITE,Public User Write Access Allowed" "0,1"
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"
group.long 0x94++0x03
line.long 0x00 "END_REGION_i_1,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0x10++0x07
line.long 0x00 "ERROR_LOG_k_1,Error log register for port k"
bitfld.long 0x00 23. "BLK_BURST_VIOLATION," "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"
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"
line.long 0x04 "LOGICAL_ADDR_ERRLOG_k_1,Logical Physical Address Error log register for port k"
group.long 0x9C++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_1,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
newline
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"
bitfld.long 0x00 16. "R8,Master NIU ConnID = 8 read permission" "0,1"
newline
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"
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"
newline
bitfld.long 0x00 11. "W5,Master NIU ConnID = 5 write permission" "0,1"
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"
newline
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
bitfld.long 0x00 10. "PUB_PRV_READ,Public Privilege Read Allowed" "0,1"
newline
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"
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++0x03
line.long 0x00 "START_REGION_i_1,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
tree "REG_Bundle_2"
group.long 0xA4++0x03
line.long 0x00 "END_REGION_i_2,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0x20++0x07
line.long 0x00 "ERROR_LOG_k_2,Error log register for port k"
bitfld.long 0x00 23. "BLK_BURST_VIOLATION," "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"
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"
line.long 0x04 "LOGICAL_ADDR_ERRLOG_k_2,Logical Physical Address Error log register for port k"
group.long 0xAC++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_2,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
newline
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"
bitfld.long 0x00 16. "R8,Master NIU ConnID = 8 read permission" "0,1"
newline
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"
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"
newline
bitfld.long 0x00 11. "W5,Master NIU ConnID = 5 write permission" "0,1"
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"
newline
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
bitfld.long 0x00 10. "PUB_PRV_READ,Public Privilege Read Allowed" "0,1"
newline
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"
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++0x03
line.long 0x00 "START_REGION_i_2,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
tree "REG_Bundle_3"
group.long 0xB4++0x03
line.long 0x00 "END_REGION_i_3,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0xBC++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_3,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
bitfld.long 0x00 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
newline
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"
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"
newline
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"
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"
newline
bitfld.long 0x00 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
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"
newline
bitfld.long 0x00 8. "PUB_USR_WRITE,Public User Write Access Allowed" "0,1"
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++0x03
line.long 0x00 "START_REGION_i_3,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
tree "REG_Bundle_4"
group.long 0xC4++0x03
line.long 0x00 "END_REGION_i_4,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0xCC++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_4,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
bitfld.long 0x00 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
newline
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"
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"
newline
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"
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"
newline
bitfld.long 0x00 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
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"
newline
bitfld.long 0x00 8. "PUB_USR_WRITE,Public User Write Access Allowed" "0,1"
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++0x03
line.long 0x00 "START_REGION_i_4,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
tree "REG_Bundle_5"
group.long 0xD4++0x03
line.long 0x00 "END_REGION_i_5,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0xDC++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_5,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
bitfld.long 0x00 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
newline
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"
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"
newline
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"
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"
newline
bitfld.long 0x00 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
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"
newline
bitfld.long 0x00 8. "PUB_USR_WRITE,Public User Write Access Allowed" "0,1"
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++0x03
line.long 0x00 "START_REGION_i_5,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
tree "REG_Bundle_6"
group.long 0xE4++0x03
line.long 0x00 "END_REGION_i_6,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0xEC++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_6,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
bitfld.long 0x00 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
newline
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"
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"
newline
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"
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"
newline
bitfld.long 0x00 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
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"
newline
bitfld.long 0x00 8. "PUB_USR_WRITE,Public User Write Access Allowed" "0,1"
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++0x03
line.long 0x00 "START_REGION_i_6,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
tree "REG_Bundle_7"
group.long 0xF4++0x03
line.long 0x00 "END_REGION_i_7,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0xFC++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_7,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
bitfld.long 0x00 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
newline
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"
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"
newline
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"
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"
newline
bitfld.long 0x00 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
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"
newline
bitfld.long 0x00 8. "PUB_USR_WRITE,Public User Write Access Allowed" "0,1"
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++0x03
line.long 0x00 "START_REGION_i_7,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
group.long 0x40++0x03
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
rbitfld.long 0x00 1. "FW_LOAD_REQ,Hadrdware set/Software clear" "FW_LOAD_REQ_0,FW_LOAD_REQ_1"
bitfld.long 0x00 0. "BUSY_REQ,Busy request" "BUSY_REQ_0,BUSY_REQ_1"
tree.end
tree "MA_Firewall"
base ansd:0x4A20A000
tree "Channel_0"
group.long 0x00++0x07
line.long 0x00 "ERROR_LOG_k_0,Error log register for port k"
bitfld.long 0x00 23. "BLK_BURST_VIOLATION," "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"
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"
line.long 0x04 "LOGICAL_ADDR_ERRLOG_k_0,Logical Physical Address Error log register for port k"
group.long 0x8C++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_0,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
bitfld.long 0x00 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
newline
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"
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"
newline
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"
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"
newline
bitfld.long 0x00 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
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"
newline
bitfld.long 0x00 8. "PUB_USR_WRITE,Public User Write Access Allowed" "0,1"
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"
group.long 0x94++0x03
line.long 0x00 "END_REGION_i_1,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0x10++0x07
line.long 0x00 "ERROR_LOG_k_1,Error log register for port k"
bitfld.long 0x00 23. "BLK_BURST_VIOLATION," "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"
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"
line.long 0x04 "LOGICAL_ADDR_ERRLOG_k_1,Logical Physical Address Error log register for port k"
group.long 0x9C++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_1,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
newline
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"
bitfld.long 0x00 16. "R8,Master NIU ConnID = 8 read permission" "0,1"
newline
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"
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"
newline
bitfld.long 0x00 11. "W5,Master NIU ConnID = 5 write permission" "0,1"
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"
newline
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
bitfld.long 0x00 10. "PUB_PRV_READ,Public Privilege Read Allowed" "0,1"
newline
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"
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++0x03
line.long 0x00 "START_REGION_i_1,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
tree "REG_Bundle_2"
group.long 0xA4++0x03
line.long 0x00 "END_REGION_i_2,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0x20++0x07
line.long 0x00 "ERROR_LOG_k_2,Error log register for port k"
bitfld.long 0x00 23. "BLK_BURST_VIOLATION," "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"
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"
line.long 0x04 "LOGICAL_ADDR_ERRLOG_k_2,Logical Physical Address Error log register for port k"
group.long 0xAC++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_2,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
newline
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"
bitfld.long 0x00 16. "R8,Master NIU ConnID = 8 read permission" "0,1"
newline
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"
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"
newline
bitfld.long 0x00 11. "W5,Master NIU ConnID = 5 write permission" "0,1"
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"
newline
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
bitfld.long 0x00 10. "PUB_PRV_READ,Public Privilege Read Allowed" "0,1"
newline
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"
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++0x03
line.long 0x00 "START_REGION_i_2,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
tree "REG_Bundle_3"
group.long 0xB4++0x03
line.long 0x00 "END_REGION_i_3,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0xBC++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_3,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
bitfld.long 0x00 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
newline
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"
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"
newline
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"
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"
newline
bitfld.long 0x00 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
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"
newline
bitfld.long 0x00 8. "PUB_USR_WRITE,Public User Write Access Allowed" "0,1"
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++0x03
line.long 0x00 "START_REGION_i_3,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
tree "REG_Bundle_4"
group.long 0xC4++0x03
line.long 0x00 "END_REGION_i_4,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0xCC++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_4,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
bitfld.long 0x00 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
newline
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"
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"
newline
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"
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"
newline
bitfld.long 0x00 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
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"
newline
bitfld.long 0x00 8. "PUB_USR_WRITE,Public User Write Access Allowed" "0,1"
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++0x03
line.long 0x00 "START_REGION_i_4,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
tree "REG_Bundle_5"
group.long 0xD4++0x03
line.long 0x00 "END_REGION_i_5,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0xDC++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_5,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
bitfld.long 0x00 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
newline
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"
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"
newline
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"
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"
newline
bitfld.long 0x00 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
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"
newline
bitfld.long 0x00 8. "PUB_USR_WRITE,Public User Write Access Allowed" "0,1"
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++0x03
line.long 0x00 "START_REGION_i_5,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
tree "REG_Bundle_6"
group.long 0xE4++0x03
line.long 0x00 "END_REGION_i_6,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0xEC++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_6,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
bitfld.long 0x00 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
newline
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"
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"
newline
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"
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"
newline
bitfld.long 0x00 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
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"
newline
bitfld.long 0x00 8. "PUB_USR_WRITE,Public User Write Access Allowed" "0,1"
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++0x03
line.long 0x00 "START_REGION_i_6,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
tree "REG_Bundle_7"
group.long 0xF4++0x03
line.long 0x00 "END_REGION_i_7,End physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "END_REGION,Physical target end address of firewall region i"
bitfld.long 0x00 2. "REGION_ENABLE_PORT2,Enable this region for port 2" "0,1"
bitfld.long 0x00 1. "REGION_ENABLE_PORT1,Enable this region for port 1" "0,1"
bitfld.long 0x00 0. "REGION_ENABLE_PORT0,Enable this region for port 0" "0,1"
group.long 0xFC++0x03
line.long 0x00 "MRM_PERMISSION_REGION_HIGH_j_7,Region j Permission High"
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 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x00 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
bitfld.long 0x00 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
newline
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"
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"
newline
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"
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"
newline
bitfld.long 0x00 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
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"
bitfld.long 0x00 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
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"
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++0x03
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"
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"
newline
bitfld.long 0x00 8. "PUB_USR_WRITE,Public User Write Access Allowed" "0,1"
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++0x03
line.long 0x00 "START_REGION_i_7,Start physical address of region i"
hexmask.long.tbyte 0x00 12.--31. 1. "START_REGION,Physical target start address of firewall region i"
tree.end
group.long 0x40++0x03
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
rbitfld.long 0x00 1. "FW_LOAD_REQ,Hadrdware set/Software clear" "FW_LOAD_REQ_0,FW_LOAD_REQ_1"
bitfld.long 0x00 0. "BUSY_REQ,Busy request" "BUSY_REQ_0,BUSY_REQ_1"
tree.end
tree "DSS_Firewall"
base ansd:0x4A21C000
group.long 0x00++0x07
line.long 0x00 "ERROR_LOG_k,Error log register for port k"
bitfld.long 0x00 23. "BLK_BURST_VIOLATION," "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"
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"
line.long 0x04 "LOGICAL_ADDR_ERRLOG_k,Logical Physical Address Error log register for port k"
group.long 0x40++0x03
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
rbitfld.long 0x00 1. "FW_LOAD_REQ,Hadrdware set/Software clear" "FW_LOAD_REQ_0,FW_LOAD_REQ_1"
bitfld.long 0x00 0. "BUSY_REQ,Busy request" "BUSY_REQ_0,BUSY_REQ_1"
group.long 0x88++0x07
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"
bitfld.long 0x00 10. "PUB_PRV_READ,Public Privilege Read Allowed" "0,1"
newline
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"
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"
line.long 0x04 "MRM_PERMISSION_REGION_HIGH_j,Region j Permission High"
bitfld.long 0x04 25. "W12,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x04 24. "R12,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x04 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x04 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
newline
bitfld.long 0x04 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x04 18. "R9,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x04 17. "W8,Master NIU ConnID = 8 write permission" "0,1"
bitfld.long 0x04 16. "R8,Master NIU ConnID = 8 read permission" "0,1"
newline
bitfld.long 0x04 15. "W7,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x04 14. "R7,Master NIU ConnID = 7 read permission" "0,1"
bitfld.long 0x04 13. "W6,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x04 12. "R6,Master NIU ConnID = 6 read permission" "0,1"
newline
bitfld.long 0x04 11. "W5,Master NIU ConnID = 5 write permission" "0,1"
bitfld.long 0x04 10. "R5,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x04 9. "W4,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x04 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
newline
bitfld.long 0x04 7. "W3,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x04 6. "R3,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x04 5. "W2,Master NIU ConnID = 2 write permission" "0,1"
bitfld.long 0x04 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
bitfld.long 0x04 3. "W1,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x04 2. "R1,Master NIU ConnID = 1 read permission" "0,1"
bitfld.long 0x04 1. "W0,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x04 0. "R0,Master NIU ConnID = 0 read permission" "0,1"
tree.end
tree "Dual_Cortex_M3_Firewall"
base ansd:0x4A218000
group.long 0x00++0x07
line.long 0x00 "ERROR_LOG_k,Error log register for port k"
bitfld.long 0x00 23. "BLK_BURST_VIOLATION," "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"
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"
line.long 0x04 "LOGICAL_ADDR_ERRLOG_k,Logical Physical Address Error log register for port k"
group.long 0x40++0x03
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
rbitfld.long 0x00 1. "FW_LOAD_REQ,Hadrdware set/Software clear" "FW_LOAD_REQ_0,FW_LOAD_REQ_1"
bitfld.long 0x00 0. "BUSY_REQ,Busy request" "BUSY_REQ_0,BUSY_REQ_1"
group.long 0x88++0x07
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"
bitfld.long 0x00 10. "PUB_PRV_READ,Public Privilege Read Allowed" "0,1"
newline
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"
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"
line.long 0x04 "MRM_PERMISSION_REGION_HIGH_j,Region j Permission High"
bitfld.long 0x04 25. "W12,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x04 24. "R12,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x04 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x04 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
newline
bitfld.long 0x04 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x04 18. "R9,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x04 17. "W8,Master NIU ConnID = 8 write permission" "0,1"
bitfld.long 0x04 16. "R8,Master NIU ConnID = 8 read permission" "0,1"
newline
bitfld.long 0x04 15. "W7,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x04 14. "R7,Master NIU ConnID = 7 read permission" "0,1"
bitfld.long 0x04 13. "W6,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x04 12. "R6,Master NIU ConnID = 6 read permission" "0,1"
newline
bitfld.long 0x04 11. "W5,Master NIU ConnID = 5 write permission" "0,1"
bitfld.long 0x04 10. "R5,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x04 9. "W4,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x04 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
newline
bitfld.long 0x04 7. "W3,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x04 6. "R3,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x04 5. "W2,Master NIU ConnID = 2 write permission" "0,1"
bitfld.long 0x04 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
bitfld.long 0x04 3. "W1,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x04 2. "R1,Master NIU ConnID = 1 read permission" "0,1"
bitfld.long 0x04 1. "W0,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x04 0. "R0,Master NIU ConnID = 0 read permission" "0,1"
tree.end
tree "ISS_Firewall"
base ansd:0x4A216000
group.long 0x00++0x07
line.long 0x00 "ERROR_LOG_k,Error log register for port k"
bitfld.long 0x00 23. "BLK_BURST_VIOLATION," "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"
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"
line.long 0x04 "LOGICAL_ADDR_ERRLOG_k,Logical Physical Address Error log register for port k"
group.long 0x40++0x03
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
rbitfld.long 0x00 1. "FW_LOAD_REQ,Hadrdware set/Software clear" "FW_LOAD_REQ_0,FW_LOAD_REQ_1"
bitfld.long 0x00 0. "BUSY_REQ,Busy request" "BUSY_REQ_0,BUSY_REQ_1"
group.long 0x88++0x07
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"
bitfld.long 0x00 10. "PUB_PRV_READ,Public Privilege Read Allowed" "0,1"
newline
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"
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"
line.long 0x04 "MRM_PERMISSION_REGION_HIGH_j,Region j Permission High"
bitfld.long 0x04 25. "W12,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x04 24. "R12,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x04 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x04 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
newline
bitfld.long 0x04 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x04 18. "R9,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x04 17. "W8,Master NIU ConnID = 8 write permission" "0,1"
bitfld.long 0x04 16. "R8,Master NIU ConnID = 8 read permission" "0,1"
newline
bitfld.long 0x04 15. "W7,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x04 14. "R7,Master NIU ConnID = 7 read permission" "0,1"
bitfld.long 0x04 13. "W6,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x04 12. "R6,Master NIU ConnID = 6 read permission" "0,1"
newline
bitfld.long 0x04 11. "W5,Master NIU ConnID = 5 write permission" "0,1"
bitfld.long 0x04 10. "R5,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x04 9. "W4,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x04 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
newline
bitfld.long 0x04 7. "W3,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x04 6. "R3,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x04 5. "W2,Master NIU ConnID = 2 write permission" "0,1"
bitfld.long 0x04 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
bitfld.long 0x04 3. "W1,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x04 2. "R1,Master NIU ConnID = 1 read permission" "0,1"
bitfld.long 0x04 1. "W0,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x04 0. "R0,Master NIU ConnID = 0 read permission" "0,1"
tree.end
tree "IVA_HD_Firewall"
base ansd:0x4A220000
group.long 0x00++0x07
line.long 0x00 "ERROR_LOG_k,Error log register for port k"
bitfld.long 0x00 23. "BLK_BURST_VIOLATION," "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"
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"
line.long 0x04 "LOGICAL_ADDR_ERRLOG_k,Logical Physical Address Error log register for port k"
group.long 0x40++0x03
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
rbitfld.long 0x00 1. "FW_LOAD_REQ,Hadrdware set/Software clear" "FW_LOAD_REQ_0,FW_LOAD_REQ_1"
bitfld.long 0x00 0. "BUSY_REQ,Busy request" "BUSY_REQ_0,BUSY_REQ_1"
group.long 0x88++0x07
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"
bitfld.long 0x00 10. "PUB_PRV_READ,Public Privilege Read Allowed" "0,1"
newline
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"
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"
line.long 0x04 "MRM_PERMISSION_REGION_HIGH_j,Region j Permission High"
bitfld.long 0x04 25. "W12,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x04 24. "R12,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x04 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x04 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
newline
bitfld.long 0x04 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x04 18. "R9,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x04 17. "W8,Master NIU ConnID = 8 write permission" "0,1"
bitfld.long 0x04 16. "R8,Master NIU ConnID = 8 read permission" "0,1"
newline
bitfld.long 0x04 15. "W7,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x04 14. "R7,Master NIU ConnID = 7 read permission" "0,1"
bitfld.long 0x04 13. "W6,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x04 12. "R6,Master NIU ConnID = 6 read permission" "0,1"
newline
bitfld.long 0x04 11. "W5,Master NIU ConnID = 5 write permission" "0,1"
bitfld.long 0x04 10. "R5,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x04 9. "W4,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x04 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
newline
bitfld.long 0x04 7. "W3,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x04 6. "R3,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x04 5. "W2,Master NIU ConnID = 2 write permission" "0,1"
bitfld.long 0x04 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
bitfld.long 0x04 3. "W1,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x04 2. "R1,Master NIU ConnID = 1 read permission" "0,1"
bitfld.long 0x04 1. "W0,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x04 0. "R0,Master NIU ConnID = 0 read permission" "0,1"
tree.end
tree "L4_ABE_Firewall"
base ansd:0x4A228000
group.long 0x00++0x07
line.long 0x00 "ERROR_LOG_k,Error log register for port k"
bitfld.long 0x00 23. "BLK_BURST_VIOLATION," "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"
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"
line.long 0x04 "LOGICAL_ADDR_ERRLOG_k,Logical Physical Address Error log register for port k"
group.long 0x40++0x03
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
rbitfld.long 0x00 1. "FW_LOAD_REQ,Hadrdware set/Software clear" "FW_LOAD_REQ_0,FW_LOAD_REQ_1"
bitfld.long 0x00 0. "BUSY_REQ,Busy request" "BUSY_REQ_0,BUSY_REQ_1"
group.long 0x88++0x07
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"
bitfld.long 0x00 10. "PUB_PRV_READ,Public Privilege Read Allowed" "0,1"
newline
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"
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"
line.long 0x04 "MRM_PERMISSION_REGION_HIGH_j,Region j Permission High"
bitfld.long 0x04 25. "W12,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x04 24. "R12,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x04 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x04 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
newline
bitfld.long 0x04 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x04 18. "R9,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x04 17. "W8,Master NIU ConnID = 8 write permission" "0,1"
bitfld.long 0x04 16. "R8,Master NIU ConnID = 8 read permission" "0,1"
newline
bitfld.long 0x04 15. "W7,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x04 14. "R7,Master NIU ConnID = 7 read permission" "0,1"
bitfld.long 0x04 13. "W6,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x04 12. "R6,Master NIU ConnID = 6 read permission" "0,1"
newline
bitfld.long 0x04 11. "W5,Master NIU ConnID = 5 write permission" "0,1"
bitfld.long 0x04 10. "R5,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x04 9. "W4,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x04 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
newline
bitfld.long 0x04 7. "W3,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x04 6. "R3,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x04 5. "W2,Master NIU ConnID = 2 write permission" "0,1"
bitfld.long 0x04 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
bitfld.long 0x04 3. "W1,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x04 2. "R1,Master NIU ConnID = 1 read permission" "0,1"
bitfld.long 0x04 1. "W0,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x04 0. "R0,Master NIU ConnID = 0 read permission" "0,1"
tree.end
tree "SGX_Firewall"
base ansd:0x4A214000
group.long 0x00++0x07
line.long 0x00 "ERROR_LOG_k,Error log register for port k"
bitfld.long 0x00 23. "BLK_BURST_VIOLATION," "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"
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"
line.long 0x04 "LOGICAL_ADDR_ERRLOG_k,Logical Physical Address Error log register for port k"
group.long 0x40++0x03
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
rbitfld.long 0x00 1. "FW_LOAD_REQ,Hadrdware set/Software clear" "FW_LOAD_REQ_0,FW_LOAD_REQ_1"
bitfld.long 0x00 0. "BUSY_REQ,Busy request" "BUSY_REQ_0,BUSY_REQ_1"
group.long 0x88++0x07
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"
bitfld.long 0x00 10. "PUB_PRV_READ,Public Privilege Read Allowed" "0,1"
newline
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"
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"
line.long 0x04 "MRM_PERMISSION_REGION_HIGH_j,Region j Permission High"
bitfld.long 0x04 25. "W12,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x04 24. "R12,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x04 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x04 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
newline
bitfld.long 0x04 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x04 18. "R9,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x04 17. "W8,Master NIU ConnID = 8 write permission" "0,1"
bitfld.long 0x04 16. "R8,Master NIU ConnID = 8 read permission" "0,1"
newline
bitfld.long 0x04 15. "W7,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x04 14. "R7,Master NIU ConnID = 7 read permission" "0,1"
bitfld.long 0x04 13. "W6,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x04 12. "R6,Master NIU ConnID = 6 read permission" "0,1"
newline
bitfld.long 0x04 11. "W5,Master NIU ConnID = 5 write permission" "0,1"
bitfld.long 0x04 10. "R5,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x04 9. "W4,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x04 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
newline
bitfld.long 0x04 7. "W3,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x04 6. "R3,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x04 5. "W2,Master NIU ConnID = 2 write permission" "0,1"
bitfld.long 0x04 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
bitfld.long 0x04 3. "W1,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x04 2. "R1,Master NIU ConnID = 1 read permission" "0,1"
bitfld.long 0x04 1. "W0,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x04 0. "R0,Master NIU ConnID = 0 read permission" "0,1"
tree.end
tree "SL2_Firewall"
base ansd:0x4A21E000
group.long 0x00++0x07
line.long 0x00 "ERROR_LOG_k,Error log register for port k"
bitfld.long 0x00 23. "BLK_BURST_VIOLATION," "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"
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"
line.long 0x04 "LOGICAL_ADDR_ERRLOG_k,Logical Physical Address Error log register for port k"
group.long 0x40++0x03
line.long 0x00 "REGUPDATE_CONTROL,Register update control register"
rbitfld.long 0x00 1. "FW_LOAD_REQ,Hadrdware set/Software clear" "FW_LOAD_REQ_0,FW_LOAD_REQ_1"
bitfld.long 0x00 0. "BUSY_REQ,Busy request" "BUSY_REQ_0,BUSY_REQ_1"
group.long 0x88++0x07
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"
bitfld.long 0x00 10. "PUB_PRV_READ,Public Privilege Read Allowed" "0,1"
newline
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"
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"
line.long 0x04 "MRM_PERMISSION_REGION_HIGH_j,Region j Permission High"
bitfld.long 0x04 25. "W12,Master NIU ConnID = 12 write permission" "0,1"
bitfld.long 0x04 24. "R12,Master NIU ConnID = 12 read permission" "0,1"
bitfld.long 0x04 21. "W10,Master NIU ConnID = 10 write permission" "0,1"
bitfld.long 0x04 20. "R10,Master NIU ConnID = 10 read permission" "0,1"
newline
bitfld.long 0x04 19. "W9,Master NIU ConnID = 9 write permission" "0,1"
bitfld.long 0x04 18. "R9,Master NIU ConnID = 9 read permission" "0,1"
bitfld.long 0x04 17. "W8,Master NIU ConnID = 8 write permission" "0,1"
bitfld.long 0x04 16. "R8,Master NIU ConnID = 8 read permission" "0,1"
newline
bitfld.long 0x04 15. "W7,Master NIU ConnID = 7 write permission" "0,1"
bitfld.long 0x04 14. "R7,Master NIU ConnID = 7 read permission" "0,1"
bitfld.long 0x04 13. "W6,Master NIU ConnID = 6 write permission" "0,1"
bitfld.long 0x04 12. "R6,Master NIU ConnID = 6 read permission" "0,1"
newline
bitfld.long 0x04 11. "W5,Master NIU ConnID = 5 write permission" "0,1"
bitfld.long 0x04 10. "R5,Master NIU ConnID = 5 read permission" "0,1"
bitfld.long 0x04 9. "W4,Master NIU ConnID = 4 write permission" "0,1"
bitfld.long 0x04 8. "R4,Master NIU ConnID = 4 read permission" "0,1"
newline
bitfld.long 0x04 7. "W3,Master NIU ConnID = 3 write permission" "0,1"
bitfld.long 0x04 6. "R3,Master NIU ConnID = 3 read permission" "0,1"
bitfld.long 0x04 5. "W2,Master NIU ConnID = 2 write permission" "0,1"
bitfld.long 0x04 4. "R2,Master NIU ConnID = 2 read permission" "0,1"
newline
bitfld.long 0x04 3. "W1,Master NIU ConnID = 1 write permission" "0,1"
bitfld.long 0x04 2. "R1,Master NIU ConnID = 1 read permission" "0,1"
bitfld.long 0x04 1. "W0,Master NIU ConnID = 0 write permission" "0,1"
bitfld.long 0x04 0. "R0,Master NIU ConnID = 0 read permission" "0,1"
tree.end
tree.end
tree "L4_Interconnects"
tree "CFG_AP"
base ansd:0x4A000000
tree "Channel_0"
rgroup.long 0x204++0x03
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_H_0,Define ConnID bit vectors for a protection group"
group.long 0x200++0x03
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_0,Define ConnID bit vectors for a protection group"
hexmask.long.word 0x00 16.--31. 1. "Reserved,Reserved"
bitfld.long 0x00 15. "DMM_PAGE_TABLE_WALK,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 14. "PERF_PROBE,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 13. "Reserved,Reserved" "0,1"
bitfld.long 0x00 12. "HS USB_HOST USB,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 11. "Reserved,Reserved" "0,1"
newline
bitfld.long 0x00 10. "MMC1_MMC2,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 9. "HSI,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 8. "C2C,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 7. "DSS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 6. "SGX,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 5. "sDMA,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 4. "CAM_CORTEXA9_MPU SS_FACE_DETECT,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 3. "IVA_HD,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 2. "DSP_SS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 1. "DAP,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 0. "CORTEXM3_MPU_SS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
rgroup.long 0x284++0x03
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_0,Define ConnID bit vectors for a protection group"
rgroup.long 0x280++0x03
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_0,Define MReqInfo bit vectors for a protection group"
hexmask.long.word 0x00 16.--31. 1. "Reserved,Read returns 0"
hexmask.long.word 0x00 0.--15. 1. "ENABLE,Setting of type acces allowed for the group of initiators"
group.long 0x304++0x03
line.long 0x00 "L4_AP_REGION_l_H_0,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
newline
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
newline
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x300++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
rgroup.long 0x104++0x03
line.long 0x00 "L4_AP_SEGMENT_i_H_0,Define the size of each segments"
hexmask.long 0x00 5.--31. 1. "Reserved,Read returns 0"
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++0x03
line.long 0x00 "L4_AP_SEGMENT_i_L_0,Define the base address of each segments"
hexmask.long.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,The base address of the segment (with 0s from bit 0 to bit SIZE-1)"
tree.end
tree "Channel_1"
rgroup.long 0x20C++0x03
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_H_1,Define ConnID bit vectors for a protection group"
group.long 0x208++0x03
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_1,Define ConnID bit vectors for a protection group"
hexmask.long.word 0x00 16.--31. 1. "Reserved,Reserved"
bitfld.long 0x00 15. "DMM_PAGE_TABLE_WALK,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 14. "PERF_PROBE,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 13. "Reserved,Reserved" "0,1"
bitfld.long 0x00 12. "HS USB_HOST USB,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 11. "Reserved,Reserved" "0,1"
newline
bitfld.long 0x00 10. "MMC1_MMC2,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 9. "HSI,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 8. "C2C,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 7. "DSS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 6. "SGX,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 5. "sDMA,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 4. "CAM_CORTEXA9_MPU SS_FACE_DETECT,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 3. "IVA_HD,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 2. "DSP_SS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 1. "DAP,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 0. "CORTEXM3_MPU_SS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
rgroup.long 0x28C++0x03
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_1,Define ConnID bit vectors for a protection group"
rgroup.long 0x288++0x03
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_1,Define MReqInfo bit vectors for a protection group"
hexmask.long.word 0x00 16.--31. 1. "Reserved,Read returns 0"
hexmask.long.word 0x00 0.--15. 1. "ENABLE,Setting of type acces allowed for the group of initiators"
group.long 0x30C++0x03
line.long 0x00 "L4_AP_REGION_l_H_1,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
newline
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
newline
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x308++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
rgroup.long 0x10C++0x03
line.long 0x00 "L4_AP_SEGMENT_i_H_1,Define the size of each segments"
hexmask.long 0x00 5.--31. 1. "Reserved,Read returns 0"
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++0x03
line.long 0x00 "L4_AP_SEGMENT_i_L_1,Define the base address of each segments"
hexmask.long.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,The base address of the segment (with 0s from bit 0 to bit SIZE-1)"
tree.end
tree "Channel_2"
rgroup.long 0x214++0x03
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_H_2,Define ConnID bit vectors for a protection group"
group.long 0x210++0x03
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_2,Define ConnID bit vectors for a protection group"
hexmask.long.word 0x00 16.--31. 1. "Reserved,Reserved"
bitfld.long 0x00 15. "DMM_PAGE_TABLE_WALK,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 14. "PERF_PROBE,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 13. "Reserved,Reserved" "0,1"
bitfld.long 0x00 12. "HS USB_HOST USB,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 11. "Reserved,Reserved" "0,1"
newline
bitfld.long 0x00 10. "MMC1_MMC2,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 9. "HSI,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 8. "C2C,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 7. "DSS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 6. "SGX,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 5. "sDMA,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 4. "CAM_CORTEXA9_MPU SS_FACE_DETECT,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 3. "IVA_HD,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 2. "DSP_SS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 1. "DAP,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 0. "CORTEXM3_MPU_SS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
rgroup.long 0x294++0x03
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_2,Define ConnID bit vectors for a protection group"
rgroup.long 0x290++0x03
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_2,Define MReqInfo bit vectors for a protection group"
hexmask.long.word 0x00 16.--31. 1. "Reserved,Read returns 0"
hexmask.long.word 0x00 0.--15. 1. "ENABLE,Setting of type acces allowed for the group of initiators"
group.long 0x314++0x03
line.long 0x00 "L4_AP_REGION_l_H_2,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
newline
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
newline
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x310++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
rgroup.long 0x114++0x03
line.long 0x00 "L4_AP_SEGMENT_i_H_2,Define the size of each segments"
hexmask.long 0x00 5.--31. 1. "Reserved,Read returns 0"
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++0x03
line.long 0x00 "L4_AP_SEGMENT_i_L_2,Define the base address of each segments"
hexmask.long.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,The base address of the segment (with 0s from bit 0 to bit SIZE-1)"
tree.end
tree "Channel_3"
rgroup.long 0x21C++0x03
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_H_3,Define ConnID bit vectors for a protection group"
group.long 0x218++0x03
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_3,Define ConnID bit vectors for a protection group"
hexmask.long.word 0x00 16.--31. 1. "Reserved,Reserved"
bitfld.long 0x00 15. "DMM_PAGE_TABLE_WALK,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 14. "PERF_PROBE,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 13. "Reserved,Reserved" "0,1"
bitfld.long 0x00 12. "HS USB_HOST USB,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 11. "Reserved,Reserved" "0,1"
newline
bitfld.long 0x00 10. "MMC1_MMC2,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 9. "HSI,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 8. "C2C,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 7. "DSS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 6. "SGX,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 5. "sDMA,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 4. "CAM_CORTEXA9_MPU SS_FACE_DETECT,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 3. "IVA_HD,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 2. "DSP_SS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 1. "DAP,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 0. "CORTEXM3_MPU_SS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
rgroup.long 0x29C++0x03
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_3,Define ConnID bit vectors for a protection group"
rgroup.long 0x298++0x03
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_3,Define MReqInfo bit vectors for a protection group"
hexmask.long.word 0x00 16.--31. 1. "Reserved,Read returns 0"
hexmask.long.word 0x00 0.--15. 1. "ENABLE,Setting of type acces allowed for the group of initiators"
group.long 0x31C++0x03
line.long 0x00 "L4_AP_REGION_l_H_3,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
newline
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
newline
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x318++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
rgroup.long 0x11C++0x03
line.long 0x00 "L4_AP_SEGMENT_i_H_3,Define the size of each segments"
hexmask.long 0x00 5.--31. 1. "Reserved,Read returns 0"
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++0x03
line.long 0x00 "L4_AP_SEGMENT_i_L_3,Define the base address of each segments"
hexmask.long.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,The base address of the segment (with 0s from bit 0 to bit SIZE-1)"
tree.end
tree "Channel_4"
rgroup.long 0x224++0x03
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_H_4,Define ConnID bit vectors for a protection group"
group.long 0x220++0x03
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_4,Define ConnID bit vectors for a protection group"
hexmask.long.word 0x00 16.--31. 1. "Reserved,Reserved"
bitfld.long 0x00 15. "DMM_PAGE_TABLE_WALK,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 14. "PERF_PROBE,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 13. "Reserved,Reserved" "0,1"
bitfld.long 0x00 12. "HS USB_HOST USB,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 11. "Reserved,Reserved" "0,1"
newline
bitfld.long 0x00 10. "MMC1_MMC2,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 9. "HSI,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 8. "C2C,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 7. "DSS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 6. "SGX,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 5. "sDMA,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 4. "CAM_CORTEXA9_MPU SS_FACE_DETECT,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 3. "IVA_HD,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 2. "DSP_SS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 1. "DAP,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 0. "CORTEXM3_MPU_SS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
rgroup.long 0x2A4++0x03
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_4,Define ConnID bit vectors for a protection group"
rgroup.long 0x2A0++0x03
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_4,Define MReqInfo bit vectors for a protection group"
hexmask.long.word 0x00 16.--31. 1. "Reserved,Read returns 0"
hexmask.long.word 0x00 0.--15. 1. "ENABLE,Setting of type acces allowed for the group of initiators"
group.long 0x324++0x03
line.long 0x00 "L4_AP_REGION_l_H_4,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
newline
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
newline
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x320++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
rgroup.long 0x124++0x03
line.long 0x00 "L4_AP_SEGMENT_i_H_4,Define the size of each segments"
hexmask.long 0x00 5.--31. 1. "Reserved,Read returns 0"
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 0x120++0x03
line.long 0x00 "L4_AP_SEGMENT_i_L_4,Define the base address of each segments"
hexmask.long.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,The base address of the segment (with 0s from bit 0 to bit SIZE-1)"
tree.end
tree "Channel_5"
rgroup.long 0x22C++0x03
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_H_5,Define ConnID bit vectors for a protection group"
group.long 0x228++0x03
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_5,Define ConnID bit vectors for a protection group"
hexmask.long.word 0x00 16.--31. 1. "Reserved,Reserved"
bitfld.long 0x00 15. "DMM_PAGE_TABLE_WALK,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 14. "PERF_PROBE,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 13. "Reserved,Reserved" "0,1"
bitfld.long 0x00 12. "HS USB_HOST USB,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 11. "Reserved,Reserved" "0,1"
newline
bitfld.long 0x00 10. "MMC1_MMC2,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 9. "HSI,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 8. "C2C,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 7. "DSS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 6. "SGX,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 5. "sDMA,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 4. "CAM_CORTEXA9_MPU SS_FACE_DETECT,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 3. "IVA_HD,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 2. "DSP_SS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 1. "DAP,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 0. "CORTEXM3_MPU_SS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
rgroup.long 0x2AC++0x03
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_5,Define ConnID bit vectors for a protection group"
rgroup.long 0x2A8++0x03
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_5,Define MReqInfo bit vectors for a protection group"
hexmask.long.word 0x00 16.--31. 1. "Reserved,Read returns 0"
hexmask.long.word 0x00 0.--15. 1. "ENABLE,Setting of type acces allowed for the group of initiators"
group.long 0x32C++0x03
line.long 0x00 "L4_AP_REGION_l_H_5,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
newline
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
newline
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x328++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
rgroup.long 0x12C++0x03
line.long 0x00 "L4_AP_SEGMENT_i_H_5,Define the size of each segments"
hexmask.long 0x00 5.--31. 1. "Reserved,Read returns 0"
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 0x128++0x03
line.long 0x00 "L4_AP_SEGMENT_i_L_5,Define the base address of each segments"
hexmask.long.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,The base address of the segment (with 0s from bit 0 to bit SIZE-1)"
tree.end
tree "Channel_6"
rgroup.long 0x234++0x03
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_H_6,Define ConnID bit vectors for a protection group"
group.long 0x230++0x03
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_6,Define ConnID bit vectors for a protection group"
hexmask.long.word 0x00 16.--31. 1. "Reserved,Reserved"
bitfld.long 0x00 15. "DMM_PAGE_TABLE_WALK,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 14. "PERF_PROBE,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 13. "Reserved,Reserved" "0,1"
bitfld.long 0x00 12. "HS USB_HOST USB,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 11. "Reserved,Reserved" "0,1"
newline
bitfld.long 0x00 10. "MMC1_MMC2,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 9. "HSI,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 8. "C2C,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 7. "DSS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 6. "SGX,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 5. "sDMA,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 4. "CAM_CORTEXA9_MPU SS_FACE_DETECT,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 3. "IVA_HD,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 2. "DSP_SS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 1. "DAP,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 0. "CORTEXM3_MPU_SS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
rgroup.long 0x2B4++0x03
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_6,Define ConnID bit vectors for a protection group"
rgroup.long 0x2B0++0x03
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_6,Define MReqInfo bit vectors for a protection group"
hexmask.long.word 0x00 16.--31. 1. "Reserved,Read returns 0"
hexmask.long.word 0x00 0.--15. 1. "ENABLE,Setting of type acces allowed for the group of initiators"
group.long 0x334++0x03
line.long 0x00 "L4_AP_REGION_l_H_6,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
newline
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
newline
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x330++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
rgroup.long 0x134++0x03
line.long 0x00 "L4_AP_SEGMENT_i_H_6,Define the size of each segments"
hexmask.long 0x00 5.--31. 1. "Reserved,Read returns 0"
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 0x130++0x03
line.long 0x00 "L4_AP_SEGMENT_i_L_6,Define the base address of each segments"
hexmask.long.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,The base address of the segment (with 0s from bit 0 to bit SIZE-1)"
tree.end
tree "Channel_7"
rgroup.long 0x23C++0x03
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_H_7,Define ConnID bit vectors for a protection group"
group.long 0x238++0x03
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_7,Define ConnID bit vectors for a protection group"
hexmask.long.word 0x00 16.--31. 1. "Reserved,Reserved"
bitfld.long 0x00 15. "DMM_PAGE_TABLE_WALK,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 14. "PERF_PROBE,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 13. "Reserved,Reserved" "0,1"
bitfld.long 0x00 12. "HS USB_HOST USB,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 11. "Reserved,Reserved" "0,1"
newline
bitfld.long 0x00 10. "MMC1_MMC2,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 9. "HSI,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 8. "C2C,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 7. "DSS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 6. "SGX,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 5. "sDMA,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 4. "CAM_CORTEXA9_MPU SS_FACE_DETECT,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 3. "IVA_HD,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 2. "DSP_SS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 1. "DAP,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 0. "CORTEXM3_MPU_SS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
rgroup.long 0x2BC++0x03
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_7,Define ConnID bit vectors for a protection group"
rgroup.long 0x2B8++0x03
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_7,Define MReqInfo bit vectors for a protection group"
hexmask.long.word 0x00 16.--31. 1. "Reserved,Read returns 0"
hexmask.long.word 0x00 0.--15. 1. "ENABLE,Setting of type acces allowed for the group of initiators"
group.long 0x33C++0x03
line.long 0x00 "L4_AP_REGION_l_H_7,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
newline
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
newline
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x338++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
rgroup.long 0x04++0x03
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 0x00++0x03
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"
tree "REG_Bundle_10"
group.long 0x354++0x03
line.long 0x00 "L4_AP_REGION_l_H_10,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x350++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_100"
group.long 0x624++0x03
line.long 0x00 "L4_AP_REGION_l_H_100,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x620++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_101"
group.long 0x62C++0x03
line.long 0x00 "L4_AP_REGION_l_H_101,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x628++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_102"
group.long 0x634++0x03
line.long 0x00 "L4_AP_REGION_l_H_102,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x630++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_103"
group.long 0x63C++0x03
line.long 0x00 "L4_AP_REGION_l_H_103,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x638++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_104"
group.long 0x644++0x03
line.long 0x00 "L4_AP_REGION_l_H_104,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x640++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_105"
group.long 0x64C++0x03
line.long 0x00 "L4_AP_REGION_l_H_105,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x648++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_106"
group.long 0x654++0x03
line.long 0x00 "L4_AP_REGION_l_H_106,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x650++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_107"
group.long 0x65C++0x03
line.long 0x00 "L4_AP_REGION_l_H_107,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x658++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_108"
group.long 0x664++0x03
line.long 0x00 "L4_AP_REGION_l_H_108,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x660++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_109"
group.long 0x66C++0x03
line.long 0x00 "L4_AP_REGION_l_H_109,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x668++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_11"
group.long 0x35C++0x03
line.long 0x00 "L4_AP_REGION_l_H_11,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x358++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_110"
group.long 0x674++0x03
line.long 0x00 "L4_AP_REGION_l_H_110,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x670++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_111"
group.long 0x67C++0x03
line.long 0x00 "L4_AP_REGION_l_H_111,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x678++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_112"
group.long 0x684++0x03
line.long 0x00 "L4_AP_REGION_l_H_112,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x680++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_113"
group.long 0x68C++0x03
line.long 0x00 "L4_AP_REGION_l_H_113,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x688++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_12"
group.long 0x364++0x03
line.long 0x00 "L4_AP_REGION_l_H_12,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x360++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_13"
group.long 0x36C++0x03
line.long 0x00 "L4_AP_REGION_l_H_13,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x368++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_14"
group.long 0x374++0x03
line.long 0x00 "L4_AP_REGION_l_H_14,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x370++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_15"
group.long 0x37C++0x03
line.long 0x00 "L4_AP_REGION_l_H_15,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x378++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_16"
group.long 0x384++0x03
line.long 0x00 "L4_AP_REGION_l_H_16,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x380++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_17"
group.long 0x38C++0x03
line.long 0x00 "L4_AP_REGION_l_H_17,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x388++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_18"
group.long 0x394++0x03
line.long 0x00 "L4_AP_REGION_l_H_18,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x390++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_19"
group.long 0x39C++0x03
line.long 0x00 "L4_AP_REGION_l_H_19,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x398++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_20"
group.long 0x3A4++0x03
line.long 0x00 "L4_AP_REGION_l_H_20,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x3A0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_21"
group.long 0x3AC++0x03
line.long 0x00 "L4_AP_REGION_l_H_21,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x3A8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_22"
group.long 0x3B4++0x03
line.long 0x00 "L4_AP_REGION_l_H_22,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x3B0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_23"
group.long 0x3BC++0x03
line.long 0x00 "L4_AP_REGION_l_H_23,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x3B8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_24"
group.long 0x3C4++0x03
line.long 0x00 "L4_AP_REGION_l_H_24,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x3C0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_25"
group.long 0x3CC++0x03
line.long 0x00 "L4_AP_REGION_l_H_25,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x3C8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_26"
group.long 0x3D4++0x03
line.long 0x00 "L4_AP_REGION_l_H_26,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x3D0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_27"
group.long 0x3DC++0x03
line.long 0x00 "L4_AP_REGION_l_H_27,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x3D8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_28"
group.long 0x3E4++0x03
line.long 0x00 "L4_AP_REGION_l_H_28,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x3E0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_29"
group.long 0x3EC++0x03
line.long 0x00 "L4_AP_REGION_l_H_29,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x3E8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_30"
group.long 0x3F4++0x03
line.long 0x00 "L4_AP_REGION_l_H_30,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x3F0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_31"
group.long 0x3FC++0x03
line.long 0x00 "L4_AP_REGION_l_H_31,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x3F8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_32"
group.long 0x404++0x03
line.long 0x00 "L4_AP_REGION_l_H_32,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x400++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_33"
group.long 0x40C++0x03
line.long 0x00 "L4_AP_REGION_l_H_33,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x408++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_34"
group.long 0x414++0x03
line.long 0x00 "L4_AP_REGION_l_H_34,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x410++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_35"
group.long 0x41C++0x03
line.long 0x00 "L4_AP_REGION_l_H_35,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x418++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_36"
group.long 0x424++0x03
line.long 0x00 "L4_AP_REGION_l_H_36,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x420++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_37"
group.long 0x42C++0x03
line.long 0x00 "L4_AP_REGION_l_H_37,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x428++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_38"
group.long 0x434++0x03
line.long 0x00 "L4_AP_REGION_l_H_38,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x430++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_39"
group.long 0x43C++0x03
line.long 0x00 "L4_AP_REGION_l_H_39,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x438++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_40"
group.long 0x444++0x03
line.long 0x00 "L4_AP_REGION_l_H_40,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x440++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_41"
group.long 0x44C++0x03
line.long 0x00 "L4_AP_REGION_l_H_41,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x448++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_42"
group.long 0x454++0x03
line.long 0x00 "L4_AP_REGION_l_H_42,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x450++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_43"
group.long 0x45C++0x03
line.long 0x00 "L4_AP_REGION_l_H_43,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x458++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_44"
group.long 0x464++0x03
line.long 0x00 "L4_AP_REGION_l_H_44,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x460++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_45"
group.long 0x46C++0x03
line.long 0x00 "L4_AP_REGION_l_H_45,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x468++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_46"
group.long 0x474++0x03
line.long 0x00 "L4_AP_REGION_l_H_46,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x470++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_47"
group.long 0x47C++0x03
line.long 0x00 "L4_AP_REGION_l_H_47,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x478++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_48"
group.long 0x484++0x03
line.long 0x00 "L4_AP_REGION_l_H_48,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x480++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_49"
group.long 0x48C++0x03
line.long 0x00 "L4_AP_REGION_l_H_49,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x488++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_50"
group.long 0x494++0x03
line.long 0x00 "L4_AP_REGION_l_H_50,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x490++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_51"
group.long 0x49C++0x03
line.long 0x00 "L4_AP_REGION_l_H_51,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x498++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_52"
group.long 0x4A4++0x03
line.long 0x00 "L4_AP_REGION_l_H_52,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x4A0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_53"
group.long 0x4AC++0x03
line.long 0x00 "L4_AP_REGION_l_H_53,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x4A8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_54"
group.long 0x4B4++0x03
line.long 0x00 "L4_AP_REGION_l_H_54,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x4B0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_55"
group.long 0x4BC++0x03
line.long 0x00 "L4_AP_REGION_l_H_55,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x4B8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_56"
group.long 0x4C4++0x03
line.long 0x00 "L4_AP_REGION_l_H_56,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x4C0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_57"
group.long 0x4CC++0x03
line.long 0x00 "L4_AP_REGION_l_H_57,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x4C8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_58"
group.long 0x4D4++0x03
line.long 0x00 "L4_AP_REGION_l_H_58,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x4D0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_59"
group.long 0x4DC++0x03
line.long 0x00 "L4_AP_REGION_l_H_59,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x4D8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_60"
group.long 0x4E4++0x03
line.long 0x00 "L4_AP_REGION_l_H_60,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x4E0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_61"
group.long 0x4EC++0x03
line.long 0x00 "L4_AP_REGION_l_H_61,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x4E8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_62"
group.long 0x4F4++0x03
line.long 0x00 "L4_AP_REGION_l_H_62,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x4F0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_63"
group.long 0x4FC++0x03
line.long 0x00 "L4_AP_REGION_l_H_63,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x4F8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_64"
group.long 0x504++0x03
line.long 0x00 "L4_AP_REGION_l_H_64,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x500++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_65"
group.long 0x50C++0x03
line.long 0x00 "L4_AP_REGION_l_H_65,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x508++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_66"
group.long 0x514++0x03
line.long 0x00 "L4_AP_REGION_l_H_66,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x510++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_67"
group.long 0x51C++0x03
line.long 0x00 "L4_AP_REGION_l_H_67,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x518++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_68"
group.long 0x524++0x03
line.long 0x00 "L4_AP_REGION_l_H_68,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x520++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_69"
group.long 0x52C++0x03
line.long 0x00 "L4_AP_REGION_l_H_69,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x528++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_70"
group.long 0x534++0x03
line.long 0x00 "L4_AP_REGION_l_H_70,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x530++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_71"
group.long 0x53C++0x03
line.long 0x00 "L4_AP_REGION_l_H_71,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x538++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_72"
group.long 0x544++0x03
line.long 0x00 "L4_AP_REGION_l_H_72,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x540++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_73"
group.long 0x54C++0x03
line.long 0x00 "L4_AP_REGION_l_H_73,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x548++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_74"
group.long 0x554++0x03
line.long 0x00 "L4_AP_REGION_l_H_74,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x550++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_75"
group.long 0x55C++0x03
line.long 0x00 "L4_AP_REGION_l_H_75,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x558++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_76"
group.long 0x564++0x03
line.long 0x00 "L4_AP_REGION_l_H_76,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x560++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_77"
group.long 0x56C++0x03
line.long 0x00 "L4_AP_REGION_l_H_77,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x568++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_78"
group.long 0x574++0x03
line.long 0x00 "L4_AP_REGION_l_H_78,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x570++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_79"
group.long 0x57C++0x03
line.long 0x00 "L4_AP_REGION_l_H_79,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x578++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_8"
group.long 0x344++0x03
line.long 0x00 "L4_AP_REGION_l_H_8,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x340++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_80"
group.long 0x584++0x03
line.long 0x00 "L4_AP_REGION_l_H_80,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x580++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_81"
group.long 0x58C++0x03
line.long 0x00 "L4_AP_REGION_l_H_81,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x588++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_82"
group.long 0x594++0x03
line.long 0x00 "L4_AP_REGION_l_H_82,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x590++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_83"
group.long 0x59C++0x03
line.long 0x00 "L4_AP_REGION_l_H_83,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x598++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_84"
group.long 0x5A4++0x03
line.long 0x00 "L4_AP_REGION_l_H_84,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x5A0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_85"
group.long 0x5AC++0x03
line.long 0x00 "L4_AP_REGION_l_H_85,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x5A8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_86"
group.long 0x5B4++0x03
line.long 0x00 "L4_AP_REGION_l_H_86,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x5B0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_87"
group.long 0x5BC++0x03
line.long 0x00 "L4_AP_REGION_l_H_87,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x5B8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_88"
group.long 0x5C4++0x03
line.long 0x00 "L4_AP_REGION_l_H_88,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x5C0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_89"
group.long 0x5CC++0x03
line.long 0x00 "L4_AP_REGION_l_H_89,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x5C8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_9"
group.long 0x34C++0x03
line.long 0x00 "L4_AP_REGION_l_H_9,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x348++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_90"
group.long 0x5D4++0x03
line.long 0x00 "L4_AP_REGION_l_H_90,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x5D0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_91"
group.long 0x5DC++0x03
line.long 0x00 "L4_AP_REGION_l_H_91,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x5D8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_92"
group.long 0x5E4++0x03
line.long 0x00 "L4_AP_REGION_l_H_92,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x5E0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_93"
group.long 0x5EC++0x03
line.long 0x00 "L4_AP_REGION_l_H_93,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x5E8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_94"
group.long 0x5F4++0x03
line.long 0x00 "L4_AP_REGION_l_H_94,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x5F0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_95"
group.long 0x5FC++0x03
line.long 0x00 "L4_AP_REGION_l_H_95,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x5F8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_96"
group.long 0x604++0x03
line.long 0x00 "L4_AP_REGION_l_H_96,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x600++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_97"
group.long 0x60C++0x03
line.long 0x00 "L4_AP_REGION_l_H_97,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x608++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_98"
group.long 0x614++0x03
line.long 0x00 "L4_AP_REGION_l_H_98,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x610++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_99"
group.long 0x61C++0x03
line.long 0x00 "L4_AP_REGION_l_H_99,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x618++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree.end
tree "PER_AP"
base ansd:0x48000000
tree "Channel_0"
rgroup.long 0x204++0x03
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_H_0,Define ConnID bit vectors for a protection group"
group.long 0x200++0x03
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_0,Define ConnID bit vectors for a protection group"
hexmask.long.word 0x00 16.--31. 1. "Reserved,Reserved"
bitfld.long 0x00 15. "DMM_PAGE_TABLE_WALK,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 14. "PERF_PROBE,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 13. "Reserved,Reserved" "0,1"
bitfld.long 0x00 12. "HS USB_HOST USB,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 11. "Reserved,Reserved" "0,1"
newline
bitfld.long 0x00 10. "MMC1_MMC2,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 9. "HSI,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 8. "C2C,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 7. "DSS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 6. "SGX,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 5. "sDMA,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 4. "CAM_CORTEXA9_MPU SS_FACE_DETECT,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 3. "IVA_HD,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 2. "DSP_SS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 1. "DAP,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 0. "CORTEXM3_MPU_SS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
rgroup.long 0x284++0x03
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_0,Define ConnID bit vectors for a protection group"
rgroup.long 0x280++0x03
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_0,Define MReqInfo bit vectors for a protection group"
hexmask.long.word 0x00 16.--31. 1. "Reserved,Read returns 0"
hexmask.long.word 0x00 0.--15. 1. "ENABLE,Setting of type acces allowed for the group of initiators"
group.long 0x304++0x03
line.long 0x00 "L4_AP_REGION_l_H_0,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
newline
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
newline
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x300++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
rgroup.long 0x104++0x03
line.long 0x00 "L4_AP_SEGMENT_i_H_0,Define the size of each segments"
hexmask.long 0x00 5.--31. 1. "Reserved,Read returns 0"
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++0x03
line.long 0x00 "L4_AP_SEGMENT_i_L_0,Define the base address of each segments"
hexmask.long.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,The base address of the segment (with 0s from bit 0 to bit SIZE-1)"
tree.end
tree "Channel_1"
rgroup.long 0x20C++0x03
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_H_1,Define ConnID bit vectors for a protection group"
group.long 0x208++0x03
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_1,Define ConnID bit vectors for a protection group"
hexmask.long.word 0x00 16.--31. 1. "Reserved,Reserved"
bitfld.long 0x00 15. "DMM_PAGE_TABLE_WALK,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 14. "PERF_PROBE,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 13. "Reserved,Reserved" "0,1"
bitfld.long 0x00 12. "HS USB_HOST USB,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 11. "Reserved,Reserved" "0,1"
newline
bitfld.long 0x00 10. "MMC1_MMC2,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 9. "HSI,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 8. "C2C,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 7. "DSS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 6. "SGX,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 5. "sDMA,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 4. "CAM_CORTEXA9_MPU SS_FACE_DETECT,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 3. "IVA_HD,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 2. "DSP_SS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 1. "DAP,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 0. "CORTEXM3_MPU_SS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
rgroup.long 0x28C++0x03
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_1,Define ConnID bit vectors for a protection group"
rgroup.long 0x288++0x03
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_1,Define MReqInfo bit vectors for a protection group"
hexmask.long.word 0x00 16.--31. 1. "Reserved,Read returns 0"
hexmask.long.word 0x00 0.--15. 1. "ENABLE,Setting of type acces allowed for the group of initiators"
group.long 0x30C++0x03
line.long 0x00 "L4_AP_REGION_l_H_1,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
newline
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
newline
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x308++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
rgroup.long 0x10C++0x03
line.long 0x00 "L4_AP_SEGMENT_i_H_1,Define the size of each segments"
hexmask.long 0x00 5.--31. 1. "Reserved,Read returns 0"
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++0x03
line.long 0x00 "L4_AP_SEGMENT_i_L_1,Define the base address of each segments"
hexmask.long.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,The base address of the segment (with 0s from bit 0 to bit SIZE-1)"
tree.end
tree "Channel_2"
rgroup.long 0x214++0x03
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_H_2,Define ConnID bit vectors for a protection group"
group.long 0x210++0x03
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_2,Define ConnID bit vectors for a protection group"
hexmask.long.word 0x00 16.--31. 1. "Reserved,Reserved"
bitfld.long 0x00 15. "DMM_PAGE_TABLE_WALK,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 14. "PERF_PROBE,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 13. "Reserved,Reserved" "0,1"
bitfld.long 0x00 12. "HS USB_HOST USB,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 11. "Reserved,Reserved" "0,1"
newline
bitfld.long 0x00 10. "MMC1_MMC2,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 9. "HSI,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 8. "C2C,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 7. "DSS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 6. "SGX,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 5. "sDMA,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 4. "CAM_CORTEXA9_MPU SS_FACE_DETECT,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 3. "IVA_HD,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 2. "DSP_SS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 1. "DAP,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 0. "CORTEXM3_MPU_SS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
rgroup.long 0x294++0x03
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_2,Define ConnID bit vectors for a protection group"
rgroup.long 0x290++0x03
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_2,Define MReqInfo bit vectors for a protection group"
hexmask.long.word 0x00 16.--31. 1. "Reserved,Read returns 0"
hexmask.long.word 0x00 0.--15. 1. "ENABLE,Setting of type acces allowed for the group of initiators"
group.long 0x314++0x03
line.long 0x00 "L4_AP_REGION_l_H_2,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
newline
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
newline
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x310++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "Channel_3"
rgroup.long 0x21C++0x03
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_H_3,Define ConnID bit vectors for a protection group"
group.long 0x218++0x03
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_3,Define ConnID bit vectors for a protection group"
hexmask.long.word 0x00 16.--31. 1. "Reserved,Reserved"
bitfld.long 0x00 15. "DMM_PAGE_TABLE_WALK,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 14. "PERF_PROBE,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 13. "Reserved,Reserved" "0,1"
bitfld.long 0x00 12. "HS USB_HOST USB,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 11. "Reserved,Reserved" "0,1"
newline
bitfld.long 0x00 10. "MMC1_MMC2,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 9. "HSI,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 8. "C2C,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 7. "DSS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 6. "SGX,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 5. "sDMA,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 4. "CAM_CORTEXA9_MPU SS_FACE_DETECT,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 3. "IVA_HD,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 2. "DSP_SS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 1. "DAP,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 0. "CORTEXM3_MPU_SS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
rgroup.long 0x29C++0x03
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_3,Define ConnID bit vectors for a protection group"
rgroup.long 0x298++0x03
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_3,Define MReqInfo bit vectors for a protection group"
hexmask.long.word 0x00 16.--31. 1. "Reserved,Read returns 0"
hexmask.long.word 0x00 0.--15. 1. "ENABLE,Setting of type acces allowed for the group of initiators"
group.long 0x31C++0x03
line.long 0x00 "L4_AP_REGION_l_H_3,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
newline
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
newline
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x318++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "Channel_4"
rgroup.long 0x224++0x03
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_H_4,Define ConnID bit vectors for a protection group"
group.long 0x220++0x03
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_4,Define ConnID bit vectors for a protection group"
hexmask.long.word 0x00 16.--31. 1. "Reserved,Reserved"
bitfld.long 0x00 15. "DMM_PAGE_TABLE_WALK,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 14. "PERF_PROBE,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 13. "Reserved,Reserved" "0,1"
bitfld.long 0x00 12. "HS USB_HOST USB,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 11. "Reserved,Reserved" "0,1"
newline
bitfld.long 0x00 10. "MMC1_MMC2,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 9. "HSI,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 8. "C2C,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 7. "DSS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 6. "SGX,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 5. "sDMA,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 4. "CAM_CORTEXA9_MPU SS_FACE_DETECT,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 3. "IVA_HD,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 2. "DSP_SS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 1. "DAP,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 0. "CORTEXM3_MPU_SS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
rgroup.long 0x2A4++0x03
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_4,Define ConnID bit vectors for a protection group"
rgroup.long 0x2A0++0x03
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_4,Define MReqInfo bit vectors for a protection group"
hexmask.long.word 0x00 16.--31. 1. "Reserved,Read returns 0"
hexmask.long.word 0x00 0.--15. 1. "ENABLE,Setting of type acces allowed for the group of initiators"
group.long 0x324++0x03
line.long 0x00 "L4_AP_REGION_l_H_4,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
newline
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
newline
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x320++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "Channel_5"
rgroup.long 0x22C++0x03
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_H_5,Define ConnID bit vectors for a protection group"
group.long 0x228++0x03
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_5,Define ConnID bit vectors for a protection group"
hexmask.long.word 0x00 16.--31. 1. "Reserved,Reserved"
bitfld.long 0x00 15. "DMM_PAGE_TABLE_WALK,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 14. "PERF_PROBE,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 13. "Reserved,Reserved" "0,1"
bitfld.long 0x00 12. "HS USB_HOST USB,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 11. "Reserved,Reserved" "0,1"
newline
bitfld.long 0x00 10. "MMC1_MMC2,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 9. "HSI,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 8. "C2C,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 7. "DSS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 6. "SGX,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 5. "sDMA,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 4. "CAM_CORTEXA9_MPU SS_FACE_DETECT,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 3. "IVA_HD,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 2. "DSP_SS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 1. "DAP,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 0. "CORTEXM3_MPU_SS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
rgroup.long 0x2AC++0x03
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_5,Define ConnID bit vectors for a protection group"
rgroup.long 0x2A8++0x03
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_5,Define MReqInfo bit vectors for a protection group"
hexmask.long.word 0x00 16.--31. 1. "Reserved,Read returns 0"
hexmask.long.word 0x00 0.--15. 1. "ENABLE,Setting of type acces allowed for the group of initiators"
group.long 0x32C++0x03
line.long 0x00 "L4_AP_REGION_l_H_5,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
newline
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
newline
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x328++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "Channel_6"
rgroup.long 0x234++0x03
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_H_6,Define ConnID bit vectors for a protection group"
group.long 0x230++0x03
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_6,Define ConnID bit vectors for a protection group"
hexmask.long.word 0x00 16.--31. 1. "Reserved,Reserved"
bitfld.long 0x00 15. "DMM_PAGE_TABLE_WALK,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 14. "PERF_PROBE,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 13. "Reserved,Reserved" "0,1"
bitfld.long 0x00 12. "HS USB_HOST USB,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 11. "Reserved,Reserved" "0,1"
newline
bitfld.long 0x00 10. "MMC1_MMC2,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 9. "HSI,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 8. "C2C,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 7. "DSS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 6. "SGX,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 5. "sDMA,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 4. "CAM_CORTEXA9_MPU SS_FACE_DETECT,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 3. "IVA_HD,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 2. "DSP_SS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 1. "DAP,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 0. "CORTEXM3_MPU_SS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
rgroup.long 0x2B4++0x03
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_6,Define ConnID bit vectors for a protection group"
rgroup.long 0x2B0++0x03
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_6,Define MReqInfo bit vectors for a protection group"
hexmask.long.word 0x00 16.--31. 1. "Reserved,Read returns 0"
hexmask.long.word 0x00 0.--15. 1. "ENABLE,Setting of type acces allowed for the group of initiators"
group.long 0x334++0x03
line.long 0x00 "L4_AP_REGION_l_H_6,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
newline
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
newline
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x330++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "Channel_7"
rgroup.long 0x23C++0x03
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_H_7,Define ConnID bit vectors for a protection group"
group.long 0x238++0x03
line.long 0x00 "L4_AP_PROT_GROUP_MEMBERS_k_L_7,Define ConnID bit vectors for a protection group"
hexmask.long.word 0x00 16.--31. 1. "Reserved,Reserved"
bitfld.long 0x00 15. "DMM_PAGE_TABLE_WALK,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 14. "PERF_PROBE,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 13. "Reserved,Reserved" "0,1"
bitfld.long 0x00 12. "HS USB_HOST USB,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 11. "Reserved,Reserved" "0,1"
newline
bitfld.long 0x00 10. "MMC1_MMC2,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 9. "HSI,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 8. "C2C,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 7. "DSS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 6. "SGX,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 5. "sDMA,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 4. "CAM_CORTEXA9_MPU SS_FACE_DETECT,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 3. "IVA_HD,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 2. "DSP_SS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
newline
bitfld.long 0x00 1. "DAP,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
bitfld.long 0x00 0. "CORTEXM3_MPU_SS,Included in the protection group k0x0: Not a member0x1: Member" "0,1"
rgroup.long 0x2BC++0x03
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_H_7,Define ConnID bit vectors for a protection group"
rgroup.long 0x2B8++0x03
line.long 0x00 "L4_AP_PROT_GROUP_ROLES_k_L_7,Define MReqInfo bit vectors for a protection group"
hexmask.long.word 0x00 16.--31. 1. "Reserved,Read returns 0"
hexmask.long.word 0x00 0.--15. 1. "ENABLE,Setting of type acces allowed for the group of initiators"
group.long 0x33C++0x03
line.long 0x00 "L4_AP_REGION_l_H_7,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
newline
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
newline
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x338++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
rgroup.long 0x04++0x03
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 0x00++0x03
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"
tree "REG_Bundle_10"
group.long 0x354++0x03
line.long 0x00 "L4_AP_REGION_l_H_10,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x350++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_11"
group.long 0x35C++0x03
line.long 0x00 "L4_AP_REGION_l_H_11,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x358++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_12"
group.long 0x364++0x03
line.long 0x00 "L4_AP_REGION_l_H_12,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x360++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_13"
group.long 0x36C++0x03
line.long 0x00 "L4_AP_REGION_l_H_13,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x368++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_14"
group.long 0x374++0x03
line.long 0x00 "L4_AP_REGION_l_H_14,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x370++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_15"
group.long 0x37C++0x03
line.long 0x00 "L4_AP_REGION_l_H_15,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x378++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_16"
group.long 0x384++0x03
line.long 0x00 "L4_AP_REGION_l_H_16,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x380++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_17"
group.long 0x38C++0x03
line.long 0x00 "L4_AP_REGION_l_H_17,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x388++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_18"
group.long 0x394++0x03
line.long 0x00 "L4_AP_REGION_l_H_18,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x390++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_19"
group.long 0x39C++0x03
line.long 0x00 "L4_AP_REGION_l_H_19,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x398++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_20"
group.long 0x3A4++0x03
line.long 0x00 "L4_AP_REGION_l_H_20,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x3A0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_21"
group.long 0x3AC++0x03
line.long 0x00 "L4_AP_REGION_l_H_21,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x3A8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_22"
group.long 0x3B4++0x03
line.long 0x00 "L4_AP_REGION_l_H_22,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x3B0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_23"
group.long 0x3BC++0x03
line.long 0x00 "L4_AP_REGION_l_H_23,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x3B8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_24"
group.long 0x3C4++0x03
line.long 0x00 "L4_AP_REGION_l_H_24,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x3C0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_25"
group.long 0x3CC++0x03
line.long 0x00 "L4_AP_REGION_l_H_25,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x3C8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_26"
group.long 0x3D4++0x03
line.long 0x00 "L4_AP_REGION_l_H_26,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x3D0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_27"
group.long 0x3DC++0x03
line.long 0x00 "L4_AP_REGION_l_H_27,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x3D8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_28"
group.long 0x3E4++0x03
line.long 0x00 "L4_AP_REGION_l_H_28,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x3E0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_29"
group.long 0x3EC++0x03
line.long 0x00 "L4_AP_REGION_l_H_29,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x3E8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_30"
group.long 0x3F4++0x03
line.long 0x00 "L4_AP_REGION_l_H_30,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x3F0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_31"
group.long 0x3FC++0x03
line.long 0x00 "L4_AP_REGION_l_H_31,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x3F8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_32"
group.long 0x404++0x03
line.long 0x00 "L4_AP_REGION_l_H_32,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x400++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_33"
group.long 0x40C++0x03
line.long 0x00 "L4_AP_REGION_l_H_33,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x408++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_34"
group.long 0x414++0x03
line.long 0x00 "L4_AP_REGION_l_H_34,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x410++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_35"
group.long 0x41C++0x03
line.long 0x00 "L4_AP_REGION_l_H_35,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x418++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_36"
group.long 0x424++0x03
line.long 0x00 "L4_AP_REGION_l_H_36,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x420++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_37"
group.long 0x42C++0x03
line.long 0x00 "L4_AP_REGION_l_H_37,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x428++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_38"
group.long 0x434++0x03
line.long 0x00 "L4_AP_REGION_l_H_38,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x430++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_39"
group.long 0x43C++0x03
line.long 0x00 "L4_AP_REGION_l_H_39,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x438++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_40"
group.long 0x444++0x03
line.long 0x00 "L4_AP_REGION_l_H_40,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x440++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_41"
group.long 0x44C++0x03
line.long 0x00 "L4_AP_REGION_l_H_41,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x448++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_42"
group.long 0x454++0x03
line.long 0x00 "L4_AP_REGION_l_H_42,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x450++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_43"
group.long 0x45C++0x03
line.long 0x00 "L4_AP_REGION_l_H_43,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x458++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_44"
group.long 0x464++0x03
line.long 0x00 "L4_AP_REGION_l_H_44,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x460++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_45"
group.long 0x46C++0x03
line.long 0x00 "L4_AP_REGION_l_H_45,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x468++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_46"
group.long 0x474++0x03
line.long 0x00 "L4_AP_REGION_l_H_46,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x470++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_47"
group.long 0x47C++0x03
line.long 0x00 "L4_AP_REGION_l_H_47,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x478++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_48"
group.long 0x484++0x03
line.long 0x00 "L4_AP_REGION_l_H_48,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x480++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_49"
group.long 0x48C++0x03
line.long 0x00 "L4_AP_REGION_l_H_49,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x488++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_50"
group.long 0x494++0x03
line.long 0x00 "L4_AP_REGION_l_H_50,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x490++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_51"
group.long 0x49C++0x03
line.long 0x00 "L4_AP_REGION_l_H_51,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x498++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_52"
group.long 0x4A4++0x03
line.long 0x00 "L4_AP_REGION_l_H_52,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x4A0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_53"
group.long 0x4AC++0x03
line.long 0x00 "L4_AP_REGION_l_H_53,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x4A8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_54"
group.long 0x4B4++0x03
line.long 0x00 "L4_AP_REGION_l_H_54,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x4B0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_55"
group.long 0x4BC++0x03
line.long 0x00 "L4_AP_REGION_l_H_55,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x4B8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_56"
group.long 0x4C4++0x03
line.long 0x00 "L4_AP_REGION_l_H_56,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x4C0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_57"
group.long 0x4CC++0x03
line.long 0x00 "L4_AP_REGION_l_H_57,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x4C8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_58"
group.long 0x4D4++0x03
line.long 0x00 "L4_AP_REGION_l_H_58,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x4D0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_59"
group.long 0x4DC++0x03
line.long 0x00 "L4_AP_REGION_l_H_59,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x4D8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_60"
group.long 0x4E4++0x03
line.long 0x00 "L4_AP_REGION_l_H_60,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x4E0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_61"
group.long 0x4EC++0x03
line.long 0x00 "L4_AP_REGION_l_H_61,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x4E8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_62"
group.long 0x4F4++0x03
line.long 0x00 "L4_AP_REGION_l_H_62,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x4F0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_63"
group.long 0x4FC++0x03
line.long 0x00 "L4_AP_REGION_l_H_63,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x4F8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_64"
group.long 0x504++0x03
line.long 0x00 "L4_AP_REGION_l_H_64,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x500++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_65"
group.long 0x50C++0x03
line.long 0x00 "L4_AP_REGION_l_H_65,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x508++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_66"
group.long 0x514++0x03
line.long 0x00 "L4_AP_REGION_l_H_66,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x510++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_67"
group.long 0x51C++0x03
line.long 0x00 "L4_AP_REGION_l_H_67,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x518++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_68"
group.long 0x524++0x03
line.long 0x00 "L4_AP_REGION_l_H_68,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x520++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_69"
group.long 0x52C++0x03
line.long 0x00 "L4_AP_REGION_l_H_69,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x528++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_70"
group.long 0x534++0x03
line.long 0x00 "L4_AP_REGION_l_H_70,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x530++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_71"
group.long 0x53C++0x03
line.long 0x00 "L4_AP_REGION_l_H_71,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x538++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_72"
group.long 0x544++0x03
line.long 0x00 "L4_AP_REGION_l_H_72,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x540++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_73"
group.long 0x54C++0x03
line.long 0x00 "L4_AP_REGION_l_H_73,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x548++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_74"
group.long 0x554++0x03
line.long 0x00 "L4_AP_REGION_l_H_74,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x550++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_75"
group.long 0x55C++0x03
line.long 0x00 "L4_AP_REGION_l_H_75,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x558++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_76"
group.long 0x564++0x03
line.long 0x00 "L4_AP_REGION_l_H_76,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x560++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_77"
group.long 0x56C++0x03
line.long 0x00 "L4_AP_REGION_l_H_77,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x568++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_78"
group.long 0x574++0x03
line.long 0x00 "L4_AP_REGION_l_H_78,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x570++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_79"
group.long 0x57C++0x03
line.long 0x00 "L4_AP_REGION_l_H_79,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x578++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_8"
group.long 0x344++0x03
line.long 0x00 "L4_AP_REGION_l_H_8,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x340++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_80"
group.long 0x584++0x03
line.long 0x00 "L4_AP_REGION_l_H_80,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x580++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_81"
group.long 0x58C++0x03
line.long 0x00 "L4_AP_REGION_l_H_81,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x588++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_82"
group.long 0x594++0x03
line.long 0x00 "L4_AP_REGION_l_H_82,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x590++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_83"
group.long 0x59C++0x03
line.long 0x00 "L4_AP_REGION_l_H_83,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x598++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_84"
group.long 0x5A4++0x03
line.long 0x00 "L4_AP_REGION_l_H_84,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x5A0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_85"
group.long 0x5AC++0x03
line.long 0x00 "L4_AP_REGION_l_H_85,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x5A8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_86"
group.long 0x5B4++0x03
line.long 0x00 "L4_AP_REGION_l_H_86,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x5B0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_87"
group.long 0x5BC++0x03
line.long 0x00 "L4_AP_REGION_l_H_87,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x5B8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_88"
group.long 0x5C4++0x03
line.long 0x00 "L4_AP_REGION_l_H_88,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x5C0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_89"
group.long 0x5CC++0x03
line.long 0x00 "L4_AP_REGION_l_H_89,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x5C8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_9"
group.long 0x34C++0x03
line.long 0x00 "L4_AP_REGION_l_H_9,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x348++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_90"
group.long 0x5D4++0x03
line.long 0x00 "L4_AP_REGION_l_H_90,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x5D0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_91"
group.long 0x5DC++0x03
line.long 0x00 "L4_AP_REGION_l_H_91,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x5D8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_92"
group.long 0x5E4++0x03
line.long 0x00 "L4_AP_REGION_l_H_92,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x5E0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_93"
group.long 0x5EC++0x03
line.long 0x00 "L4_AP_REGION_l_H_93,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x5E8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_94"
group.long 0x5F4++0x03
line.long 0x00 "L4_AP_REGION_l_H_94,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x5F0++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_95"
group.long 0x5FC++0x03
line.long 0x00 "L4_AP_REGION_l_H_95,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x5F8++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree "REG_Bundle_96"
group.long 0x604++0x03
line.long 0x00 "L4_AP_REGION_l_H_96,Define the size. protection group and segment ID of the region"
rbitfld.long 0x00 28.--31. "Reserved,Read returns 0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "SEGMENT_ID,The segment associated to the region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 23. "Reserved,Read returns 0" "0,1"
bitfld.long 0x00 20.--22. "PROT_GROUP_ID,The protection group associated to the region" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 17.--19. "BYTE_DATA_WIDTH_EXP,The target data byte width is 2 bytes" "0,1,2,3,4,5,6,7"
newline
hexmask.long.word 0x00 6.--16. 1. "Reserved,Read returns 0"
rbitfld.long 0x00 1.--5. "SIZE,Define the size of the region in bytes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rbitfld.long 0x00 0. "ENABLE," "0,1"
rgroup.long 0x600++0x03
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.byte 0x00 24.--31. 1. "Reserved,Read returns 0"
hexmask.long.tbyte 0x00 0.--23. 1. "BASE,Sets the base address of the region relative to its segment base"
tree.end
tree.end
tree "CFG_IA_0"
base ansd:0x4A001000
rgroup.long 0x00++0x03
line.long 0x00 "L4_IA_COMPONENT_L,COMPONENT register identifies the component to which this register block belongs"
hexmask.long.word 0x00 16.--31. 1. "CODE,Interconnect code"
hexmask.long.word 0x00 0.--15. 1. "REV,Component revision code"
hgroup.long 0x04++0x03
hide.long 0x00 "L4_IA_COMPONENT_H,COMPONENT register identifies the component to which this register block belongs"
rgroup.long 0x18++0x0B
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"
line.long 0x04 "L4_IA_CORE_H,Provide information about the core initiator"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_IA_AGENT_CONTROL_L,Enable error reporting on an initiator interface.The error reporting mechanism is enabled when the INBAND_ERROR_REP bit field is set to 1"
bitfld.long 0x08 31. "PROT_ERROR_SECONDARY_REP,Out-of-band reporting of protection mechanism secondary errors" "0,1"
bitfld.long 0x08 30. "PROT_ERROR_PRIMARY_REP,Out-of-band reporting of protection mechanism primary errors" "0,1"
bitfld.long 0x08 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" "0,1"
hgroup.long 0x24++0x03
hide.long 0x00 "L4_IA_AGENT_CONTROL_H,Enable error reporting on an initiator interface"
group.long 0x28++0x03
line.long 0x00 "L4_IA_AGENT_STATUS_L,Stores status information for an initiator"
bitfld.long 0x00 31. "PROT_ERROR_SECONDARY," "0,1"
bitfld.long 0x00 30. "PROT_ERROR_PRIMARY," "0,1"
bitfld.long 0x00 27. "INBAND_ERROR,0x0 No In-Band error present.0x1 In-Band error present" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_IA_AGENT_STATUS_H,Stores status information for an initiator"
group.long 0x58++0x0B
line.long 0x00 "L4_IA_ERROR_LOG_L,Log information about error conditions"
bitfld.long 0x00 31. "MULTI,Multiple errors detected" "0,1"
bitfld.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" "0,1,2,3"
rbitfld.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"
newline
rbitfld.long 0x00 0.--2. "CMD,Command that caused error" "0,1,2,3,4,5,6,7"
line.long 0x04 "L4_IA_ERROR_LOG_H,Log information about error conditions"
hexmask.long.word 0x04 0.--15. 1. "REQ_INFO,MReqInfo bits of request that caused the errorREQ_INFO[0] = supervisor REQ_INFO[1] = Debug"
line.long 0x08 "L4_IA_ERROR_LOG_ADDR_L,Extended error log (address information)"
hgroup.long 0x64++0x03
hide.long 0x00 "L4_IA_ERROR_LOG_ADDR_H,Extended error log (address information)"
tree.end
tree "PER_IA_0"
base ansd:0x48001000
rgroup.long 0x00++0x03
line.long 0x00 "L4_IA_COMPONENT_L,COMPONENT register identifies the component to which this register block belongs"
hexmask.long.word 0x00 16.--31. 1. "CODE,Interconnect code"
hexmask.long.word 0x00 0.--15. 1. "REV,Component revision code"
hgroup.long 0x04++0x03
hide.long 0x00 "L4_IA_COMPONENT_H,COMPONENT register identifies the component to which this register block belongs"
rgroup.long 0x18++0x0B
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"
line.long 0x04 "L4_IA_CORE_H,Provide information about the core initiator"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_IA_AGENT_CONTROL_L,Enable error reporting on an initiator interface.The error reporting mechanism is enabled when the INBAND_ERROR_REP bit field is set to 1"
bitfld.long 0x08 31. "PROT_ERROR_SECONDARY_REP,Out-of-band reporting of protection mechanism secondary errors" "0,1"
bitfld.long 0x08 30. "PROT_ERROR_PRIMARY_REP,Out-of-band reporting of protection mechanism primary errors" "0,1"
bitfld.long 0x08 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" "0,1"
hgroup.long 0x24++0x03
hide.long 0x00 "L4_IA_AGENT_CONTROL_H,Enable error reporting on an initiator interface"
group.long 0x28++0x03
line.long 0x00 "L4_IA_AGENT_STATUS_L,Stores status information for an initiator"
bitfld.long 0x00 31. "PROT_ERROR_SECONDARY," "0,1"
bitfld.long 0x00 30. "PROT_ERROR_PRIMARY," "0,1"
bitfld.long 0x00 27. "INBAND_ERROR,0x0 No In-Band error present.0x1 In-Band error present" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_IA_AGENT_STATUS_H,Stores status information for an initiator"
group.long 0x58++0x0B
line.long 0x00 "L4_IA_ERROR_LOG_L,Log information about error conditions"
bitfld.long 0x00 31. "MULTI,Multiple errors detected" "0,1"
bitfld.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" "0,1,2,3"
rbitfld.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"
newline
rbitfld.long 0x00 0.--2. "CMD,Command that caused error" "0,1,2,3,4,5,6,7"
line.long 0x04 "L4_IA_ERROR_LOG_H,Log information about error conditions"
hexmask.long.word 0x04 0.--15. 1. "REQ_INFO,MReqInfo bits of request that caused the errorREQ_INFO[0] = supervisor REQ_INFO[1] = Debug"
line.long 0x08 "L4_IA_ERROR_LOG_ADDR_L,Extended error log (address information)"
hgroup.long 0x64++0x03
hide.long 0x00 "L4_IA_ERROR_LOG_ADDR_H,Extended error log (address information)"
tree.end
tree "WKUP_IA_0"
base ansd:0x4A301000
rgroup.long 0x00++0x03
line.long 0x00 "L4_IA_COMPONENT_L,COMPONENT register identifies the component to which this register block belongs"
hexmask.long.word 0x00 16.--31. 1. "CODE,Interconnect code"
hexmask.long.word 0x00 0.--15. 1. "REV,Component revision code"
hgroup.long 0x04++0x03
hide.long 0x00 "L4_IA_COMPONENT_H,COMPONENT register identifies the component to which this register block belongs"
rgroup.long 0x18++0x0B
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"
line.long 0x04 "L4_IA_CORE_H,Provide information about the core initiator"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_IA_AGENT_CONTROL_L,Enable error reporting on an initiator interface.The error reporting mechanism is enabled when the INBAND_ERROR_REP bit field is set to 1"
bitfld.long 0x08 31. "PROT_ERROR_SECONDARY_REP,Out-of-band reporting of protection mechanism secondary errors" "0,1"
bitfld.long 0x08 30. "PROT_ERROR_PRIMARY_REP,Out-of-band reporting of protection mechanism primary errors" "0,1"
bitfld.long 0x08 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" "0,1"
hgroup.long 0x24++0x03
hide.long 0x00 "L4_IA_AGENT_CONTROL_H,Enable error reporting on an initiator interface"
group.long 0x28++0x03
line.long 0x00 "L4_IA_AGENT_STATUS_L,Stores status information for an initiator"
bitfld.long 0x00 31. "PROT_ERROR_SECONDARY," "0,1"
bitfld.long 0x00 30. "PROT_ERROR_PRIMARY," "0,1"
bitfld.long 0x00 27. "INBAND_ERROR,0x0 No In-Band error present.0x1 In-Band error present" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_IA_AGENT_STATUS_H,Stores status information for an initiator"
group.long 0x58++0x0B
line.long 0x00 "L4_IA_ERROR_LOG_L,Log information about error conditions"
bitfld.long 0x00 31. "MULTI,Multiple errors detected" "0,1"
bitfld.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" "0,1,2,3"
rbitfld.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"
newline
rbitfld.long 0x00 0.--2. "CMD,Command that caused error" "0,1,2,3,4,5,6,7"
line.long 0x04 "L4_IA_ERROR_LOG_H,Log information about error conditions"
hexmask.long.word 0x04 0.--15. 1. "REQ_INFO,MReqInfo bits of request that caused the errorREQ_INFO[0] = supervisor REQ_INFO[1] = Debug"
line.long 0x08 "L4_IA_ERROR_LOG_ADDR_L,Extended error log (address information)"
hgroup.long 0x64++0x03
hide.long 0x00 "L4_IA_ERROR_LOG_ADDR_H,Extended error log (address information)"
tree.end
tree "CFG_LA"
base ansd:0x4A000800
rgroup.long 0x00++0x03
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"
hgroup.long 0x04++0x03
hide.long 0x00 "L4_LA_COMPONENT_H,Contain a component code and revision. which are used to identify the hardware of the component"
hgroup.long 0x10++0x03
hide.long 0x00 "L4_LA_NETWORK_L,Identify the interconnect"
rgroup.long 0x14++0x13
line.long 0x00 "L4_LA_NETWORK_H,Identify the interconnect"
line.long 0x04 "L4_LA_INITIATOR_INFO_L,Contain initiator subsystem information"
bitfld.long 0x04 24.--27. "PROT_GROUPS,Number of protection group of in the current L40x0: No protection group0x1: 1 protection group0x2: 2 protection groups....0x8: 8 protection groups0x9 to" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x04 16.--23. 1. "NUMBER_REGIONS,Number of regions in the current L40x0: Reserved0x1: 1 region0x2: 2 regions....Max regions +1 to"
bitfld.long 0x04 0.--3. "SEGMENTS,Number of segments in the current L40x0: Reserved0x1: 1 segment0x2: 2 segments....0x8: 8 segments" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x08 "L4_LA_INITIATOR_INFO_H,Contain initiator subsystem information"
bitfld.long 0x08 16.--18. "THREADS,The THREADS field specifies the number of initiator threads connected to the interconnect" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 12.--14. "CONNID_WIDTH,The initiator subsystem ConnID width" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 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" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0.--4. "ADDR_WIDTH,This field specifies the initiator subsystem address width" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
line.long 0x0C "L4_LA_NETWORK_CONTROL_L,Control interconnect minimum timeout values"
bitfld.long 0x0C 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" "0,1,2,3,4,5,6,7"
line.long 0x10 "L4_LA_NETWORK_CONTROL_H,Control interconnect global power control"
bitfld.long 0x10 24. "CLOCK_GATE_DISABLE,When set to 1 this field disables all clock gating" "0,1"
rbitfld.long 0x10 20. "THREAD0_PRI,Sets thread priority" "0,1"
rbitfld.long 0x10 8. "EXT_CLOCK,When set to 1 the ext_clk_off_i signal on the initiator subsystem instructs the entire L4 to shut off" "0,1"
tree.end
tree "PER_LA"
base ansd:0x48000800
rgroup.long 0x00++0x03
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"
hgroup.long 0x04++0x03
hide.long 0x00 "L4_LA_COMPONENT_H,Contain a component code and revision. which are used to identify the hardware of the component"
hgroup.long 0x10++0x03
hide.long 0x00 "L4_LA_NETWORK_L,Identify the interconnect"
rgroup.long 0x14++0x13
line.long 0x00 "L4_LA_NETWORK_H,Identify the interconnect"
line.long 0x04 "L4_LA_INITIATOR_INFO_L,Contain initiator subsystem information"
bitfld.long 0x04 24.--27. "PROT_GROUPS,Number of protection group of in the current L40x0: No protection group0x1: 1 protection group0x2: 2 protection groups....0x8: 8 protection groups0x9 to" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x04 16.--23. 1. "NUMBER_REGIONS,Number of regions in the current L40x0: Reserved0x1: 1 region0x2: 2 regions....Max regions +1 to"
bitfld.long 0x04 0.--3. "SEGMENTS,Number of segments in the current L40x0: Reserved0x1: 1 segment0x2: 2 segments....0x8: 8 segments" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x08 "L4_LA_INITIATOR_INFO_H,Contain initiator subsystem information"
bitfld.long 0x08 16.--18. "THREADS,The THREADS field specifies the number of initiator threads connected to the interconnect" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 12.--14. "CONNID_WIDTH,The initiator subsystem ConnID width" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 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" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0.--4. "ADDR_WIDTH,This field specifies the initiator subsystem address width" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
line.long 0x0C "L4_LA_NETWORK_CONTROL_L,Control interconnect minimum timeout values"
bitfld.long 0x0C 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" "0,1,2,3,4,5,6,7"
line.long 0x10 "L4_LA_NETWORK_CONTROL_H,Control interconnect global power control"
bitfld.long 0x10 24. "CLOCK_GATE_DISABLE,When set to 1 this field disables all clock gating" "0,1"
rbitfld.long 0x10 20. "THREAD0_PRI,Sets thread priority" "0,1"
rbitfld.long 0x10 8. "EXT_CLOCK,When set to 1 the ext_clk_off_i signal on the initiator subsystem instructs the entire L4 to shut off" "0,1"
tree.end
tree "WKUP_LA"
base ansd:0x4A300800
rgroup.long 0x00++0x03
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"
hgroup.long 0x04++0x03
hide.long 0x00 "L4_LA_COMPONENT_H,Contain a component code and revision. which are used to identify the hardware of the component"
hgroup.long 0x10++0x03
hide.long 0x00 "L4_LA_NETWORK_L,Identify the interconnect"
rgroup.long 0x14++0x13
line.long 0x00 "L4_LA_NETWORK_H,Identify the interconnect"
line.long 0x04 "L4_LA_INITIATOR_INFO_L,Contain initiator subsystem information"
bitfld.long 0x04 24.--27. "PROT_GROUPS,Number of protection group of in the current L40x0: No protection group0x1: 1 protection group0x2: 2 protection groups....0x8: 8 protection groups0x9 to" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x04 16.--23. 1. "NUMBER_REGIONS,Number of regions in the current L40x0: Reserved0x1: 1 region0x2: 2 regions....Max regions +1 to"
bitfld.long 0x04 0.--3. "SEGMENTS,Number of segments in the current L40x0: Reserved0x1: 1 segment0x2: 2 segments....0x8: 8 segments" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
line.long 0x08 "L4_LA_INITIATOR_INFO_H,Contain initiator subsystem information"
bitfld.long 0x08 16.--18. "THREADS,The THREADS field specifies the number of initiator threads connected to the interconnect" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 12.--14. "CONNID_WIDTH,The initiator subsystem ConnID width" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 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" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0.--4. "ADDR_WIDTH,This field specifies the initiator subsystem address width" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
line.long 0x0C "L4_LA_NETWORK_CONTROL_L,Control interconnect minimum timeout values"
bitfld.long 0x0C 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" "0,1,2,3,4,5,6,7"
line.long 0x10 "L4_LA_NETWORK_CONTROL_H,Control interconnect global power control"
bitfld.long 0x10 24. "CLOCK_GATE_DISABLE,When set to 1 this field disables all clock gating" "0,1"
rbitfld.long 0x10 20. "THREAD0_PRI,Sets thread priority" "0,1"
rbitfld.long 0x10 8. "EXT_CLOCK,When set to 1 the ext_clk_off_i signal on the initiator subsystem instructs the entire L4 to shut off" "0,1"
tree.end
tree "CFG_TA_ABEFW"
base ansd:0x4A229000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
repeat 2. (list 1. 2. )(list ansd:0x4A005000 ansd:0x4A00A000 )
tree "CFG_TA_CM$1"
base $2
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
repeat.end
tree "CFG_TA_CORTEXM3FW"
base ansd:0x4A219000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "CFG_TA_DSP"
base ansd:0x4A067000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "CFG_TA_DSSFW"
base ansd:0x4A21D000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "CFG_TA_EMIFFW"
base ansd:0x4A20D000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "CFG_TA_EMUSSFW"
base ansd:0x4A227000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "CFG_TA_FACEDETECT"
base ansd:0x4A10B000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "CFG_TA_GPMCFW"
base ansd:0x4A211000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "CFG_TA_HSI"
base ansd:0x4A05C000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "CFG_TA_HSUSBTLL"
base ansd:0x4A063000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "CFG_TA_ISSFW"
base ansd:0x4A217000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "CFG_TA_IVAHDFW"
base ansd:0x4A221000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "CFG_TA_L4WKUP"
base ansd:0x4A340000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "CFG_TA_MAFW"
base ansd:0x4A20A000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "CFG_TA_MAILBOX"
base ansd:0x4A0F5000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "CFG_TA_OCMCRAMFW"
base ansd:0x4A213000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "CFG_TA_SAR_ROM"
base ansd:0x4A060000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "CFG_TA_SDMA"
base ansd:0x4A057000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "CFG_TA_SGXFW"
base ansd:0x4A215000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "CFG_TA_SL2FW"
base ansd:0x4A21F000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "CFG_TA_SPINLOCK"
base ansd:0x4A0F7000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
repeat 3. (list 1. 2. 3. )(list ansd:0x4A0DA000 ansd:0x4A0DC000 ansd:0x4A0DE000 )
tree "CFG_TA_SR$1"
base $2
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
repeat.end
tree "CFG_TA_SYSCTRL_GENERAL_CORE"
base ansd:0x4A003000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "CFG_TA_SYSCTRL_PADCONF_CORE"
base ansd:0x4A101000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "CFG_TA_USBFS"
base ansd:0x4A0AA000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "CFG_TA_USBHOSTHS"
base ansd:0x4A065000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "CFG_TA_USBOTGHS"
base ansd:0x4A0AC000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "CFG_TA_USBPHY"
base ansd:0x4A0AE000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "PER_TA_DSS"
base ansd:0x48050000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "PER_TA_ELM"
base ansd:0x48079000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
repeat 5. (list 2. 3. 4. 5. 6. )(list ansd:0x48056000 ansd:0x48058000 ansd:0x4805A000 ansd:0x4805C000 ansd:0x4805E000 )
tree "PER_TA_GPIO$1"
base $2
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
repeat.end
repeat 6. (list 2. 3. 4. 9. 10. 11. )(list ansd:0x48033000 ansd:0x48035000 ansd:0x48037000 ansd:0x4803F000 ansd:0x48087000 ansd:0x48089000 )
tree "PER_TA_GPTIMER$1"
base $2
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
repeat.end
tree "PER_TA_HDQ"
base ansd:0x480B3000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
repeat 5. (list 1. 3. 2. 4. 5. )(list ansd:0x4809D000 ansd:0x480AE000 ansd:0x480B5000 ansd:0x480D2000 ansd:0x480D6000 )
tree "PER_TA_HSMMC$1"
base $2
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
repeat.end
repeat 3. (list 1. 2. 4. )(list ansd:0x48071000 ansd:0x48073000 ansd:0x48351000 )
tree "PER_TA_I2C$1"
base $2
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
repeat.end
tree "PER_TA_I2C3"
base ansd:0x48061000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "PER_TA_MCBSP4"
base ansd:0x48097000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
repeat 4. (list 1. 2. 3. 4. )(list ansd:0x48099000 ansd:0x4809B000 ansd:0x480B9000 ansd:0x480BB000 )
tree "PER_TA_MCSPI$1"
base $2
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
repeat.end
tree "PER_TA_SLIMBUS2"
base ansd:0x48077000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
repeat 3. (list 1. 2. 4. )(list ansd:0x4806B000 ansd:0x4806D000 ansd:0x4806F000 )
tree "PER_TA_UART$1"
base $2
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
repeat.end
tree "PER_TA_UART3"
base ansd:0x48021000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "WKUP_TA_32KTIMER"
base ansd:0x4A305000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "WKUP_TA_DM_TIMER1MS_1"
base ansd:0x4A319000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "WKUP_TA_GPIO1"
base ansd:0x4A311000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "WKUP_TA_KEYBOARD"
base ansd:0x4A31D000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "WKUP_TA_PRM"
base ansd:0x4A308000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "WKUP_TA_SAR_RAM"
base ansd:0x4A32A000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "WKUP_TA_SCRM"
base ansd:0x4A30B000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "WKUP_TA_SYSCTRL_GENERAL_WKUP"
base ansd:0x4A30D000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "WKUP_TA_SYSCTRL_PADCONF_WKUP"
base ansd:0x4A31F000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree "WKUP_TA_WDTIMER2"
base ansd:0x4A315000
hgroup.long 0x00++0x03
hide.long 0x00 "L4_TA_COMPONENT_H,Contains a component code and revision"
rgroup.long 0x04++0x03
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"
rgroup.long 0x18++0x13
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"
line.long 0x04 "L4_TA_CORE_H,Contains a component code and revision"
hexmask.long.word 0x04 0.--15. 1. "VENDOR_CODE,Vendor revision core code"
line.long 0x08 "L4_TA_AGENT_CONTROL_L,Enable error reporting"
rbitfld.long 0x08 24. "SERROR_REP,Enable logging of error" "0,1"
bitfld.long 0x08 8.--10. "REQ_TIMEOUT,Time-out Bound" "0,1,2,3,4,5,6,7"
bitfld.long 0x08 0. "OCP_RESET,The OCP_RESET field controls the OCP reset signal to the attached core" "0,1"
line.long 0x0C "L4_TA_AGENT_CONTROL_H,Enable clock power management"
bitfld.long 0x0C 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"
line.long 0x10 "L4_TA_AGENT_STATUS_L,Error reporting"
bitfld.long 0x10 8. "REQ_TIMEOUT,Time-out status:0x0: No request time-out0x1: A request time-out has occurred" "0,1"
hgroup.long 0x2C++0x03
hide.long 0x00 "L4_TA_AGENT_STATUS_H,Error reporting"
tree.end
tree.end
tree "Mailbox"
tree "IVAHD_Mailbox_L3Interconnect"
base ansd:0x5A05A800
tree "Channel_0"
rgroup.long 0x80++0x03
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" "FIFOFULLMBM_0_r,FIFOFULLMBM_1_r"
group.long 0x10C++0x03
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"
bitfld.long 0x00 15. "NOTFULLENABLEUUMB7,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB7_0_w,NOTFULLENABLEUUMB7_1_w"
bitfld.long 0x00 14. "NEWMSGENABLEUUMB7,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB7_0_w,NEWMSGENABLEUUMB7_1_w"
newline
bitfld.long 0x00 13. "NOTFULLENABLEUUMB6,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB6_0_w,NOTFULLENABLEUUMB6_1_w"
bitfld.long 0x00 12. "NEWMSGENABLEUUMB6,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB6_0_w,NEWMSGENABLEUUMB6_1_w"
newline
bitfld.long 0x00 11. "NOTFULLENABLEUUMB5,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB5_0_w,NOTFULLENABLEUUMB5_1_w"
bitfld.long 0x00 10. "NEWMSGENABLEUUMB5,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB5_0_w,NEWMSGENABLEUUMB5_1_w"
newline
bitfld.long 0x00 9. "NOTFULLENABLEUUMB4,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB4_0_w,NOTFULLENABLEUUMB4_1_w"
bitfld.long 0x00 8. "NEWMSGENABLEUUMB4,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB4_0_w,NEWMSGENABLEUUMB4_1_w"
newline
bitfld.long 0x00 7. "NOTFULLENABLEUUMB3,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB3_0_w,NOTFULLENABLEUUMB3_1_w"
bitfld.long 0x00 6. "NEWMSGENABLEUUMB3,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB3_0_w,NEWMSGENABLEUUMB3_1_w"
newline
bitfld.long 0x00 5. "NOTFULLENABLEUUMB2,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB2_0_w,NOTFULLENABLEUUMB2_1_w"
bitfld.long 0x00 4. "NEWMSGENABLEUUMB2,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB2_0_w,NEWMSGENABLEUUMB2_1_w"
newline
bitfld.long 0x00 3. "NOTFULLENABLEUUMB1,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB1_0_w,NOTFULLENABLEUUMB1_1_w"
bitfld.long 0x00 2. "NEWMSGENABLEUUMB1,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB1_0_w,NEWMSGENABLEUUMB1_1_w"
newline
bitfld.long 0x00 1. "NOTFULLENABLEUUMB0,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB0_0_w,NOTFULLENABLEUUMB0_1_w"
bitfld.long 0x00 0. "NEWMSGENABLEUUMB0,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB0_0_w,NEWMSGENABLEUUMB0_1_w"
group.long 0x108++0x03
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"
bitfld.long 0x00 15. "NOTFULLENABLEUUMB7,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB7_0_w,NOTFULLENABLEUUMB7_1_w"
bitfld.long 0x00 14. "NEWMSGENABLEUUMB7,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB7_0_w,NEWMSGENABLEUUMB7_1_w"
newline
bitfld.long 0x00 13. "NOTFULLENABLEUUMB6,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB6_0_w,NOTFULLENABLEUUMB6_1_w"
bitfld.long 0x00 12. "NEWMSGENABLEUUMB6,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB6_0_w,NEWMSGENABLEUUMB6_1_w"
newline
bitfld.long 0x00 11. "NOTFULLENABLEUUMB5,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB5_0_w,NOTFULLENABLEUUMB5_1_w"
bitfld.long 0x00 10. "NEWMSGENABLEUUMB5,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB5_0_w,NEWMSGENABLEUUMB5_1_w"
newline
bitfld.long 0x00 9. "NOTFULLENABLEUUMB4,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB4_0_w,NOTFULLENABLEUUMB4_1_w"
bitfld.long 0x00 8. "NEWMSGENABLEUUMB4,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB4_0_w,NEWMSGENABLEUUMB4_1_w"
newline
bitfld.long 0x00 7. "NOTFULLENABLEUUMB3,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB3_0_w,NOTFULLENABLEUUMB3_1_w"
bitfld.long 0x00 6. "NEWMSGENABLEUUMB3,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB3_0_w,NEWMSGENABLEUUMB3_1_w"
newline
bitfld.long 0x00 5. "NOTFULLENABLEUUMB2,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB2_0_w,NOTFULLENABLEUUMB2_1_w"
bitfld.long 0x00 4. "NEWMSGENABLEUUMB2,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB2_0_w,NEWMSGENABLEUUMB2_1_w"
newline
bitfld.long 0x00 3. "NOTFULLENABLEUUMB1,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB1_0_w,NOTFULLENABLEUUMB1_1_w"
bitfld.long 0x00 2. "NEWMSGENABLEUUMB1,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB1_0_w,NEWMSGENABLEUUMB1_1_w"
newline
bitfld.long 0x00 1. "NOTFULLENABLEUUMB0,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB0_0_w,NOTFULLENABLEUUMB0_1_w"
bitfld.long 0x00 0. "NEWMSGENABLEUUMB0,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB0_0_w,NEWMSGENABLEUUMB0_1_w"
group.long 0x104++0x03
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 15. "NOTFULLSTATUSENUUMB7,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB7_0_w,NOTFULLSTATUSENUUMB7_1_w"
bitfld.long 0x00 14. "NEWMSGSTATUSENUUMB7,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB7_0_w,NEWMSGSTATUSENUUMB7_1_w"
newline
bitfld.long 0x00 13. "NOTFULLSTATUSENUUMB6,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB6_0_w,NOTFULLSTATUSENUUMB6_1_w"
bitfld.long 0x00 12. "NEWMSGSTATUSENUUMB6,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB6_0_w,NEWMSGSTATUSENUUMB6_1_w"
newline
bitfld.long 0x00 11. "NOTFULLSTATUSENUUMB5,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB5_0_w,NOTFULLSTATUSENUUMB5_1_w"
bitfld.long 0x00 10. "NEWMSGSTATUSENUUMB5,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB5_0_w,NEWMSGSTATUSENUUMB5_1_w"
newline
bitfld.long 0x00 9. "NOTFULLSTATUSENUUMB4,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB4_0_w,NOTFULLSTATUSENUUMB4_1_w"
bitfld.long 0x00 8. "NEWMSGSTATUSENUUMB4,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB4_0_w,NEWMSGSTATUSENUUMB4_1_w"
newline
bitfld.long 0x00 7. "NOTFULLSTATUSENUUMB3,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB3_0_w,NOTFULLSTATUSENUUMB3_1_w"
bitfld.long 0x00 6. "NEWMSGSTATUSENUUMB3,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB3_0_w,NEWMSGSTATUSENUUMB3_1_w"
newline
bitfld.long 0x00 5. "NOTFULLSTATUSENUUMB2,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB2_0_w,NOTFULLSTATUSENUUMB2_1_w"
bitfld.long 0x00 4. "NEWMSGSTATUSENUUMB2,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB2_0_w,NEWMSGSTATUSENUUMB2_1_w"
newline
bitfld.long 0x00 3. "NOTFULLSTATUSENUUMB1,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB1_0_w,NOTFULLSTATUSENUUMB1_1_w"
bitfld.long 0x00 2. "NEWMSGSTATUSENUUMB1,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB1_0_w,NEWMSGSTATUSENUUMB1_1_w"
newline
bitfld.long 0x00 1. "NOTFULLSTATUSENUUMB0,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB0_0_w,NOTFULLSTATUSENUUMB0_1_w"
bitfld.long 0x00 0. "NEWMSGSTATUSENUUMB0,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB0_0_w,NEWMSGSTATUSENUUMB0_1_w"
group.long 0x100++0x03
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"
bitfld.long 0x00 15. "NOTFULLSTATUSENUUMB7,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB7_0_w,NOTFULLSTATUSENUUMB7_1_w"
bitfld.long 0x00 14. "NEWMSGSTATUSUUMB7,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB7_0_w,NEWMSGSTATUSUUMB7_1_w"
newline
bitfld.long 0x00 13. "NOTFULLSTATUSUUMB6,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB6_0_w,NOTFULLSTATUSUUMB6_1_w"
bitfld.long 0x00 12. "NEWMSGSTATUSUUMB6,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB6_0_w,NEWMSGSTATUSUUMB6_1_w"
newline
bitfld.long 0x00 11. "NOTFULLSTATUSUUMB5,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB5_0_w,NOTFULLSTATUSUUMB5_1_w"
bitfld.long 0x00 10. "NEWMSGSTATUSUUMB5,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB5_0_w,NEWMSGSTATUSUUMB5_1_w"
newline
bitfld.long 0x00 9. "NOTFULLSTATUSUUMB4,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB4_0_w,NOTFULLSTATUSUUMB4_1_w"
bitfld.long 0x00 8. "NEWMSGSTATUSUUMB4,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB4_0_w,NEWMSGSTATUSUUMB4_1_w"
newline
bitfld.long 0x00 7. "NOTFULLSTATUSUUMB3,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB3_0_w,NOTFULLSTATUSUUMB3_1_w"
bitfld.long 0x00 6. "NEWMSGSTATUSUUMB3,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB3_0_w,NEWMSGSTATUSUUMB3_1_w"
newline
bitfld.long 0x00 5. "NOTFULLSTATUSUUMB2,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB2_0_w,NOTFULLSTATUSUUMB2_1_w"
bitfld.long 0x00 4. "NEWMSGSTATUSUUMB2,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB2_0_w,NEWMSGSTATUSUUMB2_1_w"
newline
bitfld.long 0x00 3. "NOTFULLSTATUSUUMB1,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB1_0_w,NOTFULLSTATUSUUMB1_1_w"
bitfld.long 0x00 2. "NEWMSGSTATUSUUMB1,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB1_0_w,NEWMSGSTATUSUUMB1_1_w"
newline
bitfld.long 0x00 1. "NOTFULLSTATUSUUMB0,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB0_0_w,NOTFULLSTATUSUUMB0_1_w"
bitfld.long 0x00 0. "NEWMSGSTATUSUUMB0,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB0_0_w,NEWMSGSTATUSUUMB0_1_w"
group.long 0x40++0x03
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox"
rgroup.long 0xC0++0x03
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 MailboxNote: Limited to four messages per mailbox" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
rgroup.long 0x84++0x03
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" "FIFOFULLMBM_0_r,FIFOFULLMBM_1_r"
group.long 0x11C++0x03
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"
bitfld.long 0x00 15. "NOTFULLENABLEUUMB7,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB7_0_w,NOTFULLENABLEUUMB7_1_w"
bitfld.long 0x00 14. "NEWMSGENABLEUUMB7,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB7_0_w,NEWMSGENABLEUUMB7_1_w"
newline
bitfld.long 0x00 13. "NOTFULLENABLEUUMB6,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB6_0_w,NOTFULLENABLEUUMB6_1_w"
bitfld.long 0x00 12. "NEWMSGENABLEUUMB6,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB6_0_w,NEWMSGENABLEUUMB6_1_w"
newline
bitfld.long 0x00 11. "NOTFULLENABLEUUMB5,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB5_0_w,NOTFULLENABLEUUMB5_1_w"
bitfld.long 0x00 10. "NEWMSGENABLEUUMB5,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB5_0_w,NEWMSGENABLEUUMB5_1_w"
newline
bitfld.long 0x00 9. "NOTFULLENABLEUUMB4,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB4_0_w,NOTFULLENABLEUUMB4_1_w"
bitfld.long 0x00 8. "NEWMSGENABLEUUMB4,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB4_0_w,NEWMSGENABLEUUMB4_1_w"
newline
bitfld.long 0x00 7. "NOTFULLENABLEUUMB3,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB3_0_w,NOTFULLENABLEUUMB3_1_w"
bitfld.long 0x00 6. "NEWMSGENABLEUUMB3,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB3_0_w,NEWMSGENABLEUUMB3_1_w"
newline
bitfld.long 0x00 5. "NOTFULLENABLEUUMB2,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB2_0_w,NOTFULLENABLEUUMB2_1_w"
bitfld.long 0x00 4. "NEWMSGENABLEUUMB2,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB2_0_w,NEWMSGENABLEUUMB2_1_w"
newline
bitfld.long 0x00 3. "NOTFULLENABLEUUMB1,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB1_0_w,NOTFULLENABLEUUMB1_1_w"
bitfld.long 0x00 2. "NEWMSGENABLEUUMB1,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB1_0_w,NEWMSGENABLEUUMB1_1_w"
newline
bitfld.long 0x00 1. "NOTFULLENABLEUUMB0,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB0_0_w,NOTFULLENABLEUUMB0_1_w"
bitfld.long 0x00 0. "NEWMSGENABLEUUMB0,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB0_0_w,NEWMSGENABLEUUMB0_1_w"
group.long 0x118++0x03
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"
bitfld.long 0x00 15. "NOTFULLENABLEUUMB7,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB7_0_w,NOTFULLENABLEUUMB7_1_w"
bitfld.long 0x00 14. "NEWMSGENABLEUUMB7,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB7_0_w,NEWMSGENABLEUUMB7_1_w"
newline
bitfld.long 0x00 13. "NOTFULLENABLEUUMB6,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB6_0_w,NOTFULLENABLEUUMB6_1_w"
bitfld.long 0x00 12. "NEWMSGENABLEUUMB6,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB6_0_w,NEWMSGENABLEUUMB6_1_w"
newline
bitfld.long 0x00 11. "NOTFULLENABLEUUMB5,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB5_0_w,NOTFULLENABLEUUMB5_1_w"
bitfld.long 0x00 10. "NEWMSGENABLEUUMB5,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB5_0_w,NEWMSGENABLEUUMB5_1_w"
newline
bitfld.long 0x00 9. "NOTFULLENABLEUUMB4,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB4_0_w,NOTFULLENABLEUUMB4_1_w"
bitfld.long 0x00 8. "NEWMSGENABLEUUMB4,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB4_0_w,NEWMSGENABLEUUMB4_1_w"
newline
bitfld.long 0x00 7. "NOTFULLENABLEUUMB3,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB3_0_w,NOTFULLENABLEUUMB3_1_w"
bitfld.long 0x00 6. "NEWMSGENABLEUUMB3,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB3_0_w,NEWMSGENABLEUUMB3_1_w"
newline
bitfld.long 0x00 5. "NOTFULLENABLEUUMB2,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB2_0_w,NOTFULLENABLEUUMB2_1_w"
bitfld.long 0x00 4. "NEWMSGENABLEUUMB2,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB2_0_w,NEWMSGENABLEUUMB2_1_w"
newline
bitfld.long 0x00 3. "NOTFULLENABLEUUMB1,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB1_0_w,NOTFULLENABLEUUMB1_1_w"
bitfld.long 0x00 2. "NEWMSGENABLEUUMB1,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB1_0_w,NEWMSGENABLEUUMB1_1_w"
newline
bitfld.long 0x00 1. "NOTFULLENABLEUUMB0,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB0_0_w,NOTFULLENABLEUUMB0_1_w"
bitfld.long 0x00 0. "NEWMSGENABLEUUMB0,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB0_0_w,NEWMSGENABLEUUMB0_1_w"
group.long 0x114++0x03
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 15. "NOTFULLSTATUSENUUMB7,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB7_0_w,NOTFULLSTATUSENUUMB7_1_w"
bitfld.long 0x00 14. "NEWMSGSTATUSENUUMB7,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB7_0_w,NEWMSGSTATUSENUUMB7_1_w"
newline
bitfld.long 0x00 13. "NOTFULLSTATUSENUUMB6,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB6_0_w,NOTFULLSTATUSENUUMB6_1_w"
bitfld.long 0x00 12. "NEWMSGSTATUSENUUMB6,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB6_0_w,NEWMSGSTATUSENUUMB6_1_w"
newline
bitfld.long 0x00 11. "NOTFULLSTATUSENUUMB5,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB5_0_w,NOTFULLSTATUSENUUMB5_1_w"
bitfld.long 0x00 10. "NEWMSGSTATUSENUUMB5,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB5_0_w,NEWMSGSTATUSENUUMB5_1_w"
newline
bitfld.long 0x00 9. "NOTFULLSTATUSENUUMB4,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB4_0_w,NOTFULLSTATUSENUUMB4_1_w"
bitfld.long 0x00 8. "NEWMSGSTATUSENUUMB4,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB4_0_w,NEWMSGSTATUSENUUMB4_1_w"
newline
bitfld.long 0x00 7. "NOTFULLSTATUSENUUMB3,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB3_0_w,NOTFULLSTATUSENUUMB3_1_w"
bitfld.long 0x00 6. "NEWMSGSTATUSENUUMB3,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB3_0_w,NEWMSGSTATUSENUUMB3_1_w"
newline
bitfld.long 0x00 5. "NOTFULLSTATUSENUUMB2,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB2_0_w,NOTFULLSTATUSENUUMB2_1_w"
bitfld.long 0x00 4. "NEWMSGSTATUSENUUMB2,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB2_0_w,NEWMSGSTATUSENUUMB2_1_w"
newline
bitfld.long 0x00 3. "NOTFULLSTATUSENUUMB1,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB1_0_w,NOTFULLSTATUSENUUMB1_1_w"
bitfld.long 0x00 2. "NEWMSGSTATUSENUUMB1,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB1_0_w,NEWMSGSTATUSENUUMB1_1_w"
newline
bitfld.long 0x00 1. "NOTFULLSTATUSENUUMB0,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB0_0_w,NOTFULLSTATUSENUUMB0_1_w"
bitfld.long 0x00 0. "NEWMSGSTATUSENUUMB0,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB0_0_w,NEWMSGSTATUSENUUMB0_1_w"
group.long 0x110++0x03
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"
bitfld.long 0x00 15. "NOTFULLSTATUSENUUMB7,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB7_0_w,NOTFULLSTATUSENUUMB7_1_w"
bitfld.long 0x00 14. "NEWMSGSTATUSUUMB7,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB7_0_w,NEWMSGSTATUSUUMB7_1_w"
newline
bitfld.long 0x00 13. "NOTFULLSTATUSUUMB6,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB6_0_w,NOTFULLSTATUSUUMB6_1_w"
bitfld.long 0x00 12. "NEWMSGSTATUSUUMB6,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB6_0_w,NEWMSGSTATUSUUMB6_1_w"
newline
bitfld.long 0x00 11. "NOTFULLSTATUSUUMB5,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB5_0_w,NOTFULLSTATUSUUMB5_1_w"
bitfld.long 0x00 10. "NEWMSGSTATUSUUMB5,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB5_0_w,NEWMSGSTATUSUUMB5_1_w"
newline
bitfld.long 0x00 9. "NOTFULLSTATUSUUMB4,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB4_0_w,NOTFULLSTATUSUUMB4_1_w"
bitfld.long 0x00 8. "NEWMSGSTATUSUUMB4,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB4_0_w,NEWMSGSTATUSUUMB4_1_w"
newline
bitfld.long 0x00 7. "NOTFULLSTATUSUUMB3,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB3_0_w,NOTFULLSTATUSUUMB3_1_w"
bitfld.long 0x00 6. "NEWMSGSTATUSUUMB3,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB3_0_w,NEWMSGSTATUSUUMB3_1_w"
newline
bitfld.long 0x00 5. "NOTFULLSTATUSUUMB2,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB2_0_w,NOTFULLSTATUSUUMB2_1_w"
bitfld.long 0x00 4. "NEWMSGSTATUSUUMB2,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB2_0_w,NEWMSGSTATUSUUMB2_1_w"
newline
bitfld.long 0x00 3. "NOTFULLSTATUSUUMB1,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB1_0_w,NOTFULLSTATUSUUMB1_1_w"
bitfld.long 0x00 2. "NEWMSGSTATUSUUMB1,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB1_0_w,NEWMSGSTATUSUUMB1_1_w"
newline
bitfld.long 0x00 1. "NOTFULLSTATUSUUMB0,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB0_0_w,NOTFULLSTATUSUUMB0_1_w"
bitfld.long 0x00 0. "NEWMSGSTATUSUUMB0,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB0_0_w,NEWMSGSTATUSUUMB0_1_w"
group.long 0x44++0x03
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox"
rgroup.long 0xC4++0x03
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 MailboxNote: Limited to four messages per mailbox" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
rgroup.long 0x88++0x03
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" "FIFOFULLMBM_0_r,FIFOFULLMBM_1_r"
group.long 0x12C++0x03
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"
bitfld.long 0x00 15. "NOTFULLENABLEUUMB7,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB7_0_w,NOTFULLENABLEUUMB7_1_w"
bitfld.long 0x00 14. "NEWMSGENABLEUUMB7,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB7_0_w,NEWMSGENABLEUUMB7_1_w"
newline
bitfld.long 0x00 13. "NOTFULLENABLEUUMB6,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB6_0_w,NOTFULLENABLEUUMB6_1_w"
bitfld.long 0x00 12. "NEWMSGENABLEUUMB6,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB6_0_w,NEWMSGENABLEUUMB6_1_w"
newline
bitfld.long 0x00 11. "NOTFULLENABLEUUMB5,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB5_0_w,NOTFULLENABLEUUMB5_1_w"
bitfld.long 0x00 10. "NEWMSGENABLEUUMB5,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB5_0_w,NEWMSGENABLEUUMB5_1_w"
newline
bitfld.long 0x00 9. "NOTFULLENABLEUUMB4,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB4_0_w,NOTFULLENABLEUUMB4_1_w"
bitfld.long 0x00 8. "NEWMSGENABLEUUMB4,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB4_0_w,NEWMSGENABLEUUMB4_1_w"
newline
bitfld.long 0x00 7. "NOTFULLENABLEUUMB3,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB3_0_w,NOTFULLENABLEUUMB3_1_w"
bitfld.long 0x00 6. "NEWMSGENABLEUUMB3,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB3_0_w,NEWMSGENABLEUUMB3_1_w"
newline
bitfld.long 0x00 5. "NOTFULLENABLEUUMB2,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB2_0_w,NOTFULLENABLEUUMB2_1_w"
bitfld.long 0x00 4. "NEWMSGENABLEUUMB2,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB2_0_w,NEWMSGENABLEUUMB2_1_w"
newline
bitfld.long 0x00 3. "NOTFULLENABLEUUMB1,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB1_0_w,NOTFULLENABLEUUMB1_1_w"
bitfld.long 0x00 2. "NEWMSGENABLEUUMB1,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB1_0_w,NEWMSGENABLEUUMB1_1_w"
newline
bitfld.long 0x00 1. "NOTFULLENABLEUUMB0,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB0_0_w,NOTFULLENABLEUUMB0_1_w"
bitfld.long 0x00 0. "NEWMSGENABLEUUMB0,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB0_0_w,NEWMSGENABLEUUMB0_1_w"
group.long 0x128++0x03
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"
bitfld.long 0x00 15. "NOTFULLENABLEUUMB7,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB7_0_w,NOTFULLENABLEUUMB7_1_w"
bitfld.long 0x00 14. "NEWMSGENABLEUUMB7,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB7_0_w,NEWMSGENABLEUUMB7_1_w"
newline
bitfld.long 0x00 13. "NOTFULLENABLEUUMB6,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB6_0_w,NOTFULLENABLEUUMB6_1_w"
bitfld.long 0x00 12. "NEWMSGENABLEUUMB6,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB6_0_w,NEWMSGENABLEUUMB6_1_w"
newline
bitfld.long 0x00 11. "NOTFULLENABLEUUMB5,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB5_0_w,NOTFULLENABLEUUMB5_1_w"
bitfld.long 0x00 10. "NEWMSGENABLEUUMB5,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB5_0_w,NEWMSGENABLEUUMB5_1_w"
newline
bitfld.long 0x00 9. "NOTFULLENABLEUUMB4,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB4_0_w,NOTFULLENABLEUUMB4_1_w"
bitfld.long 0x00 8. "NEWMSGENABLEUUMB4,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB4_0_w,NEWMSGENABLEUUMB4_1_w"
newline
bitfld.long 0x00 7. "NOTFULLENABLEUUMB3,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB3_0_w,NOTFULLENABLEUUMB3_1_w"
bitfld.long 0x00 6. "NEWMSGENABLEUUMB3,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB3_0_w,NEWMSGENABLEUUMB3_1_w"
newline
bitfld.long 0x00 5. "NOTFULLENABLEUUMB2,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB2_0_w,NOTFULLENABLEUUMB2_1_w"
bitfld.long 0x00 4. "NEWMSGENABLEUUMB2,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB2_0_w,NEWMSGENABLEUUMB2_1_w"
newline
bitfld.long 0x00 3. "NOTFULLENABLEUUMB1,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB1_0_w,NOTFULLENABLEUUMB1_1_w"
bitfld.long 0x00 2. "NEWMSGENABLEUUMB1,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB1_0_w,NEWMSGENABLEUUMB1_1_w"
newline
bitfld.long 0x00 1. "NOTFULLENABLEUUMB0,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB0_0_w,NOTFULLENABLEUUMB0_1_w"
bitfld.long 0x00 0. "NEWMSGENABLEUUMB0,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB0_0_w,NEWMSGENABLEUUMB0_1_w"
group.long 0x124++0x03
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 15. "NOTFULLSTATUSENUUMB7,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB7_0_w,NOTFULLSTATUSENUUMB7_1_w"
bitfld.long 0x00 14. "NEWMSGSTATUSENUUMB7,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB7_0_w,NEWMSGSTATUSENUUMB7_1_w"
newline
bitfld.long 0x00 13. "NOTFULLSTATUSENUUMB6,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB6_0_w,NOTFULLSTATUSENUUMB6_1_w"
bitfld.long 0x00 12. "NEWMSGSTATUSENUUMB6,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB6_0_w,NEWMSGSTATUSENUUMB6_1_w"
newline
bitfld.long 0x00 11. "NOTFULLSTATUSENUUMB5,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB5_0_w,NOTFULLSTATUSENUUMB5_1_w"
bitfld.long 0x00 10. "NEWMSGSTATUSENUUMB5,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB5_0_w,NEWMSGSTATUSENUUMB5_1_w"
newline
bitfld.long 0x00 9. "NOTFULLSTATUSENUUMB4,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB4_0_w,NOTFULLSTATUSENUUMB4_1_w"
bitfld.long 0x00 8. "NEWMSGSTATUSENUUMB4,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB4_0_w,NEWMSGSTATUSENUUMB4_1_w"
newline
bitfld.long 0x00 7. "NOTFULLSTATUSENUUMB3,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB3_0_w,NOTFULLSTATUSENUUMB3_1_w"
bitfld.long 0x00 6. "NEWMSGSTATUSENUUMB3,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB3_0_w,NEWMSGSTATUSENUUMB3_1_w"
newline
bitfld.long 0x00 5. "NOTFULLSTATUSENUUMB2,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB2_0_w,NOTFULLSTATUSENUUMB2_1_w"
bitfld.long 0x00 4. "NEWMSGSTATUSENUUMB2,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB2_0_w,NEWMSGSTATUSENUUMB2_1_w"
newline
bitfld.long 0x00 3. "NOTFULLSTATUSENUUMB1,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB1_0_w,NOTFULLSTATUSENUUMB1_1_w"
bitfld.long 0x00 2. "NEWMSGSTATUSENUUMB1,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB1_0_w,NEWMSGSTATUSENUUMB1_1_w"
newline
bitfld.long 0x00 1. "NOTFULLSTATUSENUUMB0,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB0_0_w,NOTFULLSTATUSENUUMB0_1_w"
bitfld.long 0x00 0. "NEWMSGSTATUSENUUMB0,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB0_0_w,NEWMSGSTATUSENUUMB0_1_w"
group.long 0x120++0x03
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"
bitfld.long 0x00 15. "NOTFULLSTATUSENUUMB7,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB7_0_w,NOTFULLSTATUSENUUMB7_1_w"
bitfld.long 0x00 14. "NEWMSGSTATUSUUMB7,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB7_0_w,NEWMSGSTATUSUUMB7_1_w"
newline
bitfld.long 0x00 13. "NOTFULLSTATUSUUMB6,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB6_0_w,NOTFULLSTATUSUUMB6_1_w"
bitfld.long 0x00 12. "NEWMSGSTATUSUUMB6,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB6_0_w,NEWMSGSTATUSUUMB6_1_w"
newline
bitfld.long 0x00 11. "NOTFULLSTATUSUUMB5,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB5_0_w,NOTFULLSTATUSUUMB5_1_w"
bitfld.long 0x00 10. "NEWMSGSTATUSUUMB5,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB5_0_w,NEWMSGSTATUSUUMB5_1_w"
newline
bitfld.long 0x00 9. "NOTFULLSTATUSUUMB4,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB4_0_w,NOTFULLSTATUSUUMB4_1_w"
bitfld.long 0x00 8. "NEWMSGSTATUSUUMB4,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB4_0_w,NEWMSGSTATUSUUMB4_1_w"
newline
bitfld.long 0x00 7. "NOTFULLSTATUSUUMB3,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB3_0_w,NOTFULLSTATUSUUMB3_1_w"
bitfld.long 0x00 6. "NEWMSGSTATUSUUMB3,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB3_0_w,NEWMSGSTATUSUUMB3_1_w"
newline
bitfld.long 0x00 5. "NOTFULLSTATUSUUMB2,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB2_0_w,NOTFULLSTATUSUUMB2_1_w"
bitfld.long 0x00 4. "NEWMSGSTATUSUUMB2,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB2_0_w,NEWMSGSTATUSUUMB2_1_w"
newline
bitfld.long 0x00 3. "NOTFULLSTATUSUUMB1,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB1_0_w,NOTFULLSTATUSUUMB1_1_w"
bitfld.long 0x00 2. "NEWMSGSTATUSUUMB1,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB1_0_w,NEWMSGSTATUSUUMB1_1_w"
newline
bitfld.long 0x00 1. "NOTFULLSTATUSUUMB0,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB0_0_w,NOTFULLSTATUSUUMB0_1_w"
bitfld.long 0x00 0. "NEWMSGSTATUSUUMB0,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB0_0_w,NEWMSGSTATUSUUMB0_1_w"
group.long 0x48++0x03
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox"
rgroup.long 0xC8++0x03
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 MailboxNote: Limited to four messages per mailbox" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
rgroup.long 0x8C++0x03
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" "FIFOFULLMBM_0_r,FIFOFULLMBM_1_r"
group.long 0x13C++0x03
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"
bitfld.long 0x00 15. "NOTFULLENABLEUUMB7,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB7_0_w,NOTFULLENABLEUUMB7_1_w"
bitfld.long 0x00 14. "NEWMSGENABLEUUMB7,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB7_0_w,NEWMSGENABLEUUMB7_1_w"
newline
bitfld.long 0x00 13. "NOTFULLENABLEUUMB6,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB6_0_w,NOTFULLENABLEUUMB6_1_w"
bitfld.long 0x00 12. "NEWMSGENABLEUUMB6,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB6_0_w,NEWMSGENABLEUUMB6_1_w"
newline
bitfld.long 0x00 11. "NOTFULLENABLEUUMB5,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB5_0_w,NOTFULLENABLEUUMB5_1_w"
bitfld.long 0x00 10. "NEWMSGENABLEUUMB5,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB5_0_w,NEWMSGENABLEUUMB5_1_w"
newline
bitfld.long 0x00 9. "NOTFULLENABLEUUMB4,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB4_0_w,NOTFULLENABLEUUMB4_1_w"
bitfld.long 0x00 8. "NEWMSGENABLEUUMB4,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB4_0_w,NEWMSGENABLEUUMB4_1_w"
newline
bitfld.long 0x00 7. "NOTFULLENABLEUUMB3,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB3_0_w,NOTFULLENABLEUUMB3_1_w"
bitfld.long 0x00 6. "NEWMSGENABLEUUMB3,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB3_0_w,NEWMSGENABLEUUMB3_1_w"
newline
bitfld.long 0x00 5. "NOTFULLENABLEUUMB2,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB2_0_w,NOTFULLENABLEUUMB2_1_w"
bitfld.long 0x00 4. "NEWMSGENABLEUUMB2,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB2_0_w,NEWMSGENABLEUUMB2_1_w"
newline
bitfld.long 0x00 3. "NOTFULLENABLEUUMB1,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB1_0_w,NOTFULLENABLEUUMB1_1_w"
bitfld.long 0x00 2. "NEWMSGENABLEUUMB1,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB1_0_w,NEWMSGENABLEUUMB1_1_w"
newline
bitfld.long 0x00 1. "NOTFULLENABLEUUMB0,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB0_0_w,NOTFULLENABLEUUMB0_1_w"
bitfld.long 0x00 0. "NEWMSGENABLEUUMB0,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB0_0_w,NEWMSGENABLEUUMB0_1_w"
group.long 0x138++0x03
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"
bitfld.long 0x00 15. "NOTFULLENABLEUUMB7,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB7_0_w,NOTFULLENABLEUUMB7_1_w"
bitfld.long 0x00 14. "NEWMSGENABLEUUMB7,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB7_0_w,NEWMSGENABLEUUMB7_1_w"
newline
bitfld.long 0x00 13. "NOTFULLENABLEUUMB6,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB6_0_w,NOTFULLENABLEUUMB6_1_w"
bitfld.long 0x00 12. "NEWMSGENABLEUUMB6,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB6_0_w,NEWMSGENABLEUUMB6_1_w"
newline
bitfld.long 0x00 11. "NOTFULLENABLEUUMB5,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB5_0_w,NOTFULLENABLEUUMB5_1_w"
bitfld.long 0x00 10. "NEWMSGENABLEUUMB5,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB5_0_w,NEWMSGENABLEUUMB5_1_w"
newline
bitfld.long 0x00 9. "NOTFULLENABLEUUMB4,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB4_0_w,NOTFULLENABLEUUMB4_1_w"
bitfld.long 0x00 8. "NEWMSGENABLEUUMB4,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB4_0_w,NEWMSGENABLEUUMB4_1_w"
newline
bitfld.long 0x00 7. "NOTFULLENABLEUUMB3,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB3_0_w,NOTFULLENABLEUUMB3_1_w"
bitfld.long 0x00 6. "NEWMSGENABLEUUMB3,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB3_0_w,NEWMSGENABLEUUMB3_1_w"
newline
bitfld.long 0x00 5. "NOTFULLENABLEUUMB2,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB2_0_w,NOTFULLENABLEUUMB2_1_w"
bitfld.long 0x00 4. "NEWMSGENABLEUUMB2,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB2_0_w,NEWMSGENABLEUUMB2_1_w"
newline
bitfld.long 0x00 3. "NOTFULLENABLEUUMB1,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB1_0_w,NOTFULLENABLEUUMB1_1_w"
bitfld.long 0x00 2. "NEWMSGENABLEUUMB1,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB1_0_w,NEWMSGENABLEUUMB1_1_w"
newline
bitfld.long 0x00 1. "NOTFULLENABLEUUMB0,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB0_0_w,NOTFULLENABLEUUMB0_1_w"
bitfld.long 0x00 0. "NEWMSGENABLEUUMB0,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB0_0_w,NEWMSGENABLEUUMB0_1_w"
group.long 0x134++0x03
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 15. "NOTFULLSTATUSENUUMB7,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB7_0_w,NOTFULLSTATUSENUUMB7_1_w"
bitfld.long 0x00 14. "NEWMSGSTATUSENUUMB7,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB7_0_w,NEWMSGSTATUSENUUMB7_1_w"
newline
bitfld.long 0x00 13. "NOTFULLSTATUSENUUMB6,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB6_0_w,NOTFULLSTATUSENUUMB6_1_w"
bitfld.long 0x00 12. "NEWMSGSTATUSENUUMB6,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB6_0_w,NEWMSGSTATUSENUUMB6_1_w"
newline
bitfld.long 0x00 11. "NOTFULLSTATUSENUUMB5,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB5_0_w,NOTFULLSTATUSENUUMB5_1_w"
bitfld.long 0x00 10. "NEWMSGSTATUSENUUMB5,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB5_0_w,NEWMSGSTATUSENUUMB5_1_w"
newline
bitfld.long 0x00 9. "NOTFULLSTATUSENUUMB4,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB4_0_w,NOTFULLSTATUSENUUMB4_1_w"
bitfld.long 0x00 8. "NEWMSGSTATUSENUUMB4,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB4_0_w,NEWMSGSTATUSENUUMB4_1_w"
newline
bitfld.long 0x00 7. "NOTFULLSTATUSENUUMB3,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB3_0_w,NOTFULLSTATUSENUUMB3_1_w"
bitfld.long 0x00 6. "NEWMSGSTATUSENUUMB3,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB3_0_w,NEWMSGSTATUSENUUMB3_1_w"
newline
bitfld.long 0x00 5. "NOTFULLSTATUSENUUMB2,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB2_0_w,NOTFULLSTATUSENUUMB2_1_w"
bitfld.long 0x00 4. "NEWMSGSTATUSENUUMB2,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB2_0_w,NEWMSGSTATUSENUUMB2_1_w"
newline
bitfld.long 0x00 3. "NOTFULLSTATUSENUUMB1,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB1_0_w,NOTFULLSTATUSENUUMB1_1_w"
bitfld.long 0x00 2. "NEWMSGSTATUSENUUMB1,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB1_0_w,NEWMSGSTATUSENUUMB1_1_w"
newline
bitfld.long 0x00 1. "NOTFULLSTATUSENUUMB0,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB0_0_w,NOTFULLSTATUSENUUMB0_1_w"
bitfld.long 0x00 0. "NEWMSGSTATUSENUUMB0,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB0_0_w,NEWMSGSTATUSENUUMB0_1_w"
group.long 0x130++0x03
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"
bitfld.long 0x00 15. "NOTFULLSTATUSENUUMB7,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB7_0_w,NOTFULLSTATUSENUUMB7_1_w"
bitfld.long 0x00 14. "NEWMSGSTATUSUUMB7,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB7_0_w,NEWMSGSTATUSUUMB7_1_w"
newline
bitfld.long 0x00 13. "NOTFULLSTATUSUUMB6,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB6_0_w,NOTFULLSTATUSUUMB6_1_w"
bitfld.long 0x00 12. "NEWMSGSTATUSUUMB6,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB6_0_w,NEWMSGSTATUSUUMB6_1_w"
newline
bitfld.long 0x00 11. "NOTFULLSTATUSUUMB5,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB5_0_w,NOTFULLSTATUSUUMB5_1_w"
bitfld.long 0x00 10. "NEWMSGSTATUSUUMB5,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB5_0_w,NEWMSGSTATUSUUMB5_1_w"
newline
bitfld.long 0x00 9. "NOTFULLSTATUSUUMB4,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB4_0_w,NOTFULLSTATUSUUMB4_1_w"
bitfld.long 0x00 8. "NEWMSGSTATUSUUMB4,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB4_0_w,NEWMSGSTATUSUUMB4_1_w"
newline
bitfld.long 0x00 7. "NOTFULLSTATUSUUMB3,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB3_0_w,NOTFULLSTATUSUUMB3_1_w"
bitfld.long 0x00 6. "NEWMSGSTATUSUUMB3,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB3_0_w,NEWMSGSTATUSUUMB3_1_w"
newline
bitfld.long 0x00 5. "NOTFULLSTATUSUUMB2,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB2_0_w,NOTFULLSTATUSUUMB2_1_w"
bitfld.long 0x00 4. "NEWMSGSTATUSUUMB2,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB2_0_w,NEWMSGSTATUSUUMB2_1_w"
newline
bitfld.long 0x00 3. "NOTFULLSTATUSUUMB1,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB1_0_w,NOTFULLSTATUSUUMB1_1_w"
bitfld.long 0x00 2. "NEWMSGSTATUSUUMB1,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB1_0_w,NEWMSGSTATUSUUMB1_1_w"
newline
bitfld.long 0x00 1. "NOTFULLSTATUSUUMB0,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB0_0_w,NOTFULLSTATUSUUMB0_1_w"
bitfld.long 0x00 0. "NEWMSGSTATUSUUMB0,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB0_0_w,NEWMSGSTATUSUUMB0_1_w"
group.long 0x4C++0x03
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox"
rgroup.long 0xCC++0x03
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 MailboxNote: Limited to four messages per mailbox" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
rgroup.long 0x90++0x03
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" "FIFOFULLMBM_0_r,FIFOFULLMBM_1_r"
group.long 0x50++0x03
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox"
rgroup.long 0xD0++0x03
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 MailboxNote: Limited to four messages per mailbox" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
rgroup.long 0x94++0x03
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" "FIFOFULLMBM_0_r,FIFOFULLMBM_1_r"
group.long 0x54++0x03
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox"
rgroup.long 0xD4++0x03
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 MailboxNote: Limited to four messages per mailbox" "0,1,2,3,4,5,6,7"
tree.end
rgroup.long 0x00++0x03
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
group.long 0x10++0x03
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. "SIDLEMODE,Idle Mode" "SIDLEMODE_0,SIDLEMODE_1,SIDLEMODE_2,SIDLEMODE_3"
bitfld.long 0x00 0. "SOFTRESET,Softreset" "SOFTRESET_0_w,SOFTRESET_1_w"
tree.end
tree "System_Mailbox_L4_CFGInterconnect"
base ansd:0x4A0F4000
tree "Channel_0"
rgroup.long 0x80++0x03
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" "FIFOFULLMBM_0_r,FIFOFULLMBM_1_r"
group.long 0x10C++0x03
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"
bitfld.long 0x00 15. "NOTFULLENABLEUUMB7,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB7_0_w,NOTFULLENABLEUUMB7_1_w"
bitfld.long 0x00 14. "NEWMSGENABLEUUMB7,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB7_0_w,NEWMSGENABLEUUMB7_1_w"
newline
bitfld.long 0x00 13. "NOTFULLENABLEUUMB6,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB6_0_w,NOTFULLENABLEUUMB6_1_w"
bitfld.long 0x00 12. "NEWMSGENABLEUUMB6,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB6_0_w,NEWMSGENABLEUUMB6_1_w"
newline
bitfld.long 0x00 11. "NOTFULLENABLEUUMB5,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB5_0_w,NOTFULLENABLEUUMB5_1_w"
bitfld.long 0x00 10. "NEWMSGENABLEUUMB5,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB5_0_w,NEWMSGENABLEUUMB5_1_w"
newline
bitfld.long 0x00 9. "NOTFULLENABLEUUMB4,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB4_0_w,NOTFULLENABLEUUMB4_1_w"
bitfld.long 0x00 8. "NEWMSGENABLEUUMB4,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB4_0_w,NEWMSGENABLEUUMB4_1_w"
newline
bitfld.long 0x00 7. "NOTFULLENABLEUUMB3,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB3_0_w,NOTFULLENABLEUUMB3_1_w"
bitfld.long 0x00 6. "NEWMSGENABLEUUMB3,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB3_0_w,NEWMSGENABLEUUMB3_1_w"
newline
bitfld.long 0x00 5. "NOTFULLENABLEUUMB2,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB2_0_w,NOTFULLENABLEUUMB2_1_w"
bitfld.long 0x00 4. "NEWMSGENABLEUUMB2,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB2_0_w,NEWMSGENABLEUUMB2_1_w"
newline
bitfld.long 0x00 3. "NOTFULLENABLEUUMB1,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB1_0_w,NOTFULLENABLEUUMB1_1_w"
bitfld.long 0x00 2. "NEWMSGENABLEUUMB1,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB1_0_w,NEWMSGENABLEUUMB1_1_w"
newline
bitfld.long 0x00 1. "NOTFULLENABLEUUMB0,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB0_0_w,NOTFULLENABLEUUMB0_1_w"
bitfld.long 0x00 0. "NEWMSGENABLEUUMB0,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB0_0_w,NEWMSGENABLEUUMB0_1_w"
group.long 0x108++0x03
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"
bitfld.long 0x00 15. "NOTFULLENABLEUUMB7,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB7_0_w,NOTFULLENABLEUUMB7_1_w"
bitfld.long 0x00 14. "NEWMSGENABLEUUMB7,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB7_0_w,NEWMSGENABLEUUMB7_1_w"
newline
bitfld.long 0x00 13. "NOTFULLENABLEUUMB6,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB6_0_w,NOTFULLENABLEUUMB6_1_w"
bitfld.long 0x00 12. "NEWMSGENABLEUUMB6,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB6_0_w,NEWMSGENABLEUUMB6_1_w"
newline
bitfld.long 0x00 11. "NOTFULLENABLEUUMB5,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB5_0_w,NOTFULLENABLEUUMB5_1_w"
bitfld.long 0x00 10. "NEWMSGENABLEUUMB5,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB5_0_w,NEWMSGENABLEUUMB5_1_w"
newline
bitfld.long 0x00 9. "NOTFULLENABLEUUMB4,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB4_0_w,NOTFULLENABLEUUMB4_1_w"
bitfld.long 0x00 8. "NEWMSGENABLEUUMB4,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB4_0_w,NEWMSGENABLEUUMB4_1_w"
newline
bitfld.long 0x00 7. "NOTFULLENABLEUUMB3,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB3_0_w,NOTFULLENABLEUUMB3_1_w"
bitfld.long 0x00 6. "NEWMSGENABLEUUMB3,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB3_0_w,NEWMSGENABLEUUMB3_1_w"
newline
bitfld.long 0x00 5. "NOTFULLENABLEUUMB2,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB2_0_w,NOTFULLENABLEUUMB2_1_w"
bitfld.long 0x00 4. "NEWMSGENABLEUUMB2,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB2_0_w,NEWMSGENABLEUUMB2_1_w"
newline
bitfld.long 0x00 3. "NOTFULLENABLEUUMB1,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB1_0_w,NOTFULLENABLEUUMB1_1_w"
bitfld.long 0x00 2. "NEWMSGENABLEUUMB1,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB1_0_w,NEWMSGENABLEUUMB1_1_w"
newline
bitfld.long 0x00 1. "NOTFULLENABLEUUMB0,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB0_0_w,NOTFULLENABLEUUMB0_1_w"
bitfld.long 0x00 0. "NEWMSGENABLEUUMB0,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB0_0_w,NEWMSGENABLEUUMB0_1_w"
group.long 0x104++0x03
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 15. "NOTFULLSTATUSENUUMB7,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB7_0_w,NOTFULLSTATUSENUUMB7_1_w"
bitfld.long 0x00 14. "NEWMSGSTATUSENUUMB7,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB7_0_w,NEWMSGSTATUSENUUMB7_1_w"
newline
bitfld.long 0x00 13. "NOTFULLSTATUSENUUMB6,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB6_0_w,NOTFULLSTATUSENUUMB6_1_w"
bitfld.long 0x00 12. "NEWMSGSTATUSENUUMB6,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB6_0_w,NEWMSGSTATUSENUUMB6_1_w"
newline
bitfld.long 0x00 11. "NOTFULLSTATUSENUUMB5,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB5_0_w,NOTFULLSTATUSENUUMB5_1_w"
bitfld.long 0x00 10. "NEWMSGSTATUSENUUMB5,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB5_0_w,NEWMSGSTATUSENUUMB5_1_w"
newline
bitfld.long 0x00 9. "NOTFULLSTATUSENUUMB4,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB4_0_w,NOTFULLSTATUSENUUMB4_1_w"
bitfld.long 0x00 8. "NEWMSGSTATUSENUUMB4,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB4_0_w,NEWMSGSTATUSENUUMB4_1_w"
newline
bitfld.long 0x00 7. "NOTFULLSTATUSENUUMB3,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB3_0_w,NOTFULLSTATUSENUUMB3_1_w"
bitfld.long 0x00 6. "NEWMSGSTATUSENUUMB3,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB3_0_w,NEWMSGSTATUSENUUMB3_1_w"
newline
bitfld.long 0x00 5. "NOTFULLSTATUSENUUMB2,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB2_0_w,NOTFULLSTATUSENUUMB2_1_w"
bitfld.long 0x00 4. "NEWMSGSTATUSENUUMB2,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB2_0_w,NEWMSGSTATUSENUUMB2_1_w"
newline
bitfld.long 0x00 3. "NOTFULLSTATUSENUUMB1,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB1_0_w,NOTFULLSTATUSENUUMB1_1_w"
bitfld.long 0x00 2. "NEWMSGSTATUSENUUMB1,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB1_0_w,NEWMSGSTATUSENUUMB1_1_w"
newline
bitfld.long 0x00 1. "NOTFULLSTATUSENUUMB0,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB0_0_w,NOTFULLSTATUSENUUMB0_1_w"
bitfld.long 0x00 0. "NEWMSGSTATUSENUUMB0,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB0_0_w,NEWMSGSTATUSENUUMB0_1_w"
group.long 0x100++0x03
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"
bitfld.long 0x00 15. "NOTFULLSTATUSENUUMB7,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB7_0_w,NOTFULLSTATUSENUUMB7_1_w"
bitfld.long 0x00 14. "NEWMSGSTATUSUUMB7,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB7_0_w,NEWMSGSTATUSUUMB7_1_w"
newline
bitfld.long 0x00 13. "NOTFULLSTATUSUUMB6,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB6_0_w,NOTFULLSTATUSUUMB6_1_w"
bitfld.long 0x00 12. "NEWMSGSTATUSUUMB6,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB6_0_w,NEWMSGSTATUSUUMB6_1_w"
newline
bitfld.long 0x00 11. "NOTFULLSTATUSUUMB5,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB5_0_w,NOTFULLSTATUSUUMB5_1_w"
bitfld.long 0x00 10. "NEWMSGSTATUSUUMB5,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB5_0_w,NEWMSGSTATUSUUMB5_1_w"
newline
bitfld.long 0x00 9. "NOTFULLSTATUSUUMB4,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB4_0_w,NOTFULLSTATUSUUMB4_1_w"
bitfld.long 0x00 8. "NEWMSGSTATUSUUMB4,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB4_0_w,NEWMSGSTATUSUUMB4_1_w"
newline
bitfld.long 0x00 7. "NOTFULLSTATUSUUMB3,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB3_0_w,NOTFULLSTATUSUUMB3_1_w"
bitfld.long 0x00 6. "NEWMSGSTATUSUUMB3,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB3_0_w,NEWMSGSTATUSUUMB3_1_w"
newline
bitfld.long 0x00 5. "NOTFULLSTATUSUUMB2,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB2_0_w,NOTFULLSTATUSUUMB2_1_w"
bitfld.long 0x00 4. "NEWMSGSTATUSUUMB2,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB2_0_w,NEWMSGSTATUSUUMB2_1_w"
newline
bitfld.long 0x00 3. "NOTFULLSTATUSUUMB1,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB1_0_w,NOTFULLSTATUSUUMB1_1_w"
bitfld.long 0x00 2. "NEWMSGSTATUSUUMB1,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB1_0_w,NEWMSGSTATUSUUMB1_1_w"
newline
bitfld.long 0x00 1. "NOTFULLSTATUSUUMB0,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB0_0_w,NOTFULLSTATUSUUMB0_1_w"
bitfld.long 0x00 0. "NEWMSGSTATUSUUMB0,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB0_0_w,NEWMSGSTATUSUUMB0_1_w"
group.long 0x40++0x03
line.long 0x00 "MAILBOX_MESSAGE_m_0,The message register stores the next to be read message of the mailbox"
rgroup.long 0xC0++0x03
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 MailboxNote: Limited to four messages per mailbox" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_1"
rgroup.long 0x84++0x03
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" "FIFOFULLMBM_0_r,FIFOFULLMBM_1_r"
group.long 0x11C++0x03
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"
bitfld.long 0x00 15. "NOTFULLENABLEUUMB7,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB7_0_w,NOTFULLENABLEUUMB7_1_w"
bitfld.long 0x00 14. "NEWMSGENABLEUUMB7,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB7_0_w,NEWMSGENABLEUUMB7_1_w"
newline
bitfld.long 0x00 13. "NOTFULLENABLEUUMB6,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB6_0_w,NOTFULLENABLEUUMB6_1_w"
bitfld.long 0x00 12. "NEWMSGENABLEUUMB6,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB6_0_w,NEWMSGENABLEUUMB6_1_w"
newline
bitfld.long 0x00 11. "NOTFULLENABLEUUMB5,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB5_0_w,NOTFULLENABLEUUMB5_1_w"
bitfld.long 0x00 10. "NEWMSGENABLEUUMB5,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB5_0_w,NEWMSGENABLEUUMB5_1_w"
newline
bitfld.long 0x00 9. "NOTFULLENABLEUUMB4,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB4_0_w,NOTFULLENABLEUUMB4_1_w"
bitfld.long 0x00 8. "NEWMSGENABLEUUMB4,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB4_0_w,NEWMSGENABLEUUMB4_1_w"
newline
bitfld.long 0x00 7. "NOTFULLENABLEUUMB3,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB3_0_w,NOTFULLENABLEUUMB3_1_w"
bitfld.long 0x00 6. "NEWMSGENABLEUUMB3,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB3_0_w,NEWMSGENABLEUUMB3_1_w"
newline
bitfld.long 0x00 5. "NOTFULLENABLEUUMB2,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB2_0_w,NOTFULLENABLEUUMB2_1_w"
bitfld.long 0x00 4. "NEWMSGENABLEUUMB2,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB2_0_w,NEWMSGENABLEUUMB2_1_w"
newline
bitfld.long 0x00 3. "NOTFULLENABLEUUMB1,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB1_0_w,NOTFULLENABLEUUMB1_1_w"
bitfld.long 0x00 2. "NEWMSGENABLEUUMB1,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB1_0_w,NEWMSGENABLEUUMB1_1_w"
newline
bitfld.long 0x00 1. "NOTFULLENABLEUUMB0,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB0_0_w,NOTFULLENABLEUUMB0_1_w"
bitfld.long 0x00 0. "NEWMSGENABLEUUMB0,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB0_0_w,NEWMSGENABLEUUMB0_1_w"
group.long 0x118++0x03
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"
bitfld.long 0x00 15. "NOTFULLENABLEUUMB7,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB7_0_w,NOTFULLENABLEUUMB7_1_w"
bitfld.long 0x00 14. "NEWMSGENABLEUUMB7,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB7_0_w,NEWMSGENABLEUUMB7_1_w"
newline
bitfld.long 0x00 13. "NOTFULLENABLEUUMB6,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB6_0_w,NOTFULLENABLEUUMB6_1_w"
bitfld.long 0x00 12. "NEWMSGENABLEUUMB6,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB6_0_w,NEWMSGENABLEUUMB6_1_w"
newline
bitfld.long 0x00 11. "NOTFULLENABLEUUMB5,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB5_0_w,NOTFULLENABLEUUMB5_1_w"
bitfld.long 0x00 10. "NEWMSGENABLEUUMB5,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB5_0_w,NEWMSGENABLEUUMB5_1_w"
newline
bitfld.long 0x00 9. "NOTFULLENABLEUUMB4,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB4_0_w,NOTFULLENABLEUUMB4_1_w"
bitfld.long 0x00 8. "NEWMSGENABLEUUMB4,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB4_0_w,NEWMSGENABLEUUMB4_1_w"
newline
bitfld.long 0x00 7. "NOTFULLENABLEUUMB3,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB3_0_w,NOTFULLENABLEUUMB3_1_w"
bitfld.long 0x00 6. "NEWMSGENABLEUUMB3,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB3_0_w,NEWMSGENABLEUUMB3_1_w"
newline
bitfld.long 0x00 5. "NOTFULLENABLEUUMB2,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB2_0_w,NOTFULLENABLEUUMB2_1_w"
bitfld.long 0x00 4. "NEWMSGENABLEUUMB2,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB2_0_w,NEWMSGENABLEUUMB2_1_w"
newline
bitfld.long 0x00 3. "NOTFULLENABLEUUMB1,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB1_0_w,NOTFULLENABLEUUMB1_1_w"
bitfld.long 0x00 2. "NEWMSGENABLEUUMB1,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB1_0_w,NEWMSGENABLEUUMB1_1_w"
newline
bitfld.long 0x00 1. "NOTFULLENABLEUUMB0,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB0_0_w,NOTFULLENABLEUUMB0_1_w"
bitfld.long 0x00 0. "NEWMSGENABLEUUMB0,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB0_0_w,NEWMSGENABLEUUMB0_1_w"
group.long 0x114++0x03
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 15. "NOTFULLSTATUSENUUMB7,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB7_0_w,NOTFULLSTATUSENUUMB7_1_w"
bitfld.long 0x00 14. "NEWMSGSTATUSENUUMB7,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB7_0_w,NEWMSGSTATUSENUUMB7_1_w"
newline
bitfld.long 0x00 13. "NOTFULLSTATUSENUUMB6,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB6_0_w,NOTFULLSTATUSENUUMB6_1_w"
bitfld.long 0x00 12. "NEWMSGSTATUSENUUMB6,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB6_0_w,NEWMSGSTATUSENUUMB6_1_w"
newline
bitfld.long 0x00 11. "NOTFULLSTATUSENUUMB5,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB5_0_w,NOTFULLSTATUSENUUMB5_1_w"
bitfld.long 0x00 10. "NEWMSGSTATUSENUUMB5,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB5_0_w,NEWMSGSTATUSENUUMB5_1_w"
newline
bitfld.long 0x00 9. "NOTFULLSTATUSENUUMB4,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB4_0_w,NOTFULLSTATUSENUUMB4_1_w"
bitfld.long 0x00 8. "NEWMSGSTATUSENUUMB4,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB4_0_w,NEWMSGSTATUSENUUMB4_1_w"
newline
bitfld.long 0x00 7. "NOTFULLSTATUSENUUMB3,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB3_0_w,NOTFULLSTATUSENUUMB3_1_w"
bitfld.long 0x00 6. "NEWMSGSTATUSENUUMB3,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB3_0_w,NEWMSGSTATUSENUUMB3_1_w"
newline
bitfld.long 0x00 5. "NOTFULLSTATUSENUUMB2,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB2_0_w,NOTFULLSTATUSENUUMB2_1_w"
bitfld.long 0x00 4. "NEWMSGSTATUSENUUMB2,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB2_0_w,NEWMSGSTATUSENUUMB2_1_w"
newline
bitfld.long 0x00 3. "NOTFULLSTATUSENUUMB1,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB1_0_w,NOTFULLSTATUSENUUMB1_1_w"
bitfld.long 0x00 2. "NEWMSGSTATUSENUUMB1,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB1_0_w,NEWMSGSTATUSENUUMB1_1_w"
newline
bitfld.long 0x00 1. "NOTFULLSTATUSENUUMB0,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB0_0_w,NOTFULLSTATUSENUUMB0_1_w"
bitfld.long 0x00 0. "NEWMSGSTATUSENUUMB0,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB0_0_w,NEWMSGSTATUSENUUMB0_1_w"
group.long 0x110++0x03
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"
bitfld.long 0x00 15. "NOTFULLSTATUSENUUMB7,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB7_0_w,NOTFULLSTATUSENUUMB7_1_w"
bitfld.long 0x00 14. "NEWMSGSTATUSUUMB7,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB7_0_w,NEWMSGSTATUSUUMB7_1_w"
newline
bitfld.long 0x00 13. "NOTFULLSTATUSUUMB6,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB6_0_w,NOTFULLSTATUSUUMB6_1_w"
bitfld.long 0x00 12. "NEWMSGSTATUSUUMB6,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB6_0_w,NEWMSGSTATUSUUMB6_1_w"
newline
bitfld.long 0x00 11. "NOTFULLSTATUSUUMB5,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB5_0_w,NOTFULLSTATUSUUMB5_1_w"
bitfld.long 0x00 10. "NEWMSGSTATUSUUMB5,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB5_0_w,NEWMSGSTATUSUUMB5_1_w"
newline
bitfld.long 0x00 9. "NOTFULLSTATUSUUMB4,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB4_0_w,NOTFULLSTATUSUUMB4_1_w"
bitfld.long 0x00 8. "NEWMSGSTATUSUUMB4,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB4_0_w,NEWMSGSTATUSUUMB4_1_w"
newline
bitfld.long 0x00 7. "NOTFULLSTATUSUUMB3,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB3_0_w,NOTFULLSTATUSUUMB3_1_w"
bitfld.long 0x00 6. "NEWMSGSTATUSUUMB3,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB3_0_w,NEWMSGSTATUSUUMB3_1_w"
newline
bitfld.long 0x00 5. "NOTFULLSTATUSUUMB2,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB2_0_w,NOTFULLSTATUSUUMB2_1_w"
bitfld.long 0x00 4. "NEWMSGSTATUSUUMB2,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB2_0_w,NEWMSGSTATUSUUMB2_1_w"
newline
bitfld.long 0x00 3. "NOTFULLSTATUSUUMB1,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB1_0_w,NOTFULLSTATUSUUMB1_1_w"
bitfld.long 0x00 2. "NEWMSGSTATUSUUMB1,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB1_0_w,NEWMSGSTATUSUUMB1_1_w"
newline
bitfld.long 0x00 1. "NOTFULLSTATUSUUMB0,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB0_0_w,NOTFULLSTATUSUUMB0_1_w"
bitfld.long 0x00 0. "NEWMSGSTATUSUUMB0,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB0_0_w,NEWMSGSTATUSUUMB0_1_w"
group.long 0x44++0x03
line.long 0x00 "MAILBOX_MESSAGE_m_1,The message register stores the next to be read message of the mailbox"
rgroup.long 0xC4++0x03
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 MailboxNote: Limited to four messages per mailbox" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_2"
rgroup.long 0x88++0x03
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" "FIFOFULLMBM_0_r,FIFOFULLMBM_1_r"
group.long 0x12C++0x03
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"
bitfld.long 0x00 15. "NOTFULLENABLEUUMB7,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB7_0_w,NOTFULLENABLEUUMB7_1_w"
bitfld.long 0x00 14. "NEWMSGENABLEUUMB7,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB7_0_w,NEWMSGENABLEUUMB7_1_w"
newline
bitfld.long 0x00 13. "NOTFULLENABLEUUMB6,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB6_0_w,NOTFULLENABLEUUMB6_1_w"
bitfld.long 0x00 12. "NEWMSGENABLEUUMB6,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB6_0_w,NEWMSGENABLEUUMB6_1_w"
newline
bitfld.long 0x00 11. "NOTFULLENABLEUUMB5,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB5_0_w,NOTFULLENABLEUUMB5_1_w"
bitfld.long 0x00 10. "NEWMSGENABLEUUMB5,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB5_0_w,NEWMSGENABLEUUMB5_1_w"
newline
bitfld.long 0x00 9. "NOTFULLENABLEUUMB4,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB4_0_w,NOTFULLENABLEUUMB4_1_w"
bitfld.long 0x00 8. "NEWMSGENABLEUUMB4,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB4_0_w,NEWMSGENABLEUUMB4_1_w"
newline
bitfld.long 0x00 7. "NOTFULLENABLEUUMB3,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB3_0_w,NOTFULLENABLEUUMB3_1_w"
bitfld.long 0x00 6. "NEWMSGENABLEUUMB3,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB3_0_w,NEWMSGENABLEUUMB3_1_w"
newline
bitfld.long 0x00 5. "NOTFULLENABLEUUMB2,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB2_0_w,NOTFULLENABLEUUMB2_1_w"
bitfld.long 0x00 4. "NEWMSGENABLEUUMB2,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB2_0_w,NEWMSGENABLEUUMB2_1_w"
newline
bitfld.long 0x00 3. "NOTFULLENABLEUUMB1,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB1_0_w,NOTFULLENABLEUUMB1_1_w"
bitfld.long 0x00 2. "NEWMSGENABLEUUMB1,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB1_0_w,NEWMSGENABLEUUMB1_1_w"
newline
bitfld.long 0x00 1. "NOTFULLENABLEUUMB0,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB0_0_w,NOTFULLENABLEUUMB0_1_w"
bitfld.long 0x00 0. "NEWMSGENABLEUUMB0,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB0_0_w,NEWMSGENABLEUUMB0_1_w"
group.long 0x128++0x03
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"
bitfld.long 0x00 15. "NOTFULLENABLEUUMB7,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB7_0_w,NOTFULLENABLEUUMB7_1_w"
bitfld.long 0x00 14. "NEWMSGENABLEUUMB7,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB7_0_w,NEWMSGENABLEUUMB7_1_w"
newline
bitfld.long 0x00 13. "NOTFULLENABLEUUMB6,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB6_0_w,NOTFULLENABLEUUMB6_1_w"
bitfld.long 0x00 12. "NEWMSGENABLEUUMB6,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB6_0_w,NEWMSGENABLEUUMB6_1_w"
newline
bitfld.long 0x00 11. "NOTFULLENABLEUUMB5,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB5_0_w,NOTFULLENABLEUUMB5_1_w"
bitfld.long 0x00 10. "NEWMSGENABLEUUMB5,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB5_0_w,NEWMSGENABLEUUMB5_1_w"
newline
bitfld.long 0x00 9. "NOTFULLENABLEUUMB4,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB4_0_w,NOTFULLENABLEUUMB4_1_w"
bitfld.long 0x00 8. "NEWMSGENABLEUUMB4,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB4_0_w,NEWMSGENABLEUUMB4_1_w"
newline
bitfld.long 0x00 7. "NOTFULLENABLEUUMB3,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB3_0_w,NOTFULLENABLEUUMB3_1_w"
bitfld.long 0x00 6. "NEWMSGENABLEUUMB3,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB3_0_w,NEWMSGENABLEUUMB3_1_w"
newline
bitfld.long 0x00 5. "NOTFULLENABLEUUMB2,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB2_0_w,NOTFULLENABLEUUMB2_1_w"
bitfld.long 0x00 4. "NEWMSGENABLEUUMB2,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB2_0_w,NEWMSGENABLEUUMB2_1_w"
newline
bitfld.long 0x00 3. "NOTFULLENABLEUUMB1,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB1_0_w,NOTFULLENABLEUUMB1_1_w"
bitfld.long 0x00 2. "NEWMSGENABLEUUMB1,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB1_0_w,NEWMSGENABLEUUMB1_1_w"
newline
bitfld.long 0x00 1. "NOTFULLENABLEUUMB0,NotFull Enable bit for User u Mailbox" "NOTFULLENABLEUUMB0_0_w,NOTFULLENABLEUUMB0_1_w"
bitfld.long 0x00 0. "NEWMSGENABLEUUMB0,NewMessage Enable bit for User u Mailbox" "NEWMSGENABLEUUMB0_0_w,NEWMSGENABLEUUMB0_1_w"
group.long 0x124++0x03
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 15. "NOTFULLSTATUSENUUMB7,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB7_0_w,NOTFULLSTATUSENUUMB7_1_w"
bitfld.long 0x00 14. "NEWMSGSTATUSENUUMB7,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB7_0_w,NEWMSGSTATUSENUUMB7_1_w"
newline
bitfld.long 0x00 13. "NOTFULLSTATUSENUUMB6,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB6_0_w,NOTFULLSTATUSENUUMB6_1_w"
bitfld.long 0x00 12. "NEWMSGSTATUSENUUMB6,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB6_0_w,NEWMSGSTATUSENUUMB6_1_w"
newline
bitfld.long 0x00 11. "NOTFULLSTATUSENUUMB5,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB5_0_w,NOTFULLSTATUSENUUMB5_1_w"
bitfld.long 0x00 10. "NEWMSGSTATUSENUUMB5,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB5_0_w,NEWMSGSTATUSENUUMB5_1_w"
newline
bitfld.long 0x00 9. "NOTFULLSTATUSENUUMB4,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB4_0_w,NOTFULLSTATUSENUUMB4_1_w"
bitfld.long 0x00 8. "NEWMSGSTATUSENUUMB4,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB4_0_w,NEWMSGSTATUSENUUMB4_1_w"
newline
bitfld.long 0x00 7. "NOTFULLSTATUSENUUMB3,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB3_0_w,NOTFULLSTATUSENUUMB3_1_w"
bitfld.long 0x00 6. "NEWMSGSTATUSENUUMB3,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB3_0_w,NEWMSGSTATUSENUUMB3_1_w"
newline
bitfld.long 0x00 5. "NOTFULLSTATUSENUUMB2,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB2_0_w,NOTFULLSTATUSENUUMB2_1_w"
bitfld.long 0x00 4. "NEWMSGSTATUSENUUMB2,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB2_0_w,NEWMSGSTATUSENUUMB2_1_w"
newline
bitfld.long 0x00 3. "NOTFULLSTATUSENUUMB1,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB1_0_w,NOTFULLSTATUSENUUMB1_1_w"
bitfld.long 0x00 2. "NEWMSGSTATUSENUUMB1,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB1_0_w,NEWMSGSTATUSENUUMB1_1_w"
newline
bitfld.long 0x00 1. "NOTFULLSTATUSENUUMB0,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB0_0_w,NOTFULLSTATUSENUUMB0_1_w"
bitfld.long 0x00 0. "NEWMSGSTATUSENUUMB0,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSENUUMB0_0_w,NEWMSGSTATUSENUUMB0_1_w"
group.long 0x120++0x03
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"
bitfld.long 0x00 15. "NOTFULLSTATUSENUUMB7,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSENUUMB7_0_w,NOTFULLSTATUSENUUMB7_1_w"
bitfld.long 0x00 14. "NEWMSGSTATUSUUMB7,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB7_0_w,NEWMSGSTATUSUUMB7_1_w"
newline
bitfld.long 0x00 13. "NOTFULLSTATUSUUMB6,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB6_0_w,NOTFULLSTATUSUUMB6_1_w"
bitfld.long 0x00 12. "NEWMSGSTATUSUUMB6,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB6_0_w,NEWMSGSTATUSUUMB6_1_w"
newline
bitfld.long 0x00 11. "NOTFULLSTATUSUUMB5,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB5_0_w,NOTFULLSTATUSUUMB5_1_w"
bitfld.long 0x00 10. "NEWMSGSTATUSUUMB5,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB5_0_w,NEWMSGSTATUSUUMB5_1_w"
newline
bitfld.long 0x00 9. "NOTFULLSTATUSUUMB4,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB4_0_w,NOTFULLSTATUSUUMB4_1_w"
bitfld.long 0x00 8. "NEWMSGSTATUSUUMB4,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB4_0_w,NEWMSGSTATUSUUMB4_1_w"
newline
bitfld.long 0x00 7. "NOTFULLSTATUSUUMB3,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB3_0_w,NOTFULLSTATUSUUMB3_1_w"
bitfld.long 0x00 6. "NEWMSGSTATUSUUMB3,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB3_0_w,NEWMSGSTATUSUUMB3_1_w"
newline
bitfld.long 0x00 5. "NOTFULLSTATUSUUMB2,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB2_0_w,NOTFULLSTATUSUUMB2_1_w"
bitfld.long 0x00 4. "NEWMSGSTATUSUUMB2,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB2_0_w,NEWMSGSTATUSUUMB2_1_w"
newline
bitfld.long 0x00 3. "NOTFULLSTATUSUUMB1,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB1_0_w,NOTFULLSTATUSUUMB1_1_w"
bitfld.long 0x00 2. "NEWMSGSTATUSUUMB1,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB1_0_w,NEWMSGSTATUSUUMB1_1_w"
newline
bitfld.long 0x00 1. "NOTFULLSTATUSUUMB0,NotFull Status bit for User u Mailbox" "NOTFULLSTATUSUUMB0_0_w,NOTFULLSTATUSUUMB0_1_w"
bitfld.long 0x00 0. "NEWMSGSTATUSUUMB0,NewMessage Status bit for User u Mailbox" "NEWMSGSTATUSUUMB0_0_w,NEWMSGSTATUSUUMB0_1_w"
group.long 0x48++0x03
line.long 0x00 "MAILBOX_MESSAGE_m_2,The message register stores the next to be read message of the mailbox"
rgroup.long 0xC8++0x03
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 MailboxNote: Limited to four messages per mailbox" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_3"
rgroup.long 0x8C++0x03
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" "FIFOFULLMBM_0_r,FIFOFULLMBM_1_r"
group.long 0x4C++0x03
line.long 0x00 "MAILBOX_MESSAGE_m_3,The message register stores the next to be read message of the mailbox"
rgroup.long 0xCC++0x03
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 MailboxNote: Limited to four messages per mailbox" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_4"
rgroup.long 0x90++0x03
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" "FIFOFULLMBM_0_r,FIFOFULLMBM_1_r"
group.long 0x50++0x03
line.long 0x00 "MAILBOX_MESSAGE_m_4,The message register stores the next to be read message of the mailbox"
rgroup.long 0xD0++0x03
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 MailboxNote: Limited to four messages per mailbox" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_5"
rgroup.long 0x94++0x03
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" "FIFOFULLMBM_0_r,FIFOFULLMBM_1_r"
group.long 0x54++0x03
line.long 0x00 "MAILBOX_MESSAGE_m_5,The message register stores the next to be read message of the mailbox"
rgroup.long 0xD4++0x03
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 MailboxNote: Limited to four messages per mailbox" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_6"
rgroup.long 0x98++0x03
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" "FIFOFULLMBM_0_r,FIFOFULLMBM_1_r"
group.long 0x58++0x03
line.long 0x00 "MAILBOX_MESSAGE_m_6,The message register stores the next to be read message of the mailbox"
rgroup.long 0xD8++0x03
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 MailboxNote: Limited to four messages per mailbox" "0,1,2,3,4,5,6,7"
tree.end
tree "Channel_7"
rgroup.long 0x9C++0x03
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" "FIFOFULLMBM_0_r,FIFOFULLMBM_1_r"
group.long 0x5C++0x03
line.long 0x00 "MAILBOX_MESSAGE_m_7,The message register stores the next to be read message of the mailbox"
rgroup.long 0xDC++0x03
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 MailboxNote: Limited to four messages per mailbox" "0,1,2,3,4,5,6,7"
tree.end
rgroup.long 0x00++0x03
line.long 0x00 "MAILBOX_REVISION,This register contains the IP revision code"
group.long 0x10++0x03
line.long 0x00 "MAILBOX_SYSCONFIG,This register controls the various parameters of the communication interface"
bitfld.long 0x00 2.--3. "SIDLEMODE,Idle Mode" "SIDLEMODE_0,SIDLEMODE_1,SIDLEMODE_2,SIDLEMODE_3"
bitfld.long 0x00 0. "SOFTRESET,Softreset" "SOFTRESET_0_w,SOFTRESET_1_w"
tree.end
tree.end
tree "MIPI_Display_Serial_Interface"
tree "DSI1_PHY_L3"
base ansd:0x58004200
group.long 0x00++0x17
line.long 0x00 "DSI_PHY_REGISTER0,Configuration register for HS mode timings"
hexmask.long.byte 0x00 24.--31. 1. "REG_THSPREPARE,REG_THSPREPARE timing parameter in multiples of DDR clock period"
hexmask.long.byte 0x00 16.--23. 1. "REG_THSPRPR_THSZERO,REG_THSPREPARE_THSZERO timing parameter in multiples of DDR clock period"
hexmask.long.byte 0x00 8.--15. 1. "REG_THSTRAIL,REG_THSTRAIL timing parameter in multiples of DDR clock period"
newline
hexmask.long.byte 0x00 0.--7. 1. "REG_THSEXIT,REG_THSEXIT timing parameter in multiples of DDR clock frequency"
line.long 0x04 "DSI_PHY_REGISTER1,Configuration register for LP mode and HS mode timings"
bitfld.long 0x04 29.--31. "REG_TTAGO,TTA-GO timing in terms of number of TXCLKESC clocks" "?,REG_TTAGO_1,REG_TTAGO_2,REG_TTAGO_3,REG_TTAGO_4,REG_TTAGO_5,REG_TTAGO_6,REG_TTAGO_7"
bitfld.long 0x04 27.--28. "REG_TTASURE,TTA-SURE timing in terms of number of TXCLKESC clocks" "REG_TTASURE_0,REG_TTASURE_1,REG_TTASURE_2,REG_TTASURE_3"
bitfld.long 0x04 24.--26. "REG_TTAGET,TTA-GET timing in terms of number of TXCLKESC clocks" "REG_TTAGET_0,REG_TTAGET_1,REG_TTAGET_2,REG_TTAGET_3,REG_TTAGET_4,REG_TTAGET_5,REG_TTAGET_6,REG_TTAGET_7"
newline
bitfld.long 0x04 16.--20. "REG_TLPXBY2,(TLPX)/2 timing parameter in multiples of DDR clock frequency" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.byte 0x04 8.--15. 1. "REG_TCLKTRAIL,REG_TCLKTRAIL timing parameter in multiples of DDR clock frequency"
hexmask.long.byte 0x04 0.--7. 1. "REG_TCLKZERO,REG_TCLKZERO timing parameter in multiples of DDR clock period"
line.long 0x08 "DSI_PHY_REGISTER2,Sync pattern"
hexmask.long.byte 0x08 24.--31. 1. "HSSYNCPATTERN,Default : 184 (10111000)"
bitfld.long 0x08 16. "OVRRDULPMTX,Global enable of the weak pulldown on the DSI lanes configured through the [15:11] REGULPMTX bit field" "OVRRDULPMTX_0,OVRRDULPMTX_1"
bitfld.long 0x08 11.--15. "REGULPMTX,Configuration of the weak pulldowns on the DSI lanes.For each bit the following settings apply" "REGULPMTX_0,REGULPMTX_1,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
hexmask.long.byte 0x08 0.--7. 1. "REG_TCLKPREPARE,TCLK-PREPARE timing parameter in multiples of DDR clock period.D-PHY specification: 38 ns / 95 ns"
line.long 0x0C "DSI_PHY_REGISTER3,Transmitted pattern"
hexmask.long.byte 0x0C 24.--31. 1. "REG_TXTRIGGERESC3,Transmitted pattern when REG_TXTRIGGERESC3 is asserted (first bit transmitted to last bit transmitted)"
hexmask.long.byte 0x0C 16.--23. 1. "REG_TXTRIGGERESC2,Default: 01011101"
hexmask.long.byte 0x0C 8.--15. 1. "REG_TXTRIGGERESC1,Default: 00100001"
newline
hexmask.long.byte 0x0C 0.--7. 1. "REG_TXTRIGGERESC0,Default: 10100000"
line.long 0x10 "DSI_PHY_REGISTER4,Received pattern"
hexmask.long.byte 0x10 24.--31. 1. "REG_RXTRIGGERESC3,Received pattern for which REG_RXTRIGGERESC3 is asserted (first bit transmitted to last bit transmitted)"
hexmask.long.byte 0x10 16.--23. 1. "REG_RXTRIGGERESC2,Default: 01011101"
hexmask.long.byte 0x10 8.--15. 1. "REG_RXTRIGGERESC1,Default: 00100001"
newline
hexmask.long.byte 0x10 0.--7. 1. "REG_RXTRIGGERESC0,Default: 10100000"
line.long 0x14 "DSI_PHY_REGISTER5,Reset done bits"
bitfld.long 0x14 31. "RESETDONETXBYTECLK,RESETDONETXBYTECLK" "No reset,Reset done for the.."
bitfld.long 0x14 30. "RESETDONESCPCLK,RESETDONESCPCLK" "No reset,Reset done for the SCP.."
bitfld.long 0x14 29. "RESETDONEPWRCLK,RESETDONEPWRCLK" "No reset,Reset done for the PWR.."
newline
bitfld.long 0x14 28. "RESETDONETXCLKESC4,RESETDONETXCLKESC4" "No reset,Reset done for the.."
bitfld.long 0x14 27. "RESETDONETXCLKESC3,RESETDONETXCLKESC3" "No reset,Reset done for the.."
bitfld.long 0x14 26. "RESETDONETXCLKESC2,RESETDONETXCLKESC2" "No reset,Reset done for the.."
newline
bitfld.long 0x14 25. "RESETDONETXCLKESC1,RESETDONETXCLKESC1" "No reset,Reset done for the.."
bitfld.long 0x14 24. "RESETDONETXCLKESC0,RESETDONETXCLKESC0" "No reset,Reset done for the.."
tree.end
tree "DSI1_PHY_L4_PER"
base ansd:0x48044200
group.long 0x00++0x17
line.long 0x00 "DSI_PHY_REGISTER0,Configuration register for HS mode timings"
hexmask.long.byte 0x00 24.--31. 1. "REG_THSPREPARE,REG_THSPREPARE timing parameter in multiples of DDR clock period"
hexmask.long.byte 0x00 16.--23. 1. "REG_THSPRPR_THSZERO,REG_THSPREPARE_THSZERO timing parameter in multiples of DDR clock period"
hexmask.long.byte 0x00 8.--15. 1. "REG_THSTRAIL,REG_THSTRAIL timing parameter in multiples of DDR clock period"
newline
hexmask.long.byte 0x00 0.--7. 1. "REG_THSEXIT,REG_THSEXIT timing parameter in multiples of DDR clock frequency"
line.long 0x04 "DSI_PHY_REGISTER1,Configuration register for LP mode and HS mode timings"
bitfld.long 0x04 29.--31. "REG_TTAGO,TTA-GO timing in terms of number of TXCLKESC clocks" "?,REG_TTAGO_1,REG_TTAGO_2,REG_TTAGO_3,REG_TTAGO_4,REG_TTAGO_5,REG_TTAGO_6,REG_TTAGO_7"
bitfld.long 0x04 27.--28. "REG_TTASURE,TTA-SURE timing in terms of number of TXCLKESC clocks" "REG_TTASURE_0,REG_TTASURE_1,REG_TTASURE_2,REG_TTASURE_3"
bitfld.long 0x04 24.--26. "REG_TTAGET,TTA-GET timing in terms of number of TXCLKESC clocks" "REG_TTAGET_0,REG_TTAGET_1,REG_TTAGET_2,REG_TTAGET_3,REG_TTAGET_4,REG_TTAGET_5,REG_TTAGET_6,REG_TTAGET_7"
newline
bitfld.long 0x04 16.--20. "REG_TLPXBY2,(TLPX)/2 timing parameter in multiples of DDR clock frequency" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.byte 0x04 8.--15. 1. "REG_TCLKTRAIL,REG_TCLKTRAIL timing parameter in multiples of DDR clock frequency"
hexmask.long.byte 0x04 0.--7. 1. "REG_TCLKZERO,REG_TCLKZERO timing parameter in multiples of DDR clock period"
line.long 0x08 "DSI_PHY_REGISTER2,Sync pattern"
hexmask.long.byte 0x08 24.--31. 1. "HSSYNCPATTERN,Default : 184 (10111000)"
bitfld.long 0x08 16. "OVRRDULPMTX,Global enable of the weak pulldown on the DSI lanes configured through the [15:11] REGULPMTX bit field" "OVRRDULPMTX_0,OVRRDULPMTX_1"
bitfld.long 0x08 11.--15. "REGULPMTX,Configuration of the weak pulldowns on the DSI lanes.For each bit the following settings apply" "REGULPMTX_0,REGULPMTX_1,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
hexmask.long.byte 0x08 0.--7. 1. "REG_TCLKPREPARE,TCLK-PREPARE timing parameter in multiples of DDR clock period.D-PHY specification: 38 ns / 95 ns"
line.long 0x0C "DSI_PHY_REGISTER3,Transmitted pattern"
hexmask.long.byte 0x0C 24.--31. 1. "REG_TXTRIGGERESC3,Transmitted pattern when REG_TXTRIGGERESC3 is asserted (first bit transmitted to last bit transmitted)"
hexmask.long.byte 0x0C 16.--23. 1. "REG_TXTRIGGERESC2,Default: 01011101"
hexmask.long.byte 0x0C 8.--15. 1. "REG_TXTRIGGERESC1,Default: 00100001"
newline
hexmask.long.byte 0x0C 0.--7. 1. "REG_TXTRIGGERESC0,Default: 10100000"
line.long 0x10 "DSI_PHY_REGISTER4,Received pattern"
hexmask.long.byte 0x10 24.--31. 1. "REG_RXTRIGGERESC3,Received pattern for which REG_RXTRIGGERESC3 is asserted (first bit transmitted to last bit transmitted)"
hexmask.long.byte 0x10 16.--23. 1. "REG_RXTRIGGERESC2,Default: 01011101"
hexmask.long.byte 0x10 8.--15. 1. "REG_RXTRIGGERESC1,Default: 00100001"
newline
hexmask.long.byte 0x10 0.--7. 1. "REG_RXTRIGGERESC0,Default: 10100000"
line.long 0x14 "DSI_PHY_REGISTER5,Reset done bits"
bitfld.long 0x14 31. "RESETDONETXBYTECLK,RESETDONETXBYTECLK" "No reset,Reset done for the.."
bitfld.long 0x14 30. "RESETDONESCPCLK,RESETDONESCPCLK" "No reset,Reset done for the SCP.."
bitfld.long 0x14 29. "RESETDONEPWRCLK,RESETDONEPWRCLK" "No reset,Reset done for the PWR.."
newline
bitfld.long 0x14 28. "RESETDONETXCLKESC4,RESETDONETXCLKESC4" "No reset,Reset done for the.."
bitfld.long 0x14 27. "RESETDONETXCLKESC3,RESETDONETXCLKESC3" "No reset,Reset done for the.."
bitfld.long 0x14 26. "RESETDONETXCLKESC2,RESETDONETXCLKESC2" "No reset,Reset done for the.."
newline
bitfld.long 0x14 25. "RESETDONETXCLKESC1,RESETDONETXCLKESC1" "No reset,Reset done for the.."
bitfld.long 0x14 24. "RESETDONETXCLKESC0,RESETDONETXCLKESC0" "No reset,Reset done for the.."
tree.end
tree "DSI2_PHY_L3"
base ansd:0x58005200
group.long 0x00++0x17
line.long 0x00 "DSI_PHY_REGISTER0,Configuration register for HS mode timings"
hexmask.long.byte 0x00 24.--31. 1. "REG_THSPREPARE,REG_THSPREPARE timing parameter in multiples of DDR clock period"
hexmask.long.byte 0x00 16.--23. 1. "REG_THSPRPR_THSZERO,REG_THSPREPARE_THSZERO timing parameter in multiples of DDR clock period"
hexmask.long.byte 0x00 8.--15. 1. "REG_THSTRAIL,REG_THSTRAIL timing parameter in multiples of DDR clock period"
newline
hexmask.long.byte 0x00 0.--7. 1. "REG_THSEXIT,REG_THSEXIT timing parameter in multiples of DDR clock frequency"
line.long 0x04 "DSI_PHY_REGISTER1,Configuration register for LP mode and HS mode timings"
bitfld.long 0x04 29.--31. "REG_TTAGO,TTA-GO timing in terms of number of TXCLKESC clocks" "?,REG_TTAGO_1,REG_TTAGO_2,REG_TTAGO_3,REG_TTAGO_4,REG_TTAGO_5,REG_TTAGO_6,REG_TTAGO_7"
bitfld.long 0x04 27.--28. "REG_TTASURE,TTA-SURE timing in terms of number of TXCLKESC clocks" "REG_TTASURE_0,REG_TTASURE_1,REG_TTASURE_2,REG_TTASURE_3"
bitfld.long 0x04 24.--26. "REG_TTAGET,TTA-GET timing in terms of number of TXCLKESC clocks" "REG_TTAGET_0,REG_TTAGET_1,REG_TTAGET_2,REG_TTAGET_3,REG_TTAGET_4,REG_TTAGET_5,REG_TTAGET_6,REG_TTAGET_7"
newline
bitfld.long 0x04 16.--20. "REG_TLPXBY2,(TLPX)/2 timing parameter in multiples of DDR clock frequency" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.byte 0x04 8.--15. 1. "REG_TCLKTRAIL,REG_TCLKTRAIL timing parameter in multiples of DDR clock frequency"
hexmask.long.byte 0x04 0.--7. 1. "REG_TCLKZERO,REG_TCLKZERO timing parameter in multiples of DDR clock period"
line.long 0x08 "DSI_PHY_REGISTER2,Sync pattern"
hexmask.long.byte 0x08 24.--31. 1. "HSSYNCPATTERN,Default : 184 (10111000)"
bitfld.long 0x08 16. "OVRRDULPMTX,Global enable of the weak pulldown on the DSI lanes configured through the [15:11] REGULPMTX bit field" "OVRRDULPMTX_0,OVRRDULPMTX_1"
bitfld.long 0x08 11.--15. "REGULPMTX,Configuration of the weak pulldowns on the DSI lanes.For each bit the following settings apply" "REGULPMTX_0,REGULPMTX_1,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
hexmask.long.byte 0x08 0.--7. 1. "REG_TCLKPREPARE,TCLK-PREPARE timing parameter in multiples of DDR clock period.D-PHY specification: 38 ns / 95 ns"
line.long 0x0C "DSI_PHY_REGISTER3,Transmitted pattern"
hexmask.long.byte 0x0C 24.--31. 1. "REG_TXTRIGGERESC3,Transmitted pattern when REG_TXTRIGGERESC3 is asserted (first bit transmitted to last bit transmitted)"
hexmask.long.byte 0x0C 16.--23. 1. "REG_TXTRIGGERESC2,Default: 01011101"
hexmask.long.byte 0x0C 8.--15. 1. "REG_TXTRIGGERESC1,Default: 00100001"
newline
hexmask.long.byte 0x0C 0.--7. 1. "REG_TXTRIGGERESC0,Default: 10100000"
line.long 0x10 "DSI_PHY_REGISTER4,Received pattern"
hexmask.long.byte 0x10 24.--31. 1. "REG_RXTRIGGERESC3,Received pattern for which REG_RXTRIGGERESC3 is asserted (first bit transmitted to last bit transmitted)"
hexmask.long.byte 0x10 16.--23. 1. "REG_RXTRIGGERESC2,Default: 01011101"
hexmask.long.byte 0x10 8.--15. 1. "REG_RXTRIGGERESC1,Default: 00100001"
newline
hexmask.long.byte 0x10 0.--7. 1. "REG_RXTRIGGERESC0,Default: 10100000"
line.long 0x14 "DSI_PHY_REGISTER5,Reset done bits"
bitfld.long 0x14 31. "RESETDONETXBYTECLK,RESETDONETXBYTECLK" "No reset,Reset done for the.."
bitfld.long 0x14 30. "RESETDONESCPCLK,RESETDONESCPCLK" "No reset,Reset done for the SCP.."
bitfld.long 0x14 29. "RESETDONEPWRCLK,RESETDONEPWRCLK" "No reset,Reset done for the PWR.."
newline
bitfld.long 0x14 28. "RESETDONETXCLKESC4,RESETDONETXCLKESC4" "No reset,Reset done for the.."
bitfld.long 0x14 27. "RESETDONETXCLKESC3,RESETDONETXCLKESC3" "No reset,Reset done for the.."
bitfld.long 0x14 26. "RESETDONETXCLKESC2,RESETDONETXCLKESC2" "No reset,Reset done for the.."
newline
bitfld.long 0x14 25. "RESETDONETXCLKESC1,RESETDONETXCLKESC1" "No reset,Reset done for the.."
bitfld.long 0x14 24. "RESETDONETXCLKESC0,RESETDONETXCLKESC0" "No reset,Reset done for the.."
tree.end
tree "DSI2_PHY_L4_PER"
base ansd:0x48045200
group.long 0x00++0x17
line.long 0x00 "DSI_PHY_REGISTER0,Configuration register for HS mode timings"
hexmask.long.byte 0x00 24.--31. 1. "REG_THSPREPARE,REG_THSPREPARE timing parameter in multiples of DDR clock period"
hexmask.long.byte 0x00 16.--23. 1. "REG_THSPRPR_THSZERO,REG_THSPREPARE_THSZERO timing parameter in multiples of DDR clock period"
hexmask.long.byte 0x00 8.--15. 1. "REG_THSTRAIL,REG_THSTRAIL timing parameter in multiples of DDR clock period"
newline
hexmask.long.byte 0x00 0.--7. 1. "REG_THSEXIT,REG_THSEXIT timing parameter in multiples of DDR clock frequency"
line.long 0x04 "DSI_PHY_REGISTER1,Configuration register for LP mode and HS mode timings"
bitfld.long 0x04 29.--31. "REG_TTAGO,TTA-GO timing in terms of number of TXCLKESC clocks" "?,REG_TTAGO_1,REG_TTAGO_2,REG_TTAGO_3,REG_TTAGO_4,REG_TTAGO_5,REG_TTAGO_6,REG_TTAGO_7"
bitfld.long 0x04 27.--28. "REG_TTASURE,TTA-SURE timing in terms of number of TXCLKESC clocks" "REG_TTASURE_0,REG_TTASURE_1,REG_TTASURE_2,REG_TTASURE_3"
bitfld.long 0x04 24.--26. "REG_TTAGET,TTA-GET timing in terms of number of TXCLKESC clocks" "REG_TTAGET_0,REG_TTAGET_1,REG_TTAGET_2,REG_TTAGET_3,REG_TTAGET_4,REG_TTAGET_5,REG_TTAGET_6,REG_TTAGET_7"
newline
bitfld.long 0x04 16.--20. "REG_TLPXBY2,(TLPX)/2 timing parameter in multiples of DDR clock frequency" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.byte 0x04 8.--15. 1. "REG_TCLKTRAIL,REG_TCLKTRAIL timing parameter in multiples of DDR clock frequency"
hexmask.long.byte 0x04 0.--7. 1. "REG_TCLKZERO,REG_TCLKZERO timing parameter in multiples of DDR clock period"
line.long 0x08 "DSI_PHY_REGISTER2,Sync pattern"
hexmask.long.byte 0x08 24.--31. 1. "HSSYNCPATTERN,Default : 184 (10111000)"
bitfld.long 0x08 16. "OVRRDULPMTX,Global enable of the weak pulldown on the DSI lanes configured through the [15:11] REGULPMTX bit field" "OVRRDULPMTX_0,OVRRDULPMTX_1"
bitfld.long 0x08 11.--15. "REGULPMTX,Configuration of the weak pulldowns on the DSI lanes.For each bit the following settings apply" "REGULPMTX_0,REGULPMTX_1,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
hexmask.long.byte 0x08 0.--7. 1. "REG_TCLKPREPARE,TCLK-PREPARE timing parameter in multiples of DDR clock period.D-PHY specification: 38 ns / 95 ns"
line.long 0x0C "DSI_PHY_REGISTER3,Transmitted pattern"
hexmask.long.byte 0x0C 24.--31. 1. "REG_TXTRIGGERESC3,Transmitted pattern when REG_TXTRIGGERESC3 is asserted (first bit transmitted to last bit transmitted)"
hexmask.long.byte 0x0C 16.--23. 1. "REG_TXTRIGGERESC2,Default: 01011101"
hexmask.long.byte 0x0C 8.--15. 1. "REG_TXTRIGGERESC1,Default: 00100001"
newline
hexmask.long.byte 0x0C 0.--7. 1. "REG_TXTRIGGERESC0,Default: 10100000"
line.long 0x10 "DSI_PHY_REGISTER4,Received pattern"
hexmask.long.byte 0x10 24.--31. 1. "REG_RXTRIGGERESC3,Received pattern for which REG_RXTRIGGERESC3 is asserted (first bit transmitted to last bit transmitted)"
hexmask.long.byte 0x10 16.--23. 1. "REG_RXTRIGGERESC2,Default: 01011101"
hexmask.long.byte 0x10 8.--15. 1. "REG_RXTRIGGERESC1,Default: 00100001"
newline
hexmask.long.byte 0x10 0.--7. 1. "REG_RXTRIGGERESC0,Default: 10100000"
line.long 0x14 "DSI_PHY_REGISTER5,Reset done bits"
bitfld.long 0x14 31. "RESETDONETXBYTECLK,RESETDONETXBYTECLK" "No reset,Reset done for the.."
bitfld.long 0x14 30. "RESETDONESCPCLK,RESETDONESCPCLK" "No reset,Reset done for the SCP.."
bitfld.long 0x14 29. "RESETDONEPWRCLK,RESETDONEPWRCLK" "No reset,Reset done for the PWR.."
newline
bitfld.long 0x14 28. "RESETDONETXCLKESC4,RESETDONETXCLKESC4" "No reset,Reset done for the.."
bitfld.long 0x14 27. "RESETDONETXCLKESC3,RESETDONETXCLKESC3" "No reset,Reset done for the.."
bitfld.long 0x14 26. "RESETDONETXCLKESC2,RESETDONETXCLKESC2" "No reset,Reset done for the.."
newline
bitfld.long 0x14 25. "RESETDONETXCLKESC1,RESETDONETXCLKESC1" "No reset,Reset done for the.."
bitfld.long 0x14 24. "RESETDONETXCLKESC0,RESETDONETXCLKESC0" "No reset,Reset done for the.."
tree.end
tree "DSI1_PLLCTRL_L3"
base ansd:0x58004300
group.long 0x00++0x1F
line.long 0x00 "DSI_PLL_CONTROL,This register controls the PLL reset/power and modes"
bitfld.long 0x00 4. "HSDIV_SYSRESET,Force HSDIVIDER SYSRESET" "HSDIV_SYSRESET_0,HSDIV_SYSRESET_1"
bitfld.long 0x00 3. "PLL_SYSRESET,Force DSI PLL SYSRESET" "PLL_SYSRESET_0,PLL_SYSRESET_1"
newline
bitfld.long 0x00 2. "PLL_HALTMODE,Allow PLL to be halted if no activity" "PLL_HALTMODE_0,PLL_HALTMODE_1"
bitfld.long 0x00 1. "PLL_GATEMODE,Allow PLL clock gating for power saving Reserved when DSI1_PLLCTRL_AUTO is 0" "PLL_GATEMODE_0,PLL_GATEMODE_1"
newline
bitfld.long 0x00 0. "PLL_AUTOMODE,Automatic update mode" "PLL_AUTOMODE_0,PLL_AUTOMODE_1"
line.long 0x04 "DSI_PLL_STATUS,This register contains the status information"
bitfld.long 0x04 12. "SSC_EN_ACK,Spread Spectrum Clocking acknowledge" "SSC_EN_ACK_0_r,SSC_EN_ACK_1_r"
bitfld.long 0x04 11. "M7_CLOCK_ACK,Acknowledge for enable of clock Verify the status before selecting this source in the clock mux" "M7_CLOCK_ACK_0_r,M7_CLOCK_ACK_1_r"
newline
bitfld.long 0x04 9. "BYPASSACKZ,State of bypass mode on PHY and HSDIVIDER" "BYPASSACKZ_0_r,BYPASSACKZ_1_r"
bitfld.long 0x04 8. "M5_CLOCK_ACK,Acknowledge for enable of DSI Protcol Engine clock Verify the status before selecting this source in the DSI Protcol Engine clock mux" "M5_CLOCK_ACK_0_r,M5_CLOCK_ACK_1_r"
newline
bitfld.long 0x04 7. "M4_CLOCK_ACK,Acknowledge for enable of clock Verify the status before selecting this source in the clock mux" "M4_CLOCK_ACK_0_r,M4_CLOCK_ACK_1_r"
bitfld.long 0x04 6. "PLL_BYPASS,DSI PLL Bypass status" "PLL_BYPASS_0_r,PLL_BYPASS_1_r"
newline
bitfld.long 0x04 5. "PLL_HIGHJITTER,PLL High Jitter status" "PLL_HIGHJITTER_0_r,PLL_HIGHJITTER_1_r"
bitfld.long 0x04 4. "PLL_LIMP,PLL Limp status" "PLL_LIMP_0_r,PLL_LIMP_1_r"
newline
bitfld.long 0x04 3. "PLL_LOSSREF,PLL Reference Loss status" "PLL_LOSSREF_0_r,PLL_LOSSREF_1_r"
bitfld.long 0x04 2. "PLL_RECAL,PLL recalibration status If this bit is active the PLL needs to be recalibrated" "PLL_RECAL_0_r,PLL_RECAL_1_r"
newline
bitfld.long 0x04 1. "PLL_LOCK,PLL Lock status See the programming guide for the use of this bit" "PLL_LOCK_0_r,PLL_LOCK_1_r"
bitfld.long 0x04 0. "DSI1_PLLCTRL_RESET_DONE,DSI1_PLLCTRL reset done status" "DSI1_PLLCTRL_RESET_DONE_0_r,DSI1_PLLCTRL_RESET_DONE_1_r"
line.long 0x08 "DSI_PLL_GO,This register contains the GO bit"
bitfld.long 0x08 0. "PLL_GO,Request (re-)locking sequence of the PLL" "PLL_GO_0,PLL_GO_1"
line.long 0x0C "DSI_PLL_CONFIGURATION1,This register contains the latched PLL and HSDIVDER configuration bits"
bitfld.long 0x0C 26.--30. "M5_CLOCK_DIV,Divider value for Protocol Engine clock source M5REG" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x0C 21.--25. "M4_CLOCK_DIV,Divider value for clock source M4REG" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
newline
hexmask.long.word 0x0C 9.--20. 1. "PLL_REGM,M Divider for PLL"
hexmask.long.byte 0x0C 1.--8. 1. "PLL_REGN,N Divider for PLL (Reference)Note: As a result of device-specific integration the 8th MSB of this field has no effect; thus the divider factor can be 0 to 127"
newline
bitfld.long 0x0C 0. "PLL_STOPMODE,PLL STOPMODE" "PLL_STOPMODE_0,PLL_STOPMODE_1"
line.long 0x10 "DSI_PLL_CONFIGURATION2,This register contains the unlatched PLL and HSDIVDER configuration bits These bits are 'shadowed' when automatic mode is selected"
bitfld.long 0x10 26. "M7_CLOCK_PWDN,Power down for M7 clock source" "M7_CLOCK_PWDN_0,M7_CLOCK_PWDN_1"
bitfld.long 0x10 25. "M7_CLOCK_EN,Enable for M7 clock source" "M7_CLOCK_EN_0,M7_CLOCK_EN_1"
newline
bitfld.long 0x10 20. "HSDIVBYPASS,Forces HSDIVIDER to bypass mode" "HSDIVBYPASS_0,HSDIVBYPASS_1"
bitfld.long 0x10 19. "M5_CLOCK_PWDN,Power down for Protocol Engine clock source" "M5_CLOCK_PWDN_0,M5_CLOCK_PWDN_1"
newline
bitfld.long 0x10 18. "M5_CLOCK_EN,Enable for Protocol Engine clock source" "M5_CLOCK_EN_0,M5_CLOCK_EN_1"
bitfld.long 0x10 17. "M4_CLOCK_PWDN,Power down for M4 clock source" "M4_CLOCK_PWDN_0,M4_CLOCK_PWDN_1"
newline
bitfld.long 0x10 16. "M4_CLOCK_EN,Enable for M4 clock source" "M4_CLOCK_EN_0,M4_CLOCK_EN_1"
bitfld.long 0x10 15. "BYPASSEN,Selects functional clock asCLKIN4DDR clock source" "BYPASSEN_0,BYPASSEN_1"
newline
bitfld.long 0x10 14. "PHY_CLKINEN,CLKIN4DDR clock control" "PHY_CLKINEN_0,PHY_CLKINEN_1"
bitfld.long 0x10 13. "PLL_REFEN,PLL reference clock control" "PLL_REFEN_0,PLL_REFEN_1"
newline
bitfld.long 0x10 9.--10. "PLL_LOCKSEL,Selects the lock criteria for the PLL" "PLL_LOCKSEL_0,PLL_LOCKSEL_1,PLL_LOCKSEL_2,?"
bitfld.long 0x10 8. "PLL_DRIFTGUARDEN,PLL DRIFTGUARDEN" "PLL_DRIFTGUARDEN_0,PLL_DRIFTGUARDEN_1"
newline
bitfld.long 0x10 6. "PLL_LOWCURRSTBY,PLL LOW CURRENT STANDBY" "PLL_LOWCURRSTBY_0,PLL_LOWCURRSTBY_1"
bitfld.long 0x10 5. "PLL_PLLLPMODE,Select the power / performance of the PLL" "PLL_PLLLPMODE_0,PLL_PLLLPMODE_1"
newline
bitfld.long 0x10 0. "PLL_IDLE,PLL IDLE" "PLL_IDLE_0,PLL_IDLE_1"
line.long 0x14 "DSI_PLL_CONFIGURATION3,HSDIVIDER configuration bits for the M5 and M6 dividers"
bitfld.long 0x14 5.--9. "M7_CLOCK_DIV,Divider value for M7 divider" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
line.long 0x18 "DSI_PLL_SSC_CONFIGURATION1,Configuration for PLL Spread Spectrum Clocking modulation"
bitfld.long 0x18 2. "DOWNSPREAD,Forces the clock spreading only in the down spectrum" "DOWNSPREAD_0,DOWNSPREAD_1"
bitfld.long 0x18 0. "EN_SSC,Spread Spectrum Clockiing enable" "EN_SSC_0,EN_SSC_1"
line.long 0x1C "DSI_PLL_SSC_CONFIGURATION2,Configuration for PLL Spread Spectrum Clocking modulation"
hexmask.long.word 0x1C 20.--29. 1. "MODFREQDIVIDER,Modulation Frequency Divider (ModFreqDivider) control for SSC - The ModFreqDivider is split into Mantissa and 2Exponent(ModFreqDivider = ModFreqDividerMantissa * 2ModFreqDividerExponent)"
hexmask.long.tbyte 0x1C 0.--19. 1. "DELTAM,DeltaM control for SSC"
tree.end
tree "DSI1_PLLCTRL_L4_PER"
base ansd:0x48044300
group.long 0x00++0x1F
line.long 0x00 "DSI_PLL_CONTROL,This register controls the PLL reset/power and modes"
bitfld.long 0x00 4. "HSDIV_SYSRESET,Force HSDIVIDER SYSRESET" "HSDIV_SYSRESET_0,HSDIV_SYSRESET_1"
bitfld.long 0x00 3. "PLL_SYSRESET,Force DSI PLL SYSRESET" "PLL_SYSRESET_0,PLL_SYSRESET_1"
newline
bitfld.long 0x00 2. "PLL_HALTMODE,Allow PLL to be halted if no activity" "PLL_HALTMODE_0,PLL_HALTMODE_1"
bitfld.long 0x00 1. "PLL_GATEMODE,Allow PLL clock gating for power saving Reserved when DSI1_PLLCTRL_AUTO is 0" "PLL_GATEMODE_0,PLL_GATEMODE_1"
newline
bitfld.long 0x00 0. "PLL_AUTOMODE,Automatic update mode" "PLL_AUTOMODE_0,PLL_AUTOMODE_1"
line.long 0x04 "DSI_PLL_STATUS,This register contains the status information"
bitfld.long 0x04 12. "SSC_EN_ACK,Spread Spectrum Clocking acknowledge" "SSC_EN_ACK_0_r,SSC_EN_ACK_1_r"
bitfld.long 0x04 11. "M7_CLOCK_ACK,Acknowledge for enable of clock Verify the status before selecting this source in the clock mux" "M7_CLOCK_ACK_0_r,M7_CLOCK_ACK_1_r"
newline
bitfld.long 0x04 9. "BYPASSACKZ,State of bypass mode on PHY and HSDIVIDER" "BYPASSACKZ_0_r,BYPASSACKZ_1_r"
bitfld.long 0x04 8. "M5_CLOCK_ACK,Acknowledge for enable of DSI Protcol Engine clock Verify the status before selecting this source in the DSI Protcol Engine clock mux" "M5_CLOCK_ACK_0_r,M5_CLOCK_ACK_1_r"
newline
bitfld.long 0x04 7. "M4_CLOCK_ACK,Acknowledge for enable of clock Verify the status before selecting this source in the clock mux" "M4_CLOCK_ACK_0_r,M4_CLOCK_ACK_1_r"
bitfld.long 0x04 6. "PLL_BYPASS,DSI PLL Bypass status" "PLL_BYPASS_0_r,PLL_BYPASS_1_r"
newline
bitfld.long 0x04 5. "PLL_HIGHJITTER,PLL High Jitter status" "PLL_HIGHJITTER_0_r,PLL_HIGHJITTER_1_r"
bitfld.long 0x04 4. "PLL_LIMP,PLL Limp status" "PLL_LIMP_0_r,PLL_LIMP_1_r"
newline
bitfld.long 0x04 3. "PLL_LOSSREF,PLL Reference Loss status" "PLL_LOSSREF_0_r,PLL_LOSSREF_1_r"
bitfld.long 0x04 2. "PLL_RECAL,PLL recalibration status If this bit is active the PLL needs to be recalibrated" "PLL_RECAL_0_r,PLL_RECAL_1_r"
newline
bitfld.long 0x04 1. "PLL_LOCK,PLL Lock status See the programming guide for the use of this bit" "PLL_LOCK_0_r,PLL_LOCK_1_r"
bitfld.long 0x04 0. "DSI1_PLLCTRL_RESET_DONE,DSI1_PLLCTRL reset done status" "DSI1_PLLCTRL_RESET_DONE_0_r,DSI1_PLLCTRL_RESET_DONE_1_r"
line.long 0x08 "DSI_PLL_GO,This register contains the GO bit"
bitfld.long 0x08 0. "PLL_GO,Request (re-)locking sequence of the PLL" "PLL_GO_0,PLL_GO_1"
line.long 0x0C "DSI_PLL_CONFIGURATION1,This register contains the latched PLL and HSDIVDER configuration bits"
bitfld.long 0x0C 26.--30. "M5_CLOCK_DIV,Divider value for Protocol Engine clock source M5REG" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x0C 21.--25. "M4_CLOCK_DIV,Divider value for clock source M4REG" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
newline
hexmask.long.word 0x0C 9.--20. 1. "PLL_REGM,M Divider for PLL"
hexmask.long.byte 0x0C 1.--8. 1. "PLL_REGN,N Divider for PLL (Reference)Note: As a result of device-specific integration the 8th MSB of this field has no effect; thus the divider factor can be 0 to 127"
newline
bitfld.long 0x0C 0. "PLL_STOPMODE,PLL STOPMODE" "PLL_STOPMODE_0,PLL_STOPMODE_1"
line.long 0x10 "DSI_PLL_CONFIGURATION2,This register contains the unlatched PLL and HSDIVDER configuration bits These bits are 'shadowed' when automatic mode is selected"
bitfld.long 0x10 26. "M7_CLOCK_PWDN,Power down for M7 clock source" "M7_CLOCK_PWDN_0,M7_CLOCK_PWDN_1"
bitfld.long 0x10 25. "M7_CLOCK_EN,Enable for M7 clock source" "M7_CLOCK_EN_0,M7_CLOCK_EN_1"
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bitfld.long 0x10 20. "HSDIVBYPASS,Forces HSDIVIDER to bypass mode" "HSDIVBYPASS_0,HSDIVBYPASS_1"
bitfld.long 0x10 19. "M5_CLOCK_PWDN,Power down for Protocol Engine clock source" "M5_CLOCK_PWDN_0,M5_CLOCK_PWDN_1"
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bitfld.long 0x10 18. "M5_CLOCK_EN,Enable for Protocol Engine clock source" "M5_CLOCK_EN_0,M5_CLOCK_EN_1"
bitfld.long 0x10 17. "M4_CLOCK_PWDN,Power down for M4 clock source" "M4_CLOCK_PWDN_0,M4_CLOCK_PWDN_1"
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bitfld.long 0x10 16. "M4_CLOCK_EN,Enable for M4 clock source" "M4_CLOCK_EN_0,M4_CLOCK_EN_1"
bitfld.long 0x10 15. "BYPASSEN,Selects functional clock asCLKIN4DDR clock source" "BYPASSEN_0,BYPASSEN_1"
newline
bitfld.long 0x10 14. "PHY_CLKINEN,CLKIN4DDR clock control" "PHY_CLKINEN_0,PHY_CLKINEN_1"
bitfld.long 0x10 13. "PLL_REFEN,PLL reference clock control" "PLL_REFEN_0,PLL_REFEN_1"
newline
bitfld.long 0x10 9.--10. "PLL_LOCKSEL,Selects the lock criteria for the PLL" "PLL_LOCKSEL_0,PLL_LOCKSEL_1,PLL_LOCKSEL_2,?"
bitfld.long 0x10 8. "PLL_DRIFTGUARDEN,PLL DRIFTGUARDEN" "PLL_DRIFTGUARDEN_0,PLL_DRIFTGUARDEN_1"
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bitfld.long 0x10 6. "PLL_LOWCURRSTBY,PLL LOW CURRENT STANDBY" "PLL_LOWCURRSTBY_0,PLL_LOWCURRSTBY_1"
bitfld.long 0x10 5. "PLL_PLLLPMODE,Select the power / performance of the PLL" "PLL_PLLLPMODE_0,PLL_PLLLPMODE_1"
newline
bitfld.long 0x10 0. "PLL_IDLE,PLL IDLE" "PLL_IDLE_0,PLL_IDLE_1"
line.long 0x14 "DSI_PLL_CONFIGURATION3,HSDIVIDER configuration bits for the M5 and M6 dividers"
bitfld.long 0x14 5.--9. "M7_CLOCK_DIV,Divider value for M7 divider" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
line.long 0x18 "DSI_PLL_SSC_CONFIGURATION1,Configuration for PLL Spread Spectrum Clocking modulation"
bitfld.long 0x18 2. "DOWNSPREAD,Forces the clock spreading only in the down spectrum" "DOWNSPREAD_0,DOWNSPREAD_1"
bitfld.long 0x18 0. "EN_SSC,Spread Spectrum Clockiing enable" "EN_SSC_0,EN_SSC_1"
line.long 0x1C "DSI_PLL_SSC_CONFIGURATION2,Configuration for PLL Spread Spectrum Clocking modulation"
hexmask.long.word 0x1C 20.--29. 1. "MODFREQDIVIDER,Modulation Frequency Divider (ModFreqDivider) control for SSC - The ModFreqDivider is split into Mantissa and 2Exponent(ModFreqDivider = ModFreqDividerMantissa * 2ModFreqDividerExponent)"
hexmask.long.tbyte 0x1C 0.--19. 1. "DELTAM,DeltaM control for SSC"
tree.end
tree "DSI2_PLLCTRL_L3"
base ansd:0x58005300
group.long 0x00++0x1F
line.long 0x00 "DSI_PLL_CONTROL,This register controls the PLL reset/power and modes"
bitfld.long 0x00 4. "HSDIV_SYSRESET,Force HSDIVIDER SYSRESET" "HSDIV_SYSRESET_0,HSDIV_SYSRESET_1"
bitfld.long 0x00 3. "PLL_SYSRESET,Force DSI PLL SYSRESET" "PLL_SYSRESET_0,PLL_SYSRESET_1"
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bitfld.long 0x00 2. "PLL_HALTMODE,Allow PLL to be halted if no activity" "PLL_HALTMODE_0,PLL_HALTMODE_1"
bitfld.long 0x00 1. "PLL_GATEMODE,Allow PLL clock gating for power saving Reserved when DSI1_PLLCTRL_AUTO is 0" "PLL_GATEMODE_0,PLL_GATEMODE_1"
newline
bitfld.long 0x00 0. "PLL_AUTOMODE,Automatic update mode" "PLL_AUTOMODE_0,PLL_AUTOMODE_1"
line.long 0x04 "DSI_PLL_STATUS,This register contains the status information"
bitfld.long 0x04 12. "SSC_EN_ACK,Spread Spectrum Clocking acknowledge" "SSC_EN_ACK_0_r,SSC_EN_ACK_1_r"
bitfld.long 0x04 11. "M7_CLOCK_ACK,Acknowledge for enable of clock Verify the status before selecting this source in the clock mux" "M7_CLOCK_ACK_0_r,M7_CLOCK_ACK_1_r"
newline
bitfld.long 0x04 9. "BYPASSACKZ,State of bypass mode on PHY and HSDIVIDER" "BYPASSACKZ_0_r,BYPASSACKZ_1_r"
bitfld.long 0x04 8. "M5_CLOCK_ACK,Acknowledge for enable of DSI Protcol Engine clock Verify the status before selecting this source in the DSI Protcol Engine clock mux" "M5_CLOCK_ACK_0_r,M5_CLOCK_ACK_1_r"
newline
bitfld.long 0x04 7. "M4_CLOCK_ACK,Acknowledge for enable of clock Verify the status before selecting this source in the clock mux" "M4_CLOCK_ACK_0_r,M4_CLOCK_ACK_1_r"
bitfld.long 0x04 6. "PLL_BYPASS,DSI PLL Bypass status" "PLL_BYPASS_0_r,PLL_BYPASS_1_r"
newline
bitfld.long 0x04 5. "PLL_HIGHJITTER,PLL High Jitter status" "PLL_HIGHJITTER_0_r,PLL_HIGHJITTER_1_r"
bitfld.long 0x04 4. "PLL_LIMP,PLL Limp status" "PLL_LIMP_0_r,PLL_LIMP_1_r"
newline
bitfld.long 0x04 3. "PLL_LOSSREF,PLL Reference Loss status" "PLL_LOSSREF_0_r,PLL_LOSSREF_1_r"
bitfld.long 0x04 2. "PLL_RECAL,PLL recalibration status If this bit is active the PLL needs to be recalibrated" "PLL_RECAL_0_r,PLL_RECAL_1_r"
newline
bitfld.long 0x04 1. "PLL_LOCK,PLL Lock status See the programming guide for the use of this bit" "PLL_LOCK_0_r,PLL_LOCK_1_r"
bitfld.long 0x04 0. "DSI1_PLLCTRL_RESET_DONE,DSI1_PLLCTRL reset done status" "DSI1_PLLCTRL_RESET_DONE_0_r,DSI1_PLLCTRL_RESET_DONE_1_r"
line.long 0x08 "DSI_PLL_GO,This register contains the GO bit"
bitfld.long 0x08 0. "PLL_GO,Request (re-)locking sequence of the PLL" "PLL_GO_0,PLL_GO_1"
line.long 0x0C "DSI_PLL_CONFIGURATION1,This register contains the latched PLL and HSDIVDER configuration bits"
bitfld.long 0x0C 26.--30. "M5_CLOCK_DIV,Divider value for Protocol Engine clock source M5REG" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x0C 21.--25. "M4_CLOCK_DIV,Divider value for clock source M4REG" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
newline
hexmask.long.word 0x0C 9.--20. 1. "PLL_REGM,M Divider for PLL"
hexmask.long.byte 0x0C 1.--8. 1. "PLL_REGN,N Divider for PLL (Reference)Note: As a result of device-specific integration the 8th MSB of this field has no effect; thus the divider factor can be 0 to 127"
newline
bitfld.long 0x0C 0. "PLL_STOPMODE,PLL STOPMODE" "PLL_STOPMODE_0,PLL_STOPMODE_1"
line.long 0x10 "DSI_PLL_CONFIGURATION2,This register contains the unlatched PLL and HSDIVDER configuration bits These bits are 'shadowed' when automatic mode is selected"
bitfld.long 0x10 26. "M7_CLOCK_PWDN,Power down for M7 clock source" "M7_CLOCK_PWDN_0,M7_CLOCK_PWDN_1"
bitfld.long 0x10 25. "M7_CLOCK_EN,Enable for M7 clock source" "M7_CLOCK_EN_0,M7_CLOCK_EN_1"
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bitfld.long 0x10 20. "HSDIVBYPASS,Forces HSDIVIDER to bypass mode" "HSDIVBYPASS_0,HSDIVBYPASS_1"
bitfld.long 0x10 19. "M5_CLOCK_PWDN,Power down for Protocol Engine clock source" "M5_CLOCK_PWDN_0,M5_CLOCK_PWDN_1"
newline
bitfld.long 0x10 18. "M5_CLOCK_EN,Enable for Protocol Engine clock source" "M5_CLOCK_EN_0,M5_CLOCK_EN_1"
bitfld.long 0x10 17. "M4_CLOCK_PWDN,Power down for M4 clock source" "M4_CLOCK_PWDN_0,M4_CLOCK_PWDN_1"
newline
bitfld.long 0x10 16. "M4_CLOCK_EN,Enable for M4 clock source" "M4_CLOCK_EN_0,M4_CLOCK_EN_1"
bitfld.long 0x10 15. "BYPASSEN,Selects functional clock asCLKIN4DDR clock source" "BYPASSEN_0,BYPASSEN_1"
newline
bitfld.long 0x10 14. "PHY_CLKINEN,CLKIN4DDR clock control" "PHY_CLKINEN_0,PHY_CLKINEN_1"
bitfld.long 0x10 13. "PLL_REFEN,PLL reference clock control" "PLL_REFEN_0,PLL_REFEN_1"
newline
bitfld.long 0x10 9.--10. "PLL_LOCKSEL,Selects the lock criteria for the PLL" "PLL_LOCKSEL_0,PLL_LOCKSEL_1,PLL_LOCKSEL_2,?"
bitfld.long 0x10 8. "PLL_DRIFTGUARDEN,PLL DRIFTGUARDEN" "PLL_DRIFTGUARDEN_0,PLL_DRIFTGUARDEN_1"
newline
bitfld.long 0x10 6. "PLL_LOWCURRSTBY,PLL LOW CURRENT STANDBY" "PLL_LOWCURRSTBY_0,PLL_LOWCURRSTBY_1"
bitfld.long 0x10 5. "PLL_PLLLPMODE,Select the power / performance of the PLL" "PLL_PLLLPMODE_0,PLL_PLLLPMODE_1"
newline
bitfld.long 0x10 0. "PLL_IDLE,PLL IDLE" "PLL_IDLE_0,PLL_IDLE_1"
line.long 0x14 "DSI_PLL_CONFIGURATION3,HSDIVIDER configuration bits for the M5 and M6 dividers"
bitfld.long 0x14 5.--9. "M7_CLOCK_DIV,Divider value for M7 divider" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
line.long 0x18 "DSI_PLL_SSC_CONFIGURATION1,Configuration for PLL Spread Spectrum Clocking modulation"
bitfld.long 0x18 2. "DOWNSPREAD,Forces the clock spreading only in the down spectrum" "DOWNSPREAD_0,DOWNSPREAD_1"
bitfld.long 0x18 0. "EN_SSC,Spread Spectrum Clockiing enable" "EN_SSC_0,EN_SSC_1"
line.long 0x1C "DSI_PLL_SSC_CONFIGURATION2,Configuration for PLL Spread Spectrum Clocking modulation"
hexmask.long.word 0x1C 20.--29. 1. "MODFREQDIVIDER,Modulation Frequency Divider (ModFreqDivider) control for SSC - The ModFreqDivider is split into Mantissa and 2Exponent(ModFreqDivider = ModFreqDividerMantissa * 2ModFreqDividerExponent)"
hexmask.long.tbyte 0x1C 0.--19. 1. "DELTAM,DeltaM control for SSC"
tree.end
tree "DSI2_PLLCTRL_L4_PER"
base ansd:0x48045300
group.long 0x00++0x1F
line.long 0x00 "DSI_PLL_CONTROL,This register controls the PLL reset/power and modes"
bitfld.long 0x00 4. "HSDIV_SYSRESET,Force HSDIVIDER SYSRESET" "HSDIV_SYSRESET_0,HSDIV_SYSRESET_1"
bitfld.long 0x00 3. "PLL_SYSRESET,Force DSI PLL SYSRESET" "PLL_SYSRESET_0,PLL_SYSRESET_1"
newline
bitfld.long 0x00 2. "PLL_HALTMODE,Allow PLL to be halted if no activity" "PLL_HALTMODE_0,PLL_HALTMODE_1"
bitfld.long 0x00 1. "PLL_GATEMODE,Allow PLL clock gating for power saving Reserved when DSI1_PLLCTRL_AUTO is 0" "PLL_GATEMODE_0,PLL_GATEMODE_1"
newline
bitfld.long 0x00 0. "PLL_AUTOMODE,Automatic update mode" "PLL_AUTOMODE_0,PLL_AUTOMODE_1"
line.long 0x04 "DSI_PLL_STATUS,This register contains the status information"
bitfld.long 0x04 12. "SSC_EN_ACK,Spread Spectrum Clocking acknowledge" "SSC_EN_ACK_0_r,SSC_EN_ACK_1_r"
bitfld.long 0x04 11. "M7_CLOCK_ACK,Acknowledge for enable of clock Verify the status before selecting this source in the clock mux" "M7_CLOCK_ACK_0_r,M7_CLOCK_ACK_1_r"
newline
bitfld.long 0x04 9. "BYPASSACKZ,State of bypass mode on PHY and HSDIVIDER" "BYPASSACKZ_0_r,BYPASSACKZ_1_r"
bitfld.long 0x04 8. "M5_CLOCK_ACK,Acknowledge for enable of DSI Protcol Engine clock Verify the status before selecting this source in the DSI Protcol Engine clock mux" "M5_CLOCK_ACK_0_r,M5_CLOCK_ACK_1_r"
newline
bitfld.long 0x04 7. "M4_CLOCK_ACK,Acknowledge for enable of clock Verify the status before selecting this source in the clock mux" "M4_CLOCK_ACK_0_r,M4_CLOCK_ACK_1_r"
bitfld.long 0x04 6. "PLL_BYPASS,DSI PLL Bypass status" "PLL_BYPASS_0_r,PLL_BYPASS_1_r"
newline
bitfld.long 0x04 5. "PLL_HIGHJITTER,PLL High Jitter status" "PLL_HIGHJITTER_0_r,PLL_HIGHJITTER_1_r"
bitfld.long 0x04 4. "PLL_LIMP,PLL Limp status" "PLL_LIMP_0_r,PLL_LIMP_1_r"
newline
bitfld.long 0x04 3. "PLL_LOSSREF,PLL Reference Loss status" "PLL_LOSSREF_0_r,PLL_LOSSREF_1_r"
bitfld.long 0x04 2. "PLL_RECAL,PLL recalibration status If this bit is active the PLL needs to be recalibrated" "PLL_RECAL_0_r,PLL_RECAL_1_r"
newline
bitfld.long 0x04 1. "PLL_LOCK,PLL Lock status See the programming guide for the use of this bit" "PLL_LOCK_0_r,PLL_LOCK_1_r"
bitfld.long 0x04 0. "DSI1_PLLCTRL_RESET_DONE,DSI1_PLLCTRL reset done status" "DSI1_PLLCTRL_RESET_DONE_0_r,DSI1_PLLCTRL_RESET_DONE_1_r"
line.long 0x08 "DSI_PLL_GO,This register contains the GO bit"
bitfld.long 0x08 0. "PLL_GO,Request (re-)locking sequence of the PLL" "PLL_GO_0,PLL_GO_1"
line.long 0x0C "DSI_PLL_CONFIGURATION1,This register contains the latched PLL and HSDIVDER configuration bits"
bitfld.long 0x0C 26.--30. "M5_CLOCK_DIV,Divider value for Protocol Engine clock source M5REG" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x0C 21.--25. "M4_CLOCK_DIV,Divider value for clock source M4REG" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
newline
hexmask.long.word 0x0C 9.--20. 1. "PLL_REGM,M Divider for PLL"
hexmask.long.byte 0x0C 1.--8. 1. "PLL_REGN,N Divider for PLL (Reference)Note: As a result of device-specific integration the 8th MSB of this field has no effect; thus the divider factor can be 0 to 127"
newline
bitfld.long 0x0C 0. "PLL_STOPMODE,PLL STOPMODE" "PLL_STOPMODE_0,PLL_STOPMODE_1"
line.long 0x10 "DSI_PLL_CONFIGURATION2,This register contains the unlatched PLL and HSDIVDER configuration bits These bits are 'shadowed' when automatic mode is selected"
bitfld.long 0x10 26. "M7_CLOCK_PWDN,Power down for M7 clock source" "M7_CLOCK_PWDN_0,M7_CLOCK_PWDN_1"
bitfld.long 0x10 25. "M7_CLOCK_EN,Enable for M7 clock source" "M7_CLOCK_EN_0,M7_CLOCK_EN_1"
newline
bitfld.long 0x10 20. "HSDIVBYPASS,Forces HSDIVIDER to bypass mode" "HSDIVBYPASS_0,HSDIVBYPASS_1"
bitfld.long 0x10 19. "M5_CLOCK_PWDN,Power down for Protocol Engine clock source" "M5_CLOCK_PWDN_0,M5_CLOCK_PWDN_1"
newline
bitfld.long 0x10 18. "M5_CLOCK_EN,Enable for Protocol Engine clock source" "M5_CLOCK_EN_0,M5_CLOCK_EN_1"
bitfld.long 0x10 17. "M4_CLOCK_PWDN,Power down for M4 clock source" "M4_CLOCK_PWDN_0,M4_CLOCK_PWDN_1"
newline
bitfld.long 0x10 16. "M4_CLOCK_EN,Enable for M4 clock source" "M4_CLOCK_EN_0,M4_CLOCK_EN_1"
bitfld.long 0x10 15. "BYPASSEN,Selects functional clock asCLKIN4DDR clock source" "BYPASSEN_0,BYPASSEN_1"
newline
bitfld.long 0x10 14. "PHY_CLKINEN,CLKIN4DDR clock control" "PHY_CLKINEN_0,PHY_CLKINEN_1"
bitfld.long 0x10 13. "PLL_REFEN,PLL reference clock control" "PLL_REFEN_0,PLL_REFEN_1"
newline
bitfld.long 0x10 9.--10. "PLL_LOCKSEL,Selects the lock criteria for the PLL" "PLL_LOCKSEL_0,PLL_LOCKSEL_1,PLL_LOCKSEL_2,?"
bitfld.long 0x10 8. "PLL_DRIFTGUARDEN,PLL DRIFTGUARDEN" "PLL_DRIFTGUARDEN_0,PLL_DRIFTGUARDEN_1"
newline
bitfld.long 0x10 6. "PLL_LOWCURRSTBY,PLL LOW CURRENT STANDBY" "PLL_LOWCURRSTBY_0,PLL_LOWCURRSTBY_1"
bitfld.long 0x10 5. "PLL_PLLLPMODE,Select the power / performance of the PLL" "PLL_PLLLPMODE_0,PLL_PLLLPMODE_1"
newline
bitfld.long 0x10 0. "PLL_IDLE,PLL IDLE" "PLL_IDLE_0,PLL_IDLE_1"
line.long 0x14 "DSI_PLL_CONFIGURATION3,HSDIVIDER configuration bits for the M5 and M6 dividers"
bitfld.long 0x14 5.--9. "M7_CLOCK_DIV,Divider value for M7 divider" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
line.long 0x18 "DSI_PLL_SSC_CONFIGURATION1,Configuration for PLL Spread Spectrum Clocking modulation"
bitfld.long 0x18 2. "DOWNSPREAD,Forces the clock spreading only in the down spectrum" "DOWNSPREAD_0,DOWNSPREAD_1"
bitfld.long 0x18 0. "EN_SSC,Spread Spectrum Clockiing enable" "EN_SSC_0,EN_SSC_1"
line.long 0x1C "DSI_PLL_SSC_CONFIGURATION2,Configuration for PLL Spread Spectrum Clocking modulation"
hexmask.long.word 0x1C 20.--29. 1. "MODFREQDIVIDER,Modulation Frequency Divider (ModFreqDivider) control for SSC - The ModFreqDivider is split into Mantissa and 2Exponent(ModFreqDivider = ModFreqDividerMantissa * 2ModFreqDividerExponent)"
hexmask.long.tbyte 0x1C 0.--19. 1. "DELTAM,DeltaM control for SSC"
tree.end
tree "DSI1_PROTOCOL_ENGINE_L3"
base ansd:0x58004000
tree "Channel_0"
group.long 0xA8++0x03
line.long 0x00 "DSI_TE_HSYNC_NUMBER_j_0,The register configures the number of HSYNC to synchronize the beginning of the transfer on DSI link based on the number of HSYNC pulse received on the TE line"
hexmask.long.word 0x00 0.--10. 1. "LINE_NUMBER,Programmable line number Line number from 0 to 2047"
group.long 0xA0++0x07
line.long 0x00 "DSI_TE_HSYNC_WIDTH_j_0,The register configures the TE HSYNC minimum pulse width for TE0 and TE1 CMOS signals The input TE signal is asynchronous and needs to be resynchronizred to DSI_CLK clock domain"
hexmask.long.word 0x00 8.--19. 1. "MIN_HSYNC_PULSE_WIDTH,Programmable min HSYNC pulse width Minimum HSYNC pulse width"
line.long 0x04 "DSI_TE_VSYNC_WIDTH_j_0,The register configures the TE VSYNC minimum pulse width for TE0 and TE1 CMOS signals The input TE signal is asynchronous and needs to be resynchronizred to DSI_CLK clock domain"
hexmask.long.word 0x04 8.--19. 1. "MIN_VSYNC_PULSE_WIDTH,Programmable min VSYNC pulse width Minimum VSYNC pulse width"
group.long 0x100++0x03
line.long 0x00 "DSI_VC_CTRL_i_0,CONTROL REGISTER - Virtual channel This register controls the virtual channel"
bitfld.long 0x00 31. "DCS_CMD_CODE,DCS command code value to insert between header and video port or Interface slave data when enabled by DCS_CMD_ENABLE (only when TE mechanism is not used otherwise the bit field DCS_CMD_CODE is ignored by DSI protocol engine)" "DCS_CMD_CODE_0,DCS_CMD_CODE_1"
bitfld.long 0x00 30. "DCS_CMD_ENABLE,Enables automatic insertion of DCS command codes when data is sourced by the video port" "DCS_CMD_ENABLE_0,DCS_CMD_ENABLE_1"
newline
bitfld.long 0x00 27.--29. "DMA_RX_REQ_NB,Selection of the use of the DMA request (associated to the RX FIFO)" "DMA_RX_REQ_NB_0,DMA_RX_REQ_NB_1,DMA_RX_REQ_NB_2,DMA_RX_REQ_NB_3,DMA_RX_REQ_NB_4,?,?,?"
bitfld.long 0x00 24.--26. "DMA_RX_THRESHOLD,Defines the threshold value for the DMA request (associated to the RX FIFO)" "DMA_RX_THRESHOLD_0,DMA_RX_THRESHOLD_1,DMA_RX_THRESHOLD_2,DMA_RX_THRESHOLD_3,DMA_RX_THRESHOLD_4,DMA_RX_THRESHOLD_5,?,?"
newline
bitfld.long 0x00 21.--23. "DMA_TX_REQ_NB,Selection of the use of the DMA request (associated to the TX FIFO)" "DMA_TX_REQ_NB_0,DMA_TX_REQ_NB_1,DMA_TX_REQ_NB_2,DMA_TX_REQ_NB_3,DMA_TX_REQ_NB_4,?,?,?"
rbitfld.long 0x00 20. "RX_FIFO_NOT_EMPTY,FIFO status in command mode" "RX_FIFO_NOT_EMPTY_0_r,RX_FIFO_NOT_EMPTY_1_r"
newline
bitfld.long 0x00 17.--19. "DMA_TX_THRESHOLD,Defines the threshold value for the DMA request (associated to the TX FIFO)" "DMA_TX_THRESHOLD_0,DMA_TX_THRESHOLD_1,DMA_TX_THRESHOLD_2,DMA_TX_THRESHOLD_3,DMA_TX_THRESHOLD_4,DMA_TX_THRESHOLD_5,?,?"
rbitfld.long 0x00 16. "TX_FIFO_FULL,FIFO status in command mode" "TX_FIFO_FULL_0_r,TX_FIFO_FULL_1_r"
newline
rbitfld.long 0x00 15. "VC_BUSY,Indicates if previously scheduled activities (packets BTA) are still being processed" "VC_BUSY_0_r,VC_BUSY_1_r"
rbitfld.long 0x00 14. "PP_BUSY,Ping-pong buffer busy status" "PP_BUSY_0_r,PP_BUSY_1_r"
newline
bitfld.long 0x00 13. "VP_SOURCE,Selection between video port 1 and video port 2" "VP_SOURCE_0,VP_SOURCE_1"
bitfld.long 0x00 12. "RGB565_ORDER,Byte order for RBG565" "RGB565_ORDER_0,RGB565_ORDER_1"
newline
bitfld.long 0x00 10.--11. "OCP_DATA_BUS_WIDTH,Defines the size of the Interface data bus" "OCP_DATA_BUS_WIDTH_0,OCP_DATA_BUS_WIDTH_1,OCP_DATA_BUS_WIDTH_2,OCP_DATA_BUS_WIDTH_3"
bitfld.long 0x00 9. "MODE_SPEED,Selection of the mode" "MODE_SPEED_0,MODE_SPEED_1"
newline
bitfld.long 0x00 8. "ECC_TX_EN,Enables the Error Correction Code generation for the transmit header (short and long packets)" "ECC_TX_EN_0,ECC_TX_EN_1"
bitfld.long 0x00 7. "CS_TX_EN,Enables the checksum generation for the transmit payload (long packet only)" "CS_TX_EN_0,CS_TX_EN_1"
newline
bitfld.long 0x00 6. "BTA_EN,Send the bus turn around to the peripheral" "BTA_EN_0,BTA_EN_1"
rbitfld.long 0x00 5. "TX_FIFO_NOT_EMPTY,FIFO status" "TX_FIFO_NOT_EMPTY_0_r,TX_FIFO_NOT_EMPTY_1_r"
newline
bitfld.long 0x00 4. "MODE,Selection of the mode" "MODE_0,MODE_1"
bitfld.long 0x00 3. "BTA_LONG_EN,Enables the automatic bus turn-around after completion of each long packet transmission" "BTA_LONG_EN_0,BTA_LONG_EN_1"
newline
bitfld.long 0x00 2. "BTA_SHORT_EN,Enables the automatic bus turn-around after completion of each short packet transmission" "BTA_SHORT_EN_0,BTA_SHORT_EN_1"
bitfld.long 0x00 1. "SOURCE,Selection of the source between Interface and the Video port(s) (used by the hardware only if MODE=COMMAND MODE (0x0) otherwise it is ignored)" "SOURCE_0,SOURCE_1"
newline
bitfld.long 0x00 0. "VC_EN,Enables the virtual channel" "VC_EN_0,VC_EN_1"
group.long 0x11C++0x03
line.long 0x00 "DSI_VC_IRQENABLE_i_0,INTERRUPT ENABLE REGISTER - Virtual channel This register regroups all the events related to virtual channel"
bitfld.long 0x00 8. "PP_BUSY_CHANGE_IRQ_EN,Video Port ping-pong buffer busy status" "PP_BUSY_CHANGE_IRQ_EN_0,PP_BUSY_CHANGE_IRQ_EN_1"
bitfld.long 0x00 7. "FIFO_TX_UDF_IRQ_EN,FIFO underflow enable" "FIFO_TX_UDF_IRQ_EN_0,FIFO_TX_UDF_IRQ_EN_1"
newline
bitfld.long 0x00 6. "ECC_NO_CORRECTION_IRQ_EN,ECC error (short and long packets)" "ECC_NO_CORRECTION_IRQ_EN_0,ECC_NO_CORRECTION_IRQ_EN_1"
bitfld.long 0x00 5. "BTA_IRQ_EN,Virtual channel -Bus turn around reception" "BTA_IRQ_EN_0,BTA_IRQ_EN_1"
newline
bitfld.long 0x00 4. "FIFO_RX_OVF_IRQ_EN,FIFO overflow enable" "FIFO_RX_OVF_IRQ_EN_0,FIFO_RX_OVF_IRQ_EN_1"
bitfld.long 0x00 3. "FIFO_TX_OVF_IRQ_EN,FIFO overflow enable" "FIFO_TX_OVF_IRQ_EN_0,FIFO_TX_OVF_IRQ_EN_1"
newline
bitfld.long 0x00 2. "PACKET_SENT_IRQ_EN,Indicates that a packet has been sent" "PACKET_SENT_IRQ_EN_0,PACKET_SENT_IRQ_EN_1"
bitfld.long 0x00 1. "ECC_CORRECTION_IRQ_EN,Virtual" "ECC_CORRECTION_IRQ_EN_0,ECC_CORRECTION_IRQ_EN_1"
newline
bitfld.long 0x00 0. "CS_IRQ_EN,Virtual" "CS_IRQ_EN_0,CS_IRQ_EN_1"
group.long 0x118++0x03
line.long 0x00 "DSI_VC_IRQSTATUS_i_0,INTERRUPT STATUS REGISTER - Virtual channel This register regroups all the events related to the virtual channel"
bitfld.long 0x00 8. "PP_BUSY_CHANGE_IRQ,Video Port ping-pong buffer busy status" "PP_BUSY_CHANGE_IRQ_0,PP_BUSY_CHANGE_IRQ_1"
bitfld.long 0x00 7. "FIFO_TX_UDF_IRQ,FIFO underflow status" "FIFO_TX_UDF_IRQ_0,FIFO_TX_UDF_IRQ_1"
newline
bitfld.long 0x00 6. "ECC_NO_CORRECTION_IRQ,ECC error status (short and long packets)" "ECC_NO_CORRECTION_IRQ_0,ECC_NO_CORRECTION_IRQ_1"
bitfld.long 0x00 5. "BTA_IRQ,Virtual" "BTA_IRQ_0,BTA_IRQ_1"
newline
bitfld.long 0x00 4. "FIFO_RX_OVF_IRQ,FIFO overflow error status" "FIFO_RX_OVF_IRQ_0,FIFO_RX_OVF_IRQ_1"
bitfld.long 0x00 3. "FIFO_TX_OVF_IRQ,FIFO overflow error status" "FIFO_TX_OVF_IRQ_0,FIFO_TX_OVF_IRQ_1"
newline
bitfld.long 0x00 2. "PACKET_SENT_IRQ,Indicates that a packet has been sent" "PACKET_SENT_IRQ_0,PACKET_SENT_IRQ_1"
bitfld.long 0x00 1. "ECC_CORRECTION_IRQ,Virtual" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
newline
bitfld.long 0x00 0. "CS_IRQ,Virtual" "CS_IRQ_0,CS_IRQ_1"
group.long 0x108++0x0B
line.long 0x00 "DSI_VC_LONG_PACKET_HEADER_i_0,LONG PACKET HEADER INFORMATION -Virtual channel This register sets the 32-bit DATA_ID + Word count + ECC (the virtual channel id can be different than VC)"
line.long 0x04 "DSI_VC_LONG_PACKET_PAYLOAD_i_0,LONG PACKET PAYLOAD INFORMATION -Virtual channel This register sets the payload information (excluding checksum)"
line.long 0x08 "DSI_VC_SHORT_PACKET_HEADER_i_0,SHORT PACKET HEADER INFORMATION -Virtual channel This register sets the 24-bit DATA_ID + Short Packet Data Field + ECC (the virtual channel id can be different than VC)"
group.long 0x104++0x03
line.long 0x00 "DSI_VC_TE_i_0,CONTROL REGISTER - Virtual channel This register controls the tearing effect logic"
bitfld.long 0x00 31. "TE_START,Manual control of the start of the transfer" "TE_START_0,TE_START_1"
bitfld.long 0x00 30. "TE_EN,Tearing Effect Control" "TE_EN_0,TE_EN_1"
newline
bitfld.long 0x00 29. "TE_LINE," "TE_LINE_0,TE_LINE_1"
bitfld.long 0x00 28. "TE_LINE_NB,Selection between TE0 and TE1 CMOS signals" "TE_LINE_NB_0,TE_LINE_NB_1"
newline
hexmask.long.tbyte 0x00 0.--23. 1. "TE_SIZE,Defines the number of byte (payload data excluding the check -sum) to be sent"
tree.end
tree "Channel_1"
group.long 0xB4++0x03
line.long 0x00 "DSI_TE_HSYNC_NUMBER_j_1,The register configures the number of HSYNC to synchronize the beginning of the transfer on DSI link based on the number of HSYNC pulse received on the TE line"
hexmask.long.word 0x00 0.--10. 1. "LINE_NUMBER,Programmable line number Line number from 0 to 2047"
group.long 0xAC++0x07
line.long 0x00 "DSI_TE_HSYNC_WIDTH_j_1,The register configures the TE HSYNC minimum pulse width for TE0 and TE1 CMOS signals The input TE signal is asynchronous and needs to be resynchronizred to DSI_CLK clock domain"
hexmask.long.word 0x00 8.--19. 1. "MIN_HSYNC_PULSE_WIDTH,Programmable min HSYNC pulse width Minimum HSYNC pulse width"
line.long 0x04 "DSI_TE_VSYNC_WIDTH_j_1,The register configures the TE VSYNC minimum pulse width for TE0 and TE1 CMOS signals The input TE signal is asynchronous and needs to be resynchronizred to DSI_CLK clock domain"
hexmask.long.word 0x04 8.--19. 1. "MIN_VSYNC_PULSE_WIDTH,Programmable min VSYNC pulse width Minimum VSYNC pulse width"
group.long 0x120++0x03
line.long 0x00 "DSI_VC_CTRL_i_1,CONTROL REGISTER - Virtual channel This register controls the virtual channel"
bitfld.long 0x00 31. "DCS_CMD_CODE,DCS command code value to insert between header and video port or Interface slave data when enabled by DCS_CMD_ENABLE (only when TE mechanism is not used otherwise the bit field DCS_CMD_CODE is ignored by DSI protocol engine)" "DCS_CMD_CODE_0,DCS_CMD_CODE_1"
bitfld.long 0x00 30. "DCS_CMD_ENABLE,Enables automatic insertion of DCS command codes when data is sourced by the video port" "DCS_CMD_ENABLE_0,DCS_CMD_ENABLE_1"
newline
bitfld.long 0x00 27.--29. "DMA_RX_REQ_NB,Selection of the use of the DMA request (associated to the RX FIFO)" "DMA_RX_REQ_NB_0,DMA_RX_REQ_NB_1,DMA_RX_REQ_NB_2,DMA_RX_REQ_NB_3,DMA_RX_REQ_NB_4,?,?,?"
bitfld.long 0x00 24.--26. "DMA_RX_THRESHOLD,Defines the threshold value for the DMA request (associated to the RX FIFO)" "DMA_RX_THRESHOLD_0,DMA_RX_THRESHOLD_1,DMA_RX_THRESHOLD_2,DMA_RX_THRESHOLD_3,DMA_RX_THRESHOLD_4,DMA_RX_THRESHOLD_5,?,?"
newline
bitfld.long 0x00 21.--23. "DMA_TX_REQ_NB,Selection of the use of the DMA request (associated to the TX FIFO)" "DMA_TX_REQ_NB_0,DMA_TX_REQ_NB_1,DMA_TX_REQ_NB_2,DMA_TX_REQ_NB_3,DMA_TX_REQ_NB_4,?,?,?"
rbitfld.long 0x00 20. "RX_FIFO_NOT_EMPTY,FIFO status in command mode" "RX_FIFO_NOT_EMPTY_0_r,RX_FIFO_NOT_EMPTY_1_r"
newline
bitfld.long 0x00 17.--19. "DMA_TX_THRESHOLD,Defines the threshold value for the DMA request (associated to the TX FIFO)" "DMA_TX_THRESHOLD_0,DMA_TX_THRESHOLD_1,DMA_TX_THRESHOLD_2,DMA_TX_THRESHOLD_3,DMA_TX_THRESHOLD_4,DMA_TX_THRESHOLD_5,?,?"
rbitfld.long 0x00 16. "TX_FIFO_FULL,FIFO status in command mode" "TX_FIFO_FULL_0_r,TX_FIFO_FULL_1_r"
newline
rbitfld.long 0x00 15. "VC_BUSY,Indicates if previously scheduled activities (packets BTA) are still being processed" "VC_BUSY_0_r,VC_BUSY_1_r"
rbitfld.long 0x00 14. "PP_BUSY,Ping-pong buffer busy status" "PP_BUSY_0_r,PP_BUSY_1_r"
newline
bitfld.long 0x00 13. "VP_SOURCE,Selection between video port 1 and video port 2" "VP_SOURCE_0,VP_SOURCE_1"
bitfld.long 0x00 12. "RGB565_ORDER,Byte order for RBG565" "RGB565_ORDER_0,RGB565_ORDER_1"
newline
bitfld.long 0x00 10.--11. "OCP_DATA_BUS_WIDTH,Defines the size of the Interface data bus" "OCP_DATA_BUS_WIDTH_0,OCP_DATA_BUS_WIDTH_1,OCP_DATA_BUS_WIDTH_2,OCP_DATA_BUS_WIDTH_3"
bitfld.long 0x00 9. "MODE_SPEED,Selection of the mode" "MODE_SPEED_0,MODE_SPEED_1"
newline
bitfld.long 0x00 8. "ECC_TX_EN,Enables the Error Correction Code generation for the transmit header (short and long packets)" "ECC_TX_EN_0,ECC_TX_EN_1"
bitfld.long 0x00 7. "CS_TX_EN,Enables the checksum generation for the transmit payload (long packet only)" "CS_TX_EN_0,CS_TX_EN_1"
newline
bitfld.long 0x00 6. "BTA_EN,Send the bus turn around to the peripheral" "BTA_EN_0,BTA_EN_1"
rbitfld.long 0x00 5. "TX_FIFO_NOT_EMPTY,FIFO status" "TX_FIFO_NOT_EMPTY_0_r,TX_FIFO_NOT_EMPTY_1_r"
newline
bitfld.long 0x00 4. "MODE,Selection of the mode" "MODE_0,MODE_1"
bitfld.long 0x00 3. "BTA_LONG_EN,Enables the automatic bus turn-around after completion of each long packet transmission" "BTA_LONG_EN_0,BTA_LONG_EN_1"
newline
bitfld.long 0x00 2. "BTA_SHORT_EN,Enables the automatic bus turn-around after completion of each short packet transmission" "BTA_SHORT_EN_0,BTA_SHORT_EN_1"
bitfld.long 0x00 1. "SOURCE,Selection of the source between Interface and the Video port(s) (used by the hardware only if MODE=COMMAND MODE (0x0) otherwise it is ignored)" "SOURCE_0,SOURCE_1"
newline
bitfld.long 0x00 0. "VC_EN,Enables the virtual channel" "VC_EN_0,VC_EN_1"
group.long 0x13C++0x03
line.long 0x00 "DSI_VC_IRQENABLE_i_1,INTERRUPT ENABLE REGISTER - Virtual channel This register regroups all the events related to virtual channel"
bitfld.long 0x00 8. "PP_BUSY_CHANGE_IRQ_EN,Video Port ping-pong buffer busy status" "PP_BUSY_CHANGE_IRQ_EN_0,PP_BUSY_CHANGE_IRQ_EN_1"
bitfld.long 0x00 7. "FIFO_TX_UDF_IRQ_EN,FIFO underflow enable" "FIFO_TX_UDF_IRQ_EN_0,FIFO_TX_UDF_IRQ_EN_1"
newline
bitfld.long 0x00 6. "ECC_NO_CORRECTION_IRQ_EN,ECC error (short and long packets)" "ECC_NO_CORRECTION_IRQ_EN_0,ECC_NO_CORRECTION_IRQ_EN_1"
bitfld.long 0x00 5. "BTA_IRQ_EN,Virtual channel -Bus turn around reception" "BTA_IRQ_EN_0,BTA_IRQ_EN_1"
newline
bitfld.long 0x00 4. "FIFO_RX_OVF_IRQ_EN,FIFO overflow enable" "FIFO_RX_OVF_IRQ_EN_0,FIFO_RX_OVF_IRQ_EN_1"
bitfld.long 0x00 3. "FIFO_TX_OVF_IRQ_EN,FIFO overflow enable" "FIFO_TX_OVF_IRQ_EN_0,FIFO_TX_OVF_IRQ_EN_1"
newline
bitfld.long 0x00 2. "PACKET_SENT_IRQ_EN,Indicates that a packet has been sent" "PACKET_SENT_IRQ_EN_0,PACKET_SENT_IRQ_EN_1"
bitfld.long 0x00 1. "ECC_CORRECTION_IRQ_EN,Virtual" "ECC_CORRECTION_IRQ_EN_0,ECC_CORRECTION_IRQ_EN_1"
newline
bitfld.long 0x00 0. "CS_IRQ_EN,Virtual" "CS_IRQ_EN_0,CS_IRQ_EN_1"
group.long 0x138++0x03
line.long 0x00 "DSI_VC_IRQSTATUS_i_1,INTERRUPT STATUS REGISTER - Virtual channel This register regroups all the events related to the virtual channel"
bitfld.long 0x00 8. "PP_BUSY_CHANGE_IRQ,Video Port ping-pong buffer busy status" "PP_BUSY_CHANGE_IRQ_0,PP_BUSY_CHANGE_IRQ_1"
bitfld.long 0x00 7. "FIFO_TX_UDF_IRQ,FIFO underflow status" "FIFO_TX_UDF_IRQ_0,FIFO_TX_UDF_IRQ_1"
newline
bitfld.long 0x00 6. "ECC_NO_CORRECTION_IRQ,ECC error status (short and long packets)" "ECC_NO_CORRECTION_IRQ_0,ECC_NO_CORRECTION_IRQ_1"
bitfld.long 0x00 5. "BTA_IRQ,Virtual" "BTA_IRQ_0,BTA_IRQ_1"
newline
bitfld.long 0x00 4. "FIFO_RX_OVF_IRQ,FIFO overflow error status" "FIFO_RX_OVF_IRQ_0,FIFO_RX_OVF_IRQ_1"
bitfld.long 0x00 3. "FIFO_TX_OVF_IRQ,FIFO overflow error status" "FIFO_TX_OVF_IRQ_0,FIFO_TX_OVF_IRQ_1"
newline
bitfld.long 0x00 2. "PACKET_SENT_IRQ,Indicates that a packet has been sent" "PACKET_SENT_IRQ_0,PACKET_SENT_IRQ_1"
bitfld.long 0x00 1. "ECC_CORRECTION_IRQ,Virtual" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
newline
bitfld.long 0x00 0. "CS_IRQ,Virtual" "CS_IRQ_0,CS_IRQ_1"
group.long 0x128++0x0B
line.long 0x00 "DSI_VC_LONG_PACKET_HEADER_i_1,LONG PACKET HEADER INFORMATION -Virtual channel This register sets the 32-bit DATA_ID + Word count + ECC (the virtual channel id can be different than VC)"
line.long 0x04 "DSI_VC_LONG_PACKET_PAYLOAD_i_1,LONG PACKET PAYLOAD INFORMATION -Virtual channel This register sets the payload information (excluding checksum)"
line.long 0x08 "DSI_VC_SHORT_PACKET_HEADER_i_1,SHORT PACKET HEADER INFORMATION -Virtual channel This register sets the 24-bit DATA_ID + Short Packet Data Field + ECC (the virtual channel id can be different than VC)"
group.long 0x124++0x03
line.long 0x00 "DSI_VC_TE_i_1,CONTROL REGISTER - Virtual channel This register controls the tearing effect logic"
bitfld.long 0x00 31. "TE_START,Manual control of the start of the transfer" "TE_START_0,TE_START_1"
bitfld.long 0x00 30. "TE_EN,Tearing Effect Control" "TE_EN_0,TE_EN_1"
newline
bitfld.long 0x00 29. "TE_LINE," "TE_LINE_0,TE_LINE_1"
bitfld.long 0x00 28. "TE_LINE_NB,Selection between TE0 and TE1 CMOS signals" "TE_LINE_NB_0,TE_LINE_NB_1"
newline
hexmask.long.tbyte 0x00 0.--23. 1. "TE_SIZE,Defines the number of byte (payload data excluding the check -sum) to be sent"
tree.end
tree "Channel_2"
group.long 0x140++0x03
line.long 0x00 "DSI_VC_CTRL_i_2,CONTROL REGISTER - Virtual channel This register controls the virtual channel"
bitfld.long 0x00 31. "DCS_CMD_CODE,DCS command code value to insert between header and video port or Interface slave data when enabled by DCS_CMD_ENABLE (only when TE mechanism is not used otherwise the bit field DCS_CMD_CODE is ignored by DSI protocol engine)" "DCS_CMD_CODE_0,DCS_CMD_CODE_1"
bitfld.long 0x00 30. "DCS_CMD_ENABLE,Enables automatic insertion of DCS command codes when data is sourced by the video port" "DCS_CMD_ENABLE_0,DCS_CMD_ENABLE_1"
newline
bitfld.long 0x00 27.--29. "DMA_RX_REQ_NB,Selection of the use of the DMA request (associated to the RX FIFO)" "DMA_RX_REQ_NB_0,DMA_RX_REQ_NB_1,DMA_RX_REQ_NB_2,DMA_RX_REQ_NB_3,DMA_RX_REQ_NB_4,?,?,?"
bitfld.long 0x00 24.--26. "DMA_RX_THRESHOLD,Defines the threshold value for the DMA request (associated to the RX FIFO)" "DMA_RX_THRESHOLD_0,DMA_RX_THRESHOLD_1,DMA_RX_THRESHOLD_2,DMA_RX_THRESHOLD_3,DMA_RX_THRESHOLD_4,DMA_RX_THRESHOLD_5,?,?"
newline
bitfld.long 0x00 21.--23. "DMA_TX_REQ_NB,Selection of the use of the DMA request (associated to the TX FIFO)" "DMA_TX_REQ_NB_0,DMA_TX_REQ_NB_1,DMA_TX_REQ_NB_2,DMA_TX_REQ_NB_3,DMA_TX_REQ_NB_4,?,?,?"
rbitfld.long 0x00 20. "RX_FIFO_NOT_EMPTY,FIFO status in command mode" "RX_FIFO_NOT_EMPTY_0_r,RX_FIFO_NOT_EMPTY_1_r"
newline
bitfld.long 0x00 17.--19. "DMA_TX_THRESHOLD,Defines the threshold value for the DMA request (associated to the TX FIFO)" "DMA_TX_THRESHOLD_0,DMA_TX_THRESHOLD_1,DMA_TX_THRESHOLD_2,DMA_TX_THRESHOLD_3,DMA_TX_THRESHOLD_4,DMA_TX_THRESHOLD_5,?,?"
rbitfld.long 0x00 16. "TX_FIFO_FULL,FIFO status in command mode" "TX_FIFO_FULL_0_r,TX_FIFO_FULL_1_r"
newline
rbitfld.long 0x00 15. "VC_BUSY,Indicates if previously scheduled activities (packets BTA) are still being processed" "VC_BUSY_0_r,VC_BUSY_1_r"
rbitfld.long 0x00 14. "PP_BUSY,Ping-pong buffer busy status" "PP_BUSY_0_r,PP_BUSY_1_r"
newline
bitfld.long 0x00 13. "VP_SOURCE,Selection between video port 1 and video port 2" "VP_SOURCE_0,VP_SOURCE_1"
bitfld.long 0x00 12. "RGB565_ORDER,Byte order for RBG565" "RGB565_ORDER_0,RGB565_ORDER_1"
newline
bitfld.long 0x00 10.--11. "OCP_DATA_BUS_WIDTH,Defines the size of the Interface data bus" "OCP_DATA_BUS_WIDTH_0,OCP_DATA_BUS_WIDTH_1,OCP_DATA_BUS_WIDTH_2,OCP_DATA_BUS_WIDTH_3"
bitfld.long 0x00 9. "MODE_SPEED,Selection of the mode" "MODE_SPEED_0,MODE_SPEED_1"
newline
bitfld.long 0x00 8. "ECC_TX_EN,Enables the Error Correction Code generation for the transmit header (short and long packets)" "ECC_TX_EN_0,ECC_TX_EN_1"
bitfld.long 0x00 7. "CS_TX_EN,Enables the checksum generation for the transmit payload (long packet only)" "CS_TX_EN_0,CS_TX_EN_1"
newline
bitfld.long 0x00 6. "BTA_EN,Send the bus turn around to the peripheral" "BTA_EN_0,BTA_EN_1"
rbitfld.long 0x00 5. "TX_FIFO_NOT_EMPTY,FIFO status" "TX_FIFO_NOT_EMPTY_0_r,TX_FIFO_NOT_EMPTY_1_r"
newline
bitfld.long 0x00 4. "MODE,Selection of the mode" "MODE_0,MODE_1"
bitfld.long 0x00 3. "BTA_LONG_EN,Enables the automatic bus turn-around after completion of each long packet transmission" "BTA_LONG_EN_0,BTA_LONG_EN_1"
newline
bitfld.long 0x00 2. "BTA_SHORT_EN,Enables the automatic bus turn-around after completion of each short packet transmission" "BTA_SHORT_EN_0,BTA_SHORT_EN_1"
bitfld.long 0x00 1. "SOURCE,Selection of the source between Interface and the Video port(s) (used by the hardware only if MODE=COMMAND MODE (0x0) otherwise it is ignored)" "SOURCE_0,SOURCE_1"
newline
bitfld.long 0x00 0. "VC_EN,Enables the virtual channel" "VC_EN_0,VC_EN_1"
group.long 0x15C++0x03
line.long 0x00 "DSI_VC_IRQENABLE_i_2,INTERRUPT ENABLE REGISTER - Virtual channel This register regroups all the events related to virtual channel"
bitfld.long 0x00 8. "PP_BUSY_CHANGE_IRQ_EN,Video Port ping-pong buffer busy status" "PP_BUSY_CHANGE_IRQ_EN_0,PP_BUSY_CHANGE_IRQ_EN_1"
bitfld.long 0x00 7. "FIFO_TX_UDF_IRQ_EN,FIFO underflow enable" "FIFO_TX_UDF_IRQ_EN_0,FIFO_TX_UDF_IRQ_EN_1"
newline
bitfld.long 0x00 6. "ECC_NO_CORRECTION_IRQ_EN,ECC error (short and long packets)" "ECC_NO_CORRECTION_IRQ_EN_0,ECC_NO_CORRECTION_IRQ_EN_1"
bitfld.long 0x00 5. "BTA_IRQ_EN,Virtual channel -Bus turn around reception" "BTA_IRQ_EN_0,BTA_IRQ_EN_1"
newline
bitfld.long 0x00 4. "FIFO_RX_OVF_IRQ_EN,FIFO overflow enable" "FIFO_RX_OVF_IRQ_EN_0,FIFO_RX_OVF_IRQ_EN_1"
bitfld.long 0x00 3. "FIFO_TX_OVF_IRQ_EN,FIFO overflow enable" "FIFO_TX_OVF_IRQ_EN_0,FIFO_TX_OVF_IRQ_EN_1"
newline
bitfld.long 0x00 2. "PACKET_SENT_IRQ_EN,Indicates that a packet has been sent" "PACKET_SENT_IRQ_EN_0,PACKET_SENT_IRQ_EN_1"
bitfld.long 0x00 1. "ECC_CORRECTION_IRQ_EN,Virtual" "ECC_CORRECTION_IRQ_EN_0,ECC_CORRECTION_IRQ_EN_1"
newline
bitfld.long 0x00 0. "CS_IRQ_EN,Virtual" "CS_IRQ_EN_0,CS_IRQ_EN_1"
group.long 0x158++0x03
line.long 0x00 "DSI_VC_IRQSTATUS_i_2,INTERRUPT STATUS REGISTER - Virtual channel This register regroups all the events related to the virtual channel"
bitfld.long 0x00 8. "PP_BUSY_CHANGE_IRQ,Video Port ping-pong buffer busy status" "PP_BUSY_CHANGE_IRQ_0,PP_BUSY_CHANGE_IRQ_1"
bitfld.long 0x00 7. "FIFO_TX_UDF_IRQ,FIFO underflow status" "FIFO_TX_UDF_IRQ_0,FIFO_TX_UDF_IRQ_1"
newline
bitfld.long 0x00 6. "ECC_NO_CORRECTION_IRQ,ECC error status (short and long packets)" "ECC_NO_CORRECTION_IRQ_0,ECC_NO_CORRECTION_IRQ_1"
bitfld.long 0x00 5. "BTA_IRQ,Virtual" "BTA_IRQ_0,BTA_IRQ_1"
newline
bitfld.long 0x00 4. "FIFO_RX_OVF_IRQ,FIFO overflow error status" "FIFO_RX_OVF_IRQ_0,FIFO_RX_OVF_IRQ_1"
bitfld.long 0x00 3. "FIFO_TX_OVF_IRQ,FIFO overflow error status" "FIFO_TX_OVF_IRQ_0,FIFO_TX_OVF_IRQ_1"
newline
bitfld.long 0x00 2. "PACKET_SENT_IRQ,Indicates that a packet has been sent" "PACKET_SENT_IRQ_0,PACKET_SENT_IRQ_1"
bitfld.long 0x00 1. "ECC_CORRECTION_IRQ,Virtual" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
newline
bitfld.long 0x00 0. "CS_IRQ,Virtual" "CS_IRQ_0,CS_IRQ_1"
group.long 0x148++0x0B
line.long 0x00 "DSI_VC_LONG_PACKET_HEADER_i_2,LONG PACKET HEADER INFORMATION -Virtual channel This register sets the 32-bit DATA_ID + Word count + ECC (the virtual channel id can be different than VC)"
line.long 0x04 "DSI_VC_LONG_PACKET_PAYLOAD_i_2,LONG PACKET PAYLOAD INFORMATION -Virtual channel This register sets the payload information (excluding checksum)"
line.long 0x08 "DSI_VC_SHORT_PACKET_HEADER_i_2,SHORT PACKET HEADER INFORMATION -Virtual channel This register sets the 24-bit DATA_ID + Short Packet Data Field + ECC (the virtual channel id can be different than VC)"
group.long 0x144++0x03
line.long 0x00 "DSI_VC_TE_i_2,CONTROL REGISTER - Virtual channel This register controls the tearing effect logic"
bitfld.long 0x00 31. "TE_START,Manual control of the start of the transfer" "TE_START_0,TE_START_1"
bitfld.long 0x00 30. "TE_EN,Tearing Effect Control" "TE_EN_0,TE_EN_1"
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bitfld.long 0x00 29. "TE_LINE," "TE_LINE_0,TE_LINE_1"
bitfld.long 0x00 28. "TE_LINE_NB,Selection between TE0 and TE1 CMOS signals" "TE_LINE_NB_0,TE_LINE_NB_1"
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hexmask.long.tbyte 0x00 0.--23. 1. "TE_SIZE,Defines the number of byte (payload data excluding the check -sum) to be sent"
tree.end
tree "Channel_3"
group.long 0x160++0x03
line.long 0x00 "DSI_VC_CTRL_i_3,CONTROL REGISTER - Virtual channel This register controls the virtual channel"
bitfld.long 0x00 31. "DCS_CMD_CODE,DCS command code value to insert between header and video port or Interface slave data when enabled by DCS_CMD_ENABLE (only when TE mechanism is not used otherwise the bit field DCS_CMD_CODE is ignored by DSI protocol engine)" "DCS_CMD_CODE_0,DCS_CMD_CODE_1"
bitfld.long 0x00 30. "DCS_CMD_ENABLE,Enables automatic insertion of DCS command codes when data is sourced by the video port" "DCS_CMD_ENABLE_0,DCS_CMD_ENABLE_1"
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bitfld.long 0x00 27.--29. "DMA_RX_REQ_NB,Selection of the use of the DMA request (associated to the RX FIFO)" "DMA_RX_REQ_NB_0,DMA_RX_REQ_NB_1,DMA_RX_REQ_NB_2,DMA_RX_REQ_NB_3,DMA_RX_REQ_NB_4,?,?,?"
bitfld.long 0x00 24.--26. "DMA_RX_THRESHOLD,Defines the threshold value for the DMA request (associated to the RX FIFO)" "DMA_RX_THRESHOLD_0,DMA_RX_THRESHOLD_1,DMA_RX_THRESHOLD_2,DMA_RX_THRESHOLD_3,DMA_RX_THRESHOLD_4,DMA_RX_THRESHOLD_5,?,?"
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bitfld.long 0x00 21.--23. "DMA_TX_REQ_NB,Selection of the use of the DMA request (associated to the TX FIFO)" "DMA_TX_REQ_NB_0,DMA_TX_REQ_NB_1,DMA_TX_REQ_NB_2,DMA_TX_REQ_NB_3,DMA_TX_REQ_NB_4,?,?,?"
rbitfld.long 0x00 20. "RX_FIFO_NOT_EMPTY,FIFO status in command mode" "RX_FIFO_NOT_EMPTY_0_r,RX_FIFO_NOT_EMPTY_1_r"
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bitfld.long 0x00 17.--19. "DMA_TX_THRESHOLD,Defines the threshold value for the DMA request (associated to the TX FIFO)" "DMA_TX_THRESHOLD_0,DMA_TX_THRESHOLD_1,DMA_TX_THRESHOLD_2,DMA_TX_THRESHOLD_3,DMA_TX_THRESHOLD_4,DMA_TX_THRESHOLD_5,?,?"
rbitfld.long 0x00 16. "TX_FIFO_FULL,FIFO status in command mode" "TX_FIFO_FULL_0_r,TX_FIFO_FULL_1_r"
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rbitfld.long 0x00 15. "VC_BUSY,Indicates if previously scheduled activities (packets BTA) are still being processed" "VC_BUSY_0_r,VC_BUSY_1_r"
rbitfld.long 0x00 14. "PP_BUSY,Ping-pong buffer busy status" "PP_BUSY_0_r,PP_BUSY_1_r"
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bitfld.long 0x00 13. "VP_SOURCE,Selection between video port 1 and video port 2" "VP_SOURCE_0,VP_SOURCE_1"
bitfld.long 0x00 12. "RGB565_ORDER,Byte order for RBG565" "RGB565_ORDER_0,RGB565_ORDER_1"
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bitfld.long 0x00 10.--11. "OCP_DATA_BUS_WIDTH,Defines the size of the Interface data bus" "OCP_DATA_BUS_WIDTH_0,OCP_DATA_BUS_WIDTH_1,OCP_DATA_BUS_WIDTH_2,OCP_DATA_BUS_WIDTH_3"
bitfld.long 0x00 9. "MODE_SPEED,Selection of the mode" "MODE_SPEED_0,MODE_SPEED_1"
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bitfld.long 0x00 8. "ECC_TX_EN,Enables the Error Correction Code generation for the transmit header (short and long packets)" "ECC_TX_EN_0,ECC_TX_EN_1"
bitfld.long 0x00 7. "CS_TX_EN,Enables the checksum generation for the transmit payload (long packet only)" "CS_TX_EN_0,CS_TX_EN_1"
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bitfld.long 0x00 6. "BTA_EN,Send the bus turn around to the peripheral" "BTA_EN_0,BTA_EN_1"
rbitfld.long 0x00 5. "TX_FIFO_NOT_EMPTY,FIFO status" "TX_FIFO_NOT_EMPTY_0_r,TX_FIFO_NOT_EMPTY_1_r"
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bitfld.long 0x00 4. "MODE,Selection of the mode" "MODE_0,MODE_1"
bitfld.long 0x00 3. "BTA_LONG_EN,Enables the automatic bus turn-around after completion of each long packet transmission" "BTA_LONG_EN_0,BTA_LONG_EN_1"
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bitfld.long 0x00 2. "BTA_SHORT_EN,Enables the automatic bus turn-around after completion of each short packet transmission" "BTA_SHORT_EN_0,BTA_SHORT_EN_1"
bitfld.long 0x00 1. "SOURCE,Selection of the source between Interface and the Video port(s) (used by the hardware only if MODE=COMMAND MODE (0x0) otherwise it is ignored)" "SOURCE_0,SOURCE_1"
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bitfld.long 0x00 0. "VC_EN,Enables the virtual channel" "VC_EN_0,VC_EN_1"
group.long 0x17C++0x03
line.long 0x00 "DSI_VC_IRQENABLE_i_3,INTERRUPT ENABLE REGISTER - Virtual channel This register regroups all the events related to virtual channel"
bitfld.long 0x00 8. "PP_BUSY_CHANGE_IRQ_EN,Video Port ping-pong buffer busy status" "PP_BUSY_CHANGE_IRQ_EN_0,PP_BUSY_CHANGE_IRQ_EN_1"
bitfld.long 0x00 7. "FIFO_TX_UDF_IRQ_EN,FIFO underflow enable" "FIFO_TX_UDF_IRQ_EN_0,FIFO_TX_UDF_IRQ_EN_1"
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bitfld.long 0x00 6. "ECC_NO_CORRECTION_IRQ_EN,ECC error (short and long packets)" "ECC_NO_CORRECTION_IRQ_EN_0,ECC_NO_CORRECTION_IRQ_EN_1"
bitfld.long 0x00 5. "BTA_IRQ_EN,Virtual channel -Bus turn around reception" "BTA_IRQ_EN_0,BTA_IRQ_EN_1"
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bitfld.long 0x00 4. "FIFO_RX_OVF_IRQ_EN,FIFO overflow enable" "FIFO_RX_OVF_IRQ_EN_0,FIFO_RX_OVF_IRQ_EN_1"
bitfld.long 0x00 3. "FIFO_TX_OVF_IRQ_EN,FIFO overflow enable" "FIFO_TX_OVF_IRQ_EN_0,FIFO_TX_OVF_IRQ_EN_1"
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bitfld.long 0x00 2. "PACKET_SENT_IRQ_EN,Indicates that a packet has been sent" "PACKET_SENT_IRQ_EN_0,PACKET_SENT_IRQ_EN_1"
bitfld.long 0x00 1. "ECC_CORRECTION_IRQ_EN,Virtual" "ECC_CORRECTION_IRQ_EN_0,ECC_CORRECTION_IRQ_EN_1"
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bitfld.long 0x00 0. "CS_IRQ_EN,Virtual" "CS_IRQ_EN_0,CS_IRQ_EN_1"
group.long 0x178++0x03
line.long 0x00 "DSI_VC_IRQSTATUS_i_3,INTERRUPT STATUS REGISTER - Virtual channel This register regroups all the events related to the virtual channel"
bitfld.long 0x00 8. "PP_BUSY_CHANGE_IRQ,Video Port ping-pong buffer busy status" "PP_BUSY_CHANGE_IRQ_0,PP_BUSY_CHANGE_IRQ_1"
bitfld.long 0x00 7. "FIFO_TX_UDF_IRQ,FIFO underflow status" "FIFO_TX_UDF_IRQ_0,FIFO_TX_UDF_IRQ_1"
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bitfld.long 0x00 6. "ECC_NO_CORRECTION_IRQ,ECC error status (short and long packets)" "ECC_NO_CORRECTION_IRQ_0,ECC_NO_CORRECTION_IRQ_1"
bitfld.long 0x00 5. "BTA_IRQ,Virtual" "BTA_IRQ_0,BTA_IRQ_1"
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bitfld.long 0x00 4. "FIFO_RX_OVF_IRQ,FIFO overflow error status" "FIFO_RX_OVF_IRQ_0,FIFO_RX_OVF_IRQ_1"
bitfld.long 0x00 3. "FIFO_TX_OVF_IRQ,FIFO overflow error status" "FIFO_TX_OVF_IRQ_0,FIFO_TX_OVF_IRQ_1"
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bitfld.long 0x00 2. "PACKET_SENT_IRQ,Indicates that a packet has been sent" "PACKET_SENT_IRQ_0,PACKET_SENT_IRQ_1"
bitfld.long 0x00 1. "ECC_CORRECTION_IRQ,Virtual" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
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bitfld.long 0x00 0. "CS_IRQ,Virtual" "CS_IRQ_0,CS_IRQ_1"
group.long 0x168++0x0B
line.long 0x00 "DSI_VC_LONG_PACKET_HEADER_i_3,LONG PACKET HEADER INFORMATION -Virtual channel This register sets the 32-bit DATA_ID + Word count + ECC (the virtual channel id can be different than VC)"
line.long 0x04 "DSI_VC_LONG_PACKET_PAYLOAD_i_3,LONG PACKET PAYLOAD INFORMATION -Virtual channel This register sets the payload information (excluding checksum)"
line.long 0x08 "DSI_VC_SHORT_PACKET_HEADER_i_3,SHORT PACKET HEADER INFORMATION -Virtual channel This register sets the 24-bit DATA_ID + Short Packet Data Field + ECC (the virtual channel id can be different than VC)"
group.long 0x164++0x03
line.long 0x00 "DSI_VC_TE_i_3,CONTROL REGISTER - Virtual channel This register controls the tearing effect logic"
bitfld.long 0x00 31. "TE_START,Manual control of the start of the transfer" "TE_START_0,TE_START_1"
bitfld.long 0x00 30. "TE_EN,Tearing Effect Control" "TE_EN_0,TE_EN_1"
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bitfld.long 0x00 29. "TE_LINE," "TE_LINE_0,TE_LINE_1"
bitfld.long 0x00 28. "TE_LINE_NB,Selection between TE0 and TE1 CMOS signals" "TE_LINE_NB_0,TE_LINE_NB_1"
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hexmask.long.tbyte 0x00 0.--23. 1. "TE_SIZE,Defines the number of byte (payload data excluding the check -sum) to be sent"
tree.end
group.long 0x54++0x03
line.long 0x00 "DSI_CLK_CTRL,CLOCK CONTROL This register controls the CLOCK GENERATION"
bitfld.long 0x00 30.--31. "PLL_PWR_CMD,Command for power control of the DSI PLL Control module" "PLL_PWR_CMD_0,PLL_PWR_CMD_1,PLL_PWR_CMD_2,PLL_PWR_CMD_3"
rbitfld.long 0x00 28.--29. "PLL_PWR_STATUS,Status of the power control of the DSI PLL Control module" "PLL_PWR_STATUS_0_r,PLL_PWR_STATUS_1_r,PLL_PWR_STATUS_2_r,PLL_PWR_STATUS_3_r"
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bitfld.long 0x00 21. "LP_RX_SYNCHRO_ENABLE,Defines if the functional is higher or lower than 30 MHz" "LP_RX_SYNCHRO_ENABLE_0,LP_RX_SYNCHRO_ENABLE_1"
bitfld.long 0x00 20. "LP_CLK_ENABLE,Controls the gating of the TXCLKESC clock" "LP_CLK_ENABLE_0,LP_CLK_ENABLE_1"
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bitfld.long 0x00 19. "HS_MANUAL_STOP_CTRL,In case HS_AUTO_STOP_ENABLE=0 the bit field allows manual control of the assertion/de-assertion of the signal DSIStopClk by the user" "HS_MANUAL_STOP_CTRL_0,HS_MANUAL_STOP_CTRL_1"
bitfld.long 0x00 18. "HS_AUTO_STOP_ENABLE,Enables the automatic assertion/de-assertion of DSIStopClk signal" "HS_AUTO_STOP_ENABLE_0,HS_AUTO_STOP_ENABLE_1"
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bitfld.long 0x00 16.--17. "LP_CLK_NULL_PACKET_SIZE,Indicates the size of LP NULL Packets to be sent automatically when after the last LP packet transfer" "LP_CLK_NULL_PACKET_SIZE_0,LP_CLK_NULL_PACKET_SIZE_1,LP_CLK_NULL_PACKET_SIZE_2,LP_CLK_NULL_PACKET_SIZE_3"
bitfld.long 0x00 15. "LP_CLK_NULL_PACKET_ENABLE,Enables the generation of NULL packet in low speed" "LP_CLK_NULL_PACKET_ENABLE_0,LP_CLK_NULL_PACKET_ENABLE_1"
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bitfld.long 0x00 14. "CIO_CLK_ICG,Gates SCPClk clock provided to DSI_PHY and PLL-CTRL module" "CIO_CLK_ICG_0,CIO_CLK_ICG_1"
bitfld.long 0x00 13. "DDR_CLK_ALWAYS_ON,Defines if the DDR clock is also sent when there is no HS packets sent to the peripheral (low-power mode)" "DDR_CLK_ALWAYS_ON_0,DDR_CLK_ALWAYS_ON_1"
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hexmask.long.word 0x00 0.--12. 1. "LP_CLK_DIVISOR,Defines the ratio to be used for the generation of the low-power mode clock from DSI functional clock"
group.long 0x6C++0x03
line.long 0x00 "DSI_CLK_TIMING,CLOCK TIMING REGISTER This register controls the DSI Protocol Engine module timers"
hexmask.long.byte 0x00 8.--15. 1. "DDR_CLK_PRE,Indicates the number of TXBYTECLKHS clock cycles between the start of the DDR clock and the assertion of the data request signal"
hexmask.long.byte 0x00 0.--7. 1. "DDR_CLK_POST,Indicates the number of TXBYTECLKHS clock cycles after the de-assertion of the data request signal and the stop of the DDR clock"
group.long 0x48++0x03
line.long 0x00 "DSI_COMPLEXIO_CFG1,COMPLEXIO CONFIGURATION REGISTER for the complex I/O This register contains the lane configuration for the order and position of the lanes (clock and data) and the polarity order for the control of the PHY differential signals in.."
bitfld.long 0x00 31. "SHADOWING,Shadowing configuration" "SHADOWING_0,SHADOWING_1"
bitfld.long 0x00 30. "GOBIT,Allows the synchronized update of the shadow registers when the signal DISPCUpdateSync is active" "GOBIT_0,GOBIT_1"
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rbitfld.long 0x00 29. "RESET_DONE,Internal reset monitoring of the power domain using the TXBYTECLKHS clock from the complex I/O" "RESET_DONE_0_r,RESET_DONE_1_r"
bitfld.long 0x00 27.--28. "PWR_CMD,Command for power control of the complex I/O" "PWR_CMD_0,PWR_CMD_1,PWR_CMD_2,?"
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rbitfld.long 0x00 25.--26. "PWR_STATUS,Status of the power control of the complex I/O" "PWR_STATUS_0_r,PWR_STATUS_1_r,PWR_STATUS_2_r,?"
bitfld.long 0x00 19. "DATA4_POL,+/- differential pin order of DATA lane 4" "DATA4_POL_0,DATA4_POL_1"
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bitfld.long 0x00 16.--18. "DATA4_POSITION,Position and order of the DATA lane 4" "DATA4_POSITION_0,DATA4_POSITION_1,DATA4_POSITION_2,DATA4_POSITION_3,DATA4_POSITION_4,DATA4_POSITION_5,?,?"
bitfld.long 0x00 15. "DATA3_POL,+/- differential pin order of DATA lane 3" "DATA3_POL_0,DATA3_POL_1"
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bitfld.long 0x00 12.--14. "DATA3_POSITION,Position and order of the DATA lane 3" "DATA3_POSITION_0,DATA3_POSITION_1,DATA3_POSITION_2,DATA3_POSITION_3,DATA3_POSITION_4,DATA3_POSITION_5,?,?"
bitfld.long 0x00 11. "DATA2_POL,+/- differential pin order of DATA lane 2" "DATA2_POL_0,DATA2_POL_1"
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bitfld.long 0x00 8.--10. "DATA2_POSITION,Position and order of the DATA lane 2" "DATA2_POSITION_0,DATA2_POSITION_1,DATA2_POSITION_2,DATA2_POSITION_3,DATA2_POSITION_4,DATA2_POSITION_5,?,?"
bitfld.long 0x00 7. "DATA1_POL,+/- pin differential pin order of DATA lane" "DATA1_POL_0,DATA1_POL_1"
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bitfld.long 0x00 4.--6. "DATA1_POSITION,Position and order of the DATA lane 1" "DATA1_POSITION_0,DATA1_POSITION_1,DATA1_POSITION_2,DATA1_POSITION_3,DATA1_POSITION_4,DATA1_POSITION_5,?,?"
bitfld.long 0x00 3. "CLOCK_POL,+/- differential pin order of CLOCK lane" "CLOCK_POL_0,CLOCK_POL_1"
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bitfld.long 0x00 0.--2. "CLOCK_POSITION,Position and order of the CLOCK lane" "CLOCK_POSITION_0,CLOCK_POSITION_1,CLOCK_POSITION_2,CLOCK_POSITION_3,CLOCK_POSITION_4,CLOCK_POSITION_5,CLOCK_POSITION_6,CLOCK_POSITION_7"
group.long 0x78++0x03
line.long 0x00 "DSI_COMPLEXIO_CFG2,COMPLEXIO CONFIGURATION REGISTER for the complex I/O This register contains the lane configuration for the ULPS for each lane"
rbitfld.long 0x00 17. "LP_BUSY,Indicates when there are still pending operations for VCs configured for LP mode" "LP_BUSY_0_r,LP_BUSY_1_r"
rbitfld.long 0x00 16. "HS_BUSY,Indicates when there are still pending operations for VCs configured for HS mode" "HS_BUSY_0_r,HS_BUSY_1_r"
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bitfld.long 0x00 9. "LANE5_ULPS_SIG2,Applicable only to DS1" "LANE5_ULPS_SIG2_0,LANE5_ULPS_SIG2_1"
bitfld.long 0x00 8. "LANE4_ULPS_SIG2,Applicable only to DS1" "LANE4_ULPS_SIG2_0,LANE4_ULPS_SIG2_1"
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bitfld.long 0x00 7. "LANE3_ULPS_SIG2,Enables the ULPS for the lane 3" "LANE3_ULPS_SIG2_0,LANE3_ULPS_SIG2_1"
bitfld.long 0x00 6. "LANE2_ULPS_SIG2,Enables the ULPS for the lane 2" "LANE2_ULPS_SIG2_0,LANE2_ULPS_SIG2_1"
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bitfld.long 0x00 5. "LANE1_ULPS_SIG2,Enables the ULPS for the lane 1" "LANE1_ULPS_SIG2_0,LANE1_ULPS_SIG2_1"
bitfld.long 0x00 4. "LANE5_ULPS_SIG1,Applicable only to DS1" "LANE5_ULPS_SIG1_0,LANE5_ULPS_SIG1_1"
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bitfld.long 0x00 3. "LANE4_ULPS_SIG1,Applicable only to DS1" "LANE4_ULPS_SIG1_0,LANE4_ULPS_SIG1_1"
bitfld.long 0x00 2. "LANE3_ULPS_SIG1,Enables the ULPS for the lane 3" "LANE3_ULPS_SIG1_0,LANE3_ULPS_SIG1_1"
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bitfld.long 0x00 1. "LANE2_ULPS_SIG1,Enables the ULPS for the lane 2" "LANE2_ULPS_SIG1_0,LANE2_ULPS_SIG1_1"
bitfld.long 0x00 0. "LANE1_ULPS_SIG1,Enables the ULPS for the lane 1" "LANE1_ULPS_SIG1_0,LANE1_ULPS_SIG1_1"
group.long 0x50++0x03
line.long 0x00 "DSI_COMPLEXIO_IRQENABLE,INTERRUPT ENABLE REGISTER - All errors from complex I/O"
bitfld.long 0x00 31. "ULPSACTIVENOT_ALL1_IRQ_EN,All the ULPSActiveNOT signals corresponding to the lanes with TXULPSExit being high are high" "ULPSACTIVENOT_ALL1_IRQ_EN_0,ULPSACTIVENOT_ALL1_IRQ_EN_1"
bitfld.long 0x00 30. "ULPSACTIVENOT_ALL0_IRQ_EN,All signals ULPSActiveNOT are" "ULPSACTIVENOT_ALL0_IRQ_EN_0,ULPSACTIVENOT_ALL0_IRQ_EN_1"
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bitfld.long 0x00 29. "ERRCONTENTIONLP1_5_IRQ_EN,Contention LP1 error for lane 5 Applicable only to DS1" "ERRCONTENTIONLP1_5_IRQ_EN_0,ERRCONTENTIONLP1_5_IRQ_EN_1"
bitfld.long 0x00 28. "ERRCONTENTIONLP0_5_IRQ_EN,Contention LP0 error for lane 5 Applicable only to DS1" "ERRCONTENTIONLP0_5_IRQ_EN_0,ERRCONTENTIONLP0_5_IRQ_EN_1"
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bitfld.long 0x00 27. "ERRCONTENTIONLP1_4_IRQ_EN,Contention LP1 error for lane 4 Applicable only to DS1" "ERRCONTENTIONLP1_4_IRQ_EN_0,ERRCONTENTIONLP1_4_IRQ_EN_1"
bitfld.long 0x00 26. "ERRCONTENTIONLP0_4_IRQ_EN,Contention LP0 error for lane 4 Applicable only to DS1" "ERRCONTENTIONLP0_4_IRQ_EN_0,ERRCONTENTIONLP0_4_IRQ_EN_1"
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bitfld.long 0x00 25. "ERRCONTENTIONLP1_3_IRQ_EN,Contention LP1 error for lane" "ERRCONTENTIONLP1_3_IRQ_EN_0,ERRCONTENTIONLP1_3_IRQ_EN_1"
bitfld.long 0x00 24. "ERRCONTENTIONLP0_3_IRQ_EN,Contention LP0 error for lane" "ERRCONTENTIONLP0_3_IRQ_EN_0,ERRCONTENTIONLP0_3_IRQ_EN_1"
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bitfld.long 0x00 23. "ERRCONTENTIONLP1_2_IRQ_EN,Contention LP1 error for lane" "ERRCONTENTIONLP1_2_IRQ_EN_0,ERRCONTENTIONLP1_2_IRQ_EN_1"
bitfld.long 0x00 22. "ERRCONTENTIONLP0_2_IRQ_EN,Contention LP0 error for lane" "ERRCONTENTIONLP0_2_IRQ_EN_0,ERRCONTENTIONLP0_2_IRQ_EN_1"
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bitfld.long 0x00 21. "ERRCONTENTIONLP1_1_IRQ_EN,Contention LP1 error for lane" "ERRCONTENTIONLP1_1_IRQ_EN_0,ERRCONTENTIONLP1_1_IRQ_EN_1"
bitfld.long 0x00 20. "ERRCONTENTIONLP0_1_IRQ_EN,Contention LP0 error for lane" "ERRCONTENTIONLP0_1_IRQ_EN_0,ERRCONTENTIONLP0_1_IRQ_EN_1"
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bitfld.long 0x00 19. "STATEULPS5_IRQ_EN,lane 5 in ULTRALOW-POWER state Applicable only to DS1" "STATEULPS5_IRQ_EN_0,STATEULPS5_IRQ_EN_1"
bitfld.long 0x00 18. "STATEULPS4_IRQ_EN,lane 4 in ULTRALOW-POWER state Applicable only to DS1" "STATEULPS4_IRQ_EN_0,STATEULPS4_IRQ_EN_1"
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bitfld.long 0x00 17. "STATEULPS3_IRQ_EN,lane 3 in ULTRALOW-POWER state" "STATEULPS3_IRQ_EN_0,STATEULPS3_IRQ_EN_1"
bitfld.long 0x00 16. "STATEULPS2_IRQ_EN,lane 2 in ULTRALOW-POWER state" "STATEULPS2_IRQ_EN_0,STATEULPS2_IRQ_EN_1"
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bitfld.long 0x00 15. "STATEULPS1_IRQ_EN,lane 1 in ULTRALOW-POWER state" "STATEULPS1_IRQ_EN_0,STATEULPS1_IRQ_EN_1"
bitfld.long 0x00 14. "ERRCONTROL5_IRQ_EN,Control error for lane 5 Applicable only to DS1" "ERRCONTROL5_IRQ_EN_0,ERRCONTROL5_IRQ_EN_1"
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bitfld.long 0x00 13. "ERRCONTROL4_IRQ_EN,Control error for lane 4 Applicable only to DS1" "ERRCONTROL4_IRQ_EN_0,ERRCONTROL4_IRQ_EN_1"
bitfld.long 0x00 12. "ERRCONTROL3_IRQ_EN,Control error for lane" "ERRCONTROL3_IRQ_EN_0,ERRCONTROL3_IRQ_EN_1"
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bitfld.long 0x00 11. "ERRCONTROL2_IRQ_EN,Control error for lane" "ERRCONTROL2_IRQ_EN_0,ERRCONTROL2_IRQ_EN_1"
bitfld.long 0x00 10. "ERRCONTROL1_IRQ_EN,Control error for lane" "ERRCONTROL1_IRQ_EN_0,ERRCONTROL1_IRQ_EN_1"
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bitfld.long 0x00 9. "ERRESC5_IRQ_EN,Escape entry error for lane 5 Applicable only to DS1" "ERRESC5_IRQ_EN_0,ERRESC5_IRQ_EN_1"
bitfld.long 0x00 8. "ERRESC4_IRQ_EN,Escape entry error for lane 4 Applicable only to DS1" "ERRESC4_IRQ_EN_0,ERRESC4_IRQ_EN_1"
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bitfld.long 0x00 7. "ERRESC3_IRQ_EN,Escape entry error for lane" "ERRESC3_IRQ_EN_0,ERRESC3_IRQ_EN_1"
bitfld.long 0x00 6. "ERRESC2_IRQ_EN,Escape entry error for lane" "ERRESC2_IRQ_EN_0,ERRESC2_IRQ_EN_1"
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bitfld.long 0x00 5. "ERRESC1_IRQ_EN,Escape entry error for lane" "ERRESC1_IRQ_EN_0,ERRESC1_IRQ_EN_1"
bitfld.long 0x00 4. "ERRSYNCSESC5_IRQ_EN,Low power Data transmission synchronization error for lane 5 Applicable only to DS1" "ERRSYNCSESC5_IRQ_EN_0,ERRSYNCSESC5_IRQ_EN_1"
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bitfld.long 0x00 3. "ERRSYNCSESC4_IRQ_EN,Low power Data transmission synchronization error for lane 4 Applicable only to DS1" "ERRSYNCSESC4_IRQ_EN_0,ERRSYNCSESC4_IRQ_EN_1"
bitfld.long 0x00 2. "ERRSYNCSESC3_IRQ_EN,Low power Data transmission synchronization error for lane" "ERRSYNCSESC3_IRQ_EN_0,ERRSYNCSESC3_IRQ_EN_1"
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bitfld.long 0x00 1. "ERRSYNCSESC2_IRQ_EN,Low power Data transmission synchronization error for lane" "ERRSYNCSESC2_IRQ_EN_0,ERRSYNCSESC2_IRQ_EN_1"
bitfld.long 0x00 0. "ERRSYNCSESC1_IRQ_EN,Low power Data transmission synchronization error for lane" "ERRSYNCSESC1_IRQ_EN_0,ERRSYNCSESC1_IRQ_EN_1"
group.long 0x4C++0x03
line.long 0x00 "DSI_COMPLEXIO_IRQSTATUS,INTERRUPT STATUS REGISTER - All errors from complex I/O"
bitfld.long 0x00 31. "ULPSACTIVENOT_ALL1_IRQ,All the ULPSActiveNOT signals corresponding to the lanes with TXULPSExit being high are high" "ULPSACTIVENOT_ALL1_IRQ_0,ULPSACTIVENOT_ALL1_IRQ_1"
bitfld.long 0x00 30. "ULPSACTIVENOT_ALL0_IRQ,All signals ULPSActiveNOT are" "ULPSACTIVENOT_ALL0_IRQ_0,ULPSACTIVENOT_ALL0_IRQ_1"
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bitfld.long 0x00 29. "ERRCONTENTIONLP1_5_IRQ,Contention LP1 error for lane 5 Applicable only to DS1" "ERRCONTENTIONLP1_5_IRQ_0,ERRCONTENTIONLP1_5_IRQ_1"
bitfld.long 0x00 28. "ERRCONTENTIONLP0_5_IRQ,Contention LP0 error for lane 5 Applicable only to DS1" "ERRCONTENTIONLP0_5_IRQ_0,ERRCONTENTIONLP0_5_IRQ_1"
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bitfld.long 0x00 27. "ERRCONTENTIONLP1_4_IRQ,Contention LP1 error for lane 4 Applicable only to DS1" "ERRCONTENTIONLP1_4_IRQ_0,ERRCONTENTIONLP1_4_IRQ_1"
bitfld.long 0x00 26. "ERRCONTENTIONLP0_4_IRQ,Contention LP0 error for lane 4 Applicable only to DS1" "ERRCONTENTIONLP0_4_IRQ_0,ERRCONTENTIONLP0_4_IRQ_1"
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bitfld.long 0x00 25. "ERRCONTENTIONLP1_3_IRQ,Contention LP1 error for lane" "ERRCONTENTIONLP1_3_IRQ_0,ERRCONTENTIONLP1_3_IRQ_1"
bitfld.long 0x00 24. "ERRCONTENTIONLP0_3_IRQ,Contention LP0 error for lane" "ERRCONTENTIONLP0_3_IRQ_0,ERRCONTENTIONLP0_3_IRQ_1"
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bitfld.long 0x00 23. "ERRCONTENTIONLP1_2_IRQ,Contention LP1 error for lane" "ERRCONTENTIONLP1_2_IRQ_0,ERRCONTENTIONLP1_2_IRQ_1"
bitfld.long 0x00 22. "ERRCONTENTIONLP0_2_IRQ,Contention LP0 error for lane" "ERRCONTENTIONLP0_2_IRQ_0,ERRCONTENTIONLP0_2_IRQ_1"
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bitfld.long 0x00 21. "ERRCONTENTIONLP1_1_IRQ,Contention LP1 error for lane" "ERRCONTENTIONLP1_1_IRQ_0,ERRCONTENTIONLP1_1_IRQ_1"
bitfld.long 0x00 20. "ERRCONTENTIONLP0_1_IRQ,Contention LP0 error for lane" "ERRCONTENTIONLP0_1_IRQ_0,ERRCONTENTIONLP0_1_IRQ_1"
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bitfld.long 0x00 19. "STATEULPS5_IRQ,lane 5 in ULTRALOW-POWER State Applicable only to DS1" "STATEULPS5_IRQ_0,STATEULPS5_IRQ_1"
bitfld.long 0x00 18. "STATEULPS4_IRQ,lane 4 in ultralow-power mode Applicable only to DS1" "STATEULPS4_IRQ_0,STATEULPS4_IRQ_1"
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bitfld.long 0x00 17. "STATEULPS3_IRQ,lane 3 in ULTRALOW-POWER state" "STATEULPS3_IRQ_0,STATEULPS3_IRQ_1"
bitfld.long 0x00 16. "STATEULPS2_IRQ,lane 2 in ULTRALOW-POWER state" "STATEULPS2_IRQ_0,STATEULPS2_IRQ_1"
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bitfld.long 0x00 15. "STATEULPS1_IRQ,lane 1 in ULTRALOW-POWER state" "STATEULPS1_IRQ_0,STATEULPS1_IRQ_1"
bitfld.long 0x00 14. "ERRCONTROL5_IRQ,Control error for lane 5 Applicable only to DS1" "ERRCONTROL5_IRQ_0,ERRCONTROL5_IRQ_1"
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bitfld.long 0x00 13. "ERRCONTROL4_IRQ,Control error for lane 4 Applicable only to DS1" "ERRCONTROL4_IRQ_0,ERRCONTROL4_IRQ_1"
bitfld.long 0x00 12. "ERRCONTROL3_IRQ,Control error for lane" "ERRCONTROL3_IRQ_0,ERRCONTROL3_IRQ_1"
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bitfld.long 0x00 11. "ERRCONTROL2_IRQ,Control error for lane" "ERRCONTROL2_IRQ_0,ERRCONTROL2_IRQ_1"
bitfld.long 0x00 10. "ERRCONTROL1_IRQ,Control error for lane" "ERRCONTROL1_IRQ_0,ERRCONTROL1_IRQ_1"
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bitfld.long 0x00 9. "ERRESC5_IRQ,Escape entry error for lane 5 Applicable only to DS1" "ERRESC5_IRQ_0,ERRESC5_IRQ_1"
bitfld.long 0x00 8. "ERRESC4_IRQ,Escape entry error for lane 4 Applicable only to DS1" "ERRESC4_IRQ_0,ERRESC4_IRQ_1"
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bitfld.long 0x00 7. "ERRESC3_IRQ,Escape entry error for lane" "ERRESC3_IRQ_0,ERRESC3_IRQ_1"
bitfld.long 0x00 6. "ERRESC2_IRQ,Escape entry error for lane" "ERRESC2_IRQ_0,ERRESC2_IRQ_1"
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bitfld.long 0x00 5. "ERRESC1_IRQ,Escape entry error for lane" "ERRESC1_IRQ_0,ERRESC1_IRQ_1"
bitfld.long 0x00 4. "ERRSYNCESC5_IRQ,Low power Data transmission synchronization error for lane 5 Applicable only to DS1" "ERRSYNCESC5_IRQ_0,ERRSYNCESC5_IRQ_1"
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bitfld.long 0x00 3. "ERRSYNCESC4_IRQ,Low power Data transmission synchronization error for lane 4 Applicable only to DS1" "ERRSYNCESC4_IRQ_0,ERRSYNCESC4_IRQ_1"
bitfld.long 0x00 2. "ERRSYNCESC3_IRQ,Low power Data transmission synchronization error for lane" "ERRSYNCESC3_IRQ_0,ERRSYNCESC3_IRQ_1"
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bitfld.long 0x00 1. "ERRSYNCESC2_IRQ,Low power Data transmission synchronization error for lane" "ERRSYNCESC2_IRQ_0,ERRSYNCESC2_IRQ_1"
bitfld.long 0x00 0. "ERRSYNCESC1_IRQ,Low power Data transmission synchronization error for lane" "ERRSYNCESC1_IRQ_0,ERRSYNCESC1_IRQ_1"
group.long 0x40++0x03
line.long 0x00 "DSI_CTRL,GLOBAL CONTROL REGISTER This register controls the DSI Protocol Engine module"
bitfld.long 0x00 24. "DISPC_UPDATE_SYNC,Determines if the Dispc_Update_Sync signal from the display controller is used" "DISPC_UPDATE_SYNC_0,DISPC_UPDATE_SYNC_1"
bitfld.long 0x00 23. "HSA_BLANKING_MODE,Blanking mode" "HSA_BLANKING_MODE_0,HSA_BLANKING_MODE_1"
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bitfld.long 0x00 22. "HBP_BLANKING_MODE,Blanking mode" "HBP_BLANKING_MODE_0,HBP_BLANKING_MODE_1"
bitfld.long 0x00 21. "HFP_BLANKING_MODE,Blanking mode" "HFP_BLANKING_MODE_0,HFP_BLANKING_MODE_1"
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bitfld.long 0x00 20. "BLANKING_MODE,Blanking mode" "BLANKING_MODE_0,BLANKING_MODE_1"
bitfld.long 0x00 19. "EOT_ENABLE,Enable EOT packets at the end of HS transmission" "EOT_ENABLE_0,EOT_ENABLE_1"
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bitfld.long 0x00 18. "VP_HSYNC_END,HSYNC end pulse" "VP_HSYNC_END_0,VP_HSYNC_END_1"
bitfld.long 0x00 17. "VP_HSYNC_START,HSYNC start pulse" "VP_HSYNC_START_0,VP_HSYNC_START_1"
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bitfld.long 0x00 16. "VP_VSYNC_END,VSYNC end pulse" "VP_VSYNC_END_0,VP_VSYNC_END_1"
bitfld.long 0x00 15. "VP_VSYNC_START,VSYNC start pulse" "VP_VSYNC_START_0,VP_VSYNC_START_1"
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bitfld.long 0x00 14. "TRIGGER_RESET_MODE,Selection of the trigger reset mode" "TRIGGER_RESET_MODE_0,TRIGGER_RESET_MODE_1"
bitfld.long 0x00 12.--13. "LINE_BUFFER,Number of line buffers to be used while receiving data on the video port" "LINE_BUFFER_0,LINE_BUFFER_1,LINE_BUFFER_2,?"
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bitfld.long 0x00 11. "VP_VSYNC_POL,VP vertical synchronization signal polarity" "VP_VSYNC_POL_0,VP_VSYNC_POL_1"
bitfld.long 0x00 10. "VP_HSYNC_POL,VP horizontal synchronization signal polarity" "VP_HSYNC_POL_0,VP_HSYNC_POL_1"
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bitfld.long 0x00 9. "VP_DE_POL,VP data enable signal polarity" "VP_DE_POL_0,VP_DE_POL_1"
bitfld.long 0x00 8. "VP_CLK_POL,VP pixel clock polarity" "VP_CLK_POL_0,VP_CLK_POL_1"
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bitfld.long 0x00 6.--7. "VP_DATA_BUS_WIDTH,Defines the size of the video port data bus" "VP_DATA_BUS_WIDTH_0,VP_DATA_BUS_WIDTH_1,VP_DATA_BUS_WIDTH_2,?"
bitfld.long 0x00 5. "TRIGGER_RESET,Send the reset trigger to the peripheral" "TRIGGER_RESET_0,TRIGGER_RESET_1"
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bitfld.long 0x00 4. "VP_CLK_RATIO,The field indicates the clock ratio between VP_CLK and VP_PCLK" "VP_CLK_RATIO_0,VP_CLK_RATIO_1"
bitfld.long 0x00 3. "TX_FIFO_ARBITRATION,Defines the arbitration scheme for granting the virtual channel pending ready requests in the TX FIFO" "TX_FIFO_ARBITRATION_0,TX_FIFO_ARBITRATION_1"
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bitfld.long 0x00 2. "ECC_RX_EN,Enables the Error Correction Code check for the received header (short and long packets for all virtual channel ids)" "ECC_RX_EN_0,ECC_RX_EN_1"
bitfld.long 0x00 1. "CS_RX_EN,Enables the checksum check for the received payload (long packet only for all virtual channel ids)" "CS_RX_EN_0,CS_RX_EN_1"
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bitfld.long 0x00 0. "IF_EN,Enables the module" "IF_EN_0,IF_EN_1"
group.long 0x98++0x03
line.long 0x00 "DSI_CTRL2,Additional control bits for use with Video Port 2"
bitfld.long 0x00 12.--13. "LINE_BUFFER,Number of line buffers to be used while receiving data on the video port" "LINE_BUFFER_0,LINE_BUFFER_1,LINE_BUFFER_2,?"
bitfld.long 0x00 11. "VP_VSYNC_POL,VP vertical synchronization signal polarity" "VP_VSYNC_POL_0,VP_VSYNC_POL_1"
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bitfld.long 0x00 10. "VP_HSYNC_POL,VP horizontal synchronization signal polarity" "VP_HSYNC_POL_0,VP_HSYNC_POL_1"
bitfld.long 0x00 9. "VP_DE_POL,VP data enable signal polarity" "VP_DE_POL_0,VP_DE_POL_1"
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bitfld.long 0x00 8. "VP_CLK_POL,VP pixel clock polarity" "VP_CLK_POL_0,VP_CLK_POL_1"
bitfld.long 0x00 6.--7. "VP_DATA_BUS_WIDTH,Defines the size of the video port data bus" "VP_DATA_BUS_WIDTH_0,VP_DATA_BUS_WIDTH_1,VP_DATA_BUS_WIDTH_2,?"
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bitfld.long 0x00 4. "VP_CLK_RATIO,The field indicates the clock ratio between VP_CLK and VP_PCLK" "VP_CLK_RATIO_0,VP_CLK_RATIO_1"
rgroup.long 0x44++0x03
line.long 0x00 "DSI_GNQ,GENERIC PARAMETER REGISTER This register provide a way to read the generic parameters used in the design"
bitfld.long 0x00 24. "NB_VIDEO_PORTS,Number of video ports" "NB_VIDEO_PORTS_0_r,NB_VIDEO_PORTS_1_r"
bitfld.long 0x00 22.--23. "VP2_NB_LINE_BUFFER,Determines the number of video buffer lines associated to video port 2" "VP2_NB_LINE_BUFFER_0_r,VP2_NB_LINE_BUFFER_1_r,VP2_NB_LINE_BUFFER_2_r,?"
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bitfld.long 0x00 18.--20. "VP2_LINE_BUFFER_SIZE,Determines the video line buffer size associated to video port 2" "?,VP2_LINE_BUFFER_SIZE_1_r,VP2_LINE_BUFFER_SIZE_2_r,VP2_LINE_BUFFER_SIZE_3_r,VP2_LINE_BUFFER_SIZE_4_r,VP2_LINE_BUFFER_SIZE_5_r,VP2_LINE_BUFFER_SIZE_6_r,?"
bitfld.long 0x00 16.--17. "VP1_NB_LINE_BUFFER,Determines the number of video buffer lines associated to video port 1" "VP1_NB_LINE_BUFFER_0_r,VP1_NB_LINE_BUFFER_1_r,VP1_NB_LINE_BUFFER_2_r,?"
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bitfld.long 0x00 12.--14. "VP1_LINE_BUFFER_SIZE,Determines the video line buffer size associated to video port 1" "?,VP1_LINE_BUFFER_SIZE_1_r,VP1_LINE_BUFFER_SIZE_2_r,VP1_LINE_BUFFER_SIZE_3_r,VP1_LINE_BUFFER_SIZE_4_r,VP1_LINE_BUFFER_SIZE_5_r,VP1_LINE_BUFFER_SIZE_6_r,?"
bitfld.long 0x00 9.--11. "NB_DATA_LANES,Determines the number of data lanes supported by the DSI protocol engine" "?,NB_DATA_LANES_1_r,NB_DATA_LANES_2_r,NB_DATA_LANES_3_r,NB_DATA_LANES_4_r,?,?,?"
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bitfld.long 0x00 6.--8. "NB_DMA_REQUEST,Determines the number of DMA_REQ signals" "NB_DMA_REQUEST_0_r,NB_DMA_REQUEST_1_r,NB_DMA_REQUEST_2_r,NB_DMA_REQUEST_3_r,NB_DMA_REQUEST_4_r,?,?,?"
bitfld.long 0x00 3.--5. "RX_FIFODEPTH,Determines the data RX FIFO depth (32-bit words) on the slave port" "?,?,?,?,RX_FIFODEPTH_4_r,RX_FIFODEPTH_5_r,RX_FIFODEPTH_6_r,RX_FIFODEPTH_7_r"
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bitfld.long 0x00 0.--2. "TX_FIFODEPTH,Determines the data TX FIFO depth (33-bit words) on the slave port" "?,?,?,?,TX_FIFODEPTH_4_r,TX_FIFODEPTH_5_r,TX_FIFODEPTH_6_r,TX_FIFODEPTH_7_r"
group.long 0x1C++0x03
line.long 0x00 "DSI_IRQENABLE,INTERRUPT ENABLE REGISTER - This register associates one bit for each virtual channel in order to enable/disable each virtual channel individually"
bitfld.long 0x00 22. "TE1_LINE_IRQ_EN,The VSYNC and corresponding HSYNC pulses defined in DSI_TE_HSYNC_NUMBER for the line TE1 have been received by the DSI protocol engine and have trigger the start of the data transfer to the peripheral" "TE1_LINE_IRQ_EN_0,TE1_LINE_IRQ_EN_1"
bitfld.long 0x00 21. "TE0_LINE_IRQ_EN,The VSYNC and corresponding HSYNC pulses defined in DSI_TE_HSYNC_NUMBER for the line TE0 have been received by the DSI protocol engine and have trigger the start of the data transfer to the peripheral" "TE0_LINE_IRQ_EN_0,TE0_LINE_IRQ_EN_1"
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bitfld.long 0x00 20. "TA_TO_IRQ_EN,Turn-around Time out" "TA_TO_IRQ_EN_0,TA_TO_IRQ_EN_1"
bitfld.long 0x00 18. "SYNC_LOST_IRQ_EN,Synchronization with Video port is lost (Video mode only)" "SYNC_LOST_IRQ_EN_0,SYNC_LOST_IRQ_EN_1"
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bitfld.long 0x00 17. "ACK_TRIGGER_IRQ_EN,Acknowledge trigger" "ACK_TRIGGER_IRQ_EN_0,ACK_TRIGGER_IRQ_EN_1"
bitfld.long 0x00 16. "TE_TRIGGER_IRQ_EN,Tearing Effect trigger" "TE_TRIGGER_IRQ_EN_0,TE_TRIGGER_IRQ_EN_1"
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bitfld.long 0x00 15. "LP_RX_TO_IRQ_EN,Interrupt for Low Power Rx Time out" "LP_RX_TO_IRQ_EN_0,LP_RX_TO_IRQ_EN_1"
bitfld.long 0x00 14. "HS_TX_TO_IRQ_EN,Interrupt for High Speed Tx Time out" "HS_TX_TO_IRQ_EN_0,HS_TX_TO_IRQ_EN_1"
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bitfld.long 0x00 9. "PLL_RECAL_IRQ_EN,PLL recal event (assertion of DSIRecal signal from the DSI PLL Control module)" "PLL_RECAL_IRQ_EN_0,PLL_RECAL_IRQ_EN_1"
bitfld.long 0x00 8. "PLL_UNLOCK_IRQ_EN,PLL un-clock event (de-assertion of DSILock signal from the DSI PLL Control module)" "PLL_UNLOCK_IRQ_EN_0,PLL_UNLOCK_IRQ_EN_1"
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bitfld.long 0x00 7. "PLL_LOCK_IRQ_EN,PLL clock event (assertion of DSILock signal from the DSI PLL Control module)" "PLL_LOCK_IRQ_EN_0,PLL_LOCK_IRQ_EN_1"
bitfld.long 0x00 5. "RESYNCHRONIZATION_IRQ_EN,Video mode resynchronization" "RESYNCHRONIZATION_IRQ_EN_0,RESYNCHRONIZATION_IRQ_EN_1"
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bitfld.long 0x00 4. "WAKEUP_IRQ_EN,Wakeup" "WAKEUP_IRQ_EN_0,WAKEUP_IRQ_EN_1"
group.long 0x18++0x03
line.long 0x00 "DSI_IRQSTATUS,INTERRUPT STATUS REGISTER - All virtual channels + Complex I/O + PLL This register associates one bit for each virtual channel in order to determine which virtual channel has generated the interrupt"
bitfld.long 0x00 22. "TE1_LINE_IRQ,The VSYNC and corresponding HSYNC pulses defined in DSI_TE_HSYNC_NUMBER for the line TE1 have been received by the DSI protocol engine and have trigger the start of the data transfer to the peripheral" "TE1_LINE_IRQ_0,TE1_LINE_IRQ_1"
bitfld.long 0x00 21. "TE0_LINE_IRQ,The VSYNC and corresponding HSYNC pulses defined in DSI_TE_HSYNC_NUMBER for the line TE0 have been received by the DSI protocol engine and have trigger the start of the data transfer to the peripheral" "TE0_LINE_IRQ_0,TE0_LINE_IRQ_1"
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bitfld.long 0x00 20. "TA_TO_IRQ,Turn-around Time out" "TA_TO_IRQ_0,TA_TO_IRQ_1"
bitfld.long 0x00 18. "SYNC_LOST_IRQ,Synchronization with Video port is lost (Video mode only)" "SYNC_LOST_IRQ_0,SYNC_LOST_IRQ_1"
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bitfld.long 0x00 17. "ACK_TRIGGER_IRQ,Acknowledge Trigger" "ACK_TRIGGER_IRQ_0,ACK_TRIGGER_IRQ_1"
bitfld.long 0x00 16. "TE_TRIGGER_IRQ,Tearing Effect Trigger" "TE_TRIGGER_IRQ_0,TE_TRIGGER_IRQ_1"
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bitfld.long 0x00 15. "LP_RX_TO_IRQ,Interrupt for Low Power Rx Time out" "LP_RX_TO_IRQ_0,LP_RX_TO_IRQ_1"
bitfld.long 0x00 14. "HS_TX_TO_IRQ,Interrupt for High Speed Tx Time out" "HS_TX_TO_IRQ_0,HS_TX_TO_IRQ_1"
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rbitfld.long 0x00 10. "COMPLEXIO_ERR_IRQ,Error signaling from Complex I/O: status of the complex I/O errors received from the complex I/O (events are defined inDSI_COMPLEXIO_IRQSTATUS)" "COMPLEXIO_ERR_IRQ_0_r,COMPLEXIO_ERR_IRQ_1_r"
bitfld.long 0x00 9. "PLL_RECAL_IRQ,PLL recal event (assertion of DSIRecal signal from the DSI PLL Control module)" "PLL_RECAL_IRQ_0,PLL_RECAL_IRQ_1"
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bitfld.long 0x00 8. "PLL_UNLOCK_IRQ,PLL un-clock event (de-assertion of DSILock signal from the DSI PLL Control module)" "PLL_UNLOCK_IRQ_0,PLL_UNLOCK_IRQ_1"
bitfld.long 0x00 7. "PLL_LOCK_IRQ,PLL clock event (assertion of DSILock signal from the DSI PLL Control module)" "PLL_LOCK_IRQ_0,PLL_LOCK_IRQ_1"
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bitfld.long 0x00 5. "RESYNCHRONIZATION_IRQ,Video mode resynchronization indicates to the software users that the video port works but the configuration of the timings for the display controller (DISPC) and for DSI Protocol engine may need to be modified to avoid the.." "RESYNCHRONIZATION_IRQ_0,RESYNCHRONIZATION_IRQ_1"
bitfld.long 0x00 4. "WAKEUP_IRQ,Wakeup" "WAKEUP_IRQ_0,WAKEUP_IRQ_1"
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rbitfld.long 0x00 3. "VIRTUAL_CHANNEL3_IRQ,Virtual channel" "VIRTUAL_CHANNEL3_IRQ_0_r,VIRTUAL_CHANNEL3_IRQ_1_r"
rbitfld.long 0x00 2. "VIRTUAL_CHANNEL2_IRQ,Virtual channel" "VIRTUAL_CHANNEL2_IRQ_0_r,VIRTUAL_CHANNEL2_IRQ_1_r"
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rbitfld.long 0x00 1. "VIRTUAL_CHANNEL1_IRQ,Virtual channel" "VIRTUAL_CHANNEL1_IRQ_0_r,VIRTUAL_CHANNEL1_IRQ_1_r"
rbitfld.long 0x00 0. "VIRTUAL_CHANNEL0_IRQ,Virtual channel" "VIRTUAL_CHANNEL0_IRQ_0_r,VIRTUAL_CHANNEL0_IRQ_1_r"
rgroup.long 0x00++0x03
line.long 0x00 "DSI_REVISION,IP Revision"
rgroup.long 0x7C++0x03
line.long 0x00 "DSI_RX_FIFO_VC_FULLNESS,Defines the fullness of each space allocated for each virtual channel"
hexmask.long.byte 0x00 24.--31. 1. "VC3_FIFO_FULLNESS,Fullness of the FIFO allocated for virtual channel 3.The valid values are from 0 toDSI_GNQ[5:3] RX_FIFODEPTH-1 corresponding to 1x33-bit ...up to DSI_GNQ[5:3] RX_FIFODEPTH x33-bit"
hexmask.long.byte 0x00 16.--23. 1. "VC2_FIFO_FULLNESS,Fullness of the FIFO allocated for virtual channel 2.The valid values are from 0 toDSI_GNQ[5:3] RX_FIFODEPTH-1 corresponding to 1x33-bit ...up to DSI_GNQ[5:3] RX_FIFODEPTH x33-bit"
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hexmask.long.byte 0x00 8.--15. 1. "VC1_FIFO_FULLNESS,Fullness of the FIFO allocated for virtual channel 1.The valid values are from 0 toDSI_GNQ[5:3] RX_FIFODEPTH-1 corresponding to 1x33-bit ...up to DSI_GNQ[5:3] RX_FIFODEPTH x33-bit"
hexmask.long.byte 0x00 0.--7. 1. "VC0_FIFO_FULLNESS,Fullness of the FIFO allocated for virtual channel 0.The valid values are from 0 toDSI_GNQ[5:3] RX_FIFODEPTH-1 corresponding to 1x33-bit ...up to DSI_GNQ[5:3] RX_FIFODEPTH x33-bit"
group.long 0x74++0x03
line.long 0x00 "DSI_RX_FIFO_VC_SIZE,Defines the corresponding memory entries allocated for each virtual channel and the addresses"
bitfld.long 0x00 28.--31. "VC3_FIFO_SIZE,Size of the FIFO allocated for virtual channel 3" "VC3_FIFO_SIZE_0,VC3_FIFO_SIZE_1,VC3_FIFO_SIZE_2,VC3_FIFO_SIZE_3,VC3_FIFO_SIZE_4,VC3_FIFO_SIZE_5,VC3_FIFO_SIZE_6,VC3_FIFO_SIZE_7,VC3_FIFO_SIZE_8,VC3_FIFO_SIZE_9,VC3_FIFO_SIZE_10,VC3_FIFO_SIZE_11,VC3_FIFO_SIZE_12,VC3_FIFO_SIZE_13,VC3_FIFO_SIZE_14,VC3_FIFO_SIZE_15"
bitfld.long 0x00 24.--26. "VC3_FIFO_ADD,Address of the space allocated in the FIFO for virtual channel 3" "VC3_FIFO_ADD_0,VC3_FIFO_ADD_1,VC3_FIFO_ADD_2,VC3_FIFO_ADD_3,VC3_FIFO_ADD_4,VC3_FIFO_ADD_5,VC3_FIFO_ADD_6,VC3_FIFO_ADD_7"
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bitfld.long 0x00 20.--23. "VC2_FIFO_SIZE,Size of the FIFO allocated for virtual channel 2" "VC2_FIFO_SIZE_0,VC2_FIFO_SIZE_1,VC2_FIFO_SIZE_2,VC2_FIFO_SIZE_3,VC2_FIFO_SIZE_4,VC2_FIFO_SIZE_5,VC2_FIFO_SIZE_6,VC2_FIFO_SIZE_7,VC2_FIFO_SIZE_8,VC2_FIFO_SIZE_9,VC2_FIFO_SIZE_10,VC2_FIFO_SIZE_11,VC2_FIFO_SIZE_12,VC2_FIFO_SIZE_13,VC2_FIFO_SIZE_14,VC2_FIFO_SIZE_15"
bitfld.long 0x00 16.--18. "VC2_FIFO_ADD,Address of the space allocated in the FIFO for virtual channel 2" "VC2_FIFO_ADD_0,VC2_FIFO_ADD_1,VC2_FIFO_ADD_2,VC2_FIFO_ADD_3,VC2_FIFO_ADD_4,VC2_FIFO_ADD_5,VC2_FIFO_ADD_6,VC2_FIFO_ADD_7"
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bitfld.long 0x00 12.--15. "VC1_FIFO_SIZE,Size of the FIFO allocated for virtual channel 1" "VC1_FIFO_SIZE_0,VC1_FIFO_SIZE_1,VC1_FIFO_SIZE_2,VC1_FIFO_SIZE_3,VC1_FIFO_SIZE_4,VC1_FIFO_SIZE_5,VC1_FIFO_SIZE_6,VC1_FIFO_SIZE_7,VC1_FIFO_SIZE_8,VC1_FIFO_SIZE_9,VC1_FIFO_SIZE_10,VC1_FIFO_SIZE_11,VC1_FIFO_SIZE_12,VC1_FIFO_SIZE_13,VC1_FIFO_SIZE_14,VC1_FIFO_SIZE_15"
bitfld.long 0x00 8.--10. "VC1_FIFO_ADD,Address of the space allocated in the FIFO for virtual channel 1" "VC1_FIFO_ADD_0,VC1_FIFO_ADD_1,VC1_FIFO_ADD_2,VC1_FIFO_ADD_3,VC1_FIFO_ADD_4,VC1_FIFO_ADD_5,VC1_FIFO_ADD_6,VC1_FIFO_ADD_7"
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bitfld.long 0x00 4.--7. "VC0_FIFO_SIZE,Size of the FIFO allocated for virtual channel 0" "VC0_FIFO_SIZE_0,VC0_FIFO_SIZE_1,VC0_FIFO_SIZE_2,VC0_FIFO_SIZE_3,VC0_FIFO_SIZE_4,VC0_FIFO_SIZE_5,VC0_FIFO_SIZE_6,VC0_FIFO_SIZE_7,VC0_FIFO_SIZE_8,VC0_FIFO_SIZE_9,VC0_FIFO_SIZE_10,VC0_FIFO_SIZE_11,VC0_FIFO_SIZE_12,VC0_FIFO_SIZE_13,VC0_FIFO_SIZE_14,VC0_FIFO_SIZE_15"
bitfld.long 0x00 0.--2. "VC0_FIFO_ADD,Address of the space allocated in the FIFO for virtual channel 0" "VC0_FIFO_ADD_0,VC0_FIFO_ADD_1,VC0_FIFO_ADD_2,VC0_FIFO_ADD_3,VC0_FIFO_ADD_4,VC0_FIFO_ADD_5,VC0_FIFO_ADD_6,VC0_FIFO_ADD_7"
group.long 0x94++0x03
line.long 0x00 "DSI_STOPCLK_TIMING,Number of functional clock cycles to wait for TXBYTECLKHS to stop/start after change in DSIStopClk signal"
hexmask.long.byte 0x00 0.--7. 1. "DSI_STOPCLK_LATENCY,Clock gating latency from DSI Protocol to TXBYTECLKHS"
group.long 0x10++0x07
line.long 0x00 "DSI_SYSCONFIG,SYSTEM CONFIGURATION REGISTER"
bitfld.long 0x00 8.--9. "CLOCKACTIVITY,Clocks activity during wake up mode period" "CLOCKACTIVITY_0,CLOCKACTIVITY_1,CLOCKACTIVITY_2,CLOCKACTIVITY_3"
bitfld.long 0x00 3.--4. "SIDLEMODE,Slave interface power management Idle req/ack control" "SIDLEMODE_0,SIDLEMODE_1,SIDLEMODE_2,SIDLEMODE_3"
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bitfld.long 0x00 2. "ENWAKEUP,Wake-up mode enable bit" "ENWAKEUP_0,ENWAKEUP_1"
bitfld.long 0x00 1. "SOFT_RESET,Software reset" "SOFT_RESET_0,SOFT_RESET_1"
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bitfld.long 0x00 0. "AUTO_IDLE,Internal interface gating strategy" "AUTO_IDLE_0,AUTO_IDLE_1"
line.long 0x04 "DSI_SYSSTATUS,SYSTEM STATUS REGISTER This register provides status information about the module. excluding the interrupt status register"
bitfld.long 0x04 0. "RESET_DONE,Internal reset monitoring" "RESET_DONE_0_r,RESET_DONE_1_r"
group.long 0x58++0x07
line.long 0x00 "DSI_TIMING1,TIMING1 REGISTER This register controls the DSI Protocol Engine module timers"
bitfld.long 0x00 31. "TA_TO,Enables the turn-around timer" "TA_TO_0,TA_TO_1"
bitfld.long 0x00 30. "TA_TO_X16,Multiplication factor for the number of DSI_CLK functional clocks cycles defined in TA_TO_COUNTER bit field" "TA_TO_X16_0,TA_TO_X16_1"
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bitfld.long 0x00 29. "TA_TO_X8,Multiplication factor for the number of DSI_CLK functional clock cycles defined in TA_TO_COUNTER bit field" "TA_TO_X8_0,TA_TO_X8_1"
hexmask.long.word 0x00 16.--28. 1. "TA_TO_COUNTER,Turn around counter"
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bitfld.long 0x00 15. "FORCE_TX_STOP_MODE_IO,Control of ForceTxStopMode signal" "FORCE_TX_STOP_MODE_IO_0,FORCE_TX_STOP_MODE_IO_1"
bitfld.long 0x00 14. "STOP_STATE_X16_IO,Multiplication factor for the number of DSI_CLK functional clock cycles defined in STOP_STATE_COUNTER_IO bit field" "STOP_STATE_X16_IO_0,STOP_STATE_X16_IO_1"
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bitfld.long 0x00 13. "STOP_STATE_X4_IO,Multiplication factor for the number of DSI_CLK functional clock cycles defined in STOP_STATE_COUNTER_IO bit field" "STOP_STATE_X4_IO_0,STOP_STATE_X4_IO_1"
hexmask.long.word 0x00 0.--12. 1. "STOP_STATE_COUNTER_IO,Stop state counter"
line.long 0x04 "DSI_TIMING2,TIMING2 REGISTER This register controls the DSI Protocol Engine module timers"
bitfld.long 0x04 31. "HS_TX_TO,Enables the HS TX timer" "HS_TX_TO_0,HS_TX_TO_1"
bitfld.long 0x04 30. "HS_TX_TO_X64,Multiplication factor for the number of BYTE_CLK functional clock cycles defined in HS_TX_COUNTER bit field" "HS_TX_TO_X64_0,HS_TX_TO_X64_1"
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bitfld.long 0x04 29. "HS_TX_TO_X16,Multiplication factor for the number of BYTE_CLK functional clock cycles defined in HS_TX_COUNTER bit" "HS_TX_TO_X16_0,HS_TX_TO_X16_1"
hexmask.long.word 0x04 16.--28. 1. "HS_TX_TO_COUNTER,HS_TX_TIMER counter"
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bitfld.long 0x04 15. "LP_RX_TO,Enables the LP RX timer" "LP_RX_TO_0,LP_RX_TO_1"
bitfld.long 0x04 14. "LP_RX_TO_X16,Multiplication factor for the number of DSI_FCLK clock cycles defined in LP_RX_COUNTER bit field" "LP_RX_TO_X16_0,LP_RX_TO_X16_1"
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bitfld.long 0x04 13. "LP_RX_TO_X4,Multiplication factor for the number of DSI_FCLK clock cycles defined in LP_RX_COUNTER bit" "LP_RX_TO_X4_0,LP_RX_TO_X4_1"
hexmask.long.word 0x04 0.--12. 1. "LP_RX_TO_COUNTER,LP_RX_TIMER counter"
rgroup.long 0x84++0x03
line.long 0x00 "DSI_TX_FIFO_VC_EMPTINESS,Defines the emptiness of each space allocated for each virtual channel"
hexmask.long.byte 0x00 24.--31. 1. "VC3_FIFO_EMPTINESS,Emptiness of the FIFO allocated for virtual channel 3.The valid values are from 0 toDSI_GNQ[2:0] TX_FIFODEPTH-1 corresponding to 1x33-bit ...up to DSI_GNQ[2:0] TX_FIFODEPTH x33-bit"
hexmask.long.byte 0x00 16.--23. 1. "VC2_FIFO_EMPTINESS,Emptiness of the FIFO allocated for virtual channel 2.The valid values are from 0 toDSI_GNQ[2:0] TX_FIFODEPTH-1 corresponding to 1x33-bit ...up to DSI_GNQ[2:0] TX_FIFODEPTH x33-bit"
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hexmask.long.byte 0x00 8.--15. 1. "VC1_FIFO_EMPTINESS,Emptiness of the FIFO allocated for virtual channel 1.The valid values are from 0 toDSI_GNQ[2:0] TX_FIFODEPTH-1 corresponding to 1x33-bit ...up to DSI_GNQ[2:0] TX_FIFODEPTH x33-bit"
hexmask.long.byte 0x00 0.--7. 1. "VC0_FIFO_EMPTINESS,Emptiness of the FIFO allocated for virtual channel 0.The valid values are from 0 toDSI_GNQ[2:0] TX_FIFODEPTH-1 corresponding to 1x33-bit ...up to DSI_GNQ[2:0] TX_FIFODEPTH x33-bit"
group.long 0x70++0x03
line.long 0x00 "DSI_TX_FIFO_VC_SIZE,Defines the corresponding memory entries allocated for each virtual channel"
bitfld.long 0x00 28.--31. "VC3_FIFO_SIZE,Size of the FIFO allocated for virtual channel 3" "VC3_FIFO_SIZE_0,VC3_FIFO_SIZE_1,VC3_FIFO_SIZE_2,VC3_FIFO_SIZE_3,VC3_FIFO_SIZE_4,VC3_FIFO_SIZE_5,VC3_FIFO_SIZE_6,VC3_FIFO_SIZE_7,VC3_FIFO_SIZE_8,VC3_FIFO_SIZE_9,VC3_FIFO_SIZE_10,VC3_FIFO_SIZE_11,VC3_FIFO_SIZE_12,VC3_FIFO_SIZE_13,VC3_FIFO_SIZE_14,VC3_FIFO_SIZE_15"
bitfld.long 0x00 24.--26. "VC3_FIFO_ADD,Address of the space allocated in the FIFO for virtual channel 3" "VC3_FIFO_ADD_0,VC3_FIFO_ADD_1,VC3_FIFO_ADD_2,VC3_FIFO_ADD_3,VC3_FIFO_ADD_4,VC3_FIFO_ADD_5,VC3_FIFO_ADD_6,VC3_FIFO_ADD_7"
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bitfld.long 0x00 20.--23. "VC2_FIFO_SIZE,Size of the FIFO allocated for virtual channel 2" "VC2_FIFO_SIZE_0,VC2_FIFO_SIZE_1,VC2_FIFO_SIZE_2,VC2_FIFO_SIZE_3,VC2_FIFO_SIZE_4,VC2_FIFO_SIZE_5,VC2_FIFO_SIZE_6,VC2_FIFO_SIZE_7,VC2_FIFO_SIZE_8,VC2_FIFO_SIZE_9,VC2_FIFO_SIZE_10,VC2_FIFO_SIZE_11,VC2_FIFO_SIZE_12,VC2_FIFO_SIZE_13,VC2_FIFO_SIZE_14,VC2_FIFO_SIZE_15"
bitfld.long 0x00 16.--18. "VC2_FIFO_ADD,Address of the space allocated in the FIFO for virtual channel 2" "VC2_FIFO_ADD_0,VC2_FIFO_ADD_1,VC2_FIFO_ADD_2,VC2_FIFO_ADD_3,VC2_FIFO_ADD_4,VC2_FIFO_ADD_5,VC2_FIFO_ADD_6,VC2_FIFO_ADD_7"
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bitfld.long 0x00 12.--15. "VC1_FIFO_SIZE,Size of the FIFO allocated for virtual channel 1" "VC1_FIFO_SIZE_0,VC1_FIFO_SIZE_1,VC1_FIFO_SIZE_2,VC1_FIFO_SIZE_3,VC1_FIFO_SIZE_4,VC1_FIFO_SIZE_5,VC1_FIFO_SIZE_6,VC1_FIFO_SIZE_7,VC1_FIFO_SIZE_8,VC1_FIFO_SIZE_9,VC1_FIFO_SIZE_10,VC1_FIFO_SIZE_11,VC1_FIFO_SIZE_12,VC1_FIFO_SIZE_13,VC1_FIFO_SIZE_14,VC1_FIFO_SIZE_15"
bitfld.long 0x00 8.--10. "VC1_FIFO_ADD,Address of the space allocated in the FIFO for virtual channel 1" "VC1_FIFO_ADD_0,VC1_FIFO_ADD_1,VC1_FIFO_ADD_2,VC1_FIFO_ADD_3,VC1_FIFO_ADD_4,VC1_FIFO_ADD_5,VC1_FIFO_ADD_6,VC1_FIFO_ADD_7"
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bitfld.long 0x00 4.--7. "VC0_FIFO_SIZE,Size of the FIFO allocated for virtual channel 0" "VC0_FIFO_SIZE_0,VC0_FIFO_SIZE_1,VC0_FIFO_SIZE_2,VC0_FIFO_SIZE_3,VC0_FIFO_SIZE_4,VC0_FIFO_SIZE_5,VC0_FIFO_SIZE_6,VC0_FIFO_SIZE_7,VC0_FIFO_SIZE_8,VC0_FIFO_SIZE_9,VC0_FIFO_SIZE_10,VC0_FIFO_SIZE_11,VC0_FIFO_SIZE_12,VC0_FIFO_SIZE_13,VC0_FIFO_SIZE_14,VC0_FIFO_SIZE_15"
bitfld.long 0x00 0.--2. "VC0_FIFO_ADD,Address of the space allocated in the FIFO for virtual channel 0" "VC0_FIFO_ADD_0,VC0_FIFO_ADD_1,VC0_FIFO_ADD_2,VC0_FIFO_ADD_3,VC0_FIFO_ADD_4,VC0_FIFO_ADD_5,VC0_FIFO_ADD_6,VC0_FIFO_ADD_7"
group.long 0x60++0x0B
line.long 0x00 "DSI_VM_TIMING1,VIDEO MODE TIMING REGISTER This register defines the video mode timing"
hexmask.long.byte 0x00 24.--31. 1. "HSA,Defines the horizontal Sync active period used in video mode in number of byte clock cycles (TXBYTECLKHS clock) The supported values are from 0 to 255"
hexmask.long.word 0x00 12.--23. 1. "HFP,Defines the horizontal front porch used in video mode in number of byte clock cycles (TXBYTECLKHS clock) The supported values are from 0 to 4095"
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hexmask.long.word 0x00 0.--11. 1. "HBP,Defines the horizontal back porch used in video mode in number of byte clock cycles (TXBYTECLKHS clock) The supported values are from 0 to 4095"
line.long 0x04 "DSI_VM_TIMING2,VIDEO MODE TIMING REGISTER This register defines the video mode timing"
bitfld.long 0x04 24.--27. "WINDOW_SYNC,Number of BYTE clock cycles for the synchronization window" "WINDOW_SYNC_0,WINDOW_SYNC_1,WINDOW_SYNC_2,WINDOW_SYNC_3,WINDOW_SYNC_4,WINDOW_SYNC_5,WINDOW_SYNC_6,WINDOW_SYNC_7,WINDOW_SYNC_8,WINDOW_SYNC_9,WINDOW_SYNC_10,WINDOW_SYNC_11,WINDOW_SYNC_12,WINDOW_SYNC_13,WINDOW_SYNC_14,WINDOW_SYNC_15"
hexmask.long.byte 0x04 16.--23. 1. "VSA,Defines the vertical Sync active period used in video mode in number of lines"
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hexmask.long.byte 0x04 8.--15. 1. "VFP,Defines the vertical front porch used in video mode in number of lines"
hexmask.long.byte 0x04 0.--7. 1. "VBP,Defines the vertical back porch used in video mode in number of lines"
line.long 0x08 "DSI_VM_TIMING3,VIDEO MODE TIMING REGISTER This register defines the video mode timing"
hexmask.long.word 0x08 16.--31. 1. "TL,Defines the number of length of the line in video mode in number of byte clock cycles (TXBYTECLKHS clock) The supported values are from 0 to 8192"
hexmask.long.word 0x08 0.--15. 1. "VACT,Defines the number of active lines used in video mode"
group.long 0x80++0x03
line.long 0x00 "DSI_VM_TIMING4,VIDEO MODE TIMING REGISTER This register defines the video mode timing"
hexmask.long.byte 0x00 16.--23. 1. "HSA_HS_INTERLEAVING,Defines the number of TXBYTECLKHS clock cycles that can be used for interleaving High Speed command mode packet into Video Mode stream during HSA blanking period"
hexmask.long.byte 0x00 8.--15. 1. "HFP_HS_INTERLEAVING,Defines the number of TXBYTECLKHS clock cycles that can be used for interleaving High Speed command mode packet into Video Mode stream during HFP blanking period"
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hexmask.long.byte 0x00 0.--7. 1. "HBP_HS_INTERLEAVING,Defines the number of TXBYTECLKHS clock cycles that can be used for interleaving High Speed command mode packet into Video Mode stream during HBP blanking period"
group.long 0x88++0x0B
line.long 0x00 "DSI_VM_TIMING5,VIDEO MODE TIMING REGISTER This register defines the video mode timing"
hexmask.long.byte 0x00 16.--23. 1. "HSA_LP_INTERLEAVING,Defines the number of bytes of Low Power command mode packets that can be sent on PPI link during HSA blanking period"
hexmask.long.byte 0x00 8.--15. 1. "HFP_LP_INTERLEAVING,Defines the number of bytes of Low Power command mode packets that can be sent on PPI link during HFP blanking period"
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hexmask.long.byte 0x00 0.--7. 1. "HBP_LP_INTERLEAVING,Defines the number of bytes of Low Power command mode packets that can be sent on PPI link during HBP blanking period"
line.long 0x04 "DSI_VM_TIMING6,VIDEO MODE TIMING REGISTER This register defines the video mode timing"
hexmask.long.word 0x04 16.--31. 1. "BL_HS_INTERLEAVING,Defines the number of TXBYTECLKHS clock cycles that can be used for interleaving High Speed command mode packet into Video Mode stream during blanking periods during VSA VBP VFP periods inside one video frame on PPI link"
hexmask.long.word 0x04 0.--15. 1. "BL_LP_INTERLEAVING,Defines the maximum number of bytes of Low Power command mode packets that can be sent on PPI link during blanking periods during VSA VBP or VFP periods inside one video frame on PPI link"
line.long 0x08 "DSI_VM_TIMING7,Defines the minimum number of HS bytes clock cycles that are required to allow for the delays in entering and exiting HS mode"
hexmask.long.word 0x08 16.--31. 1. "ENTER_HS_MODE_LATENCY,Defines the number of TXBYTECLKHS clock cycles necessary for entering to HS mode"
hexmask.long.word 0x08 0.--15. 1. "EXIT_HS_MODE_LATENCY,Defines the number of TXBYTECLKHS clock cycles necessary for exiting from HS mode"
group.long 0x9C++0x03
line.long 0x00 "DSI_VM_TIMING8,VIDEO MODE TIMING REGISTER This register defines the video mode timing"
bitfld.long 0x00 0.--1. "HFPX,Extension to the HFP register" "HFPX_0,HFPX_1,HFPX_2,HFPX_3"
tree.end
tree "DSI1_PROTOCOL_ENGINE_L4_PER"
base ansd:0x48044000
tree "Channel_0"
group.long 0xA8++0x03
line.long 0x00 "DSI_TE_HSYNC_NUMBER_j_0,The register configures the number of HSYNC to synchronize the beginning of the transfer on DSI link based on the number of HSYNC pulse received on the TE line"
hexmask.long.word 0x00 0.--10. 1. "LINE_NUMBER,Programmable line number Line number from 0 to 2047"
group.long 0xA0++0x07
line.long 0x00 "DSI_TE_HSYNC_WIDTH_j_0,The register configures the TE HSYNC minimum pulse width for TE0 and TE1 CMOS signals The input TE signal is asynchronous and needs to be resynchronizred to DSI_CLK clock domain"
hexmask.long.word 0x00 8.--19. 1. "MIN_HSYNC_PULSE_WIDTH,Programmable min HSYNC pulse width Minimum HSYNC pulse width"
line.long 0x04 "DSI_TE_VSYNC_WIDTH_j_0,The register configures the TE VSYNC minimum pulse width for TE0 and TE1 CMOS signals The input TE signal is asynchronous and needs to be resynchronizred to DSI_CLK clock domain"
hexmask.long.word 0x04 8.--19. 1. "MIN_VSYNC_PULSE_WIDTH,Programmable min VSYNC pulse width Minimum VSYNC pulse width"
group.long 0x100++0x03
line.long 0x00 "DSI_VC_CTRL_i_0,CONTROL REGISTER - Virtual channel This register controls the virtual channel"
bitfld.long 0x00 31. "DCS_CMD_CODE,DCS command code value to insert between header and video port or Interface slave data when enabled by DCS_CMD_ENABLE (only when TE mechanism is not used otherwise the bit field DCS_CMD_CODE is ignored by DSI protocol engine)" "DCS_CMD_CODE_0,DCS_CMD_CODE_1"
bitfld.long 0x00 30. "DCS_CMD_ENABLE,Enables automatic insertion of DCS command codes when data is sourced by the video port" "DCS_CMD_ENABLE_0,DCS_CMD_ENABLE_1"
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bitfld.long 0x00 27.--29. "DMA_RX_REQ_NB,Selection of the use of the DMA request (associated to the RX FIFO)" "DMA_RX_REQ_NB_0,DMA_RX_REQ_NB_1,DMA_RX_REQ_NB_2,DMA_RX_REQ_NB_3,DMA_RX_REQ_NB_4,?,?,?"
bitfld.long 0x00 24.--26. "DMA_RX_THRESHOLD,Defines the threshold value for the DMA request (associated to the RX FIFO)" "DMA_RX_THRESHOLD_0,DMA_RX_THRESHOLD_1,DMA_RX_THRESHOLD_2,DMA_RX_THRESHOLD_3,DMA_RX_THRESHOLD_4,DMA_RX_THRESHOLD_5,?,?"
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bitfld.long 0x00 21.--23. "DMA_TX_REQ_NB,Selection of the use of the DMA request (associated to the TX FIFO)" "DMA_TX_REQ_NB_0,DMA_TX_REQ_NB_1,DMA_TX_REQ_NB_2,DMA_TX_REQ_NB_3,DMA_TX_REQ_NB_4,?,?,?"
rbitfld.long 0x00 20. "RX_FIFO_NOT_EMPTY,FIFO status in command mode" "RX_FIFO_NOT_EMPTY_0_r,RX_FIFO_NOT_EMPTY_1_r"
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bitfld.long 0x00 17.--19. "DMA_TX_THRESHOLD,Defines the threshold value for the DMA request (associated to the TX FIFO)" "DMA_TX_THRESHOLD_0,DMA_TX_THRESHOLD_1,DMA_TX_THRESHOLD_2,DMA_TX_THRESHOLD_3,DMA_TX_THRESHOLD_4,DMA_TX_THRESHOLD_5,?,?"
rbitfld.long 0x00 16. "TX_FIFO_FULL,FIFO status in command mode" "TX_FIFO_FULL_0_r,TX_FIFO_FULL_1_r"
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rbitfld.long 0x00 15. "VC_BUSY,Indicates if previously scheduled activities (packets BTA) are still being processed" "VC_BUSY_0_r,VC_BUSY_1_r"
rbitfld.long 0x00 14. "PP_BUSY,Ping-pong buffer busy status" "PP_BUSY_0_r,PP_BUSY_1_r"
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bitfld.long 0x00 13. "VP_SOURCE,Selection between video port 1 and video port 2" "VP_SOURCE_0,VP_SOURCE_1"
bitfld.long 0x00 12. "RGB565_ORDER,Byte order for RBG565" "RGB565_ORDER_0,RGB565_ORDER_1"
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bitfld.long 0x00 10.--11. "OCP_DATA_BUS_WIDTH,Defines the size of the Interface data bus" "OCP_DATA_BUS_WIDTH_0,OCP_DATA_BUS_WIDTH_1,OCP_DATA_BUS_WIDTH_2,OCP_DATA_BUS_WIDTH_3"
bitfld.long 0x00 9. "MODE_SPEED,Selection of the mode" "MODE_SPEED_0,MODE_SPEED_1"
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bitfld.long 0x00 8. "ECC_TX_EN,Enables the Error Correction Code generation for the transmit header (short and long packets)" "ECC_TX_EN_0,ECC_TX_EN_1"
bitfld.long 0x00 7. "CS_TX_EN,Enables the checksum generation for the transmit payload (long packet only)" "CS_TX_EN_0,CS_TX_EN_1"
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bitfld.long 0x00 6. "BTA_EN,Send the bus turn around to the peripheral" "BTA_EN_0,BTA_EN_1"
rbitfld.long 0x00 5. "TX_FIFO_NOT_EMPTY,FIFO status" "TX_FIFO_NOT_EMPTY_0_r,TX_FIFO_NOT_EMPTY_1_r"
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bitfld.long 0x00 4. "MODE,Selection of the mode" "MODE_0,MODE_1"
bitfld.long 0x00 3. "BTA_LONG_EN,Enables the automatic bus turn-around after completion of each long packet transmission" "BTA_LONG_EN_0,BTA_LONG_EN_1"
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bitfld.long 0x00 2. "BTA_SHORT_EN,Enables the automatic bus turn-around after completion of each short packet transmission" "BTA_SHORT_EN_0,BTA_SHORT_EN_1"
bitfld.long 0x00 1. "SOURCE,Selection of the source between Interface and the Video port(s) (used by the hardware only if MODE=COMMAND MODE (0x0) otherwise it is ignored)" "SOURCE_0,SOURCE_1"
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bitfld.long 0x00 0. "VC_EN,Enables the virtual channel" "VC_EN_0,VC_EN_1"
group.long 0x11C++0x03
line.long 0x00 "DSI_VC_IRQENABLE_i_0,INTERRUPT ENABLE REGISTER - Virtual channel This register regroups all the events related to virtual channel"
bitfld.long 0x00 8. "PP_BUSY_CHANGE_IRQ_EN,Video Port ping-pong buffer busy status" "PP_BUSY_CHANGE_IRQ_EN_0,PP_BUSY_CHANGE_IRQ_EN_1"
bitfld.long 0x00 7. "FIFO_TX_UDF_IRQ_EN,FIFO underflow enable" "FIFO_TX_UDF_IRQ_EN_0,FIFO_TX_UDF_IRQ_EN_1"
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bitfld.long 0x00 6. "ECC_NO_CORRECTION_IRQ_EN,ECC error (short and long packets)" "ECC_NO_CORRECTION_IRQ_EN_0,ECC_NO_CORRECTION_IRQ_EN_1"
bitfld.long 0x00 5. "BTA_IRQ_EN,Virtual channel -Bus turn around reception" "BTA_IRQ_EN_0,BTA_IRQ_EN_1"
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bitfld.long 0x00 4. "FIFO_RX_OVF_IRQ_EN,FIFO overflow enable" "FIFO_RX_OVF_IRQ_EN_0,FIFO_RX_OVF_IRQ_EN_1"
bitfld.long 0x00 3. "FIFO_TX_OVF_IRQ_EN,FIFO overflow enable" "FIFO_TX_OVF_IRQ_EN_0,FIFO_TX_OVF_IRQ_EN_1"
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bitfld.long 0x00 2. "PACKET_SENT_IRQ_EN,Indicates that a packet has been sent" "PACKET_SENT_IRQ_EN_0,PACKET_SENT_IRQ_EN_1"
bitfld.long 0x00 1. "ECC_CORRECTION_IRQ_EN,Virtual" "ECC_CORRECTION_IRQ_EN_0,ECC_CORRECTION_IRQ_EN_1"
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bitfld.long 0x00 0. "CS_IRQ_EN,Virtual" "CS_IRQ_EN_0,CS_IRQ_EN_1"
group.long 0x118++0x03
line.long 0x00 "DSI_VC_IRQSTATUS_i_0,INTERRUPT STATUS REGISTER - Virtual channel This register regroups all the events related to the virtual channel"
bitfld.long 0x00 8. "PP_BUSY_CHANGE_IRQ,Video Port ping-pong buffer busy status" "PP_BUSY_CHANGE_IRQ_0,PP_BUSY_CHANGE_IRQ_1"
bitfld.long 0x00 7. "FIFO_TX_UDF_IRQ,FIFO underflow status" "FIFO_TX_UDF_IRQ_0,FIFO_TX_UDF_IRQ_1"
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bitfld.long 0x00 6. "ECC_NO_CORRECTION_IRQ,ECC error status (short and long packets)" "ECC_NO_CORRECTION_IRQ_0,ECC_NO_CORRECTION_IRQ_1"
bitfld.long 0x00 5. "BTA_IRQ,Virtual" "BTA_IRQ_0,BTA_IRQ_1"
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bitfld.long 0x00 4. "FIFO_RX_OVF_IRQ,FIFO overflow error status" "FIFO_RX_OVF_IRQ_0,FIFO_RX_OVF_IRQ_1"
bitfld.long 0x00 3. "FIFO_TX_OVF_IRQ,FIFO overflow error status" "FIFO_TX_OVF_IRQ_0,FIFO_TX_OVF_IRQ_1"
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bitfld.long 0x00 2. "PACKET_SENT_IRQ,Indicates that a packet has been sent" "PACKET_SENT_IRQ_0,PACKET_SENT_IRQ_1"
bitfld.long 0x00 1. "ECC_CORRECTION_IRQ,Virtual" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
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bitfld.long 0x00 0. "CS_IRQ,Virtual" "CS_IRQ_0,CS_IRQ_1"
group.long 0x108++0x0B
line.long 0x00 "DSI_VC_LONG_PACKET_HEADER_i_0,LONG PACKET HEADER INFORMATION -Virtual channel This register sets the 32-bit DATA_ID + Word count + ECC (the virtual channel id can be different than VC)"
line.long 0x04 "DSI_VC_LONG_PACKET_PAYLOAD_i_0,LONG PACKET PAYLOAD INFORMATION -Virtual channel This register sets the payload information (excluding checksum)"
line.long 0x08 "DSI_VC_SHORT_PACKET_HEADER_i_0,SHORT PACKET HEADER INFORMATION -Virtual channel This register sets the 24-bit DATA_ID + Short Packet Data Field + ECC (the virtual channel id can be different than VC)"
group.long 0x104++0x03
line.long 0x00 "DSI_VC_TE_i_0,CONTROL REGISTER - Virtual channel This register controls the tearing effect logic"
bitfld.long 0x00 31. "TE_START,Manual control of the start of the transfer" "TE_START_0,TE_START_1"
bitfld.long 0x00 30. "TE_EN,Tearing Effect Control" "TE_EN_0,TE_EN_1"
newline
bitfld.long 0x00 29. "TE_LINE," "TE_LINE_0,TE_LINE_1"
bitfld.long 0x00 28. "TE_LINE_NB,Selection between TE0 and TE1 CMOS signals" "TE_LINE_NB_0,TE_LINE_NB_1"
newline
hexmask.long.tbyte 0x00 0.--23. 1. "TE_SIZE,Defines the number of byte (payload data excluding the check -sum) to be sent"
tree.end
tree "Channel_1"
group.long 0xB4++0x03
line.long 0x00 "DSI_TE_HSYNC_NUMBER_j_1,The register configures the number of HSYNC to synchronize the beginning of the transfer on DSI link based on the number of HSYNC pulse received on the TE line"
hexmask.long.word 0x00 0.--10. 1. "LINE_NUMBER,Programmable line number Line number from 0 to 2047"
group.long 0xAC++0x07
line.long 0x00 "DSI_TE_HSYNC_WIDTH_j_1,The register configures the TE HSYNC minimum pulse width for TE0 and TE1 CMOS signals The input TE signal is asynchronous and needs to be resynchronizred to DSI_CLK clock domain"
hexmask.long.word 0x00 8.--19. 1. "MIN_HSYNC_PULSE_WIDTH,Programmable min HSYNC pulse width Minimum HSYNC pulse width"
line.long 0x04 "DSI_TE_VSYNC_WIDTH_j_1,The register configures the TE VSYNC minimum pulse width for TE0 and TE1 CMOS signals The input TE signal is asynchronous and needs to be resynchronizred to DSI_CLK clock domain"
hexmask.long.word 0x04 8.--19. 1. "MIN_VSYNC_PULSE_WIDTH,Programmable min VSYNC pulse width Minimum VSYNC pulse width"
group.long 0x120++0x03
line.long 0x00 "DSI_VC_CTRL_i_1,CONTROL REGISTER - Virtual channel This register controls the virtual channel"
bitfld.long 0x00 31. "DCS_CMD_CODE,DCS command code value to insert between header and video port or Interface slave data when enabled by DCS_CMD_ENABLE (only when TE mechanism is not used otherwise the bit field DCS_CMD_CODE is ignored by DSI protocol engine)" "DCS_CMD_CODE_0,DCS_CMD_CODE_1"
bitfld.long 0x00 30. "DCS_CMD_ENABLE,Enables automatic insertion of DCS command codes when data is sourced by the video port" "DCS_CMD_ENABLE_0,DCS_CMD_ENABLE_1"
newline
bitfld.long 0x00 27.--29. "DMA_RX_REQ_NB,Selection of the use of the DMA request (associated to the RX FIFO)" "DMA_RX_REQ_NB_0,DMA_RX_REQ_NB_1,DMA_RX_REQ_NB_2,DMA_RX_REQ_NB_3,DMA_RX_REQ_NB_4,?,?,?"
bitfld.long 0x00 24.--26. "DMA_RX_THRESHOLD,Defines the threshold value for the DMA request (associated to the RX FIFO)" "DMA_RX_THRESHOLD_0,DMA_RX_THRESHOLD_1,DMA_RX_THRESHOLD_2,DMA_RX_THRESHOLD_3,DMA_RX_THRESHOLD_4,DMA_RX_THRESHOLD_5,?,?"
newline
bitfld.long 0x00 21.--23. "DMA_TX_REQ_NB,Selection of the use of the DMA request (associated to the TX FIFO)" "DMA_TX_REQ_NB_0,DMA_TX_REQ_NB_1,DMA_TX_REQ_NB_2,DMA_TX_REQ_NB_3,DMA_TX_REQ_NB_4,?,?,?"
rbitfld.long 0x00 20. "RX_FIFO_NOT_EMPTY,FIFO status in command mode" "RX_FIFO_NOT_EMPTY_0_r,RX_FIFO_NOT_EMPTY_1_r"
newline
bitfld.long 0x00 17.--19. "DMA_TX_THRESHOLD,Defines the threshold value for the DMA request (associated to the TX FIFO)" "DMA_TX_THRESHOLD_0,DMA_TX_THRESHOLD_1,DMA_TX_THRESHOLD_2,DMA_TX_THRESHOLD_3,DMA_TX_THRESHOLD_4,DMA_TX_THRESHOLD_5,?,?"
rbitfld.long 0x00 16. "TX_FIFO_FULL,FIFO status in command mode" "TX_FIFO_FULL_0_r,TX_FIFO_FULL_1_r"
newline
rbitfld.long 0x00 15. "VC_BUSY,Indicates if previously scheduled activities (packets BTA) are still being processed" "VC_BUSY_0_r,VC_BUSY_1_r"
rbitfld.long 0x00 14. "PP_BUSY,Ping-pong buffer busy status" "PP_BUSY_0_r,PP_BUSY_1_r"
newline
bitfld.long 0x00 13. "VP_SOURCE,Selection between video port 1 and video port 2" "VP_SOURCE_0,VP_SOURCE_1"
bitfld.long 0x00 12. "RGB565_ORDER,Byte order for RBG565" "RGB565_ORDER_0,RGB565_ORDER_1"
newline
bitfld.long 0x00 10.--11. "OCP_DATA_BUS_WIDTH,Defines the size of the Interface data bus" "OCP_DATA_BUS_WIDTH_0,OCP_DATA_BUS_WIDTH_1,OCP_DATA_BUS_WIDTH_2,OCP_DATA_BUS_WIDTH_3"
bitfld.long 0x00 9. "MODE_SPEED,Selection of the mode" "MODE_SPEED_0,MODE_SPEED_1"
newline
bitfld.long 0x00 8. "ECC_TX_EN,Enables the Error Correction Code generation for the transmit header (short and long packets)" "ECC_TX_EN_0,ECC_TX_EN_1"
bitfld.long 0x00 7. "CS_TX_EN,Enables the checksum generation for the transmit payload (long packet only)" "CS_TX_EN_0,CS_TX_EN_1"
newline
bitfld.long 0x00 6. "BTA_EN,Send the bus turn around to the peripheral" "BTA_EN_0,BTA_EN_1"
rbitfld.long 0x00 5. "TX_FIFO_NOT_EMPTY,FIFO status" "TX_FIFO_NOT_EMPTY_0_r,TX_FIFO_NOT_EMPTY_1_r"
newline
bitfld.long 0x00 4. "MODE,Selection of the mode" "MODE_0,MODE_1"
bitfld.long 0x00 3. "BTA_LONG_EN,Enables the automatic bus turn-around after completion of each long packet transmission" "BTA_LONG_EN_0,BTA_LONG_EN_1"
newline
bitfld.long 0x00 2. "BTA_SHORT_EN,Enables the automatic bus turn-around after completion of each short packet transmission" "BTA_SHORT_EN_0,BTA_SHORT_EN_1"
bitfld.long 0x00 1. "SOURCE,Selection of the source between Interface and the Video port(s) (used by the hardware only if MODE=COMMAND MODE (0x0) otherwise it is ignored)" "SOURCE_0,SOURCE_1"
newline
bitfld.long 0x00 0. "VC_EN,Enables the virtual channel" "VC_EN_0,VC_EN_1"
group.long 0x13C++0x03
line.long 0x00 "DSI_VC_IRQENABLE_i_1,INTERRUPT ENABLE REGISTER - Virtual channel This register regroups all the events related to virtual channel"
bitfld.long 0x00 8. "PP_BUSY_CHANGE_IRQ_EN,Video Port ping-pong buffer busy status" "PP_BUSY_CHANGE_IRQ_EN_0,PP_BUSY_CHANGE_IRQ_EN_1"
bitfld.long 0x00 7. "FIFO_TX_UDF_IRQ_EN,FIFO underflow enable" "FIFO_TX_UDF_IRQ_EN_0,FIFO_TX_UDF_IRQ_EN_1"
newline
bitfld.long 0x00 6. "ECC_NO_CORRECTION_IRQ_EN,ECC error (short and long packets)" "ECC_NO_CORRECTION_IRQ_EN_0,ECC_NO_CORRECTION_IRQ_EN_1"
bitfld.long 0x00 5. "BTA_IRQ_EN,Virtual channel -Bus turn around reception" "BTA_IRQ_EN_0,BTA_IRQ_EN_1"
newline
bitfld.long 0x00 4. "FIFO_RX_OVF_IRQ_EN,FIFO overflow enable" "FIFO_RX_OVF_IRQ_EN_0,FIFO_RX_OVF_IRQ_EN_1"
bitfld.long 0x00 3. "FIFO_TX_OVF_IRQ_EN,FIFO overflow enable" "FIFO_TX_OVF_IRQ_EN_0,FIFO_TX_OVF_IRQ_EN_1"
newline
bitfld.long 0x00 2. "PACKET_SENT_IRQ_EN,Indicates that a packet has been sent" "PACKET_SENT_IRQ_EN_0,PACKET_SENT_IRQ_EN_1"
bitfld.long 0x00 1. "ECC_CORRECTION_IRQ_EN,Virtual" "ECC_CORRECTION_IRQ_EN_0,ECC_CORRECTION_IRQ_EN_1"
newline
bitfld.long 0x00 0. "CS_IRQ_EN,Virtual" "CS_IRQ_EN_0,CS_IRQ_EN_1"
group.long 0x138++0x03
line.long 0x00 "DSI_VC_IRQSTATUS_i_1,INTERRUPT STATUS REGISTER - Virtual channel This register regroups all the events related to the virtual channel"
bitfld.long 0x00 8. "PP_BUSY_CHANGE_IRQ,Video Port ping-pong buffer busy status" "PP_BUSY_CHANGE_IRQ_0,PP_BUSY_CHANGE_IRQ_1"
bitfld.long 0x00 7. "FIFO_TX_UDF_IRQ,FIFO underflow status" "FIFO_TX_UDF_IRQ_0,FIFO_TX_UDF_IRQ_1"
newline
bitfld.long 0x00 6. "ECC_NO_CORRECTION_IRQ,ECC error status (short and long packets)" "ECC_NO_CORRECTION_IRQ_0,ECC_NO_CORRECTION_IRQ_1"
bitfld.long 0x00 5. "BTA_IRQ,Virtual" "BTA_IRQ_0,BTA_IRQ_1"
newline
bitfld.long 0x00 4. "FIFO_RX_OVF_IRQ,FIFO overflow error status" "FIFO_RX_OVF_IRQ_0,FIFO_RX_OVF_IRQ_1"
bitfld.long 0x00 3. "FIFO_TX_OVF_IRQ,FIFO overflow error status" "FIFO_TX_OVF_IRQ_0,FIFO_TX_OVF_IRQ_1"
newline
bitfld.long 0x00 2. "PACKET_SENT_IRQ,Indicates that a packet has been sent" "PACKET_SENT_IRQ_0,PACKET_SENT_IRQ_1"
bitfld.long 0x00 1. "ECC_CORRECTION_IRQ,Virtual" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
newline
bitfld.long 0x00 0. "CS_IRQ,Virtual" "CS_IRQ_0,CS_IRQ_1"
group.long 0x128++0x0B
line.long 0x00 "DSI_VC_LONG_PACKET_HEADER_i_1,LONG PACKET HEADER INFORMATION -Virtual channel This register sets the 32-bit DATA_ID + Word count + ECC (the virtual channel id can be different than VC)"
line.long 0x04 "DSI_VC_LONG_PACKET_PAYLOAD_i_1,LONG PACKET PAYLOAD INFORMATION -Virtual channel This register sets the payload information (excluding checksum)"
line.long 0x08 "DSI_VC_SHORT_PACKET_HEADER_i_1,SHORT PACKET HEADER INFORMATION -Virtual channel This register sets the 24-bit DATA_ID + Short Packet Data Field + ECC (the virtual channel id can be different than VC)"
group.long 0x124++0x03
line.long 0x00 "DSI_VC_TE_i_1,CONTROL REGISTER - Virtual channel This register controls the tearing effect logic"
bitfld.long 0x00 31. "TE_START,Manual control of the start of the transfer" "TE_START_0,TE_START_1"
bitfld.long 0x00 30. "TE_EN,Tearing Effect Control" "TE_EN_0,TE_EN_1"
newline
bitfld.long 0x00 29. "TE_LINE," "TE_LINE_0,TE_LINE_1"
bitfld.long 0x00 28. "TE_LINE_NB,Selection between TE0 and TE1 CMOS signals" "TE_LINE_NB_0,TE_LINE_NB_1"
newline
hexmask.long.tbyte 0x00 0.--23. 1. "TE_SIZE,Defines the number of byte (payload data excluding the check -sum) to be sent"
tree.end
tree "Channel_2"
group.long 0x140++0x03
line.long 0x00 "DSI_VC_CTRL_i_2,CONTROL REGISTER - Virtual channel This register controls the virtual channel"
bitfld.long 0x00 31. "DCS_CMD_CODE,DCS command code value to insert between header and video port or Interface slave data when enabled by DCS_CMD_ENABLE (only when TE mechanism is not used otherwise the bit field DCS_CMD_CODE is ignored by DSI protocol engine)" "DCS_CMD_CODE_0,DCS_CMD_CODE_1"
bitfld.long 0x00 30. "DCS_CMD_ENABLE,Enables automatic insertion of DCS command codes when data is sourced by the video port" "DCS_CMD_ENABLE_0,DCS_CMD_ENABLE_1"
newline
bitfld.long 0x00 27.--29. "DMA_RX_REQ_NB,Selection of the use of the DMA request (associated to the RX FIFO)" "DMA_RX_REQ_NB_0,DMA_RX_REQ_NB_1,DMA_RX_REQ_NB_2,DMA_RX_REQ_NB_3,DMA_RX_REQ_NB_4,?,?,?"
bitfld.long 0x00 24.--26. "DMA_RX_THRESHOLD,Defines the threshold value for the DMA request (associated to the RX FIFO)" "DMA_RX_THRESHOLD_0,DMA_RX_THRESHOLD_1,DMA_RX_THRESHOLD_2,DMA_RX_THRESHOLD_3,DMA_RX_THRESHOLD_4,DMA_RX_THRESHOLD_5,?,?"
newline
bitfld.long 0x00 21.--23. "DMA_TX_REQ_NB,Selection of the use of the DMA request (associated to the TX FIFO)" "DMA_TX_REQ_NB_0,DMA_TX_REQ_NB_1,DMA_TX_REQ_NB_2,DMA_TX_REQ_NB_3,DMA_TX_REQ_NB_4,?,?,?"
rbitfld.long 0x00 20. "RX_FIFO_NOT_EMPTY,FIFO status in command mode" "RX_FIFO_NOT_EMPTY_0_r,RX_FIFO_NOT_EMPTY_1_r"
newline
bitfld.long 0x00 17.--19. "DMA_TX_THRESHOLD,Defines the threshold value for the DMA request (associated to the TX FIFO)" "DMA_TX_THRESHOLD_0,DMA_TX_THRESHOLD_1,DMA_TX_THRESHOLD_2,DMA_TX_THRESHOLD_3,DMA_TX_THRESHOLD_4,DMA_TX_THRESHOLD_5,?,?"
rbitfld.long 0x00 16. "TX_FIFO_FULL,FIFO status in command mode" "TX_FIFO_FULL_0_r,TX_FIFO_FULL_1_r"
newline
rbitfld.long 0x00 15. "VC_BUSY,Indicates if previously scheduled activities (packets BTA) are still being processed" "VC_BUSY_0_r,VC_BUSY_1_r"
rbitfld.long 0x00 14. "PP_BUSY,Ping-pong buffer busy status" "PP_BUSY_0_r,PP_BUSY_1_r"
newline
bitfld.long 0x00 13. "VP_SOURCE,Selection between video port 1 and video port 2" "VP_SOURCE_0,VP_SOURCE_1"
bitfld.long 0x00 12. "RGB565_ORDER,Byte order for RBG565" "RGB565_ORDER_0,RGB565_ORDER_1"
newline
bitfld.long 0x00 10.--11. "OCP_DATA_BUS_WIDTH,Defines the size of the Interface data bus" "OCP_DATA_BUS_WIDTH_0,OCP_DATA_BUS_WIDTH_1,OCP_DATA_BUS_WIDTH_2,OCP_DATA_BUS_WIDTH_3"
bitfld.long 0x00 9. "MODE_SPEED,Selection of the mode" "MODE_SPEED_0,MODE_SPEED_1"
newline
bitfld.long 0x00 8. "ECC_TX_EN,Enables the Error Correction Code generation for the transmit header (short and long packets)" "ECC_TX_EN_0,ECC_TX_EN_1"
bitfld.long 0x00 7. "CS_TX_EN,Enables the checksum generation for the transmit payload (long packet only)" "CS_TX_EN_0,CS_TX_EN_1"
newline
bitfld.long 0x00 6. "BTA_EN,Send the bus turn around to the peripheral" "BTA_EN_0,BTA_EN_1"
rbitfld.long 0x00 5. "TX_FIFO_NOT_EMPTY,FIFO status" "TX_FIFO_NOT_EMPTY_0_r,TX_FIFO_NOT_EMPTY_1_r"
newline
bitfld.long 0x00 4. "MODE,Selection of the mode" "MODE_0,MODE_1"
bitfld.long 0x00 3. "BTA_LONG_EN,Enables the automatic bus turn-around after completion of each long packet transmission" "BTA_LONG_EN_0,BTA_LONG_EN_1"
newline
bitfld.long 0x00 2. "BTA_SHORT_EN,Enables the automatic bus turn-around after completion of each short packet transmission" "BTA_SHORT_EN_0,BTA_SHORT_EN_1"
bitfld.long 0x00 1. "SOURCE,Selection of the source between Interface and the Video port(s) (used by the hardware only if MODE=COMMAND MODE (0x0) otherwise it is ignored)" "SOURCE_0,SOURCE_1"
newline
bitfld.long 0x00 0. "VC_EN,Enables the virtual channel" "VC_EN_0,VC_EN_1"
group.long 0x15C++0x03
line.long 0x00 "DSI_VC_IRQENABLE_i_2,INTERRUPT ENABLE REGISTER - Virtual channel This register regroups all the events related to virtual channel"
bitfld.long 0x00 8. "PP_BUSY_CHANGE_IRQ_EN,Video Port ping-pong buffer busy status" "PP_BUSY_CHANGE_IRQ_EN_0,PP_BUSY_CHANGE_IRQ_EN_1"
bitfld.long 0x00 7. "FIFO_TX_UDF_IRQ_EN,FIFO underflow enable" "FIFO_TX_UDF_IRQ_EN_0,FIFO_TX_UDF_IRQ_EN_1"
newline
bitfld.long 0x00 6. "ECC_NO_CORRECTION_IRQ_EN,ECC error (short and long packets)" "ECC_NO_CORRECTION_IRQ_EN_0,ECC_NO_CORRECTION_IRQ_EN_1"
bitfld.long 0x00 5. "BTA_IRQ_EN,Virtual channel -Bus turn around reception" "BTA_IRQ_EN_0,BTA_IRQ_EN_1"
newline
bitfld.long 0x00 4. "FIFO_RX_OVF_IRQ_EN,FIFO overflow enable" "FIFO_RX_OVF_IRQ_EN_0,FIFO_RX_OVF_IRQ_EN_1"
bitfld.long 0x00 3. "FIFO_TX_OVF_IRQ_EN,FIFO overflow enable" "FIFO_TX_OVF_IRQ_EN_0,FIFO_TX_OVF_IRQ_EN_1"
newline
bitfld.long 0x00 2. "PACKET_SENT_IRQ_EN,Indicates that a packet has been sent" "PACKET_SENT_IRQ_EN_0,PACKET_SENT_IRQ_EN_1"
bitfld.long 0x00 1. "ECC_CORRECTION_IRQ_EN,Virtual" "ECC_CORRECTION_IRQ_EN_0,ECC_CORRECTION_IRQ_EN_1"
newline
bitfld.long 0x00 0. "CS_IRQ_EN,Virtual" "CS_IRQ_EN_0,CS_IRQ_EN_1"
group.long 0x158++0x03
line.long 0x00 "DSI_VC_IRQSTATUS_i_2,INTERRUPT STATUS REGISTER - Virtual channel This register regroups all the events related to the virtual channel"
bitfld.long 0x00 8. "PP_BUSY_CHANGE_IRQ,Video Port ping-pong buffer busy status" "PP_BUSY_CHANGE_IRQ_0,PP_BUSY_CHANGE_IRQ_1"
bitfld.long 0x00 7. "FIFO_TX_UDF_IRQ,FIFO underflow status" "FIFO_TX_UDF_IRQ_0,FIFO_TX_UDF_IRQ_1"
newline
bitfld.long 0x00 6. "ECC_NO_CORRECTION_IRQ,ECC error status (short and long packets)" "ECC_NO_CORRECTION_IRQ_0,ECC_NO_CORRECTION_IRQ_1"
bitfld.long 0x00 5. "BTA_IRQ,Virtual" "BTA_IRQ_0,BTA_IRQ_1"
newline
bitfld.long 0x00 4. "FIFO_RX_OVF_IRQ,FIFO overflow error status" "FIFO_RX_OVF_IRQ_0,FIFO_RX_OVF_IRQ_1"
bitfld.long 0x00 3. "FIFO_TX_OVF_IRQ,FIFO overflow error status" "FIFO_TX_OVF_IRQ_0,FIFO_TX_OVF_IRQ_1"
newline
bitfld.long 0x00 2. "PACKET_SENT_IRQ,Indicates that a packet has been sent" "PACKET_SENT_IRQ_0,PACKET_SENT_IRQ_1"
bitfld.long 0x00 1. "ECC_CORRECTION_IRQ,Virtual" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
newline
bitfld.long 0x00 0. "CS_IRQ,Virtual" "CS_IRQ_0,CS_IRQ_1"
group.long 0x148++0x0B
line.long 0x00 "DSI_VC_LONG_PACKET_HEADER_i_2,LONG PACKET HEADER INFORMATION -Virtual channel This register sets the 32-bit DATA_ID + Word count + ECC (the virtual channel id can be different than VC)"
line.long 0x04 "DSI_VC_LONG_PACKET_PAYLOAD_i_2,LONG PACKET PAYLOAD INFORMATION -Virtual channel This register sets the payload information (excluding checksum)"
line.long 0x08 "DSI_VC_SHORT_PACKET_HEADER_i_2,SHORT PACKET HEADER INFORMATION -Virtual channel This register sets the 24-bit DATA_ID + Short Packet Data Field + ECC (the virtual channel id can be different than VC)"
group.long 0x144++0x03
line.long 0x00 "DSI_VC_TE_i_2,CONTROL REGISTER - Virtual channel This register controls the tearing effect logic"
bitfld.long 0x00 31. "TE_START,Manual control of the start of the transfer" "TE_START_0,TE_START_1"
bitfld.long 0x00 30. "TE_EN,Tearing Effect Control" "TE_EN_0,TE_EN_1"
newline
bitfld.long 0x00 29. "TE_LINE," "TE_LINE_0,TE_LINE_1"
bitfld.long 0x00 28. "TE_LINE_NB,Selection between TE0 and TE1 CMOS signals" "TE_LINE_NB_0,TE_LINE_NB_1"
newline
hexmask.long.tbyte 0x00 0.--23. 1. "TE_SIZE,Defines the number of byte (payload data excluding the check -sum) to be sent"
tree.end
tree "Channel_3"
group.long 0x160++0x03
line.long 0x00 "DSI_VC_CTRL_i_3,CONTROL REGISTER - Virtual channel This register controls the virtual channel"
bitfld.long 0x00 31. "DCS_CMD_CODE,DCS command code value to insert between header and video port or Interface slave data when enabled by DCS_CMD_ENABLE (only when TE mechanism is not used otherwise the bit field DCS_CMD_CODE is ignored by DSI protocol engine)" "DCS_CMD_CODE_0,DCS_CMD_CODE_1"
bitfld.long 0x00 30. "DCS_CMD_ENABLE,Enables automatic insertion of DCS command codes when data is sourced by the video port" "DCS_CMD_ENABLE_0,DCS_CMD_ENABLE_1"
newline
bitfld.long 0x00 27.--29. "DMA_RX_REQ_NB,Selection of the use of the DMA request (associated to the RX FIFO)" "DMA_RX_REQ_NB_0,DMA_RX_REQ_NB_1,DMA_RX_REQ_NB_2,DMA_RX_REQ_NB_3,DMA_RX_REQ_NB_4,?,?,?"
bitfld.long 0x00 24.--26. "DMA_RX_THRESHOLD,Defines the threshold value for the DMA request (associated to the RX FIFO)" "DMA_RX_THRESHOLD_0,DMA_RX_THRESHOLD_1,DMA_RX_THRESHOLD_2,DMA_RX_THRESHOLD_3,DMA_RX_THRESHOLD_4,DMA_RX_THRESHOLD_5,?,?"
newline
bitfld.long 0x00 21.--23. "DMA_TX_REQ_NB,Selection of the use of the DMA request (associated to the TX FIFO)" "DMA_TX_REQ_NB_0,DMA_TX_REQ_NB_1,DMA_TX_REQ_NB_2,DMA_TX_REQ_NB_3,DMA_TX_REQ_NB_4,?,?,?"
rbitfld.long 0x00 20. "RX_FIFO_NOT_EMPTY,FIFO status in command mode" "RX_FIFO_NOT_EMPTY_0_r,RX_FIFO_NOT_EMPTY_1_r"
newline
bitfld.long 0x00 17.--19. "DMA_TX_THRESHOLD,Defines the threshold value for the DMA request (associated to the TX FIFO)" "DMA_TX_THRESHOLD_0,DMA_TX_THRESHOLD_1,DMA_TX_THRESHOLD_2,DMA_TX_THRESHOLD_3,DMA_TX_THRESHOLD_4,DMA_TX_THRESHOLD_5,?,?"
rbitfld.long 0x00 16. "TX_FIFO_FULL,FIFO status in command mode" "TX_FIFO_FULL_0_r,TX_FIFO_FULL_1_r"
newline
rbitfld.long 0x00 15. "VC_BUSY,Indicates if previously scheduled activities (packets BTA) are still being processed" "VC_BUSY_0_r,VC_BUSY_1_r"
rbitfld.long 0x00 14. "PP_BUSY,Ping-pong buffer busy status" "PP_BUSY_0_r,PP_BUSY_1_r"
newline
bitfld.long 0x00 13. "VP_SOURCE,Selection between video port 1 and video port 2" "VP_SOURCE_0,VP_SOURCE_1"
bitfld.long 0x00 12. "RGB565_ORDER,Byte order for RBG565" "RGB565_ORDER_0,RGB565_ORDER_1"
newline
bitfld.long 0x00 10.--11. "OCP_DATA_BUS_WIDTH,Defines the size of the Interface data bus" "OCP_DATA_BUS_WIDTH_0,OCP_DATA_BUS_WIDTH_1,OCP_DATA_BUS_WIDTH_2,OCP_DATA_BUS_WIDTH_3"
bitfld.long 0x00 9. "MODE_SPEED,Selection of the mode" "MODE_SPEED_0,MODE_SPEED_1"
newline
bitfld.long 0x00 8. "ECC_TX_EN,Enables the Error Correction Code generation for the transmit header (short and long packets)" "ECC_TX_EN_0,ECC_TX_EN_1"
bitfld.long 0x00 7. "CS_TX_EN,Enables the checksum generation for the transmit payload (long packet only)" "CS_TX_EN_0,CS_TX_EN_1"
newline
bitfld.long 0x00 6. "BTA_EN,Send the bus turn around to the peripheral" "BTA_EN_0,BTA_EN_1"
rbitfld.long 0x00 5. "TX_FIFO_NOT_EMPTY,FIFO status" "TX_FIFO_NOT_EMPTY_0_r,TX_FIFO_NOT_EMPTY_1_r"
newline
bitfld.long 0x00 4. "MODE,Selection of the mode" "MODE_0,MODE_1"
bitfld.long 0x00 3. "BTA_LONG_EN,Enables the automatic bus turn-around after completion of each long packet transmission" "BTA_LONG_EN_0,BTA_LONG_EN_1"
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bitfld.long 0x00 2. "BTA_SHORT_EN,Enables the automatic bus turn-around after completion of each short packet transmission" "BTA_SHORT_EN_0,BTA_SHORT_EN_1"
bitfld.long 0x00 1. "SOURCE,Selection of the source between Interface and the Video port(s) (used by the hardware only if MODE=COMMAND MODE (0x0) otherwise it is ignored)" "SOURCE_0,SOURCE_1"
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bitfld.long 0x00 0. "VC_EN,Enables the virtual channel" "VC_EN_0,VC_EN_1"
group.long 0x17C++0x03
line.long 0x00 "DSI_VC_IRQENABLE_i_3,INTERRUPT ENABLE REGISTER - Virtual channel This register regroups all the events related to virtual channel"
bitfld.long 0x00 8. "PP_BUSY_CHANGE_IRQ_EN,Video Port ping-pong buffer busy status" "PP_BUSY_CHANGE_IRQ_EN_0,PP_BUSY_CHANGE_IRQ_EN_1"
bitfld.long 0x00 7. "FIFO_TX_UDF_IRQ_EN,FIFO underflow enable" "FIFO_TX_UDF_IRQ_EN_0,FIFO_TX_UDF_IRQ_EN_1"
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bitfld.long 0x00 6. "ECC_NO_CORRECTION_IRQ_EN,ECC error (short and long packets)" "ECC_NO_CORRECTION_IRQ_EN_0,ECC_NO_CORRECTION_IRQ_EN_1"
bitfld.long 0x00 5. "BTA_IRQ_EN,Virtual channel -Bus turn around reception" "BTA_IRQ_EN_0,BTA_IRQ_EN_1"
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bitfld.long 0x00 4. "FIFO_RX_OVF_IRQ_EN,FIFO overflow enable" "FIFO_RX_OVF_IRQ_EN_0,FIFO_RX_OVF_IRQ_EN_1"
bitfld.long 0x00 3. "FIFO_TX_OVF_IRQ_EN,FIFO overflow enable" "FIFO_TX_OVF_IRQ_EN_0,FIFO_TX_OVF_IRQ_EN_1"
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bitfld.long 0x00 2. "PACKET_SENT_IRQ_EN,Indicates that a packet has been sent" "PACKET_SENT_IRQ_EN_0,PACKET_SENT_IRQ_EN_1"
bitfld.long 0x00 1. "ECC_CORRECTION_IRQ_EN,Virtual" "ECC_CORRECTION_IRQ_EN_0,ECC_CORRECTION_IRQ_EN_1"
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bitfld.long 0x00 0. "CS_IRQ_EN,Virtual" "CS_IRQ_EN_0,CS_IRQ_EN_1"
group.long 0x178++0x03
line.long 0x00 "DSI_VC_IRQSTATUS_i_3,INTERRUPT STATUS REGISTER - Virtual channel This register regroups all the events related to the virtual channel"
bitfld.long 0x00 8. "PP_BUSY_CHANGE_IRQ,Video Port ping-pong buffer busy status" "PP_BUSY_CHANGE_IRQ_0,PP_BUSY_CHANGE_IRQ_1"
bitfld.long 0x00 7. "FIFO_TX_UDF_IRQ,FIFO underflow status" "FIFO_TX_UDF_IRQ_0,FIFO_TX_UDF_IRQ_1"
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bitfld.long 0x00 6. "ECC_NO_CORRECTION_IRQ,ECC error status (short and long packets)" "ECC_NO_CORRECTION_IRQ_0,ECC_NO_CORRECTION_IRQ_1"
bitfld.long 0x00 5. "BTA_IRQ,Virtual" "BTA_IRQ_0,BTA_IRQ_1"
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bitfld.long 0x00 4. "FIFO_RX_OVF_IRQ,FIFO overflow error status" "FIFO_RX_OVF_IRQ_0,FIFO_RX_OVF_IRQ_1"
bitfld.long 0x00 3. "FIFO_TX_OVF_IRQ,FIFO overflow error status" "FIFO_TX_OVF_IRQ_0,FIFO_TX_OVF_IRQ_1"
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bitfld.long 0x00 2. "PACKET_SENT_IRQ,Indicates that a packet has been sent" "PACKET_SENT_IRQ_0,PACKET_SENT_IRQ_1"
bitfld.long 0x00 1. "ECC_CORRECTION_IRQ,Virtual" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
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bitfld.long 0x00 0. "CS_IRQ,Virtual" "CS_IRQ_0,CS_IRQ_1"
group.long 0x168++0x0B
line.long 0x00 "DSI_VC_LONG_PACKET_HEADER_i_3,LONG PACKET HEADER INFORMATION -Virtual channel This register sets the 32-bit DATA_ID + Word count + ECC (the virtual channel id can be different than VC)"
line.long 0x04 "DSI_VC_LONG_PACKET_PAYLOAD_i_3,LONG PACKET PAYLOAD INFORMATION -Virtual channel This register sets the payload information (excluding checksum)"
line.long 0x08 "DSI_VC_SHORT_PACKET_HEADER_i_3,SHORT PACKET HEADER INFORMATION -Virtual channel This register sets the 24-bit DATA_ID + Short Packet Data Field + ECC (the virtual channel id can be different than VC)"
group.long 0x164++0x03
line.long 0x00 "DSI_VC_TE_i_3,CONTROL REGISTER - Virtual channel This register controls the tearing effect logic"
bitfld.long 0x00 31. "TE_START,Manual control of the start of the transfer" "TE_START_0,TE_START_1"
bitfld.long 0x00 30. "TE_EN,Tearing Effect Control" "TE_EN_0,TE_EN_1"
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bitfld.long 0x00 29. "TE_LINE," "TE_LINE_0,TE_LINE_1"
bitfld.long 0x00 28. "TE_LINE_NB,Selection between TE0 and TE1 CMOS signals" "TE_LINE_NB_0,TE_LINE_NB_1"
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hexmask.long.tbyte 0x00 0.--23. 1. "TE_SIZE,Defines the number of byte (payload data excluding the check -sum) to be sent"
tree.end
group.long 0x54++0x03
line.long 0x00 "DSI_CLK_CTRL,CLOCK CONTROL This register controls the CLOCK GENERATION"
bitfld.long 0x00 30.--31. "PLL_PWR_CMD,Command for power control of the DSI PLL Control module" "PLL_PWR_CMD_0,PLL_PWR_CMD_1,PLL_PWR_CMD_2,PLL_PWR_CMD_3"
rbitfld.long 0x00 28.--29. "PLL_PWR_STATUS,Status of the power control of the DSI PLL Control module" "PLL_PWR_STATUS_0_r,PLL_PWR_STATUS_1_r,PLL_PWR_STATUS_2_r,PLL_PWR_STATUS_3_r"
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bitfld.long 0x00 21. "LP_RX_SYNCHRO_ENABLE,Defines if the functional is higher or lower than 30 MHz" "LP_RX_SYNCHRO_ENABLE_0,LP_RX_SYNCHRO_ENABLE_1"
bitfld.long 0x00 20. "LP_CLK_ENABLE,Controls the gating of the TXCLKESC clock" "LP_CLK_ENABLE_0,LP_CLK_ENABLE_1"
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bitfld.long 0x00 19. "HS_MANUAL_STOP_CTRL,In case HS_AUTO_STOP_ENABLE=0 the bit field allows manual control of the assertion/de-assertion of the signal DSIStopClk by the user" "HS_MANUAL_STOP_CTRL_0,HS_MANUAL_STOP_CTRL_1"
bitfld.long 0x00 18. "HS_AUTO_STOP_ENABLE,Enables the automatic assertion/de-assertion of DSIStopClk signal" "HS_AUTO_STOP_ENABLE_0,HS_AUTO_STOP_ENABLE_1"
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bitfld.long 0x00 16.--17. "LP_CLK_NULL_PACKET_SIZE,Indicates the size of LP NULL Packets to be sent automatically when after the last LP packet transfer" "LP_CLK_NULL_PACKET_SIZE_0,LP_CLK_NULL_PACKET_SIZE_1,LP_CLK_NULL_PACKET_SIZE_2,LP_CLK_NULL_PACKET_SIZE_3"
bitfld.long 0x00 15. "LP_CLK_NULL_PACKET_ENABLE,Enables the generation of NULL packet in low speed" "LP_CLK_NULL_PACKET_ENABLE_0,LP_CLK_NULL_PACKET_ENABLE_1"
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bitfld.long 0x00 14. "CIO_CLK_ICG,Gates SCPClk clock provided to DSI_PHY and PLL-CTRL module" "CIO_CLK_ICG_0,CIO_CLK_ICG_1"
bitfld.long 0x00 13. "DDR_CLK_ALWAYS_ON,Defines if the DDR clock is also sent when there is no HS packets sent to the peripheral (low-power mode)" "DDR_CLK_ALWAYS_ON_0,DDR_CLK_ALWAYS_ON_1"
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hexmask.long.word 0x00 0.--12. 1. "LP_CLK_DIVISOR,Defines the ratio to be used for the generation of the low-power mode clock from DSI functional clock"
group.long 0x6C++0x03
line.long 0x00 "DSI_CLK_TIMING,CLOCK TIMING REGISTER This register controls the DSI Protocol Engine module timers"
hexmask.long.byte 0x00 8.--15. 1. "DDR_CLK_PRE,Indicates the number of TXBYTECLKHS clock cycles between the start of the DDR clock and the assertion of the data request signal"
hexmask.long.byte 0x00 0.--7. 1. "DDR_CLK_POST,Indicates the number of TXBYTECLKHS clock cycles after the de-assertion of the data request signal and the stop of the DDR clock"
group.long 0x48++0x03
line.long 0x00 "DSI_COMPLEXIO_CFG1,COMPLEXIO CONFIGURATION REGISTER for the complex I/O This register contains the lane configuration for the order and position of the lanes (clock and data) and the polarity order for the control of the PHY differential signals in.."
bitfld.long 0x00 31. "SHADOWING,Shadowing configuration" "SHADOWING_0,SHADOWING_1"
bitfld.long 0x00 30. "GOBIT,Allows the synchronized update of the shadow registers when the signal DISPCUpdateSync is active" "GOBIT_0,GOBIT_1"
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rbitfld.long 0x00 29. "RESET_DONE,Internal reset monitoring of the power domain using the TXBYTECLKHS clock from the complex I/O" "RESET_DONE_0_r,RESET_DONE_1_r"
bitfld.long 0x00 27.--28. "PWR_CMD,Command for power control of the complex I/O" "PWR_CMD_0,PWR_CMD_1,PWR_CMD_2,?"
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rbitfld.long 0x00 25.--26. "PWR_STATUS,Status of the power control of the complex I/O" "PWR_STATUS_0_r,PWR_STATUS_1_r,PWR_STATUS_2_r,?"
bitfld.long 0x00 19. "DATA4_POL,+/- differential pin order of DATA lane 4" "DATA4_POL_0,DATA4_POL_1"
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bitfld.long 0x00 16.--18. "DATA4_POSITION,Position and order of the DATA lane 4" "DATA4_POSITION_0,DATA4_POSITION_1,DATA4_POSITION_2,DATA4_POSITION_3,DATA4_POSITION_4,DATA4_POSITION_5,?,?"
bitfld.long 0x00 15. "DATA3_POL,+/- differential pin order of DATA lane 3" "DATA3_POL_0,DATA3_POL_1"
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bitfld.long 0x00 12.--14. "DATA3_POSITION,Position and order of the DATA lane 3" "DATA3_POSITION_0,DATA3_POSITION_1,DATA3_POSITION_2,DATA3_POSITION_3,DATA3_POSITION_4,DATA3_POSITION_5,?,?"
bitfld.long 0x00 11. "DATA2_POL,+/- differential pin order of DATA lane 2" "DATA2_POL_0,DATA2_POL_1"
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bitfld.long 0x00 8.--10. "DATA2_POSITION,Position and order of the DATA lane 2" "DATA2_POSITION_0,DATA2_POSITION_1,DATA2_POSITION_2,DATA2_POSITION_3,DATA2_POSITION_4,DATA2_POSITION_5,?,?"
bitfld.long 0x00 7. "DATA1_POL,+/- pin differential pin order of DATA lane" "DATA1_POL_0,DATA1_POL_1"
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bitfld.long 0x00 4.--6. "DATA1_POSITION,Position and order of the DATA lane 1" "DATA1_POSITION_0,DATA1_POSITION_1,DATA1_POSITION_2,DATA1_POSITION_3,DATA1_POSITION_4,DATA1_POSITION_5,?,?"
bitfld.long 0x00 3. "CLOCK_POL,+/- differential pin order of CLOCK lane" "CLOCK_POL_0,CLOCK_POL_1"
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bitfld.long 0x00 0.--2. "CLOCK_POSITION,Position and order of the CLOCK lane" "CLOCK_POSITION_0,CLOCK_POSITION_1,CLOCK_POSITION_2,CLOCK_POSITION_3,CLOCK_POSITION_4,CLOCK_POSITION_5,CLOCK_POSITION_6,CLOCK_POSITION_7"
group.long 0x78++0x03
line.long 0x00 "DSI_COMPLEXIO_CFG2,COMPLEXIO CONFIGURATION REGISTER for the complex I/O This register contains the lane configuration for the ULPS for each lane"
rbitfld.long 0x00 17. "LP_BUSY,Indicates when there are still pending operations for VCs configured for LP mode" "LP_BUSY_0_r,LP_BUSY_1_r"
rbitfld.long 0x00 16. "HS_BUSY,Indicates when there are still pending operations for VCs configured for HS mode" "HS_BUSY_0_r,HS_BUSY_1_r"
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bitfld.long 0x00 9. "LANE5_ULPS_SIG2,Applicable only to DS1" "LANE5_ULPS_SIG2_0,LANE5_ULPS_SIG2_1"
bitfld.long 0x00 8. "LANE4_ULPS_SIG2,Applicable only to DS1" "LANE4_ULPS_SIG2_0,LANE4_ULPS_SIG2_1"
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bitfld.long 0x00 7. "LANE3_ULPS_SIG2,Enables the ULPS for the lane 3" "LANE3_ULPS_SIG2_0,LANE3_ULPS_SIG2_1"
bitfld.long 0x00 6. "LANE2_ULPS_SIG2,Enables the ULPS for the lane 2" "LANE2_ULPS_SIG2_0,LANE2_ULPS_SIG2_1"
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bitfld.long 0x00 5. "LANE1_ULPS_SIG2,Enables the ULPS for the lane 1" "LANE1_ULPS_SIG2_0,LANE1_ULPS_SIG2_1"
bitfld.long 0x00 4. "LANE5_ULPS_SIG1,Applicable only to DS1" "LANE5_ULPS_SIG1_0,LANE5_ULPS_SIG1_1"
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bitfld.long 0x00 3. "LANE4_ULPS_SIG1,Applicable only to DS1" "LANE4_ULPS_SIG1_0,LANE4_ULPS_SIG1_1"
bitfld.long 0x00 2. "LANE3_ULPS_SIG1,Enables the ULPS for the lane 3" "LANE3_ULPS_SIG1_0,LANE3_ULPS_SIG1_1"
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bitfld.long 0x00 1. "LANE2_ULPS_SIG1,Enables the ULPS for the lane 2" "LANE2_ULPS_SIG1_0,LANE2_ULPS_SIG1_1"
bitfld.long 0x00 0. "LANE1_ULPS_SIG1,Enables the ULPS for the lane 1" "LANE1_ULPS_SIG1_0,LANE1_ULPS_SIG1_1"
group.long 0x50++0x03
line.long 0x00 "DSI_COMPLEXIO_IRQENABLE,INTERRUPT ENABLE REGISTER - All errors from complex I/O"
bitfld.long 0x00 31. "ULPSACTIVENOT_ALL1_IRQ_EN,All the ULPSActiveNOT signals corresponding to the lanes with TXULPSExit being high are high" "ULPSACTIVENOT_ALL1_IRQ_EN_0,ULPSACTIVENOT_ALL1_IRQ_EN_1"
bitfld.long 0x00 30. "ULPSACTIVENOT_ALL0_IRQ_EN,All signals ULPSActiveNOT are" "ULPSACTIVENOT_ALL0_IRQ_EN_0,ULPSACTIVENOT_ALL0_IRQ_EN_1"
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bitfld.long 0x00 29. "ERRCONTENTIONLP1_5_IRQ_EN,Contention LP1 error for lane 5 Applicable only to DS1" "ERRCONTENTIONLP1_5_IRQ_EN_0,ERRCONTENTIONLP1_5_IRQ_EN_1"
bitfld.long 0x00 28. "ERRCONTENTIONLP0_5_IRQ_EN,Contention LP0 error for lane 5 Applicable only to DS1" "ERRCONTENTIONLP0_5_IRQ_EN_0,ERRCONTENTIONLP0_5_IRQ_EN_1"
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bitfld.long 0x00 27. "ERRCONTENTIONLP1_4_IRQ_EN,Contention LP1 error for lane 4 Applicable only to DS1" "ERRCONTENTIONLP1_4_IRQ_EN_0,ERRCONTENTIONLP1_4_IRQ_EN_1"
bitfld.long 0x00 26. "ERRCONTENTIONLP0_4_IRQ_EN,Contention LP0 error for lane 4 Applicable only to DS1" "ERRCONTENTIONLP0_4_IRQ_EN_0,ERRCONTENTIONLP0_4_IRQ_EN_1"
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bitfld.long 0x00 25. "ERRCONTENTIONLP1_3_IRQ_EN,Contention LP1 error for lane" "ERRCONTENTIONLP1_3_IRQ_EN_0,ERRCONTENTIONLP1_3_IRQ_EN_1"
bitfld.long 0x00 24. "ERRCONTENTIONLP0_3_IRQ_EN,Contention LP0 error for lane" "ERRCONTENTIONLP0_3_IRQ_EN_0,ERRCONTENTIONLP0_3_IRQ_EN_1"
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bitfld.long 0x00 23. "ERRCONTENTIONLP1_2_IRQ_EN,Contention LP1 error for lane" "ERRCONTENTIONLP1_2_IRQ_EN_0,ERRCONTENTIONLP1_2_IRQ_EN_1"
bitfld.long 0x00 22. "ERRCONTENTIONLP0_2_IRQ_EN,Contention LP0 error for lane" "ERRCONTENTIONLP0_2_IRQ_EN_0,ERRCONTENTIONLP0_2_IRQ_EN_1"
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bitfld.long 0x00 21. "ERRCONTENTIONLP1_1_IRQ_EN,Contention LP1 error for lane" "ERRCONTENTIONLP1_1_IRQ_EN_0,ERRCONTENTIONLP1_1_IRQ_EN_1"
bitfld.long 0x00 20. "ERRCONTENTIONLP0_1_IRQ_EN,Contention LP0 error for lane" "ERRCONTENTIONLP0_1_IRQ_EN_0,ERRCONTENTIONLP0_1_IRQ_EN_1"
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bitfld.long 0x00 19. "STATEULPS5_IRQ_EN,lane 5 in ULTRALOW-POWER state Applicable only to DS1" "STATEULPS5_IRQ_EN_0,STATEULPS5_IRQ_EN_1"
bitfld.long 0x00 18. "STATEULPS4_IRQ_EN,lane 4 in ULTRALOW-POWER state Applicable only to DS1" "STATEULPS4_IRQ_EN_0,STATEULPS4_IRQ_EN_1"
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bitfld.long 0x00 17. "STATEULPS3_IRQ_EN,lane 3 in ULTRALOW-POWER state" "STATEULPS3_IRQ_EN_0,STATEULPS3_IRQ_EN_1"
bitfld.long 0x00 16. "STATEULPS2_IRQ_EN,lane 2 in ULTRALOW-POWER state" "STATEULPS2_IRQ_EN_0,STATEULPS2_IRQ_EN_1"
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bitfld.long 0x00 15. "STATEULPS1_IRQ_EN,lane 1 in ULTRALOW-POWER state" "STATEULPS1_IRQ_EN_0,STATEULPS1_IRQ_EN_1"
bitfld.long 0x00 14. "ERRCONTROL5_IRQ_EN,Control error for lane 5 Applicable only to DS1" "ERRCONTROL5_IRQ_EN_0,ERRCONTROL5_IRQ_EN_1"
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bitfld.long 0x00 13. "ERRCONTROL4_IRQ_EN,Control error for lane 4 Applicable only to DS1" "ERRCONTROL4_IRQ_EN_0,ERRCONTROL4_IRQ_EN_1"
bitfld.long 0x00 12. "ERRCONTROL3_IRQ_EN,Control error for lane" "ERRCONTROL3_IRQ_EN_0,ERRCONTROL3_IRQ_EN_1"
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bitfld.long 0x00 11. "ERRCONTROL2_IRQ_EN,Control error for lane" "ERRCONTROL2_IRQ_EN_0,ERRCONTROL2_IRQ_EN_1"
bitfld.long 0x00 10. "ERRCONTROL1_IRQ_EN,Control error for lane" "ERRCONTROL1_IRQ_EN_0,ERRCONTROL1_IRQ_EN_1"
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bitfld.long 0x00 9. "ERRESC5_IRQ_EN,Escape entry error for lane 5 Applicable only to DS1" "ERRESC5_IRQ_EN_0,ERRESC5_IRQ_EN_1"
bitfld.long 0x00 8. "ERRESC4_IRQ_EN,Escape entry error for lane 4 Applicable only to DS1" "ERRESC4_IRQ_EN_0,ERRESC4_IRQ_EN_1"
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bitfld.long 0x00 7. "ERRESC3_IRQ_EN,Escape entry error for lane" "ERRESC3_IRQ_EN_0,ERRESC3_IRQ_EN_1"
bitfld.long 0x00 6. "ERRESC2_IRQ_EN,Escape entry error for lane" "ERRESC2_IRQ_EN_0,ERRESC2_IRQ_EN_1"
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bitfld.long 0x00 5. "ERRESC1_IRQ_EN,Escape entry error for lane" "ERRESC1_IRQ_EN_0,ERRESC1_IRQ_EN_1"
bitfld.long 0x00 4. "ERRSYNCSESC5_IRQ_EN,Low power Data transmission synchronization error for lane 5 Applicable only to DS1" "ERRSYNCSESC5_IRQ_EN_0,ERRSYNCSESC5_IRQ_EN_1"
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bitfld.long 0x00 3. "ERRSYNCSESC4_IRQ_EN,Low power Data transmission synchronization error for lane 4 Applicable only to DS1" "ERRSYNCSESC4_IRQ_EN_0,ERRSYNCSESC4_IRQ_EN_1"
bitfld.long 0x00 2. "ERRSYNCSESC3_IRQ_EN,Low power Data transmission synchronization error for lane" "ERRSYNCSESC3_IRQ_EN_0,ERRSYNCSESC3_IRQ_EN_1"
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bitfld.long 0x00 1. "ERRSYNCSESC2_IRQ_EN,Low power Data transmission synchronization error for lane" "ERRSYNCSESC2_IRQ_EN_0,ERRSYNCSESC2_IRQ_EN_1"
bitfld.long 0x00 0. "ERRSYNCSESC1_IRQ_EN,Low power Data transmission synchronization error for lane" "ERRSYNCSESC1_IRQ_EN_0,ERRSYNCSESC1_IRQ_EN_1"
group.long 0x4C++0x03
line.long 0x00 "DSI_COMPLEXIO_IRQSTATUS,INTERRUPT STATUS REGISTER - All errors from complex I/O"
bitfld.long 0x00 31. "ULPSACTIVENOT_ALL1_IRQ,All the ULPSActiveNOT signals corresponding to the lanes with TXULPSExit being high are high" "ULPSACTIVENOT_ALL1_IRQ_0,ULPSACTIVENOT_ALL1_IRQ_1"
bitfld.long 0x00 30. "ULPSACTIVENOT_ALL0_IRQ,All signals ULPSActiveNOT are" "ULPSACTIVENOT_ALL0_IRQ_0,ULPSACTIVENOT_ALL0_IRQ_1"
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bitfld.long 0x00 29. "ERRCONTENTIONLP1_5_IRQ,Contention LP1 error for lane 5 Applicable only to DS1" "ERRCONTENTIONLP1_5_IRQ_0,ERRCONTENTIONLP1_5_IRQ_1"
bitfld.long 0x00 28. "ERRCONTENTIONLP0_5_IRQ,Contention LP0 error for lane 5 Applicable only to DS1" "ERRCONTENTIONLP0_5_IRQ_0,ERRCONTENTIONLP0_5_IRQ_1"
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bitfld.long 0x00 27. "ERRCONTENTIONLP1_4_IRQ,Contention LP1 error for lane 4 Applicable only to DS1" "ERRCONTENTIONLP1_4_IRQ_0,ERRCONTENTIONLP1_4_IRQ_1"
bitfld.long 0x00 26. "ERRCONTENTIONLP0_4_IRQ,Contention LP0 error for lane 4 Applicable only to DS1" "ERRCONTENTIONLP0_4_IRQ_0,ERRCONTENTIONLP0_4_IRQ_1"
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bitfld.long 0x00 25. "ERRCONTENTIONLP1_3_IRQ,Contention LP1 error for lane" "ERRCONTENTIONLP1_3_IRQ_0,ERRCONTENTIONLP1_3_IRQ_1"
bitfld.long 0x00 24. "ERRCONTENTIONLP0_3_IRQ,Contention LP0 error for lane" "ERRCONTENTIONLP0_3_IRQ_0,ERRCONTENTIONLP0_3_IRQ_1"
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bitfld.long 0x00 23. "ERRCONTENTIONLP1_2_IRQ,Contention LP1 error for lane" "ERRCONTENTIONLP1_2_IRQ_0,ERRCONTENTIONLP1_2_IRQ_1"
bitfld.long 0x00 22. "ERRCONTENTIONLP0_2_IRQ,Contention LP0 error for lane" "ERRCONTENTIONLP0_2_IRQ_0,ERRCONTENTIONLP0_2_IRQ_1"
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bitfld.long 0x00 21. "ERRCONTENTIONLP1_1_IRQ,Contention LP1 error for lane" "ERRCONTENTIONLP1_1_IRQ_0,ERRCONTENTIONLP1_1_IRQ_1"
bitfld.long 0x00 20. "ERRCONTENTIONLP0_1_IRQ,Contention LP0 error for lane" "ERRCONTENTIONLP0_1_IRQ_0,ERRCONTENTIONLP0_1_IRQ_1"
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bitfld.long 0x00 19. "STATEULPS5_IRQ,lane 5 in ULTRALOW-POWER State Applicable only to DS1" "STATEULPS5_IRQ_0,STATEULPS5_IRQ_1"
bitfld.long 0x00 18. "STATEULPS4_IRQ,lane 4 in ultralow-power mode Applicable only to DS1" "STATEULPS4_IRQ_0,STATEULPS4_IRQ_1"
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bitfld.long 0x00 17. "STATEULPS3_IRQ,lane 3 in ULTRALOW-POWER state" "STATEULPS3_IRQ_0,STATEULPS3_IRQ_1"
bitfld.long 0x00 16. "STATEULPS2_IRQ,lane 2 in ULTRALOW-POWER state" "STATEULPS2_IRQ_0,STATEULPS2_IRQ_1"
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bitfld.long 0x00 15. "STATEULPS1_IRQ,lane 1 in ULTRALOW-POWER state" "STATEULPS1_IRQ_0,STATEULPS1_IRQ_1"
bitfld.long 0x00 14. "ERRCONTROL5_IRQ,Control error for lane 5 Applicable only to DS1" "ERRCONTROL5_IRQ_0,ERRCONTROL5_IRQ_1"
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bitfld.long 0x00 13. "ERRCONTROL4_IRQ,Control error for lane 4 Applicable only to DS1" "ERRCONTROL4_IRQ_0,ERRCONTROL4_IRQ_1"
bitfld.long 0x00 12. "ERRCONTROL3_IRQ,Control error for lane" "ERRCONTROL3_IRQ_0,ERRCONTROL3_IRQ_1"
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bitfld.long 0x00 11. "ERRCONTROL2_IRQ,Control error for lane" "ERRCONTROL2_IRQ_0,ERRCONTROL2_IRQ_1"
bitfld.long 0x00 10. "ERRCONTROL1_IRQ,Control error for lane" "ERRCONTROL1_IRQ_0,ERRCONTROL1_IRQ_1"
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bitfld.long 0x00 9. "ERRESC5_IRQ,Escape entry error for lane 5 Applicable only to DS1" "ERRESC5_IRQ_0,ERRESC5_IRQ_1"
bitfld.long 0x00 8. "ERRESC4_IRQ,Escape entry error for lane 4 Applicable only to DS1" "ERRESC4_IRQ_0,ERRESC4_IRQ_1"
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bitfld.long 0x00 7. "ERRESC3_IRQ,Escape entry error for lane" "ERRESC3_IRQ_0,ERRESC3_IRQ_1"
bitfld.long 0x00 6. "ERRESC2_IRQ,Escape entry error for lane" "ERRESC2_IRQ_0,ERRESC2_IRQ_1"
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bitfld.long 0x00 5. "ERRESC1_IRQ,Escape entry error for lane" "ERRESC1_IRQ_0,ERRESC1_IRQ_1"
bitfld.long 0x00 4. "ERRSYNCESC5_IRQ,Low power Data transmission synchronization error for lane 5 Applicable only to DS1" "ERRSYNCESC5_IRQ_0,ERRSYNCESC5_IRQ_1"
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bitfld.long 0x00 3. "ERRSYNCESC4_IRQ,Low power Data transmission synchronization error for lane 4 Applicable only to DS1" "ERRSYNCESC4_IRQ_0,ERRSYNCESC4_IRQ_1"
bitfld.long 0x00 2. "ERRSYNCESC3_IRQ,Low power Data transmission synchronization error for lane" "ERRSYNCESC3_IRQ_0,ERRSYNCESC3_IRQ_1"
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bitfld.long 0x00 1. "ERRSYNCESC2_IRQ,Low power Data transmission synchronization error for lane" "ERRSYNCESC2_IRQ_0,ERRSYNCESC2_IRQ_1"
bitfld.long 0x00 0. "ERRSYNCESC1_IRQ,Low power Data transmission synchronization error for lane" "ERRSYNCESC1_IRQ_0,ERRSYNCESC1_IRQ_1"
group.long 0x40++0x03
line.long 0x00 "DSI_CTRL,GLOBAL CONTROL REGISTER This register controls the DSI Protocol Engine module"
bitfld.long 0x00 24. "DISPC_UPDATE_SYNC,Determines if the Dispc_Update_Sync signal from the display controller is used" "DISPC_UPDATE_SYNC_0,DISPC_UPDATE_SYNC_1"
bitfld.long 0x00 23. "HSA_BLANKING_MODE,Blanking mode" "HSA_BLANKING_MODE_0,HSA_BLANKING_MODE_1"
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bitfld.long 0x00 22. "HBP_BLANKING_MODE,Blanking mode" "HBP_BLANKING_MODE_0,HBP_BLANKING_MODE_1"
bitfld.long 0x00 21. "HFP_BLANKING_MODE,Blanking mode" "HFP_BLANKING_MODE_0,HFP_BLANKING_MODE_1"
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bitfld.long 0x00 20. "BLANKING_MODE,Blanking mode" "BLANKING_MODE_0,BLANKING_MODE_1"
bitfld.long 0x00 19. "EOT_ENABLE,Enable EOT packets at the end of HS transmission" "EOT_ENABLE_0,EOT_ENABLE_1"
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bitfld.long 0x00 18. "VP_HSYNC_END,HSYNC end pulse" "VP_HSYNC_END_0,VP_HSYNC_END_1"
bitfld.long 0x00 17. "VP_HSYNC_START,HSYNC start pulse" "VP_HSYNC_START_0,VP_HSYNC_START_1"
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bitfld.long 0x00 16. "VP_VSYNC_END,VSYNC end pulse" "VP_VSYNC_END_0,VP_VSYNC_END_1"
bitfld.long 0x00 15. "VP_VSYNC_START,VSYNC start pulse" "VP_VSYNC_START_0,VP_VSYNC_START_1"
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bitfld.long 0x00 14. "TRIGGER_RESET_MODE,Selection of the trigger reset mode" "TRIGGER_RESET_MODE_0,TRIGGER_RESET_MODE_1"
bitfld.long 0x00 12.--13. "LINE_BUFFER,Number of line buffers to be used while receiving data on the video port" "LINE_BUFFER_0,LINE_BUFFER_1,LINE_BUFFER_2,?"
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bitfld.long 0x00 11. "VP_VSYNC_POL,VP vertical synchronization signal polarity" "VP_VSYNC_POL_0,VP_VSYNC_POL_1"
bitfld.long 0x00 10. "VP_HSYNC_POL,VP horizontal synchronization signal polarity" "VP_HSYNC_POL_0,VP_HSYNC_POL_1"
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bitfld.long 0x00 9. "VP_DE_POL,VP data enable signal polarity" "VP_DE_POL_0,VP_DE_POL_1"
bitfld.long 0x00 8. "VP_CLK_POL,VP pixel clock polarity" "VP_CLK_POL_0,VP_CLK_POL_1"
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bitfld.long 0x00 6.--7. "VP_DATA_BUS_WIDTH,Defines the size of the video port data bus" "VP_DATA_BUS_WIDTH_0,VP_DATA_BUS_WIDTH_1,VP_DATA_BUS_WIDTH_2,?"
bitfld.long 0x00 5. "TRIGGER_RESET,Send the reset trigger to the peripheral" "TRIGGER_RESET_0,TRIGGER_RESET_1"
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bitfld.long 0x00 4. "VP_CLK_RATIO,The field indicates the clock ratio between VP_CLK and VP_PCLK" "VP_CLK_RATIO_0,VP_CLK_RATIO_1"
bitfld.long 0x00 3. "TX_FIFO_ARBITRATION,Defines the arbitration scheme for granting the virtual channel pending ready requests in the TX FIFO" "TX_FIFO_ARBITRATION_0,TX_FIFO_ARBITRATION_1"
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bitfld.long 0x00 2. "ECC_RX_EN,Enables the Error Correction Code check for the received header (short and long packets for all virtual channel ids)" "ECC_RX_EN_0,ECC_RX_EN_1"
bitfld.long 0x00 1. "CS_RX_EN,Enables the checksum check for the received payload (long packet only for all virtual channel ids)" "CS_RX_EN_0,CS_RX_EN_1"
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bitfld.long 0x00 0. "IF_EN,Enables the module" "IF_EN_0,IF_EN_1"
group.long 0x98++0x03
line.long 0x00 "DSI_CTRL2,Additional control bits for use with Video Port 2"
bitfld.long 0x00 12.--13. "LINE_BUFFER,Number of line buffers to be used while receiving data on the video port" "LINE_BUFFER_0,LINE_BUFFER_1,LINE_BUFFER_2,?"
bitfld.long 0x00 11. "VP_VSYNC_POL,VP vertical synchronization signal polarity" "VP_VSYNC_POL_0,VP_VSYNC_POL_1"
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bitfld.long 0x00 10. "VP_HSYNC_POL,VP horizontal synchronization signal polarity" "VP_HSYNC_POL_0,VP_HSYNC_POL_1"
bitfld.long 0x00 9. "VP_DE_POL,VP data enable signal polarity" "VP_DE_POL_0,VP_DE_POL_1"
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bitfld.long 0x00 8. "VP_CLK_POL,VP pixel clock polarity" "VP_CLK_POL_0,VP_CLK_POL_1"
bitfld.long 0x00 6.--7. "VP_DATA_BUS_WIDTH,Defines the size of the video port data bus" "VP_DATA_BUS_WIDTH_0,VP_DATA_BUS_WIDTH_1,VP_DATA_BUS_WIDTH_2,?"
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bitfld.long 0x00 4. "VP_CLK_RATIO,The field indicates the clock ratio between VP_CLK and VP_PCLK" "VP_CLK_RATIO_0,VP_CLK_RATIO_1"
rgroup.long 0x44++0x03
line.long 0x00 "DSI_GNQ,GENERIC PARAMETER REGISTER This register provide a way to read the generic parameters used in the design"
bitfld.long 0x00 24. "NB_VIDEO_PORTS,Number of video ports" "NB_VIDEO_PORTS_0_r,NB_VIDEO_PORTS_1_r"
bitfld.long 0x00 22.--23. "VP2_NB_LINE_BUFFER,Determines the number of video buffer lines associated to video port 2" "VP2_NB_LINE_BUFFER_0_r,VP2_NB_LINE_BUFFER_1_r,VP2_NB_LINE_BUFFER_2_r,?"
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bitfld.long 0x00 18.--20. "VP2_LINE_BUFFER_SIZE,Determines the video line buffer size associated to video port 2" "?,VP2_LINE_BUFFER_SIZE_1_r,VP2_LINE_BUFFER_SIZE_2_r,VP2_LINE_BUFFER_SIZE_3_r,VP2_LINE_BUFFER_SIZE_4_r,VP2_LINE_BUFFER_SIZE_5_r,VP2_LINE_BUFFER_SIZE_6_r,?"
bitfld.long 0x00 16.--17. "VP1_NB_LINE_BUFFER,Determines the number of video buffer lines associated to video port 1" "VP1_NB_LINE_BUFFER_0_r,VP1_NB_LINE_BUFFER_1_r,VP1_NB_LINE_BUFFER_2_r,?"
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bitfld.long 0x00 12.--14. "VP1_LINE_BUFFER_SIZE,Determines the video line buffer size associated to video port 1" "?,VP1_LINE_BUFFER_SIZE_1_r,VP1_LINE_BUFFER_SIZE_2_r,VP1_LINE_BUFFER_SIZE_3_r,VP1_LINE_BUFFER_SIZE_4_r,VP1_LINE_BUFFER_SIZE_5_r,VP1_LINE_BUFFER_SIZE_6_r,?"
bitfld.long 0x00 9.--11. "NB_DATA_LANES,Determines the number of data lanes supported by the DSI protocol engine" "?,NB_DATA_LANES_1_r,NB_DATA_LANES_2_r,NB_DATA_LANES_3_r,NB_DATA_LANES_4_r,?,?,?"
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bitfld.long 0x00 6.--8. "NB_DMA_REQUEST,Determines the number of DMA_REQ signals" "NB_DMA_REQUEST_0_r,NB_DMA_REQUEST_1_r,NB_DMA_REQUEST_2_r,NB_DMA_REQUEST_3_r,NB_DMA_REQUEST_4_r,?,?,?"
bitfld.long 0x00 3.--5. "RX_FIFODEPTH,Determines the data RX FIFO depth (32-bit words) on the slave port" "?,?,?,?,RX_FIFODEPTH_4_r,RX_FIFODEPTH_5_r,RX_FIFODEPTH_6_r,RX_FIFODEPTH_7_r"
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bitfld.long 0x00 0.--2. "TX_FIFODEPTH,Determines the data TX FIFO depth (33-bit words) on the slave port" "?,?,?,?,TX_FIFODEPTH_4_r,TX_FIFODEPTH_5_r,TX_FIFODEPTH_6_r,TX_FIFODEPTH_7_r"
group.long 0x1C++0x03
line.long 0x00 "DSI_IRQENABLE,INTERRUPT ENABLE REGISTER - This register associates one bit for each virtual channel in order to enable/disable each virtual channel individually"
bitfld.long 0x00 22. "TE1_LINE_IRQ_EN,The VSYNC and corresponding HSYNC pulses defined in DSI_TE_HSYNC_NUMBER for the line TE1 have been received by the DSI protocol engine and have trigger the start of the data transfer to the peripheral" "TE1_LINE_IRQ_EN_0,TE1_LINE_IRQ_EN_1"
bitfld.long 0x00 21. "TE0_LINE_IRQ_EN,The VSYNC and corresponding HSYNC pulses defined in DSI_TE_HSYNC_NUMBER for the line TE0 have been received by the DSI protocol engine and have trigger the start of the data transfer to the peripheral" "TE0_LINE_IRQ_EN_0,TE0_LINE_IRQ_EN_1"
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bitfld.long 0x00 20. "TA_TO_IRQ_EN,Turn-around Time out" "TA_TO_IRQ_EN_0,TA_TO_IRQ_EN_1"
bitfld.long 0x00 18. "SYNC_LOST_IRQ_EN,Synchronization with Video port is lost (Video mode only)" "SYNC_LOST_IRQ_EN_0,SYNC_LOST_IRQ_EN_1"
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bitfld.long 0x00 17. "ACK_TRIGGER_IRQ_EN,Acknowledge trigger" "ACK_TRIGGER_IRQ_EN_0,ACK_TRIGGER_IRQ_EN_1"
bitfld.long 0x00 16. "TE_TRIGGER_IRQ_EN,Tearing Effect trigger" "TE_TRIGGER_IRQ_EN_0,TE_TRIGGER_IRQ_EN_1"
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bitfld.long 0x00 15. "LP_RX_TO_IRQ_EN,Interrupt for Low Power Rx Time out" "LP_RX_TO_IRQ_EN_0,LP_RX_TO_IRQ_EN_1"
bitfld.long 0x00 14. "HS_TX_TO_IRQ_EN,Interrupt for High Speed Tx Time out" "HS_TX_TO_IRQ_EN_0,HS_TX_TO_IRQ_EN_1"
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bitfld.long 0x00 9. "PLL_RECAL_IRQ_EN,PLL recal event (assertion of DSIRecal signal from the DSI PLL Control module)" "PLL_RECAL_IRQ_EN_0,PLL_RECAL_IRQ_EN_1"
bitfld.long 0x00 8. "PLL_UNLOCK_IRQ_EN,PLL un-clock event (de-assertion of DSILock signal from the DSI PLL Control module)" "PLL_UNLOCK_IRQ_EN_0,PLL_UNLOCK_IRQ_EN_1"
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bitfld.long 0x00 7. "PLL_LOCK_IRQ_EN,PLL clock event (assertion of DSILock signal from the DSI PLL Control module)" "PLL_LOCK_IRQ_EN_0,PLL_LOCK_IRQ_EN_1"
bitfld.long 0x00 5. "RESYNCHRONIZATION_IRQ_EN,Video mode resynchronization" "RESYNCHRONIZATION_IRQ_EN_0,RESYNCHRONIZATION_IRQ_EN_1"
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bitfld.long 0x00 4. "WAKEUP_IRQ_EN,Wakeup" "WAKEUP_IRQ_EN_0,WAKEUP_IRQ_EN_1"
group.long 0x18++0x03
line.long 0x00 "DSI_IRQSTATUS,INTERRUPT STATUS REGISTER - All virtual channels + Complex I/O + PLL This register associates one bit for each virtual channel in order to determine which virtual channel has generated the interrupt"
bitfld.long 0x00 22. "TE1_LINE_IRQ,The VSYNC and corresponding HSYNC pulses defined in DSI_TE_HSYNC_NUMBER for the line TE1 have been received by the DSI protocol engine and have trigger the start of the data transfer to the peripheral" "TE1_LINE_IRQ_0,TE1_LINE_IRQ_1"
bitfld.long 0x00 21. "TE0_LINE_IRQ,The VSYNC and corresponding HSYNC pulses defined in DSI_TE_HSYNC_NUMBER for the line TE0 have been received by the DSI protocol engine and have trigger the start of the data transfer to the peripheral" "TE0_LINE_IRQ_0,TE0_LINE_IRQ_1"
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bitfld.long 0x00 20. "TA_TO_IRQ,Turn-around Time out" "TA_TO_IRQ_0,TA_TO_IRQ_1"
bitfld.long 0x00 18. "SYNC_LOST_IRQ,Synchronization with Video port is lost (Video mode only)" "SYNC_LOST_IRQ_0,SYNC_LOST_IRQ_1"
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bitfld.long 0x00 17. "ACK_TRIGGER_IRQ,Acknowledge Trigger" "ACK_TRIGGER_IRQ_0,ACK_TRIGGER_IRQ_1"
bitfld.long 0x00 16. "TE_TRIGGER_IRQ,Tearing Effect Trigger" "TE_TRIGGER_IRQ_0,TE_TRIGGER_IRQ_1"
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bitfld.long 0x00 15. "LP_RX_TO_IRQ,Interrupt for Low Power Rx Time out" "LP_RX_TO_IRQ_0,LP_RX_TO_IRQ_1"
bitfld.long 0x00 14. "HS_TX_TO_IRQ,Interrupt for High Speed Tx Time out" "HS_TX_TO_IRQ_0,HS_TX_TO_IRQ_1"
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rbitfld.long 0x00 10. "COMPLEXIO_ERR_IRQ,Error signaling from Complex I/O: status of the complex I/O errors received from the complex I/O (events are defined inDSI_COMPLEXIO_IRQSTATUS)" "COMPLEXIO_ERR_IRQ_0_r,COMPLEXIO_ERR_IRQ_1_r"
bitfld.long 0x00 9. "PLL_RECAL_IRQ,PLL recal event (assertion of DSIRecal signal from the DSI PLL Control module)" "PLL_RECAL_IRQ_0,PLL_RECAL_IRQ_1"
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bitfld.long 0x00 8. "PLL_UNLOCK_IRQ,PLL un-clock event (de-assertion of DSILock signal from the DSI PLL Control module)" "PLL_UNLOCK_IRQ_0,PLL_UNLOCK_IRQ_1"
bitfld.long 0x00 7. "PLL_LOCK_IRQ,PLL clock event (assertion of DSILock signal from the DSI PLL Control module)" "PLL_LOCK_IRQ_0,PLL_LOCK_IRQ_1"
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bitfld.long 0x00 5. "RESYNCHRONIZATION_IRQ,Video mode resynchronization indicates to the software users that the video port works but the configuration of the timings for the display controller (DISPC) and for DSI Protocol engine may need to be modified to avoid the.." "RESYNCHRONIZATION_IRQ_0,RESYNCHRONIZATION_IRQ_1"
bitfld.long 0x00 4. "WAKEUP_IRQ,Wakeup" "WAKEUP_IRQ_0,WAKEUP_IRQ_1"
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rbitfld.long 0x00 3. "VIRTUAL_CHANNEL3_IRQ,Virtual channel" "VIRTUAL_CHANNEL3_IRQ_0_r,VIRTUAL_CHANNEL3_IRQ_1_r"
rbitfld.long 0x00 2. "VIRTUAL_CHANNEL2_IRQ,Virtual channel" "VIRTUAL_CHANNEL2_IRQ_0_r,VIRTUAL_CHANNEL2_IRQ_1_r"
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rbitfld.long 0x00 1. "VIRTUAL_CHANNEL1_IRQ,Virtual channel" "VIRTUAL_CHANNEL1_IRQ_0_r,VIRTUAL_CHANNEL1_IRQ_1_r"
rbitfld.long 0x00 0. "VIRTUAL_CHANNEL0_IRQ,Virtual channel" "VIRTUAL_CHANNEL0_IRQ_0_r,VIRTUAL_CHANNEL0_IRQ_1_r"
rgroup.long 0x00++0x03
line.long 0x00 "DSI_REVISION,IP Revision"
rgroup.long 0x7C++0x03
line.long 0x00 "DSI_RX_FIFO_VC_FULLNESS,Defines the fullness of each space allocated for each virtual channel"
hexmask.long.byte 0x00 24.--31. 1. "VC3_FIFO_FULLNESS,Fullness of the FIFO allocated for virtual channel 3.The valid values are from 0 toDSI_GNQ[5:3] RX_FIFODEPTH-1 corresponding to 1x33-bit ...up to DSI_GNQ[5:3] RX_FIFODEPTH x33-bit"
hexmask.long.byte 0x00 16.--23. 1. "VC2_FIFO_FULLNESS,Fullness of the FIFO allocated for virtual channel 2.The valid values are from 0 toDSI_GNQ[5:3] RX_FIFODEPTH-1 corresponding to 1x33-bit ...up to DSI_GNQ[5:3] RX_FIFODEPTH x33-bit"
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hexmask.long.byte 0x00 8.--15. 1. "VC1_FIFO_FULLNESS,Fullness of the FIFO allocated for virtual channel 1.The valid values are from 0 toDSI_GNQ[5:3] RX_FIFODEPTH-1 corresponding to 1x33-bit ...up to DSI_GNQ[5:3] RX_FIFODEPTH x33-bit"
hexmask.long.byte 0x00 0.--7. 1. "VC0_FIFO_FULLNESS,Fullness of the FIFO allocated for virtual channel 0.The valid values are from 0 toDSI_GNQ[5:3] RX_FIFODEPTH-1 corresponding to 1x33-bit ...up to DSI_GNQ[5:3] RX_FIFODEPTH x33-bit"
group.long 0x74++0x03
line.long 0x00 "DSI_RX_FIFO_VC_SIZE,Defines the corresponding memory entries allocated for each virtual channel and the addresses"
bitfld.long 0x00 28.--31. "VC3_FIFO_SIZE,Size of the FIFO allocated for virtual channel 3" "VC3_FIFO_SIZE_0,VC3_FIFO_SIZE_1,VC3_FIFO_SIZE_2,VC3_FIFO_SIZE_3,VC3_FIFO_SIZE_4,VC3_FIFO_SIZE_5,VC3_FIFO_SIZE_6,VC3_FIFO_SIZE_7,VC3_FIFO_SIZE_8,VC3_FIFO_SIZE_9,VC3_FIFO_SIZE_10,VC3_FIFO_SIZE_11,VC3_FIFO_SIZE_12,VC3_FIFO_SIZE_13,VC3_FIFO_SIZE_14,VC3_FIFO_SIZE_15"
bitfld.long 0x00 24.--26. "VC3_FIFO_ADD,Address of the space allocated in the FIFO for virtual channel 3" "VC3_FIFO_ADD_0,VC3_FIFO_ADD_1,VC3_FIFO_ADD_2,VC3_FIFO_ADD_3,VC3_FIFO_ADD_4,VC3_FIFO_ADD_5,VC3_FIFO_ADD_6,VC3_FIFO_ADD_7"
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bitfld.long 0x00 20.--23. "VC2_FIFO_SIZE,Size of the FIFO allocated for virtual channel 2" "VC2_FIFO_SIZE_0,VC2_FIFO_SIZE_1,VC2_FIFO_SIZE_2,VC2_FIFO_SIZE_3,VC2_FIFO_SIZE_4,VC2_FIFO_SIZE_5,VC2_FIFO_SIZE_6,VC2_FIFO_SIZE_7,VC2_FIFO_SIZE_8,VC2_FIFO_SIZE_9,VC2_FIFO_SIZE_10,VC2_FIFO_SIZE_11,VC2_FIFO_SIZE_12,VC2_FIFO_SIZE_13,VC2_FIFO_SIZE_14,VC2_FIFO_SIZE_15"
bitfld.long 0x00 16.--18. "VC2_FIFO_ADD,Address of the space allocated in the FIFO for virtual channel 2" "VC2_FIFO_ADD_0,VC2_FIFO_ADD_1,VC2_FIFO_ADD_2,VC2_FIFO_ADD_3,VC2_FIFO_ADD_4,VC2_FIFO_ADD_5,VC2_FIFO_ADD_6,VC2_FIFO_ADD_7"
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bitfld.long 0x00 12.--15. "VC1_FIFO_SIZE,Size of the FIFO allocated for virtual channel 1" "VC1_FIFO_SIZE_0,VC1_FIFO_SIZE_1,VC1_FIFO_SIZE_2,VC1_FIFO_SIZE_3,VC1_FIFO_SIZE_4,VC1_FIFO_SIZE_5,VC1_FIFO_SIZE_6,VC1_FIFO_SIZE_7,VC1_FIFO_SIZE_8,VC1_FIFO_SIZE_9,VC1_FIFO_SIZE_10,VC1_FIFO_SIZE_11,VC1_FIFO_SIZE_12,VC1_FIFO_SIZE_13,VC1_FIFO_SIZE_14,VC1_FIFO_SIZE_15"
bitfld.long 0x00 8.--10. "VC1_FIFO_ADD,Address of the space allocated in the FIFO for virtual channel 1" "VC1_FIFO_ADD_0,VC1_FIFO_ADD_1,VC1_FIFO_ADD_2,VC1_FIFO_ADD_3,VC1_FIFO_ADD_4,VC1_FIFO_ADD_5,VC1_FIFO_ADD_6,VC1_FIFO_ADD_7"
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bitfld.long 0x00 4.--7. "VC0_FIFO_SIZE,Size of the FIFO allocated for virtual channel 0" "VC0_FIFO_SIZE_0,VC0_FIFO_SIZE_1,VC0_FIFO_SIZE_2,VC0_FIFO_SIZE_3,VC0_FIFO_SIZE_4,VC0_FIFO_SIZE_5,VC0_FIFO_SIZE_6,VC0_FIFO_SIZE_7,VC0_FIFO_SIZE_8,VC0_FIFO_SIZE_9,VC0_FIFO_SIZE_10,VC0_FIFO_SIZE_11,VC0_FIFO_SIZE_12,VC0_FIFO_SIZE_13,VC0_FIFO_SIZE_14,VC0_FIFO_SIZE_15"
bitfld.long 0x00 0.--2. "VC0_FIFO_ADD,Address of the space allocated in the FIFO for virtual channel 0" "VC0_FIFO_ADD_0,VC0_FIFO_ADD_1,VC0_FIFO_ADD_2,VC0_FIFO_ADD_3,VC0_FIFO_ADD_4,VC0_FIFO_ADD_5,VC0_FIFO_ADD_6,VC0_FIFO_ADD_7"
group.long 0x94++0x03
line.long 0x00 "DSI_STOPCLK_TIMING,Number of functional clock cycles to wait for TXBYTECLKHS to stop/start after change in DSIStopClk signal"
hexmask.long.byte 0x00 0.--7. 1. "DSI_STOPCLK_LATENCY,Clock gating latency from DSI Protocol to TXBYTECLKHS"
group.long 0x10++0x07
line.long 0x00 "DSI_SYSCONFIG,SYSTEM CONFIGURATION REGISTER"
bitfld.long 0x00 8.--9. "CLOCKACTIVITY,Clocks activity during wake up mode period" "CLOCKACTIVITY_0,CLOCKACTIVITY_1,CLOCKACTIVITY_2,CLOCKACTIVITY_3"
bitfld.long 0x00 3.--4. "SIDLEMODE,Slave interface power management Idle req/ack control" "SIDLEMODE_0,SIDLEMODE_1,SIDLEMODE_2,SIDLEMODE_3"
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bitfld.long 0x00 2. "ENWAKEUP,Wake-up mode enable bit" "ENWAKEUP_0,ENWAKEUP_1"
bitfld.long 0x00 1. "SOFT_RESET,Software reset" "SOFT_RESET_0,SOFT_RESET_1"
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bitfld.long 0x00 0. "AUTO_IDLE,Internal interface gating strategy" "AUTO_IDLE_0,AUTO_IDLE_1"
line.long 0x04 "DSI_SYSSTATUS,SYSTEM STATUS REGISTER This register provides status information about the module. excluding the interrupt status register"
bitfld.long 0x04 0. "RESET_DONE,Internal reset monitoring" "RESET_DONE_0_r,RESET_DONE_1_r"
group.long 0x58++0x07
line.long 0x00 "DSI_TIMING1,TIMING1 REGISTER This register controls the DSI Protocol Engine module timers"
bitfld.long 0x00 31. "TA_TO,Enables the turn-around timer" "TA_TO_0,TA_TO_1"
bitfld.long 0x00 30. "TA_TO_X16,Multiplication factor for the number of DSI_CLK functional clocks cycles defined in TA_TO_COUNTER bit field" "TA_TO_X16_0,TA_TO_X16_1"
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bitfld.long 0x00 29. "TA_TO_X8,Multiplication factor for the number of DSI_CLK functional clock cycles defined in TA_TO_COUNTER bit field" "TA_TO_X8_0,TA_TO_X8_1"
hexmask.long.word 0x00 16.--28. 1. "TA_TO_COUNTER,Turn around counter"
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bitfld.long 0x00 15. "FORCE_TX_STOP_MODE_IO,Control of ForceTxStopMode signal" "FORCE_TX_STOP_MODE_IO_0,FORCE_TX_STOP_MODE_IO_1"
bitfld.long 0x00 14. "STOP_STATE_X16_IO,Multiplication factor for the number of DSI_CLK functional clock cycles defined in STOP_STATE_COUNTER_IO bit field" "STOP_STATE_X16_IO_0,STOP_STATE_X16_IO_1"
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bitfld.long 0x00 13. "STOP_STATE_X4_IO,Multiplication factor for the number of DSI_CLK functional clock cycles defined in STOP_STATE_COUNTER_IO bit field" "STOP_STATE_X4_IO_0,STOP_STATE_X4_IO_1"
hexmask.long.word 0x00 0.--12. 1. "STOP_STATE_COUNTER_IO,Stop state counter"
line.long 0x04 "DSI_TIMING2,TIMING2 REGISTER This register controls the DSI Protocol Engine module timers"
bitfld.long 0x04 31. "HS_TX_TO,Enables the HS TX timer" "HS_TX_TO_0,HS_TX_TO_1"
bitfld.long 0x04 30. "HS_TX_TO_X64,Multiplication factor for the number of BYTE_CLK functional clock cycles defined in HS_TX_COUNTER bit field" "HS_TX_TO_X64_0,HS_TX_TO_X64_1"
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bitfld.long 0x04 29. "HS_TX_TO_X16,Multiplication factor for the number of BYTE_CLK functional clock cycles defined in HS_TX_COUNTER bit" "HS_TX_TO_X16_0,HS_TX_TO_X16_1"
hexmask.long.word 0x04 16.--28. 1. "HS_TX_TO_COUNTER,HS_TX_TIMER counter"
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bitfld.long 0x04 15. "LP_RX_TO,Enables the LP RX timer" "LP_RX_TO_0,LP_RX_TO_1"
bitfld.long 0x04 14. "LP_RX_TO_X16,Multiplication factor for the number of DSI_FCLK clock cycles defined in LP_RX_COUNTER bit field" "LP_RX_TO_X16_0,LP_RX_TO_X16_1"
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bitfld.long 0x04 13. "LP_RX_TO_X4,Multiplication factor for the number of DSI_FCLK clock cycles defined in LP_RX_COUNTER bit" "LP_RX_TO_X4_0,LP_RX_TO_X4_1"
hexmask.long.word 0x04 0.--12. 1. "LP_RX_TO_COUNTER,LP_RX_TIMER counter"
rgroup.long 0x84++0x03
line.long 0x00 "DSI_TX_FIFO_VC_EMPTINESS,Defines the emptiness of each space allocated for each virtual channel"
hexmask.long.byte 0x00 24.--31. 1. "VC3_FIFO_EMPTINESS,Emptiness of the FIFO allocated for virtual channel 3.The valid values are from 0 toDSI_GNQ[2:0] TX_FIFODEPTH-1 corresponding to 1x33-bit ...up to DSI_GNQ[2:0] TX_FIFODEPTH x33-bit"
hexmask.long.byte 0x00 16.--23. 1. "VC2_FIFO_EMPTINESS,Emptiness of the FIFO allocated for virtual channel 2.The valid values are from 0 toDSI_GNQ[2:0] TX_FIFODEPTH-1 corresponding to 1x33-bit ...up to DSI_GNQ[2:0] TX_FIFODEPTH x33-bit"
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hexmask.long.byte 0x00 8.--15. 1. "VC1_FIFO_EMPTINESS,Emptiness of the FIFO allocated for virtual channel 1.The valid values are from 0 toDSI_GNQ[2:0] TX_FIFODEPTH-1 corresponding to 1x33-bit ...up to DSI_GNQ[2:0] TX_FIFODEPTH x33-bit"
hexmask.long.byte 0x00 0.--7. 1. "VC0_FIFO_EMPTINESS,Emptiness of the FIFO allocated for virtual channel 0.The valid values are from 0 toDSI_GNQ[2:0] TX_FIFODEPTH-1 corresponding to 1x33-bit ...up to DSI_GNQ[2:0] TX_FIFODEPTH x33-bit"
group.long 0x70++0x03
line.long 0x00 "DSI_TX_FIFO_VC_SIZE,Defines the corresponding memory entries allocated for each virtual channel"
bitfld.long 0x00 28.--31. "VC3_FIFO_SIZE,Size of the FIFO allocated for virtual channel 3" "VC3_FIFO_SIZE_0,VC3_FIFO_SIZE_1,VC3_FIFO_SIZE_2,VC3_FIFO_SIZE_3,VC3_FIFO_SIZE_4,VC3_FIFO_SIZE_5,VC3_FIFO_SIZE_6,VC3_FIFO_SIZE_7,VC3_FIFO_SIZE_8,VC3_FIFO_SIZE_9,VC3_FIFO_SIZE_10,VC3_FIFO_SIZE_11,VC3_FIFO_SIZE_12,VC3_FIFO_SIZE_13,VC3_FIFO_SIZE_14,VC3_FIFO_SIZE_15"
bitfld.long 0x00 24.--26. "VC3_FIFO_ADD,Address of the space allocated in the FIFO for virtual channel 3" "VC3_FIFO_ADD_0,VC3_FIFO_ADD_1,VC3_FIFO_ADD_2,VC3_FIFO_ADD_3,VC3_FIFO_ADD_4,VC3_FIFO_ADD_5,VC3_FIFO_ADD_6,VC3_FIFO_ADD_7"
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bitfld.long 0x00 20.--23. "VC2_FIFO_SIZE,Size of the FIFO allocated for virtual channel 2" "VC2_FIFO_SIZE_0,VC2_FIFO_SIZE_1,VC2_FIFO_SIZE_2,VC2_FIFO_SIZE_3,VC2_FIFO_SIZE_4,VC2_FIFO_SIZE_5,VC2_FIFO_SIZE_6,VC2_FIFO_SIZE_7,VC2_FIFO_SIZE_8,VC2_FIFO_SIZE_9,VC2_FIFO_SIZE_10,VC2_FIFO_SIZE_11,VC2_FIFO_SIZE_12,VC2_FIFO_SIZE_13,VC2_FIFO_SIZE_14,VC2_FIFO_SIZE_15"
bitfld.long 0x00 16.--18. "VC2_FIFO_ADD,Address of the space allocated in the FIFO for virtual channel 2" "VC2_FIFO_ADD_0,VC2_FIFO_ADD_1,VC2_FIFO_ADD_2,VC2_FIFO_ADD_3,VC2_FIFO_ADD_4,VC2_FIFO_ADD_5,VC2_FIFO_ADD_6,VC2_FIFO_ADD_7"
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bitfld.long 0x00 12.--15. "VC1_FIFO_SIZE,Size of the FIFO allocated for virtual channel 1" "VC1_FIFO_SIZE_0,VC1_FIFO_SIZE_1,VC1_FIFO_SIZE_2,VC1_FIFO_SIZE_3,VC1_FIFO_SIZE_4,VC1_FIFO_SIZE_5,VC1_FIFO_SIZE_6,VC1_FIFO_SIZE_7,VC1_FIFO_SIZE_8,VC1_FIFO_SIZE_9,VC1_FIFO_SIZE_10,VC1_FIFO_SIZE_11,VC1_FIFO_SIZE_12,VC1_FIFO_SIZE_13,VC1_FIFO_SIZE_14,VC1_FIFO_SIZE_15"
bitfld.long 0x00 8.--10. "VC1_FIFO_ADD,Address of the space allocated in the FIFO for virtual channel 1" "VC1_FIFO_ADD_0,VC1_FIFO_ADD_1,VC1_FIFO_ADD_2,VC1_FIFO_ADD_3,VC1_FIFO_ADD_4,VC1_FIFO_ADD_5,VC1_FIFO_ADD_6,VC1_FIFO_ADD_7"
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bitfld.long 0x00 4.--7. "VC0_FIFO_SIZE,Size of the FIFO allocated for virtual channel 0" "VC0_FIFO_SIZE_0,VC0_FIFO_SIZE_1,VC0_FIFO_SIZE_2,VC0_FIFO_SIZE_3,VC0_FIFO_SIZE_4,VC0_FIFO_SIZE_5,VC0_FIFO_SIZE_6,VC0_FIFO_SIZE_7,VC0_FIFO_SIZE_8,VC0_FIFO_SIZE_9,VC0_FIFO_SIZE_10,VC0_FIFO_SIZE_11,VC0_FIFO_SIZE_12,VC0_FIFO_SIZE_13,VC0_FIFO_SIZE_14,VC0_FIFO_SIZE_15"
bitfld.long 0x00 0.--2. "VC0_FIFO_ADD,Address of the space allocated in the FIFO for virtual channel 0" "VC0_FIFO_ADD_0,VC0_FIFO_ADD_1,VC0_FIFO_ADD_2,VC0_FIFO_ADD_3,VC0_FIFO_ADD_4,VC0_FIFO_ADD_5,VC0_FIFO_ADD_6,VC0_FIFO_ADD_7"
group.long 0x60++0x0B
line.long 0x00 "DSI_VM_TIMING1,VIDEO MODE TIMING REGISTER This register defines the video mode timing"
hexmask.long.byte 0x00 24.--31. 1. "HSA,Defines the horizontal Sync active period used in video mode in number of byte clock cycles (TXBYTECLKHS clock) The supported values are from 0 to 255"
hexmask.long.word 0x00 12.--23. 1. "HFP,Defines the horizontal front porch used in video mode in number of byte clock cycles (TXBYTECLKHS clock) The supported values are from 0 to 4095"
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hexmask.long.word 0x00 0.--11. 1. "HBP,Defines the horizontal back porch used in video mode in number of byte clock cycles (TXBYTECLKHS clock) The supported values are from 0 to 4095"
line.long 0x04 "DSI_VM_TIMING2,VIDEO MODE TIMING REGISTER This register defines the video mode timing"
bitfld.long 0x04 24.--27. "WINDOW_SYNC,Number of BYTE clock cycles for the synchronization window" "WINDOW_SYNC_0,WINDOW_SYNC_1,WINDOW_SYNC_2,WINDOW_SYNC_3,WINDOW_SYNC_4,WINDOW_SYNC_5,WINDOW_SYNC_6,WINDOW_SYNC_7,WINDOW_SYNC_8,WINDOW_SYNC_9,WINDOW_SYNC_10,WINDOW_SYNC_11,WINDOW_SYNC_12,WINDOW_SYNC_13,WINDOW_SYNC_14,WINDOW_SYNC_15"
hexmask.long.byte 0x04 16.--23. 1. "VSA,Defines the vertical Sync active period used in video mode in number of lines"
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hexmask.long.byte 0x04 8.--15. 1. "VFP,Defines the vertical front porch used in video mode in number of lines"
hexmask.long.byte 0x04 0.--7. 1. "VBP,Defines the vertical back porch used in video mode in number of lines"
line.long 0x08 "DSI_VM_TIMING3,VIDEO MODE TIMING REGISTER This register defines the video mode timing"
hexmask.long.word 0x08 16.--31. 1. "TL,Defines the number of length of the line in video mode in number of byte clock cycles (TXBYTECLKHS clock) The supported values are from 0 to 8192"
hexmask.long.word 0x08 0.--15. 1. "VACT,Defines the number of active lines used in video mode"
group.long 0x80++0x03
line.long 0x00 "DSI_VM_TIMING4,VIDEO MODE TIMING REGISTER This register defines the video mode timing"
hexmask.long.byte 0x00 16.--23. 1. "HSA_HS_INTERLEAVING,Defines the number of TXBYTECLKHS clock cycles that can be used for interleaving High Speed command mode packet into Video Mode stream during HSA blanking period"
hexmask.long.byte 0x00 8.--15. 1. "HFP_HS_INTERLEAVING,Defines the number of TXBYTECLKHS clock cycles that can be used for interleaving High Speed command mode packet into Video Mode stream during HFP blanking period"
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hexmask.long.byte 0x00 0.--7. 1. "HBP_HS_INTERLEAVING,Defines the number of TXBYTECLKHS clock cycles that can be used for interleaving High Speed command mode packet into Video Mode stream during HBP blanking period"
group.long 0x88++0x0B
line.long 0x00 "DSI_VM_TIMING5,VIDEO MODE TIMING REGISTER This register defines the video mode timing"
hexmask.long.byte 0x00 16.--23. 1. "HSA_LP_INTERLEAVING,Defines the number of bytes of Low Power command mode packets that can be sent on PPI link during HSA blanking period"
hexmask.long.byte 0x00 8.--15. 1. "HFP_LP_INTERLEAVING,Defines the number of bytes of Low Power command mode packets that can be sent on PPI link during HFP blanking period"
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hexmask.long.byte 0x00 0.--7. 1. "HBP_LP_INTERLEAVING,Defines the number of bytes of Low Power command mode packets that can be sent on PPI link during HBP blanking period"
line.long 0x04 "DSI_VM_TIMING6,VIDEO MODE TIMING REGISTER This register defines the video mode timing"
hexmask.long.word 0x04 16.--31. 1. "BL_HS_INTERLEAVING,Defines the number of TXBYTECLKHS clock cycles that can be used for interleaving High Speed command mode packet into Video Mode stream during blanking periods during VSA VBP VFP periods inside one video frame on PPI link"
hexmask.long.word 0x04 0.--15. 1. "BL_LP_INTERLEAVING,Defines the maximum number of bytes of Low Power command mode packets that can be sent on PPI link during blanking periods during VSA VBP or VFP periods inside one video frame on PPI link"
line.long 0x08 "DSI_VM_TIMING7,Defines the minimum number of HS bytes clock cycles that are required to allow for the delays in entering and exiting HS mode"
hexmask.long.word 0x08 16.--31. 1. "ENTER_HS_MODE_LATENCY,Defines the number of TXBYTECLKHS clock cycles necessary for entering to HS mode"
hexmask.long.word 0x08 0.--15. 1. "EXIT_HS_MODE_LATENCY,Defines the number of TXBYTECLKHS clock cycles necessary for exiting from HS mode"
group.long 0x9C++0x03
line.long 0x00 "DSI_VM_TIMING8,VIDEO MODE TIMING REGISTER This register defines the video mode timing"
bitfld.long 0x00 0.--1. "HFPX,Extension to the HFP register" "HFPX_0,HFPX_1,HFPX_2,HFPX_3"
tree.end
tree "DSI2_PROTOCOL_ENGINE_L3"
base ansd:0x58005000
tree "Channel_0"
group.long 0xA8++0x03
line.long 0x00 "DSI_TE_HSYNC_NUMBER_j_0,The register configures the number of HSYNC to synchronize the beginning of the transfer on DSI link based on the number of HSYNC pulse received on the TE line"
hexmask.long.word 0x00 0.--10. 1. "LINE_NUMBER,Programmable line number Line number from 0 to 2047"
group.long 0xA0++0x07
line.long 0x00 "DSI_TE_HSYNC_WIDTH_j_0,The register configures the TE HSYNC minimum pulse width for TE0 and TE1 CMOS signals The input TE signal is asynchronous and needs to be resynchronizred to DSI_CLK clock domain"
hexmask.long.word 0x00 8.--19. 1. "MIN_HSYNC_PULSE_WIDTH,Programmable min HSYNC pulse width Minimum HSYNC pulse width"
line.long 0x04 "DSI_TE_VSYNC_WIDTH_j_0,The register configures the TE VSYNC minimum pulse width for TE0 and TE1 CMOS signals The input TE signal is asynchronous and needs to be resynchronizred to DSI_CLK clock domain"
hexmask.long.word 0x04 8.--19. 1. "MIN_VSYNC_PULSE_WIDTH,Programmable min VSYNC pulse width Minimum VSYNC pulse width"
group.long 0x100++0x03
line.long 0x00 "DSI_VC_CTRL_i_0,CONTROL REGISTER - Virtual channel This register controls the virtual channel"
bitfld.long 0x00 31. "DCS_CMD_CODE,DCS command code value to insert between header and video port or Interface slave data when enabled by DCS_CMD_ENABLE (only when TE mechanism is not used otherwise the bit field DCS_CMD_CODE is ignored by DSI protocol engine)" "DCS_CMD_CODE_0,DCS_CMD_CODE_1"
bitfld.long 0x00 30. "DCS_CMD_ENABLE,Enables automatic insertion of DCS command codes when data is sourced by the video port" "DCS_CMD_ENABLE_0,DCS_CMD_ENABLE_1"
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bitfld.long 0x00 27.--29. "DMA_RX_REQ_NB,Selection of the use of the DMA request (associated to the RX FIFO)" "DMA_RX_REQ_NB_0,DMA_RX_REQ_NB_1,DMA_RX_REQ_NB_2,DMA_RX_REQ_NB_3,DMA_RX_REQ_NB_4,?,?,?"
bitfld.long 0x00 24.--26. "DMA_RX_THRESHOLD,Defines the threshold value for the DMA request (associated to the RX FIFO)" "DMA_RX_THRESHOLD_0,DMA_RX_THRESHOLD_1,DMA_RX_THRESHOLD_2,DMA_RX_THRESHOLD_3,DMA_RX_THRESHOLD_4,DMA_RX_THRESHOLD_5,?,?"
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bitfld.long 0x00 21.--23. "DMA_TX_REQ_NB,Selection of the use of the DMA request (associated to the TX FIFO)" "DMA_TX_REQ_NB_0,DMA_TX_REQ_NB_1,DMA_TX_REQ_NB_2,DMA_TX_REQ_NB_3,DMA_TX_REQ_NB_4,?,?,?"
rbitfld.long 0x00 20. "RX_FIFO_NOT_EMPTY,FIFO status in command mode" "RX_FIFO_NOT_EMPTY_0_r,RX_FIFO_NOT_EMPTY_1_r"
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bitfld.long 0x00 17.--19. "DMA_TX_THRESHOLD,Defines the threshold value for the DMA request (associated to the TX FIFO)" "DMA_TX_THRESHOLD_0,DMA_TX_THRESHOLD_1,DMA_TX_THRESHOLD_2,DMA_TX_THRESHOLD_3,DMA_TX_THRESHOLD_4,DMA_TX_THRESHOLD_5,?,?"
rbitfld.long 0x00 16. "TX_FIFO_FULL,FIFO status in command mode" "TX_FIFO_FULL_0_r,TX_FIFO_FULL_1_r"
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rbitfld.long 0x00 15. "VC_BUSY,Indicates if previously scheduled activities (packets BTA) are still being processed" "VC_BUSY_0_r,VC_BUSY_1_r"
rbitfld.long 0x00 14. "PP_BUSY,Ping-pong buffer busy status" "PP_BUSY_0_r,PP_BUSY_1_r"
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bitfld.long 0x00 13. "VP_SOURCE,Selection between video port 1 and video port 2" "VP_SOURCE_0,VP_SOURCE_1"
bitfld.long 0x00 12. "RGB565_ORDER,Byte order for RBG565" "RGB565_ORDER_0,RGB565_ORDER_1"
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bitfld.long 0x00 10.--11. "OCP_DATA_BUS_WIDTH,Defines the size of the Interface data bus" "OCP_DATA_BUS_WIDTH_0,OCP_DATA_BUS_WIDTH_1,OCP_DATA_BUS_WIDTH_2,OCP_DATA_BUS_WIDTH_3"
bitfld.long 0x00 9. "MODE_SPEED,Selection of the mode" "MODE_SPEED_0,MODE_SPEED_1"
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bitfld.long 0x00 8. "ECC_TX_EN,Enables the Error Correction Code generation for the transmit header (short and long packets)" "ECC_TX_EN_0,ECC_TX_EN_1"
bitfld.long 0x00 7. "CS_TX_EN,Enables the checksum generation for the transmit payload (long packet only)" "CS_TX_EN_0,CS_TX_EN_1"
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bitfld.long 0x00 6. "BTA_EN,Send the bus turn around to the peripheral" "BTA_EN_0,BTA_EN_1"
rbitfld.long 0x00 5. "TX_FIFO_NOT_EMPTY,FIFO status" "TX_FIFO_NOT_EMPTY_0_r,TX_FIFO_NOT_EMPTY_1_r"
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bitfld.long 0x00 4. "MODE,Selection of the mode" "MODE_0,MODE_1"
bitfld.long 0x00 3. "BTA_LONG_EN,Enables the automatic bus turn-around after completion of each long packet transmission" "BTA_LONG_EN_0,BTA_LONG_EN_1"
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bitfld.long 0x00 2. "BTA_SHORT_EN,Enables the automatic bus turn-around after completion of each short packet transmission" "BTA_SHORT_EN_0,BTA_SHORT_EN_1"
bitfld.long 0x00 1. "SOURCE,Selection of the source between Interface and the Video port(s) (used by the hardware only if MODE=COMMAND MODE (0x0) otherwise it is ignored)" "SOURCE_0,SOURCE_1"
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bitfld.long 0x00 0. "VC_EN,Enables the virtual channel" "VC_EN_0,VC_EN_1"
group.long 0x11C++0x03
line.long 0x00 "DSI_VC_IRQENABLE_i_0,INTERRUPT ENABLE REGISTER - Virtual channel This register regroups all the events related to virtual channel"
bitfld.long 0x00 8. "PP_BUSY_CHANGE_IRQ_EN,Video Port ping-pong buffer busy status" "PP_BUSY_CHANGE_IRQ_EN_0,PP_BUSY_CHANGE_IRQ_EN_1"
bitfld.long 0x00 7. "FIFO_TX_UDF_IRQ_EN,FIFO underflow enable" "FIFO_TX_UDF_IRQ_EN_0,FIFO_TX_UDF_IRQ_EN_1"
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bitfld.long 0x00 6. "ECC_NO_CORRECTION_IRQ_EN,ECC error (short and long packets)" "ECC_NO_CORRECTION_IRQ_EN_0,ECC_NO_CORRECTION_IRQ_EN_1"
bitfld.long 0x00 5. "BTA_IRQ_EN,Virtual channel -Bus turn around reception" "BTA_IRQ_EN_0,BTA_IRQ_EN_1"
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bitfld.long 0x00 4. "FIFO_RX_OVF_IRQ_EN,FIFO overflow enable" "FIFO_RX_OVF_IRQ_EN_0,FIFO_RX_OVF_IRQ_EN_1"
bitfld.long 0x00 3. "FIFO_TX_OVF_IRQ_EN,FIFO overflow enable" "FIFO_TX_OVF_IRQ_EN_0,FIFO_TX_OVF_IRQ_EN_1"
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bitfld.long 0x00 2. "PACKET_SENT_IRQ_EN,Indicates that a packet has been sent" "PACKET_SENT_IRQ_EN_0,PACKET_SENT_IRQ_EN_1"
bitfld.long 0x00 1. "ECC_CORRECTION_IRQ_EN,Virtual" "ECC_CORRECTION_IRQ_EN_0,ECC_CORRECTION_IRQ_EN_1"
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bitfld.long 0x00 0. "CS_IRQ_EN,Virtual" "CS_IRQ_EN_0,CS_IRQ_EN_1"
group.long 0x118++0x03
line.long 0x00 "DSI_VC_IRQSTATUS_i_0,INTERRUPT STATUS REGISTER - Virtual channel This register regroups all the events related to the virtual channel"
bitfld.long 0x00 8. "PP_BUSY_CHANGE_IRQ,Video Port ping-pong buffer busy status" "PP_BUSY_CHANGE_IRQ_0,PP_BUSY_CHANGE_IRQ_1"
bitfld.long 0x00 7. "FIFO_TX_UDF_IRQ,FIFO underflow status" "FIFO_TX_UDF_IRQ_0,FIFO_TX_UDF_IRQ_1"
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bitfld.long 0x00 6. "ECC_NO_CORRECTION_IRQ,ECC error status (short and long packets)" "ECC_NO_CORRECTION_IRQ_0,ECC_NO_CORRECTION_IRQ_1"
bitfld.long 0x00 5. "BTA_IRQ,Virtual" "BTA_IRQ_0,BTA_IRQ_1"
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bitfld.long 0x00 4. "FIFO_RX_OVF_IRQ,FIFO overflow error status" "FIFO_RX_OVF_IRQ_0,FIFO_RX_OVF_IRQ_1"
bitfld.long 0x00 3. "FIFO_TX_OVF_IRQ,FIFO overflow error status" "FIFO_TX_OVF_IRQ_0,FIFO_TX_OVF_IRQ_1"
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bitfld.long 0x00 2. "PACKET_SENT_IRQ,Indicates that a packet has been sent" "PACKET_SENT_IRQ_0,PACKET_SENT_IRQ_1"
bitfld.long 0x00 1. "ECC_CORRECTION_IRQ,Virtual" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
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bitfld.long 0x00 0. "CS_IRQ,Virtual" "CS_IRQ_0,CS_IRQ_1"
group.long 0x108++0x0B
line.long 0x00 "DSI_VC_LONG_PACKET_HEADER_i_0,LONG PACKET HEADER INFORMATION -Virtual channel This register sets the 32-bit DATA_ID + Word count + ECC (the virtual channel id can be different than VC)"
line.long 0x04 "DSI_VC_LONG_PACKET_PAYLOAD_i_0,LONG PACKET PAYLOAD INFORMATION -Virtual channel This register sets the payload information (excluding checksum)"
line.long 0x08 "DSI_VC_SHORT_PACKET_HEADER_i_0,SHORT PACKET HEADER INFORMATION -Virtual channel This register sets the 24-bit DATA_ID + Short Packet Data Field + ECC (the virtual channel id can be different than VC)"
group.long 0x104++0x03
line.long 0x00 "DSI_VC_TE_i_0,CONTROL REGISTER - Virtual channel This register controls the tearing effect logic"
bitfld.long 0x00 31. "TE_START,Manual control of the start of the transfer" "TE_START_0,TE_START_1"
bitfld.long 0x00 30. "TE_EN,Tearing Effect Control" "TE_EN_0,TE_EN_1"
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bitfld.long 0x00 29. "TE_LINE," "TE_LINE_0,TE_LINE_1"
bitfld.long 0x00 28. "TE_LINE_NB,Selection between TE0 and TE1 CMOS signals" "TE_LINE_NB_0,TE_LINE_NB_1"
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hexmask.long.tbyte 0x00 0.--23. 1. "TE_SIZE,Defines the number of byte (payload data excluding the check -sum) to be sent"
tree.end
tree "Channel_1"
group.long 0xB4++0x03
line.long 0x00 "DSI_TE_HSYNC_NUMBER_j_1,The register configures the number of HSYNC to synchronize the beginning of the transfer on DSI link based on the number of HSYNC pulse received on the TE line"
hexmask.long.word 0x00 0.--10. 1. "LINE_NUMBER,Programmable line number Line number from 0 to 2047"
group.long 0xAC++0x07
line.long 0x00 "DSI_TE_HSYNC_WIDTH_j_1,The register configures the TE HSYNC minimum pulse width for TE0 and TE1 CMOS signals The input TE signal is asynchronous and needs to be resynchronizred to DSI_CLK clock domain"
hexmask.long.word 0x00 8.--19. 1. "MIN_HSYNC_PULSE_WIDTH,Programmable min HSYNC pulse width Minimum HSYNC pulse width"
line.long 0x04 "DSI_TE_VSYNC_WIDTH_j_1,The register configures the TE VSYNC minimum pulse width for TE0 and TE1 CMOS signals The input TE signal is asynchronous and needs to be resynchronizred to DSI_CLK clock domain"
hexmask.long.word 0x04 8.--19. 1. "MIN_VSYNC_PULSE_WIDTH,Programmable min VSYNC pulse width Minimum VSYNC pulse width"
group.long 0x120++0x03
line.long 0x00 "DSI_VC_CTRL_i_1,CONTROL REGISTER - Virtual channel This register controls the virtual channel"
bitfld.long 0x00 31. "DCS_CMD_CODE,DCS command code value to insert between header and video port or Interface slave data when enabled by DCS_CMD_ENABLE (only when TE mechanism is not used otherwise the bit field DCS_CMD_CODE is ignored by DSI protocol engine)" "DCS_CMD_CODE_0,DCS_CMD_CODE_1"
bitfld.long 0x00 30. "DCS_CMD_ENABLE,Enables automatic insertion of DCS command codes when data is sourced by the video port" "DCS_CMD_ENABLE_0,DCS_CMD_ENABLE_1"
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bitfld.long 0x00 27.--29. "DMA_RX_REQ_NB,Selection of the use of the DMA request (associated to the RX FIFO)" "DMA_RX_REQ_NB_0,DMA_RX_REQ_NB_1,DMA_RX_REQ_NB_2,DMA_RX_REQ_NB_3,DMA_RX_REQ_NB_4,?,?,?"
bitfld.long 0x00 24.--26. "DMA_RX_THRESHOLD,Defines the threshold value for the DMA request (associated to the RX FIFO)" "DMA_RX_THRESHOLD_0,DMA_RX_THRESHOLD_1,DMA_RX_THRESHOLD_2,DMA_RX_THRESHOLD_3,DMA_RX_THRESHOLD_4,DMA_RX_THRESHOLD_5,?,?"
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bitfld.long 0x00 21.--23. "DMA_TX_REQ_NB,Selection of the use of the DMA request (associated to the TX FIFO)" "DMA_TX_REQ_NB_0,DMA_TX_REQ_NB_1,DMA_TX_REQ_NB_2,DMA_TX_REQ_NB_3,DMA_TX_REQ_NB_4,?,?,?"
rbitfld.long 0x00 20. "RX_FIFO_NOT_EMPTY,FIFO status in command mode" "RX_FIFO_NOT_EMPTY_0_r,RX_FIFO_NOT_EMPTY_1_r"
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bitfld.long 0x00 17.--19. "DMA_TX_THRESHOLD,Defines the threshold value for the DMA request (associated to the TX FIFO)" "DMA_TX_THRESHOLD_0,DMA_TX_THRESHOLD_1,DMA_TX_THRESHOLD_2,DMA_TX_THRESHOLD_3,DMA_TX_THRESHOLD_4,DMA_TX_THRESHOLD_5,?,?"
rbitfld.long 0x00 16. "TX_FIFO_FULL,FIFO status in command mode" "TX_FIFO_FULL_0_r,TX_FIFO_FULL_1_r"
newline
rbitfld.long 0x00 15. "VC_BUSY,Indicates if previously scheduled activities (packets BTA) are still being processed" "VC_BUSY_0_r,VC_BUSY_1_r"
rbitfld.long 0x00 14. "PP_BUSY,Ping-pong buffer busy status" "PP_BUSY_0_r,PP_BUSY_1_r"
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bitfld.long 0x00 13. "VP_SOURCE,Selection between video port 1 and video port 2" "VP_SOURCE_0,VP_SOURCE_1"
bitfld.long 0x00 12. "RGB565_ORDER,Byte order for RBG565" "RGB565_ORDER_0,RGB565_ORDER_1"
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bitfld.long 0x00 10.--11. "OCP_DATA_BUS_WIDTH,Defines the size of the Interface data bus" "OCP_DATA_BUS_WIDTH_0,OCP_DATA_BUS_WIDTH_1,OCP_DATA_BUS_WIDTH_2,OCP_DATA_BUS_WIDTH_3"
bitfld.long 0x00 9. "MODE_SPEED,Selection of the mode" "MODE_SPEED_0,MODE_SPEED_1"
newline
bitfld.long 0x00 8. "ECC_TX_EN,Enables the Error Correction Code generation for the transmit header (short and long packets)" "ECC_TX_EN_0,ECC_TX_EN_1"
bitfld.long 0x00 7. "CS_TX_EN,Enables the checksum generation for the transmit payload (long packet only)" "CS_TX_EN_0,CS_TX_EN_1"
newline
bitfld.long 0x00 6. "BTA_EN,Send the bus turn around to the peripheral" "BTA_EN_0,BTA_EN_1"
rbitfld.long 0x00 5. "TX_FIFO_NOT_EMPTY,FIFO status" "TX_FIFO_NOT_EMPTY_0_r,TX_FIFO_NOT_EMPTY_1_r"
newline
bitfld.long 0x00 4. "MODE,Selection of the mode" "MODE_0,MODE_1"
bitfld.long 0x00 3. "BTA_LONG_EN,Enables the automatic bus turn-around after completion of each long packet transmission" "BTA_LONG_EN_0,BTA_LONG_EN_1"
newline
bitfld.long 0x00 2. "BTA_SHORT_EN,Enables the automatic bus turn-around after completion of each short packet transmission" "BTA_SHORT_EN_0,BTA_SHORT_EN_1"
bitfld.long 0x00 1. "SOURCE,Selection of the source between Interface and the Video port(s) (used by the hardware only if MODE=COMMAND MODE (0x0) otherwise it is ignored)" "SOURCE_0,SOURCE_1"
newline
bitfld.long 0x00 0. "VC_EN,Enables the virtual channel" "VC_EN_0,VC_EN_1"
group.long 0x13C++0x03
line.long 0x00 "DSI_VC_IRQENABLE_i_1,INTERRUPT ENABLE REGISTER - Virtual channel This register regroups all the events related to virtual channel"
bitfld.long 0x00 8. "PP_BUSY_CHANGE_IRQ_EN,Video Port ping-pong buffer busy status" "PP_BUSY_CHANGE_IRQ_EN_0,PP_BUSY_CHANGE_IRQ_EN_1"
bitfld.long 0x00 7. "FIFO_TX_UDF_IRQ_EN,FIFO underflow enable" "FIFO_TX_UDF_IRQ_EN_0,FIFO_TX_UDF_IRQ_EN_1"
newline
bitfld.long 0x00 6. "ECC_NO_CORRECTION_IRQ_EN,ECC error (short and long packets)" "ECC_NO_CORRECTION_IRQ_EN_0,ECC_NO_CORRECTION_IRQ_EN_1"
bitfld.long 0x00 5. "BTA_IRQ_EN,Virtual channel -Bus turn around reception" "BTA_IRQ_EN_0,BTA_IRQ_EN_1"
newline
bitfld.long 0x00 4. "FIFO_RX_OVF_IRQ_EN,FIFO overflow enable" "FIFO_RX_OVF_IRQ_EN_0,FIFO_RX_OVF_IRQ_EN_1"
bitfld.long 0x00 3. "FIFO_TX_OVF_IRQ_EN,FIFO overflow enable" "FIFO_TX_OVF_IRQ_EN_0,FIFO_TX_OVF_IRQ_EN_1"
newline
bitfld.long 0x00 2. "PACKET_SENT_IRQ_EN,Indicates that a packet has been sent" "PACKET_SENT_IRQ_EN_0,PACKET_SENT_IRQ_EN_1"
bitfld.long 0x00 1. "ECC_CORRECTION_IRQ_EN,Virtual" "ECC_CORRECTION_IRQ_EN_0,ECC_CORRECTION_IRQ_EN_1"
newline
bitfld.long 0x00 0. "CS_IRQ_EN,Virtual" "CS_IRQ_EN_0,CS_IRQ_EN_1"
group.long 0x138++0x03
line.long 0x00 "DSI_VC_IRQSTATUS_i_1,INTERRUPT STATUS REGISTER - Virtual channel This register regroups all the events related to the virtual channel"
bitfld.long 0x00 8. "PP_BUSY_CHANGE_IRQ,Video Port ping-pong buffer busy status" "PP_BUSY_CHANGE_IRQ_0,PP_BUSY_CHANGE_IRQ_1"
bitfld.long 0x00 7. "FIFO_TX_UDF_IRQ,FIFO underflow status" "FIFO_TX_UDF_IRQ_0,FIFO_TX_UDF_IRQ_1"
newline
bitfld.long 0x00 6. "ECC_NO_CORRECTION_IRQ,ECC error status (short and long packets)" "ECC_NO_CORRECTION_IRQ_0,ECC_NO_CORRECTION_IRQ_1"
bitfld.long 0x00 5. "BTA_IRQ,Virtual" "BTA_IRQ_0,BTA_IRQ_1"
newline
bitfld.long 0x00 4. "FIFO_RX_OVF_IRQ,FIFO overflow error status" "FIFO_RX_OVF_IRQ_0,FIFO_RX_OVF_IRQ_1"
bitfld.long 0x00 3. "FIFO_TX_OVF_IRQ,FIFO overflow error status" "FIFO_TX_OVF_IRQ_0,FIFO_TX_OVF_IRQ_1"
newline
bitfld.long 0x00 2. "PACKET_SENT_IRQ,Indicates that a packet has been sent" "PACKET_SENT_IRQ_0,PACKET_SENT_IRQ_1"
bitfld.long 0x00 1. "ECC_CORRECTION_IRQ,Virtual" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
newline
bitfld.long 0x00 0. "CS_IRQ,Virtual" "CS_IRQ_0,CS_IRQ_1"
group.long 0x128++0x0B
line.long 0x00 "DSI_VC_LONG_PACKET_HEADER_i_1,LONG PACKET HEADER INFORMATION -Virtual channel This register sets the 32-bit DATA_ID + Word count + ECC (the virtual channel id can be different than VC)"
line.long 0x04 "DSI_VC_LONG_PACKET_PAYLOAD_i_1,LONG PACKET PAYLOAD INFORMATION -Virtual channel This register sets the payload information (excluding checksum)"
line.long 0x08 "DSI_VC_SHORT_PACKET_HEADER_i_1,SHORT PACKET HEADER INFORMATION -Virtual channel This register sets the 24-bit DATA_ID + Short Packet Data Field + ECC (the virtual channel id can be different than VC)"
group.long 0x124++0x03
line.long 0x00 "DSI_VC_TE_i_1,CONTROL REGISTER - Virtual channel This register controls the tearing effect logic"
bitfld.long 0x00 31. "TE_START,Manual control of the start of the transfer" "TE_START_0,TE_START_1"
bitfld.long 0x00 30. "TE_EN,Tearing Effect Control" "TE_EN_0,TE_EN_1"
newline
bitfld.long 0x00 29. "TE_LINE," "TE_LINE_0,TE_LINE_1"
bitfld.long 0x00 28. "TE_LINE_NB,Selection between TE0 and TE1 CMOS signals" "TE_LINE_NB_0,TE_LINE_NB_1"
newline
hexmask.long.tbyte 0x00 0.--23. 1. "TE_SIZE,Defines the number of byte (payload data excluding the check -sum) to be sent"
tree.end
tree "Channel_2"
group.long 0x140++0x03
line.long 0x00 "DSI_VC_CTRL_i_2,CONTROL REGISTER - Virtual channel This register controls the virtual channel"
bitfld.long 0x00 31. "DCS_CMD_CODE,DCS command code value to insert between header and video port or Interface slave data when enabled by DCS_CMD_ENABLE (only when TE mechanism is not used otherwise the bit field DCS_CMD_CODE is ignored by DSI protocol engine)" "DCS_CMD_CODE_0,DCS_CMD_CODE_1"
bitfld.long 0x00 30. "DCS_CMD_ENABLE,Enables automatic insertion of DCS command codes when data is sourced by the video port" "DCS_CMD_ENABLE_0,DCS_CMD_ENABLE_1"
newline
bitfld.long 0x00 27.--29. "DMA_RX_REQ_NB,Selection of the use of the DMA request (associated to the RX FIFO)" "DMA_RX_REQ_NB_0,DMA_RX_REQ_NB_1,DMA_RX_REQ_NB_2,DMA_RX_REQ_NB_3,DMA_RX_REQ_NB_4,?,?,?"
bitfld.long 0x00 24.--26. "DMA_RX_THRESHOLD,Defines the threshold value for the DMA request (associated to the RX FIFO)" "DMA_RX_THRESHOLD_0,DMA_RX_THRESHOLD_1,DMA_RX_THRESHOLD_2,DMA_RX_THRESHOLD_3,DMA_RX_THRESHOLD_4,DMA_RX_THRESHOLD_5,?,?"
newline
bitfld.long 0x00 21.--23. "DMA_TX_REQ_NB,Selection of the use of the DMA request (associated to the TX FIFO)" "DMA_TX_REQ_NB_0,DMA_TX_REQ_NB_1,DMA_TX_REQ_NB_2,DMA_TX_REQ_NB_3,DMA_TX_REQ_NB_4,?,?,?"
rbitfld.long 0x00 20. "RX_FIFO_NOT_EMPTY,FIFO status in command mode" "RX_FIFO_NOT_EMPTY_0_r,RX_FIFO_NOT_EMPTY_1_r"
newline
bitfld.long 0x00 17.--19. "DMA_TX_THRESHOLD,Defines the threshold value for the DMA request (associated to the TX FIFO)" "DMA_TX_THRESHOLD_0,DMA_TX_THRESHOLD_1,DMA_TX_THRESHOLD_2,DMA_TX_THRESHOLD_3,DMA_TX_THRESHOLD_4,DMA_TX_THRESHOLD_5,?,?"
rbitfld.long 0x00 16. "TX_FIFO_FULL,FIFO status in command mode" "TX_FIFO_FULL_0_r,TX_FIFO_FULL_1_r"
newline
rbitfld.long 0x00 15. "VC_BUSY,Indicates if previously scheduled activities (packets BTA) are still being processed" "VC_BUSY_0_r,VC_BUSY_1_r"
rbitfld.long 0x00 14. "PP_BUSY,Ping-pong buffer busy status" "PP_BUSY_0_r,PP_BUSY_1_r"
newline
bitfld.long 0x00 13. "VP_SOURCE,Selection between video port 1 and video port 2" "VP_SOURCE_0,VP_SOURCE_1"
bitfld.long 0x00 12. "RGB565_ORDER,Byte order for RBG565" "RGB565_ORDER_0,RGB565_ORDER_1"
newline
bitfld.long 0x00 10.--11. "OCP_DATA_BUS_WIDTH,Defines the size of the Interface data bus" "OCP_DATA_BUS_WIDTH_0,OCP_DATA_BUS_WIDTH_1,OCP_DATA_BUS_WIDTH_2,OCP_DATA_BUS_WIDTH_3"
bitfld.long 0x00 9. "MODE_SPEED,Selection of the mode" "MODE_SPEED_0,MODE_SPEED_1"
newline
bitfld.long 0x00 8. "ECC_TX_EN,Enables the Error Correction Code generation for the transmit header (short and long packets)" "ECC_TX_EN_0,ECC_TX_EN_1"
bitfld.long 0x00 7. "CS_TX_EN,Enables the checksum generation for the transmit payload (long packet only)" "CS_TX_EN_0,CS_TX_EN_1"
newline
bitfld.long 0x00 6. "BTA_EN,Send the bus turn around to the peripheral" "BTA_EN_0,BTA_EN_1"
rbitfld.long 0x00 5. "TX_FIFO_NOT_EMPTY,FIFO status" "TX_FIFO_NOT_EMPTY_0_r,TX_FIFO_NOT_EMPTY_1_r"
newline
bitfld.long 0x00 4. "MODE,Selection of the mode" "MODE_0,MODE_1"
bitfld.long 0x00 3. "BTA_LONG_EN,Enables the automatic bus turn-around after completion of each long packet transmission" "BTA_LONG_EN_0,BTA_LONG_EN_1"
newline
bitfld.long 0x00 2. "BTA_SHORT_EN,Enables the automatic bus turn-around after completion of each short packet transmission" "BTA_SHORT_EN_0,BTA_SHORT_EN_1"
bitfld.long 0x00 1. "SOURCE,Selection of the source between Interface and the Video port(s) (used by the hardware only if MODE=COMMAND MODE (0x0) otherwise it is ignored)" "SOURCE_0,SOURCE_1"
newline
bitfld.long 0x00 0. "VC_EN,Enables the virtual channel" "VC_EN_0,VC_EN_1"
group.long 0x15C++0x03
line.long 0x00 "DSI_VC_IRQENABLE_i_2,INTERRUPT ENABLE REGISTER - Virtual channel This register regroups all the events related to virtual channel"
bitfld.long 0x00 8. "PP_BUSY_CHANGE_IRQ_EN,Video Port ping-pong buffer busy status" "PP_BUSY_CHANGE_IRQ_EN_0,PP_BUSY_CHANGE_IRQ_EN_1"
bitfld.long 0x00 7. "FIFO_TX_UDF_IRQ_EN,FIFO underflow enable" "FIFO_TX_UDF_IRQ_EN_0,FIFO_TX_UDF_IRQ_EN_1"
newline
bitfld.long 0x00 6. "ECC_NO_CORRECTION_IRQ_EN,ECC error (short and long packets)" "ECC_NO_CORRECTION_IRQ_EN_0,ECC_NO_CORRECTION_IRQ_EN_1"
bitfld.long 0x00 5. "BTA_IRQ_EN,Virtual channel -Bus turn around reception" "BTA_IRQ_EN_0,BTA_IRQ_EN_1"
newline
bitfld.long 0x00 4. "FIFO_RX_OVF_IRQ_EN,FIFO overflow enable" "FIFO_RX_OVF_IRQ_EN_0,FIFO_RX_OVF_IRQ_EN_1"
bitfld.long 0x00 3. "FIFO_TX_OVF_IRQ_EN,FIFO overflow enable" "FIFO_TX_OVF_IRQ_EN_0,FIFO_TX_OVF_IRQ_EN_1"
newline
bitfld.long 0x00 2. "PACKET_SENT_IRQ_EN,Indicates that a packet has been sent" "PACKET_SENT_IRQ_EN_0,PACKET_SENT_IRQ_EN_1"
bitfld.long 0x00 1. "ECC_CORRECTION_IRQ_EN,Virtual" "ECC_CORRECTION_IRQ_EN_0,ECC_CORRECTION_IRQ_EN_1"
newline
bitfld.long 0x00 0. "CS_IRQ_EN,Virtual" "CS_IRQ_EN_0,CS_IRQ_EN_1"
group.long 0x158++0x03
line.long 0x00 "DSI_VC_IRQSTATUS_i_2,INTERRUPT STATUS REGISTER - Virtual channel This register regroups all the events related to the virtual channel"
bitfld.long 0x00 8. "PP_BUSY_CHANGE_IRQ,Video Port ping-pong buffer busy status" "PP_BUSY_CHANGE_IRQ_0,PP_BUSY_CHANGE_IRQ_1"
bitfld.long 0x00 7. "FIFO_TX_UDF_IRQ,FIFO underflow status" "FIFO_TX_UDF_IRQ_0,FIFO_TX_UDF_IRQ_1"
newline
bitfld.long 0x00 6. "ECC_NO_CORRECTION_IRQ,ECC error status (short and long packets)" "ECC_NO_CORRECTION_IRQ_0,ECC_NO_CORRECTION_IRQ_1"
bitfld.long 0x00 5. "BTA_IRQ,Virtual" "BTA_IRQ_0,BTA_IRQ_1"
newline
bitfld.long 0x00 4. "FIFO_RX_OVF_IRQ,FIFO overflow error status" "FIFO_RX_OVF_IRQ_0,FIFO_RX_OVF_IRQ_1"
bitfld.long 0x00 3. "FIFO_TX_OVF_IRQ,FIFO overflow error status" "FIFO_TX_OVF_IRQ_0,FIFO_TX_OVF_IRQ_1"
newline
bitfld.long 0x00 2. "PACKET_SENT_IRQ,Indicates that a packet has been sent" "PACKET_SENT_IRQ_0,PACKET_SENT_IRQ_1"
bitfld.long 0x00 1. "ECC_CORRECTION_IRQ,Virtual" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
newline
bitfld.long 0x00 0. "CS_IRQ,Virtual" "CS_IRQ_0,CS_IRQ_1"
group.long 0x148++0x0B
line.long 0x00 "DSI_VC_LONG_PACKET_HEADER_i_2,LONG PACKET HEADER INFORMATION -Virtual channel This register sets the 32-bit DATA_ID + Word count + ECC (the virtual channel id can be different than VC)"
line.long 0x04 "DSI_VC_LONG_PACKET_PAYLOAD_i_2,LONG PACKET PAYLOAD INFORMATION -Virtual channel This register sets the payload information (excluding checksum)"
line.long 0x08 "DSI_VC_SHORT_PACKET_HEADER_i_2,SHORT PACKET HEADER INFORMATION -Virtual channel This register sets the 24-bit DATA_ID + Short Packet Data Field + ECC (the virtual channel id can be different than VC)"
group.long 0x144++0x03
line.long 0x00 "DSI_VC_TE_i_2,CONTROL REGISTER - Virtual channel This register controls the tearing effect logic"
bitfld.long 0x00 31. "TE_START,Manual control of the start of the transfer" "TE_START_0,TE_START_1"
bitfld.long 0x00 30. "TE_EN,Tearing Effect Control" "TE_EN_0,TE_EN_1"
newline
bitfld.long 0x00 29. "TE_LINE," "TE_LINE_0,TE_LINE_1"
bitfld.long 0x00 28. "TE_LINE_NB,Selection between TE0 and TE1 CMOS signals" "TE_LINE_NB_0,TE_LINE_NB_1"
newline
hexmask.long.tbyte 0x00 0.--23. 1. "TE_SIZE,Defines the number of byte (payload data excluding the check -sum) to be sent"
tree.end
tree "Channel_3"
group.long 0x160++0x03
line.long 0x00 "DSI_VC_CTRL_i_3,CONTROL REGISTER - Virtual channel This register controls the virtual channel"
bitfld.long 0x00 31. "DCS_CMD_CODE,DCS command code value to insert between header and video port or Interface slave data when enabled by DCS_CMD_ENABLE (only when TE mechanism is not used otherwise the bit field DCS_CMD_CODE is ignored by DSI protocol engine)" "DCS_CMD_CODE_0,DCS_CMD_CODE_1"
bitfld.long 0x00 30. "DCS_CMD_ENABLE,Enables automatic insertion of DCS command codes when data is sourced by the video port" "DCS_CMD_ENABLE_0,DCS_CMD_ENABLE_1"
newline
bitfld.long 0x00 27.--29. "DMA_RX_REQ_NB,Selection of the use of the DMA request (associated to the RX FIFO)" "DMA_RX_REQ_NB_0,DMA_RX_REQ_NB_1,DMA_RX_REQ_NB_2,DMA_RX_REQ_NB_3,DMA_RX_REQ_NB_4,?,?,?"
bitfld.long 0x00 24.--26. "DMA_RX_THRESHOLD,Defines the threshold value for the DMA request (associated to the RX FIFO)" "DMA_RX_THRESHOLD_0,DMA_RX_THRESHOLD_1,DMA_RX_THRESHOLD_2,DMA_RX_THRESHOLD_3,DMA_RX_THRESHOLD_4,DMA_RX_THRESHOLD_5,?,?"
newline
bitfld.long 0x00 21.--23. "DMA_TX_REQ_NB,Selection of the use of the DMA request (associated to the TX FIFO)" "DMA_TX_REQ_NB_0,DMA_TX_REQ_NB_1,DMA_TX_REQ_NB_2,DMA_TX_REQ_NB_3,DMA_TX_REQ_NB_4,?,?,?"
rbitfld.long 0x00 20. "RX_FIFO_NOT_EMPTY,FIFO status in command mode" "RX_FIFO_NOT_EMPTY_0_r,RX_FIFO_NOT_EMPTY_1_r"
newline
bitfld.long 0x00 17.--19. "DMA_TX_THRESHOLD,Defines the threshold value for the DMA request (associated to the TX FIFO)" "DMA_TX_THRESHOLD_0,DMA_TX_THRESHOLD_1,DMA_TX_THRESHOLD_2,DMA_TX_THRESHOLD_3,DMA_TX_THRESHOLD_4,DMA_TX_THRESHOLD_5,?,?"
rbitfld.long 0x00 16. "TX_FIFO_FULL,FIFO status in command mode" "TX_FIFO_FULL_0_r,TX_FIFO_FULL_1_r"
newline
rbitfld.long 0x00 15. "VC_BUSY,Indicates if previously scheduled activities (packets BTA) are still being processed" "VC_BUSY_0_r,VC_BUSY_1_r"
rbitfld.long 0x00 14. "PP_BUSY,Ping-pong buffer busy status" "PP_BUSY_0_r,PP_BUSY_1_r"
newline
bitfld.long 0x00 13. "VP_SOURCE,Selection between video port 1 and video port 2" "VP_SOURCE_0,VP_SOURCE_1"
bitfld.long 0x00 12. "RGB565_ORDER,Byte order for RBG565" "RGB565_ORDER_0,RGB565_ORDER_1"
newline
bitfld.long 0x00 10.--11. "OCP_DATA_BUS_WIDTH,Defines the size of the Interface data bus" "OCP_DATA_BUS_WIDTH_0,OCP_DATA_BUS_WIDTH_1,OCP_DATA_BUS_WIDTH_2,OCP_DATA_BUS_WIDTH_3"
bitfld.long 0x00 9. "MODE_SPEED,Selection of the mode" "MODE_SPEED_0,MODE_SPEED_1"
newline
bitfld.long 0x00 8. "ECC_TX_EN,Enables the Error Correction Code generation for the transmit header (short and long packets)" "ECC_TX_EN_0,ECC_TX_EN_1"
bitfld.long 0x00 7. "CS_TX_EN,Enables the checksum generation for the transmit payload (long packet only)" "CS_TX_EN_0,CS_TX_EN_1"
newline
bitfld.long 0x00 6. "BTA_EN,Send the bus turn around to the peripheral" "BTA_EN_0,BTA_EN_1"
rbitfld.long 0x00 5. "TX_FIFO_NOT_EMPTY,FIFO status" "TX_FIFO_NOT_EMPTY_0_r,TX_FIFO_NOT_EMPTY_1_r"
newline
bitfld.long 0x00 4. "MODE,Selection of the mode" "MODE_0,MODE_1"
bitfld.long 0x00 3. "BTA_LONG_EN,Enables the automatic bus turn-around after completion of each long packet transmission" "BTA_LONG_EN_0,BTA_LONG_EN_1"
newline
bitfld.long 0x00 2. "BTA_SHORT_EN,Enables the automatic bus turn-around after completion of each short packet transmission" "BTA_SHORT_EN_0,BTA_SHORT_EN_1"
bitfld.long 0x00 1. "SOURCE,Selection of the source between Interface and the Video port(s) (used by the hardware only if MODE=COMMAND MODE (0x0) otherwise it is ignored)" "SOURCE_0,SOURCE_1"
newline
bitfld.long 0x00 0. "VC_EN,Enables the virtual channel" "VC_EN_0,VC_EN_1"
group.long 0x17C++0x03
line.long 0x00 "DSI_VC_IRQENABLE_i_3,INTERRUPT ENABLE REGISTER - Virtual channel This register regroups all the events related to virtual channel"
bitfld.long 0x00 8. "PP_BUSY_CHANGE_IRQ_EN,Video Port ping-pong buffer busy status" "PP_BUSY_CHANGE_IRQ_EN_0,PP_BUSY_CHANGE_IRQ_EN_1"
bitfld.long 0x00 7. "FIFO_TX_UDF_IRQ_EN,FIFO underflow enable" "FIFO_TX_UDF_IRQ_EN_0,FIFO_TX_UDF_IRQ_EN_1"
newline
bitfld.long 0x00 6. "ECC_NO_CORRECTION_IRQ_EN,ECC error (short and long packets)" "ECC_NO_CORRECTION_IRQ_EN_0,ECC_NO_CORRECTION_IRQ_EN_1"
bitfld.long 0x00 5. "BTA_IRQ_EN,Virtual channel -Bus turn around reception" "BTA_IRQ_EN_0,BTA_IRQ_EN_1"
newline
bitfld.long 0x00 4. "FIFO_RX_OVF_IRQ_EN,FIFO overflow enable" "FIFO_RX_OVF_IRQ_EN_0,FIFO_RX_OVF_IRQ_EN_1"
bitfld.long 0x00 3. "FIFO_TX_OVF_IRQ_EN,FIFO overflow enable" "FIFO_TX_OVF_IRQ_EN_0,FIFO_TX_OVF_IRQ_EN_1"
newline
bitfld.long 0x00 2. "PACKET_SENT_IRQ_EN,Indicates that a packet has been sent" "PACKET_SENT_IRQ_EN_0,PACKET_SENT_IRQ_EN_1"
bitfld.long 0x00 1. "ECC_CORRECTION_IRQ_EN,Virtual" "ECC_CORRECTION_IRQ_EN_0,ECC_CORRECTION_IRQ_EN_1"
newline
bitfld.long 0x00 0. "CS_IRQ_EN,Virtual" "CS_IRQ_EN_0,CS_IRQ_EN_1"
group.long 0x178++0x03
line.long 0x00 "DSI_VC_IRQSTATUS_i_3,INTERRUPT STATUS REGISTER - Virtual channel This register regroups all the events related to the virtual channel"
bitfld.long 0x00 8. "PP_BUSY_CHANGE_IRQ,Video Port ping-pong buffer busy status" "PP_BUSY_CHANGE_IRQ_0,PP_BUSY_CHANGE_IRQ_1"
bitfld.long 0x00 7. "FIFO_TX_UDF_IRQ,FIFO underflow status" "FIFO_TX_UDF_IRQ_0,FIFO_TX_UDF_IRQ_1"
newline
bitfld.long 0x00 6. "ECC_NO_CORRECTION_IRQ,ECC error status (short and long packets)" "ECC_NO_CORRECTION_IRQ_0,ECC_NO_CORRECTION_IRQ_1"
bitfld.long 0x00 5. "BTA_IRQ,Virtual" "BTA_IRQ_0,BTA_IRQ_1"
newline
bitfld.long 0x00 4. "FIFO_RX_OVF_IRQ,FIFO overflow error status" "FIFO_RX_OVF_IRQ_0,FIFO_RX_OVF_IRQ_1"
bitfld.long 0x00 3. "FIFO_TX_OVF_IRQ,FIFO overflow error status" "FIFO_TX_OVF_IRQ_0,FIFO_TX_OVF_IRQ_1"
newline
bitfld.long 0x00 2. "PACKET_SENT_IRQ,Indicates that a packet has been sent" "PACKET_SENT_IRQ_0,PACKET_SENT_IRQ_1"
bitfld.long 0x00 1. "ECC_CORRECTION_IRQ,Virtual" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
newline
bitfld.long 0x00 0. "CS_IRQ,Virtual" "CS_IRQ_0,CS_IRQ_1"
group.long 0x168++0x0B
line.long 0x00 "DSI_VC_LONG_PACKET_HEADER_i_3,LONG PACKET HEADER INFORMATION -Virtual channel This register sets the 32-bit DATA_ID + Word count + ECC (the virtual channel id can be different than VC)"
line.long 0x04 "DSI_VC_LONG_PACKET_PAYLOAD_i_3,LONG PACKET PAYLOAD INFORMATION -Virtual channel This register sets the payload information (excluding checksum)"
line.long 0x08 "DSI_VC_SHORT_PACKET_HEADER_i_3,SHORT PACKET HEADER INFORMATION -Virtual channel This register sets the 24-bit DATA_ID + Short Packet Data Field + ECC (the virtual channel id can be different than VC)"
group.long 0x164++0x03
line.long 0x00 "DSI_VC_TE_i_3,CONTROL REGISTER - Virtual channel This register controls the tearing effect logic"
bitfld.long 0x00 31. "TE_START,Manual control of the start of the transfer" "TE_START_0,TE_START_1"
bitfld.long 0x00 30. "TE_EN,Tearing Effect Control" "TE_EN_0,TE_EN_1"
newline
bitfld.long 0x00 29. "TE_LINE," "TE_LINE_0,TE_LINE_1"
bitfld.long 0x00 28. "TE_LINE_NB,Selection between TE0 and TE1 CMOS signals" "TE_LINE_NB_0,TE_LINE_NB_1"
newline
hexmask.long.tbyte 0x00 0.--23. 1. "TE_SIZE,Defines the number of byte (payload data excluding the check -sum) to be sent"
tree.end
group.long 0x54++0x03
line.long 0x00 "DSI_CLK_CTRL,CLOCK CONTROL This register controls the CLOCK GENERATION"
bitfld.long 0x00 30.--31. "PLL_PWR_CMD,Command for power control of the DSI PLL Control module" "PLL_PWR_CMD_0,PLL_PWR_CMD_1,PLL_PWR_CMD_2,PLL_PWR_CMD_3"
rbitfld.long 0x00 28.--29. "PLL_PWR_STATUS,Status of the power control of the DSI PLL Control module" "PLL_PWR_STATUS_0_r,PLL_PWR_STATUS_1_r,PLL_PWR_STATUS_2_r,PLL_PWR_STATUS_3_r"
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bitfld.long 0x00 21. "LP_RX_SYNCHRO_ENABLE,Defines if the functional is higher or lower than 30 MHz" "LP_RX_SYNCHRO_ENABLE_0,LP_RX_SYNCHRO_ENABLE_1"
bitfld.long 0x00 20. "LP_CLK_ENABLE,Controls the gating of the TXCLKESC clock" "LP_CLK_ENABLE_0,LP_CLK_ENABLE_1"
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bitfld.long 0x00 19. "HS_MANUAL_STOP_CTRL,In case HS_AUTO_STOP_ENABLE=0 the bit field allows manual control of the assertion/de-assertion of the signal DSIStopClk by the user" "HS_MANUAL_STOP_CTRL_0,HS_MANUAL_STOP_CTRL_1"
bitfld.long 0x00 18. "HS_AUTO_STOP_ENABLE,Enables the automatic assertion/de-assertion of DSIStopClk signal" "HS_AUTO_STOP_ENABLE_0,HS_AUTO_STOP_ENABLE_1"
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bitfld.long 0x00 16.--17. "LP_CLK_NULL_PACKET_SIZE,Indicates the size of LP NULL Packets to be sent automatically when after the last LP packet transfer" "LP_CLK_NULL_PACKET_SIZE_0,LP_CLK_NULL_PACKET_SIZE_1,LP_CLK_NULL_PACKET_SIZE_2,LP_CLK_NULL_PACKET_SIZE_3"
bitfld.long 0x00 15. "LP_CLK_NULL_PACKET_ENABLE,Enables the generation of NULL packet in low speed" "LP_CLK_NULL_PACKET_ENABLE_0,LP_CLK_NULL_PACKET_ENABLE_1"
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bitfld.long 0x00 14. "CIO_CLK_ICG,Gates SCPClk clock provided to DSI_PHY and PLL-CTRL module" "CIO_CLK_ICG_0,CIO_CLK_ICG_1"
bitfld.long 0x00 13. "DDR_CLK_ALWAYS_ON,Defines if the DDR clock is also sent when there is no HS packets sent to the peripheral (low-power mode)" "DDR_CLK_ALWAYS_ON_0,DDR_CLK_ALWAYS_ON_1"
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hexmask.long.word 0x00 0.--12. 1. "LP_CLK_DIVISOR,Defines the ratio to be used for the generation of the low-power mode clock from DSI functional clock"
group.long 0x6C++0x03
line.long 0x00 "DSI_CLK_TIMING,CLOCK TIMING REGISTER This register controls the DSI Protocol Engine module timers"
hexmask.long.byte 0x00 8.--15. 1. "DDR_CLK_PRE,Indicates the number of TXBYTECLKHS clock cycles between the start of the DDR clock and the assertion of the data request signal"
hexmask.long.byte 0x00 0.--7. 1. "DDR_CLK_POST,Indicates the number of TXBYTECLKHS clock cycles after the de-assertion of the data request signal and the stop of the DDR clock"
group.long 0x48++0x03
line.long 0x00 "DSI_COMPLEXIO_CFG1,COMPLEXIO CONFIGURATION REGISTER for the complex I/O This register contains the lane configuration for the order and position of the lanes (clock and data) and the polarity order for the control of the PHY differential signals in.."
bitfld.long 0x00 31. "SHADOWING,Shadowing configuration" "SHADOWING_0,SHADOWING_1"
bitfld.long 0x00 30. "GOBIT,Allows the synchronized update of the shadow registers when the signal DISPCUpdateSync is active" "GOBIT_0,GOBIT_1"
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rbitfld.long 0x00 29. "RESET_DONE,Internal reset monitoring of the power domain using the TXBYTECLKHS clock from the complex I/O" "RESET_DONE_0_r,RESET_DONE_1_r"
bitfld.long 0x00 27.--28. "PWR_CMD,Command for power control of the complex I/O" "PWR_CMD_0,PWR_CMD_1,PWR_CMD_2,?"
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rbitfld.long 0x00 25.--26. "PWR_STATUS,Status of the power control of the complex I/O" "PWR_STATUS_0_r,PWR_STATUS_1_r,PWR_STATUS_2_r,?"
bitfld.long 0x00 19. "DATA4_POL,+/- differential pin order of DATA lane 4" "DATA4_POL_0,DATA4_POL_1"
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bitfld.long 0x00 16.--18. "DATA4_POSITION,Position and order of the DATA lane 4" "DATA4_POSITION_0,DATA4_POSITION_1,DATA4_POSITION_2,DATA4_POSITION_3,DATA4_POSITION_4,DATA4_POSITION_5,?,?"
bitfld.long 0x00 15. "DATA3_POL,+/- differential pin order of DATA lane 3" "DATA3_POL_0,DATA3_POL_1"
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bitfld.long 0x00 12.--14. "DATA3_POSITION,Position and order of the DATA lane 3" "DATA3_POSITION_0,DATA3_POSITION_1,DATA3_POSITION_2,DATA3_POSITION_3,DATA3_POSITION_4,DATA3_POSITION_5,?,?"
bitfld.long 0x00 11. "DATA2_POL,+/- differential pin order of DATA lane 2" "DATA2_POL_0,DATA2_POL_1"
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bitfld.long 0x00 8.--10. "DATA2_POSITION,Position and order of the DATA lane 2" "DATA2_POSITION_0,DATA2_POSITION_1,DATA2_POSITION_2,DATA2_POSITION_3,DATA2_POSITION_4,DATA2_POSITION_5,?,?"
bitfld.long 0x00 7. "DATA1_POL,+/- pin differential pin order of DATA lane" "DATA1_POL_0,DATA1_POL_1"
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bitfld.long 0x00 4.--6. "DATA1_POSITION,Position and order of the DATA lane 1" "DATA1_POSITION_0,DATA1_POSITION_1,DATA1_POSITION_2,DATA1_POSITION_3,DATA1_POSITION_4,DATA1_POSITION_5,?,?"
bitfld.long 0x00 3. "CLOCK_POL,+/- differential pin order of CLOCK lane" "CLOCK_POL_0,CLOCK_POL_1"
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bitfld.long 0x00 0.--2. "CLOCK_POSITION,Position and order of the CLOCK lane" "CLOCK_POSITION_0,CLOCK_POSITION_1,CLOCK_POSITION_2,CLOCK_POSITION_3,CLOCK_POSITION_4,CLOCK_POSITION_5,CLOCK_POSITION_6,CLOCK_POSITION_7"
group.long 0x78++0x03
line.long 0x00 "DSI_COMPLEXIO_CFG2,COMPLEXIO CONFIGURATION REGISTER for the complex I/O This register contains the lane configuration for the ULPS for each lane"
rbitfld.long 0x00 17. "LP_BUSY,Indicates when there are still pending operations for VCs configured for LP mode" "LP_BUSY_0_r,LP_BUSY_1_r"
rbitfld.long 0x00 16. "HS_BUSY,Indicates when there are still pending operations for VCs configured for HS mode" "HS_BUSY_0_r,HS_BUSY_1_r"
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bitfld.long 0x00 9. "LANE5_ULPS_SIG2,Applicable only to DS1" "LANE5_ULPS_SIG2_0,LANE5_ULPS_SIG2_1"
bitfld.long 0x00 8. "LANE4_ULPS_SIG2,Applicable only to DS1" "LANE4_ULPS_SIG2_0,LANE4_ULPS_SIG2_1"
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bitfld.long 0x00 7. "LANE3_ULPS_SIG2,Enables the ULPS for the lane 3" "LANE3_ULPS_SIG2_0,LANE3_ULPS_SIG2_1"
bitfld.long 0x00 6. "LANE2_ULPS_SIG2,Enables the ULPS for the lane 2" "LANE2_ULPS_SIG2_0,LANE2_ULPS_SIG2_1"
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bitfld.long 0x00 5. "LANE1_ULPS_SIG2,Enables the ULPS for the lane 1" "LANE1_ULPS_SIG2_0,LANE1_ULPS_SIG2_1"
bitfld.long 0x00 4. "LANE5_ULPS_SIG1,Applicable only to DS1" "LANE5_ULPS_SIG1_0,LANE5_ULPS_SIG1_1"
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bitfld.long 0x00 3. "LANE4_ULPS_SIG1,Applicable only to DS1" "LANE4_ULPS_SIG1_0,LANE4_ULPS_SIG1_1"
bitfld.long 0x00 2. "LANE3_ULPS_SIG1,Enables the ULPS for the lane 3" "LANE3_ULPS_SIG1_0,LANE3_ULPS_SIG1_1"
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bitfld.long 0x00 1. "LANE2_ULPS_SIG1,Enables the ULPS for the lane 2" "LANE2_ULPS_SIG1_0,LANE2_ULPS_SIG1_1"
bitfld.long 0x00 0. "LANE1_ULPS_SIG1,Enables the ULPS for the lane 1" "LANE1_ULPS_SIG1_0,LANE1_ULPS_SIG1_1"
group.long 0x50++0x03
line.long 0x00 "DSI_COMPLEXIO_IRQENABLE,INTERRUPT ENABLE REGISTER - All errors from complex I/O"
bitfld.long 0x00 31. "ULPSACTIVENOT_ALL1_IRQ_EN,All the ULPSActiveNOT signals corresponding to the lanes with TXULPSExit being high are high" "ULPSACTIVENOT_ALL1_IRQ_EN_0,ULPSACTIVENOT_ALL1_IRQ_EN_1"
bitfld.long 0x00 30. "ULPSACTIVENOT_ALL0_IRQ_EN,All signals ULPSActiveNOT are" "ULPSACTIVENOT_ALL0_IRQ_EN_0,ULPSACTIVENOT_ALL0_IRQ_EN_1"
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bitfld.long 0x00 29. "ERRCONTENTIONLP1_5_IRQ_EN,Contention LP1 error for lane 5 Applicable only to DS1" "ERRCONTENTIONLP1_5_IRQ_EN_0,ERRCONTENTIONLP1_5_IRQ_EN_1"
bitfld.long 0x00 28. "ERRCONTENTIONLP0_5_IRQ_EN,Contention LP0 error for lane 5 Applicable only to DS1" "ERRCONTENTIONLP0_5_IRQ_EN_0,ERRCONTENTIONLP0_5_IRQ_EN_1"
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bitfld.long 0x00 27. "ERRCONTENTIONLP1_4_IRQ_EN,Contention LP1 error for lane 4 Applicable only to DS1" "ERRCONTENTIONLP1_4_IRQ_EN_0,ERRCONTENTIONLP1_4_IRQ_EN_1"
bitfld.long 0x00 26. "ERRCONTENTIONLP0_4_IRQ_EN,Contention LP0 error for lane 4 Applicable only to DS1" "ERRCONTENTIONLP0_4_IRQ_EN_0,ERRCONTENTIONLP0_4_IRQ_EN_1"
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bitfld.long 0x00 25. "ERRCONTENTIONLP1_3_IRQ_EN,Contention LP1 error for lane" "ERRCONTENTIONLP1_3_IRQ_EN_0,ERRCONTENTIONLP1_3_IRQ_EN_1"
bitfld.long 0x00 24. "ERRCONTENTIONLP0_3_IRQ_EN,Contention LP0 error for lane" "ERRCONTENTIONLP0_3_IRQ_EN_0,ERRCONTENTIONLP0_3_IRQ_EN_1"
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bitfld.long 0x00 23. "ERRCONTENTIONLP1_2_IRQ_EN,Contention LP1 error for lane" "ERRCONTENTIONLP1_2_IRQ_EN_0,ERRCONTENTIONLP1_2_IRQ_EN_1"
bitfld.long 0x00 22. "ERRCONTENTIONLP0_2_IRQ_EN,Contention LP0 error for lane" "ERRCONTENTIONLP0_2_IRQ_EN_0,ERRCONTENTIONLP0_2_IRQ_EN_1"
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bitfld.long 0x00 21. "ERRCONTENTIONLP1_1_IRQ_EN,Contention LP1 error for lane" "ERRCONTENTIONLP1_1_IRQ_EN_0,ERRCONTENTIONLP1_1_IRQ_EN_1"
bitfld.long 0x00 20. "ERRCONTENTIONLP0_1_IRQ_EN,Contention LP0 error for lane" "ERRCONTENTIONLP0_1_IRQ_EN_0,ERRCONTENTIONLP0_1_IRQ_EN_1"
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bitfld.long 0x00 19. "STATEULPS5_IRQ_EN,lane 5 in ULTRALOW-POWER state Applicable only to DS1" "STATEULPS5_IRQ_EN_0,STATEULPS5_IRQ_EN_1"
bitfld.long 0x00 18. "STATEULPS4_IRQ_EN,lane 4 in ULTRALOW-POWER state Applicable only to DS1" "STATEULPS4_IRQ_EN_0,STATEULPS4_IRQ_EN_1"
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bitfld.long 0x00 17. "STATEULPS3_IRQ_EN,lane 3 in ULTRALOW-POWER state" "STATEULPS3_IRQ_EN_0,STATEULPS3_IRQ_EN_1"
bitfld.long 0x00 16. "STATEULPS2_IRQ_EN,lane 2 in ULTRALOW-POWER state" "STATEULPS2_IRQ_EN_0,STATEULPS2_IRQ_EN_1"
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bitfld.long 0x00 15. "STATEULPS1_IRQ_EN,lane 1 in ULTRALOW-POWER state" "STATEULPS1_IRQ_EN_0,STATEULPS1_IRQ_EN_1"
bitfld.long 0x00 14. "ERRCONTROL5_IRQ_EN,Control error for lane 5 Applicable only to DS1" "ERRCONTROL5_IRQ_EN_0,ERRCONTROL5_IRQ_EN_1"
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bitfld.long 0x00 13. "ERRCONTROL4_IRQ_EN,Control error for lane 4 Applicable only to DS1" "ERRCONTROL4_IRQ_EN_0,ERRCONTROL4_IRQ_EN_1"
bitfld.long 0x00 12. "ERRCONTROL3_IRQ_EN,Control error for lane" "ERRCONTROL3_IRQ_EN_0,ERRCONTROL3_IRQ_EN_1"
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bitfld.long 0x00 11. "ERRCONTROL2_IRQ_EN,Control error for lane" "ERRCONTROL2_IRQ_EN_0,ERRCONTROL2_IRQ_EN_1"
bitfld.long 0x00 10. "ERRCONTROL1_IRQ_EN,Control error for lane" "ERRCONTROL1_IRQ_EN_0,ERRCONTROL1_IRQ_EN_1"
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bitfld.long 0x00 9. "ERRESC5_IRQ_EN,Escape entry error for lane 5 Applicable only to DS1" "ERRESC5_IRQ_EN_0,ERRESC5_IRQ_EN_1"
bitfld.long 0x00 8. "ERRESC4_IRQ_EN,Escape entry error for lane 4 Applicable only to DS1" "ERRESC4_IRQ_EN_0,ERRESC4_IRQ_EN_1"
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bitfld.long 0x00 7. "ERRESC3_IRQ_EN,Escape entry error for lane" "ERRESC3_IRQ_EN_0,ERRESC3_IRQ_EN_1"
bitfld.long 0x00 6. "ERRESC2_IRQ_EN,Escape entry error for lane" "ERRESC2_IRQ_EN_0,ERRESC2_IRQ_EN_1"
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bitfld.long 0x00 5. "ERRESC1_IRQ_EN,Escape entry error for lane" "ERRESC1_IRQ_EN_0,ERRESC1_IRQ_EN_1"
bitfld.long 0x00 4. "ERRSYNCSESC5_IRQ_EN,Low power Data transmission synchronization error for lane 5 Applicable only to DS1" "ERRSYNCSESC5_IRQ_EN_0,ERRSYNCSESC5_IRQ_EN_1"
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bitfld.long 0x00 3. "ERRSYNCSESC4_IRQ_EN,Low power Data transmission synchronization error for lane 4 Applicable only to DS1" "ERRSYNCSESC4_IRQ_EN_0,ERRSYNCSESC4_IRQ_EN_1"
bitfld.long 0x00 2. "ERRSYNCSESC3_IRQ_EN,Low power Data transmission synchronization error for lane" "ERRSYNCSESC3_IRQ_EN_0,ERRSYNCSESC3_IRQ_EN_1"
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bitfld.long 0x00 1. "ERRSYNCSESC2_IRQ_EN,Low power Data transmission synchronization error for lane" "ERRSYNCSESC2_IRQ_EN_0,ERRSYNCSESC2_IRQ_EN_1"
bitfld.long 0x00 0. "ERRSYNCSESC1_IRQ_EN,Low power Data transmission synchronization error for lane" "ERRSYNCSESC1_IRQ_EN_0,ERRSYNCSESC1_IRQ_EN_1"
group.long 0x4C++0x03
line.long 0x00 "DSI_COMPLEXIO_IRQSTATUS,INTERRUPT STATUS REGISTER - All errors from complex I/O"
bitfld.long 0x00 31. "ULPSACTIVENOT_ALL1_IRQ,All the ULPSActiveNOT signals corresponding to the lanes with TXULPSExit being high are high" "ULPSACTIVENOT_ALL1_IRQ_0,ULPSACTIVENOT_ALL1_IRQ_1"
bitfld.long 0x00 30. "ULPSACTIVENOT_ALL0_IRQ,All signals ULPSActiveNOT are" "ULPSACTIVENOT_ALL0_IRQ_0,ULPSACTIVENOT_ALL0_IRQ_1"
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bitfld.long 0x00 29. "ERRCONTENTIONLP1_5_IRQ,Contention LP1 error for lane 5 Applicable only to DS1" "ERRCONTENTIONLP1_5_IRQ_0,ERRCONTENTIONLP1_5_IRQ_1"
bitfld.long 0x00 28. "ERRCONTENTIONLP0_5_IRQ,Contention LP0 error for lane 5 Applicable only to DS1" "ERRCONTENTIONLP0_5_IRQ_0,ERRCONTENTIONLP0_5_IRQ_1"
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bitfld.long 0x00 27. "ERRCONTENTIONLP1_4_IRQ,Contention LP1 error for lane 4 Applicable only to DS1" "ERRCONTENTIONLP1_4_IRQ_0,ERRCONTENTIONLP1_4_IRQ_1"
bitfld.long 0x00 26. "ERRCONTENTIONLP0_4_IRQ,Contention LP0 error for lane 4 Applicable only to DS1" "ERRCONTENTIONLP0_4_IRQ_0,ERRCONTENTIONLP0_4_IRQ_1"
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bitfld.long 0x00 25. "ERRCONTENTIONLP1_3_IRQ,Contention LP1 error for lane" "ERRCONTENTIONLP1_3_IRQ_0,ERRCONTENTIONLP1_3_IRQ_1"
bitfld.long 0x00 24. "ERRCONTENTIONLP0_3_IRQ,Contention LP0 error for lane" "ERRCONTENTIONLP0_3_IRQ_0,ERRCONTENTIONLP0_3_IRQ_1"
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bitfld.long 0x00 23. "ERRCONTENTIONLP1_2_IRQ,Contention LP1 error for lane" "ERRCONTENTIONLP1_2_IRQ_0,ERRCONTENTIONLP1_2_IRQ_1"
bitfld.long 0x00 22. "ERRCONTENTIONLP0_2_IRQ,Contention LP0 error for lane" "ERRCONTENTIONLP0_2_IRQ_0,ERRCONTENTIONLP0_2_IRQ_1"
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bitfld.long 0x00 21. "ERRCONTENTIONLP1_1_IRQ,Contention LP1 error for lane" "ERRCONTENTIONLP1_1_IRQ_0,ERRCONTENTIONLP1_1_IRQ_1"
bitfld.long 0x00 20. "ERRCONTENTIONLP0_1_IRQ,Contention LP0 error for lane" "ERRCONTENTIONLP0_1_IRQ_0,ERRCONTENTIONLP0_1_IRQ_1"
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bitfld.long 0x00 19. "STATEULPS5_IRQ,lane 5 in ULTRALOW-POWER State Applicable only to DS1" "STATEULPS5_IRQ_0,STATEULPS5_IRQ_1"
bitfld.long 0x00 18. "STATEULPS4_IRQ,lane 4 in ultralow-power mode Applicable only to DS1" "STATEULPS4_IRQ_0,STATEULPS4_IRQ_1"
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bitfld.long 0x00 17. "STATEULPS3_IRQ,lane 3 in ULTRALOW-POWER state" "STATEULPS3_IRQ_0,STATEULPS3_IRQ_1"
bitfld.long 0x00 16. "STATEULPS2_IRQ,lane 2 in ULTRALOW-POWER state" "STATEULPS2_IRQ_0,STATEULPS2_IRQ_1"
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bitfld.long 0x00 15. "STATEULPS1_IRQ,lane 1 in ULTRALOW-POWER state" "STATEULPS1_IRQ_0,STATEULPS1_IRQ_1"
bitfld.long 0x00 14. "ERRCONTROL5_IRQ,Control error for lane 5 Applicable only to DS1" "ERRCONTROL5_IRQ_0,ERRCONTROL5_IRQ_1"
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bitfld.long 0x00 13. "ERRCONTROL4_IRQ,Control error for lane 4 Applicable only to DS1" "ERRCONTROL4_IRQ_0,ERRCONTROL4_IRQ_1"
bitfld.long 0x00 12. "ERRCONTROL3_IRQ,Control error for lane" "ERRCONTROL3_IRQ_0,ERRCONTROL3_IRQ_1"
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bitfld.long 0x00 11. "ERRCONTROL2_IRQ,Control error for lane" "ERRCONTROL2_IRQ_0,ERRCONTROL2_IRQ_1"
bitfld.long 0x00 10. "ERRCONTROL1_IRQ,Control error for lane" "ERRCONTROL1_IRQ_0,ERRCONTROL1_IRQ_1"
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bitfld.long 0x00 9. "ERRESC5_IRQ,Escape entry error for lane 5 Applicable only to DS1" "ERRESC5_IRQ_0,ERRESC5_IRQ_1"
bitfld.long 0x00 8. "ERRESC4_IRQ,Escape entry error for lane 4 Applicable only to DS1" "ERRESC4_IRQ_0,ERRESC4_IRQ_1"
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bitfld.long 0x00 7. "ERRESC3_IRQ,Escape entry error for lane" "ERRESC3_IRQ_0,ERRESC3_IRQ_1"
bitfld.long 0x00 6. "ERRESC2_IRQ,Escape entry error for lane" "ERRESC2_IRQ_0,ERRESC2_IRQ_1"
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bitfld.long 0x00 5. "ERRESC1_IRQ,Escape entry error for lane" "ERRESC1_IRQ_0,ERRESC1_IRQ_1"
bitfld.long 0x00 4. "ERRSYNCESC5_IRQ,Low power Data transmission synchronization error for lane 5 Applicable only to DS1" "ERRSYNCESC5_IRQ_0,ERRSYNCESC5_IRQ_1"
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bitfld.long 0x00 3. "ERRSYNCESC4_IRQ,Low power Data transmission synchronization error for lane 4 Applicable only to DS1" "ERRSYNCESC4_IRQ_0,ERRSYNCESC4_IRQ_1"
bitfld.long 0x00 2. "ERRSYNCESC3_IRQ,Low power Data transmission synchronization error for lane" "ERRSYNCESC3_IRQ_0,ERRSYNCESC3_IRQ_1"
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bitfld.long 0x00 1. "ERRSYNCESC2_IRQ,Low power Data transmission synchronization error for lane" "ERRSYNCESC2_IRQ_0,ERRSYNCESC2_IRQ_1"
bitfld.long 0x00 0. "ERRSYNCESC1_IRQ,Low power Data transmission synchronization error for lane" "ERRSYNCESC1_IRQ_0,ERRSYNCESC1_IRQ_1"
group.long 0x40++0x03
line.long 0x00 "DSI_CTRL,GLOBAL CONTROL REGISTER This register controls the DSI Protocol Engine module"
bitfld.long 0x00 24. "DISPC_UPDATE_SYNC,Determines if the Dispc_Update_Sync signal from the display controller is used" "DISPC_UPDATE_SYNC_0,DISPC_UPDATE_SYNC_1"
bitfld.long 0x00 23. "HSA_BLANKING_MODE,Blanking mode" "HSA_BLANKING_MODE_0,HSA_BLANKING_MODE_1"
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bitfld.long 0x00 22. "HBP_BLANKING_MODE,Blanking mode" "HBP_BLANKING_MODE_0,HBP_BLANKING_MODE_1"
bitfld.long 0x00 21. "HFP_BLANKING_MODE,Blanking mode" "HFP_BLANKING_MODE_0,HFP_BLANKING_MODE_1"
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bitfld.long 0x00 20. "BLANKING_MODE,Blanking mode" "BLANKING_MODE_0,BLANKING_MODE_1"
bitfld.long 0x00 19. "EOT_ENABLE,Enable EOT packets at the end of HS transmission" "EOT_ENABLE_0,EOT_ENABLE_1"
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bitfld.long 0x00 18. "VP_HSYNC_END,HSYNC end pulse" "VP_HSYNC_END_0,VP_HSYNC_END_1"
bitfld.long 0x00 17. "VP_HSYNC_START,HSYNC start pulse" "VP_HSYNC_START_0,VP_HSYNC_START_1"
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bitfld.long 0x00 16. "VP_VSYNC_END,VSYNC end pulse" "VP_VSYNC_END_0,VP_VSYNC_END_1"
bitfld.long 0x00 15. "VP_VSYNC_START,VSYNC start pulse" "VP_VSYNC_START_0,VP_VSYNC_START_1"
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bitfld.long 0x00 14. "TRIGGER_RESET_MODE,Selection of the trigger reset mode" "TRIGGER_RESET_MODE_0,TRIGGER_RESET_MODE_1"
bitfld.long 0x00 12.--13. "LINE_BUFFER,Number of line buffers to be used while receiving data on the video port" "LINE_BUFFER_0,LINE_BUFFER_1,LINE_BUFFER_2,?"
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bitfld.long 0x00 11. "VP_VSYNC_POL,VP vertical synchronization signal polarity" "VP_VSYNC_POL_0,VP_VSYNC_POL_1"
bitfld.long 0x00 10. "VP_HSYNC_POL,VP horizontal synchronization signal polarity" "VP_HSYNC_POL_0,VP_HSYNC_POL_1"
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bitfld.long 0x00 9. "VP_DE_POL,VP data enable signal polarity" "VP_DE_POL_0,VP_DE_POL_1"
bitfld.long 0x00 8. "VP_CLK_POL,VP pixel clock polarity" "VP_CLK_POL_0,VP_CLK_POL_1"
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bitfld.long 0x00 6.--7. "VP_DATA_BUS_WIDTH,Defines the size of the video port data bus" "VP_DATA_BUS_WIDTH_0,VP_DATA_BUS_WIDTH_1,VP_DATA_BUS_WIDTH_2,?"
bitfld.long 0x00 5. "TRIGGER_RESET,Send the reset trigger to the peripheral" "TRIGGER_RESET_0,TRIGGER_RESET_1"
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bitfld.long 0x00 4. "VP_CLK_RATIO,The field indicates the clock ratio between VP_CLK and VP_PCLK" "VP_CLK_RATIO_0,VP_CLK_RATIO_1"
bitfld.long 0x00 3. "TX_FIFO_ARBITRATION,Defines the arbitration scheme for granting the virtual channel pending ready requests in the TX FIFO" "TX_FIFO_ARBITRATION_0,TX_FIFO_ARBITRATION_1"
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bitfld.long 0x00 2. "ECC_RX_EN,Enables the Error Correction Code check for the received header (short and long packets for all virtual channel ids)" "ECC_RX_EN_0,ECC_RX_EN_1"
bitfld.long 0x00 1. "CS_RX_EN,Enables the checksum check for the received payload (long packet only for all virtual channel ids)" "CS_RX_EN_0,CS_RX_EN_1"
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bitfld.long 0x00 0. "IF_EN,Enables the module" "IF_EN_0,IF_EN_1"
group.long 0x98++0x03
line.long 0x00 "DSI_CTRL2,Additional control bits for use with Video Port 2"
bitfld.long 0x00 12.--13. "LINE_BUFFER,Number of line buffers to be used while receiving data on the video port" "LINE_BUFFER_0,LINE_BUFFER_1,LINE_BUFFER_2,?"
bitfld.long 0x00 11. "VP_VSYNC_POL,VP vertical synchronization signal polarity" "VP_VSYNC_POL_0,VP_VSYNC_POL_1"
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bitfld.long 0x00 10. "VP_HSYNC_POL,VP horizontal synchronization signal polarity" "VP_HSYNC_POL_0,VP_HSYNC_POL_1"
bitfld.long 0x00 9. "VP_DE_POL,VP data enable signal polarity" "VP_DE_POL_0,VP_DE_POL_1"
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bitfld.long 0x00 8. "VP_CLK_POL,VP pixel clock polarity" "VP_CLK_POL_0,VP_CLK_POL_1"
bitfld.long 0x00 6.--7. "VP_DATA_BUS_WIDTH,Defines the size of the video port data bus" "VP_DATA_BUS_WIDTH_0,VP_DATA_BUS_WIDTH_1,VP_DATA_BUS_WIDTH_2,?"
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bitfld.long 0x00 4. "VP_CLK_RATIO,The field indicates the clock ratio between VP_CLK and VP_PCLK" "VP_CLK_RATIO_0,VP_CLK_RATIO_1"
rgroup.long 0x44++0x03
line.long 0x00 "DSI_GNQ,GENERIC PARAMETER REGISTER This register provide a way to read the generic parameters used in the design"
bitfld.long 0x00 24. "NB_VIDEO_PORTS,Number of video ports" "NB_VIDEO_PORTS_0_r,NB_VIDEO_PORTS_1_r"
bitfld.long 0x00 22.--23. "VP2_NB_LINE_BUFFER,Determines the number of video buffer lines associated to video port 2" "VP2_NB_LINE_BUFFER_0_r,VP2_NB_LINE_BUFFER_1_r,VP2_NB_LINE_BUFFER_2_r,?"
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bitfld.long 0x00 18.--20. "VP2_LINE_BUFFER_SIZE,Determines the video line buffer size associated to video port 2" "?,VP2_LINE_BUFFER_SIZE_1_r,VP2_LINE_BUFFER_SIZE_2_r,VP2_LINE_BUFFER_SIZE_3_r,VP2_LINE_BUFFER_SIZE_4_r,VP2_LINE_BUFFER_SIZE_5_r,VP2_LINE_BUFFER_SIZE_6_r,?"
bitfld.long 0x00 16.--17. "VP1_NB_LINE_BUFFER,Determines the number of video buffer lines associated to video port 1" "VP1_NB_LINE_BUFFER_0_r,VP1_NB_LINE_BUFFER_1_r,VP1_NB_LINE_BUFFER_2_r,?"
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bitfld.long 0x00 12.--14. "VP1_LINE_BUFFER_SIZE,Determines the video line buffer size associated to video port 1" "?,VP1_LINE_BUFFER_SIZE_1_r,VP1_LINE_BUFFER_SIZE_2_r,VP1_LINE_BUFFER_SIZE_3_r,VP1_LINE_BUFFER_SIZE_4_r,VP1_LINE_BUFFER_SIZE_5_r,VP1_LINE_BUFFER_SIZE_6_r,?"
bitfld.long 0x00 9.--11. "NB_DATA_LANES,Determines the number of data lanes supported by the DSI protocol engine" "?,NB_DATA_LANES_1_r,NB_DATA_LANES_2_r,NB_DATA_LANES_3_r,NB_DATA_LANES_4_r,?,?,?"
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bitfld.long 0x00 6.--8. "NB_DMA_REQUEST,Determines the number of DMA_REQ signals" "NB_DMA_REQUEST_0_r,NB_DMA_REQUEST_1_r,NB_DMA_REQUEST_2_r,NB_DMA_REQUEST_3_r,NB_DMA_REQUEST_4_r,?,?,?"
bitfld.long 0x00 3.--5. "RX_FIFODEPTH,Determines the data RX FIFO depth (32-bit words) on the slave port" "?,?,?,?,RX_FIFODEPTH_4_r,RX_FIFODEPTH_5_r,RX_FIFODEPTH_6_r,RX_FIFODEPTH_7_r"
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bitfld.long 0x00 0.--2. "TX_FIFODEPTH,Determines the data TX FIFO depth (33-bit words) on the slave port" "?,?,?,?,TX_FIFODEPTH_4_r,TX_FIFODEPTH_5_r,TX_FIFODEPTH_6_r,TX_FIFODEPTH_7_r"
group.long 0x1C++0x03
line.long 0x00 "DSI_IRQENABLE,INTERRUPT ENABLE REGISTER - This register associates one bit for each virtual channel in order to enable/disable each virtual channel individually"
bitfld.long 0x00 22. "TE1_LINE_IRQ_EN,The VSYNC and corresponding HSYNC pulses defined in DSI_TE_HSYNC_NUMBER for the line TE1 have been received by the DSI protocol engine and have trigger the start of the data transfer to the peripheral" "TE1_LINE_IRQ_EN_0,TE1_LINE_IRQ_EN_1"
bitfld.long 0x00 21. "TE0_LINE_IRQ_EN,The VSYNC and corresponding HSYNC pulses defined in DSI_TE_HSYNC_NUMBER for the line TE0 have been received by the DSI protocol engine and have trigger the start of the data transfer to the peripheral" "TE0_LINE_IRQ_EN_0,TE0_LINE_IRQ_EN_1"
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bitfld.long 0x00 20. "TA_TO_IRQ_EN,Turn-around Time out" "TA_TO_IRQ_EN_0,TA_TO_IRQ_EN_1"
bitfld.long 0x00 18. "SYNC_LOST_IRQ_EN,Synchronization with Video port is lost (Video mode only)" "SYNC_LOST_IRQ_EN_0,SYNC_LOST_IRQ_EN_1"
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bitfld.long 0x00 17. "ACK_TRIGGER_IRQ_EN,Acknowledge trigger" "ACK_TRIGGER_IRQ_EN_0,ACK_TRIGGER_IRQ_EN_1"
bitfld.long 0x00 16. "TE_TRIGGER_IRQ_EN,Tearing Effect trigger" "TE_TRIGGER_IRQ_EN_0,TE_TRIGGER_IRQ_EN_1"
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bitfld.long 0x00 15. "LP_RX_TO_IRQ_EN,Interrupt for Low Power Rx Time out" "LP_RX_TO_IRQ_EN_0,LP_RX_TO_IRQ_EN_1"
bitfld.long 0x00 14. "HS_TX_TO_IRQ_EN,Interrupt for High Speed Tx Time out" "HS_TX_TO_IRQ_EN_0,HS_TX_TO_IRQ_EN_1"
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bitfld.long 0x00 9. "PLL_RECAL_IRQ_EN,PLL recal event (assertion of DSIRecal signal from the DSI PLL Control module)" "PLL_RECAL_IRQ_EN_0,PLL_RECAL_IRQ_EN_1"
bitfld.long 0x00 8. "PLL_UNLOCK_IRQ_EN,PLL un-clock event (de-assertion of DSILock signal from the DSI PLL Control module)" "PLL_UNLOCK_IRQ_EN_0,PLL_UNLOCK_IRQ_EN_1"
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bitfld.long 0x00 7. "PLL_LOCK_IRQ_EN,PLL clock event (assertion of DSILock signal from the DSI PLL Control module)" "PLL_LOCK_IRQ_EN_0,PLL_LOCK_IRQ_EN_1"
bitfld.long 0x00 5. "RESYNCHRONIZATION_IRQ_EN,Video mode resynchronization" "RESYNCHRONIZATION_IRQ_EN_0,RESYNCHRONIZATION_IRQ_EN_1"
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bitfld.long 0x00 4. "WAKEUP_IRQ_EN,Wakeup" "WAKEUP_IRQ_EN_0,WAKEUP_IRQ_EN_1"
group.long 0x18++0x03
line.long 0x00 "DSI_IRQSTATUS,INTERRUPT STATUS REGISTER - All virtual channels + Complex I/O + PLL This register associates one bit for each virtual channel in order to determine which virtual channel has generated the interrupt"
bitfld.long 0x00 22. "TE1_LINE_IRQ,The VSYNC and corresponding HSYNC pulses defined in DSI_TE_HSYNC_NUMBER for the line TE1 have been received by the DSI protocol engine and have trigger the start of the data transfer to the peripheral" "TE1_LINE_IRQ_0,TE1_LINE_IRQ_1"
bitfld.long 0x00 21. "TE0_LINE_IRQ,The VSYNC and corresponding HSYNC pulses defined in DSI_TE_HSYNC_NUMBER for the line TE0 have been received by the DSI protocol engine and have trigger the start of the data transfer to the peripheral" "TE0_LINE_IRQ_0,TE0_LINE_IRQ_1"
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bitfld.long 0x00 20. "TA_TO_IRQ,Turn-around Time out" "TA_TO_IRQ_0,TA_TO_IRQ_1"
bitfld.long 0x00 18. "SYNC_LOST_IRQ,Synchronization with Video port is lost (Video mode only)" "SYNC_LOST_IRQ_0,SYNC_LOST_IRQ_1"
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bitfld.long 0x00 17. "ACK_TRIGGER_IRQ,Acknowledge Trigger" "ACK_TRIGGER_IRQ_0,ACK_TRIGGER_IRQ_1"
bitfld.long 0x00 16. "TE_TRIGGER_IRQ,Tearing Effect Trigger" "TE_TRIGGER_IRQ_0,TE_TRIGGER_IRQ_1"
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bitfld.long 0x00 15. "LP_RX_TO_IRQ,Interrupt for Low Power Rx Time out" "LP_RX_TO_IRQ_0,LP_RX_TO_IRQ_1"
bitfld.long 0x00 14. "HS_TX_TO_IRQ,Interrupt for High Speed Tx Time out" "HS_TX_TO_IRQ_0,HS_TX_TO_IRQ_1"
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rbitfld.long 0x00 10. "COMPLEXIO_ERR_IRQ,Error signaling from Complex I/O: status of the complex I/O errors received from the complex I/O (events are defined inDSI_COMPLEXIO_IRQSTATUS)" "COMPLEXIO_ERR_IRQ_0_r,COMPLEXIO_ERR_IRQ_1_r"
bitfld.long 0x00 9. "PLL_RECAL_IRQ,PLL recal event (assertion of DSIRecal signal from the DSI PLL Control module)" "PLL_RECAL_IRQ_0,PLL_RECAL_IRQ_1"
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bitfld.long 0x00 8. "PLL_UNLOCK_IRQ,PLL un-clock event (de-assertion of DSILock signal from the DSI PLL Control module)" "PLL_UNLOCK_IRQ_0,PLL_UNLOCK_IRQ_1"
bitfld.long 0x00 7. "PLL_LOCK_IRQ,PLL clock event (assertion of DSILock signal from the DSI PLL Control module)" "PLL_LOCK_IRQ_0,PLL_LOCK_IRQ_1"
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bitfld.long 0x00 5. "RESYNCHRONIZATION_IRQ,Video mode resynchronization indicates to the software users that the video port works but the configuration of the timings for the display controller (DISPC) and for DSI Protocol engine may need to be modified to avoid the.." "RESYNCHRONIZATION_IRQ_0,RESYNCHRONIZATION_IRQ_1"
bitfld.long 0x00 4. "WAKEUP_IRQ,Wakeup" "WAKEUP_IRQ_0,WAKEUP_IRQ_1"
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rbitfld.long 0x00 3. "VIRTUAL_CHANNEL3_IRQ,Virtual channel" "VIRTUAL_CHANNEL3_IRQ_0_r,VIRTUAL_CHANNEL3_IRQ_1_r"
rbitfld.long 0x00 2. "VIRTUAL_CHANNEL2_IRQ,Virtual channel" "VIRTUAL_CHANNEL2_IRQ_0_r,VIRTUAL_CHANNEL2_IRQ_1_r"
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rbitfld.long 0x00 1. "VIRTUAL_CHANNEL1_IRQ,Virtual channel" "VIRTUAL_CHANNEL1_IRQ_0_r,VIRTUAL_CHANNEL1_IRQ_1_r"
rbitfld.long 0x00 0. "VIRTUAL_CHANNEL0_IRQ,Virtual channel" "VIRTUAL_CHANNEL0_IRQ_0_r,VIRTUAL_CHANNEL0_IRQ_1_r"
rgroup.long 0x00++0x03
line.long 0x00 "DSI_REVISION,IP Revision"
rgroup.long 0x7C++0x03
line.long 0x00 "DSI_RX_FIFO_VC_FULLNESS,Defines the fullness of each space allocated for each virtual channel"
hexmask.long.byte 0x00 24.--31. 1. "VC3_FIFO_FULLNESS,Fullness of the FIFO allocated for virtual channel 3.The valid values are from 0 toDSI_GNQ[5:3] RX_FIFODEPTH-1 corresponding to 1x33-bit ...up to DSI_GNQ[5:3] RX_FIFODEPTH x33-bit"
hexmask.long.byte 0x00 16.--23. 1. "VC2_FIFO_FULLNESS,Fullness of the FIFO allocated for virtual channel 2.The valid values are from 0 toDSI_GNQ[5:3] RX_FIFODEPTH-1 corresponding to 1x33-bit ...up to DSI_GNQ[5:3] RX_FIFODEPTH x33-bit"
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hexmask.long.byte 0x00 8.--15. 1. "VC1_FIFO_FULLNESS,Fullness of the FIFO allocated for virtual channel 1.The valid values are from 0 toDSI_GNQ[5:3] RX_FIFODEPTH-1 corresponding to 1x33-bit ...up to DSI_GNQ[5:3] RX_FIFODEPTH x33-bit"
hexmask.long.byte 0x00 0.--7. 1. "VC0_FIFO_FULLNESS,Fullness of the FIFO allocated for virtual channel 0.The valid values are from 0 toDSI_GNQ[5:3] RX_FIFODEPTH-1 corresponding to 1x33-bit ...up to DSI_GNQ[5:3] RX_FIFODEPTH x33-bit"
group.long 0x74++0x03
line.long 0x00 "DSI_RX_FIFO_VC_SIZE,Defines the corresponding memory entries allocated for each virtual channel and the addresses"
bitfld.long 0x00 28.--31. "VC3_FIFO_SIZE,Size of the FIFO allocated for virtual channel 3" "VC3_FIFO_SIZE_0,VC3_FIFO_SIZE_1,VC3_FIFO_SIZE_2,VC3_FIFO_SIZE_3,VC3_FIFO_SIZE_4,VC3_FIFO_SIZE_5,VC3_FIFO_SIZE_6,VC3_FIFO_SIZE_7,VC3_FIFO_SIZE_8,VC3_FIFO_SIZE_9,VC3_FIFO_SIZE_10,VC3_FIFO_SIZE_11,VC3_FIFO_SIZE_12,VC3_FIFO_SIZE_13,VC3_FIFO_SIZE_14,VC3_FIFO_SIZE_15"
bitfld.long 0x00 24.--26. "VC3_FIFO_ADD,Address of the space allocated in the FIFO for virtual channel 3" "VC3_FIFO_ADD_0,VC3_FIFO_ADD_1,VC3_FIFO_ADD_2,VC3_FIFO_ADD_3,VC3_FIFO_ADD_4,VC3_FIFO_ADD_5,VC3_FIFO_ADD_6,VC3_FIFO_ADD_7"
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bitfld.long 0x00 20.--23. "VC2_FIFO_SIZE,Size of the FIFO allocated for virtual channel 2" "VC2_FIFO_SIZE_0,VC2_FIFO_SIZE_1,VC2_FIFO_SIZE_2,VC2_FIFO_SIZE_3,VC2_FIFO_SIZE_4,VC2_FIFO_SIZE_5,VC2_FIFO_SIZE_6,VC2_FIFO_SIZE_7,VC2_FIFO_SIZE_8,VC2_FIFO_SIZE_9,VC2_FIFO_SIZE_10,VC2_FIFO_SIZE_11,VC2_FIFO_SIZE_12,VC2_FIFO_SIZE_13,VC2_FIFO_SIZE_14,VC2_FIFO_SIZE_15"
bitfld.long 0x00 16.--18. "VC2_FIFO_ADD,Address of the space allocated in the FIFO for virtual channel 2" "VC2_FIFO_ADD_0,VC2_FIFO_ADD_1,VC2_FIFO_ADD_2,VC2_FIFO_ADD_3,VC2_FIFO_ADD_4,VC2_FIFO_ADD_5,VC2_FIFO_ADD_6,VC2_FIFO_ADD_7"
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bitfld.long 0x00 12.--15. "VC1_FIFO_SIZE,Size of the FIFO allocated for virtual channel 1" "VC1_FIFO_SIZE_0,VC1_FIFO_SIZE_1,VC1_FIFO_SIZE_2,VC1_FIFO_SIZE_3,VC1_FIFO_SIZE_4,VC1_FIFO_SIZE_5,VC1_FIFO_SIZE_6,VC1_FIFO_SIZE_7,VC1_FIFO_SIZE_8,VC1_FIFO_SIZE_9,VC1_FIFO_SIZE_10,VC1_FIFO_SIZE_11,VC1_FIFO_SIZE_12,VC1_FIFO_SIZE_13,VC1_FIFO_SIZE_14,VC1_FIFO_SIZE_15"
bitfld.long 0x00 8.--10. "VC1_FIFO_ADD,Address of the space allocated in the FIFO for virtual channel 1" "VC1_FIFO_ADD_0,VC1_FIFO_ADD_1,VC1_FIFO_ADD_2,VC1_FIFO_ADD_3,VC1_FIFO_ADD_4,VC1_FIFO_ADD_5,VC1_FIFO_ADD_6,VC1_FIFO_ADD_7"
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bitfld.long 0x00 4.--7. "VC0_FIFO_SIZE,Size of the FIFO allocated for virtual channel 0" "VC0_FIFO_SIZE_0,VC0_FIFO_SIZE_1,VC0_FIFO_SIZE_2,VC0_FIFO_SIZE_3,VC0_FIFO_SIZE_4,VC0_FIFO_SIZE_5,VC0_FIFO_SIZE_6,VC0_FIFO_SIZE_7,VC0_FIFO_SIZE_8,VC0_FIFO_SIZE_9,VC0_FIFO_SIZE_10,VC0_FIFO_SIZE_11,VC0_FIFO_SIZE_12,VC0_FIFO_SIZE_13,VC0_FIFO_SIZE_14,VC0_FIFO_SIZE_15"
bitfld.long 0x00 0.--2. "VC0_FIFO_ADD,Address of the space allocated in the FIFO for virtual channel 0" "VC0_FIFO_ADD_0,VC0_FIFO_ADD_1,VC0_FIFO_ADD_2,VC0_FIFO_ADD_3,VC0_FIFO_ADD_4,VC0_FIFO_ADD_5,VC0_FIFO_ADD_6,VC0_FIFO_ADD_7"
group.long 0x94++0x03
line.long 0x00 "DSI_STOPCLK_TIMING,Number of functional clock cycles to wait for TXBYTECLKHS to stop/start after change in DSIStopClk signal"
hexmask.long.byte 0x00 0.--7. 1. "DSI_STOPCLK_LATENCY,Clock gating latency from DSI Protocol to TXBYTECLKHS"
group.long 0x10++0x07
line.long 0x00 "DSI_SYSCONFIG,SYSTEM CONFIGURATION REGISTER"
bitfld.long 0x00 8.--9. "CLOCKACTIVITY,Clocks activity during wake up mode period" "CLOCKACTIVITY_0,CLOCKACTIVITY_1,CLOCKACTIVITY_2,CLOCKACTIVITY_3"
bitfld.long 0x00 3.--4. "SIDLEMODE,Slave interface power management Idle req/ack control" "SIDLEMODE_0,SIDLEMODE_1,SIDLEMODE_2,SIDLEMODE_3"
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bitfld.long 0x00 2. "ENWAKEUP,Wake-up mode enable bit" "ENWAKEUP_0,ENWAKEUP_1"
bitfld.long 0x00 1. "SOFT_RESET,Software reset" "SOFT_RESET_0,SOFT_RESET_1"
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bitfld.long 0x00 0. "AUTO_IDLE,Internal interface gating strategy" "AUTO_IDLE_0,AUTO_IDLE_1"
line.long 0x04 "DSI_SYSSTATUS,SYSTEM STATUS REGISTER This register provides status information about the module. excluding the interrupt status register"
bitfld.long 0x04 0. "RESET_DONE,Internal reset monitoring" "RESET_DONE_0_r,RESET_DONE_1_r"
group.long 0x58++0x07
line.long 0x00 "DSI_TIMING1,TIMING1 REGISTER This register controls the DSI Protocol Engine module timers"
bitfld.long 0x00 31. "TA_TO,Enables the turn-around timer" "TA_TO_0,TA_TO_1"
bitfld.long 0x00 30. "TA_TO_X16,Multiplication factor for the number of DSI_CLK functional clocks cycles defined in TA_TO_COUNTER bit field" "TA_TO_X16_0,TA_TO_X16_1"
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bitfld.long 0x00 29. "TA_TO_X8,Multiplication factor for the number of DSI_CLK functional clock cycles defined in TA_TO_COUNTER bit field" "TA_TO_X8_0,TA_TO_X8_1"
hexmask.long.word 0x00 16.--28. 1. "TA_TO_COUNTER,Turn around counter"
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bitfld.long 0x00 15. "FORCE_TX_STOP_MODE_IO,Control of ForceTxStopMode signal" "FORCE_TX_STOP_MODE_IO_0,FORCE_TX_STOP_MODE_IO_1"
bitfld.long 0x00 14. "STOP_STATE_X16_IO,Multiplication factor for the number of DSI_CLK functional clock cycles defined in STOP_STATE_COUNTER_IO bit field" "STOP_STATE_X16_IO_0,STOP_STATE_X16_IO_1"
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bitfld.long 0x00 13. "STOP_STATE_X4_IO,Multiplication factor for the number of DSI_CLK functional clock cycles defined in STOP_STATE_COUNTER_IO bit field" "STOP_STATE_X4_IO_0,STOP_STATE_X4_IO_1"
hexmask.long.word 0x00 0.--12. 1. "STOP_STATE_COUNTER_IO,Stop state counter"
line.long 0x04 "DSI_TIMING2,TIMING2 REGISTER This register controls the DSI Protocol Engine module timers"
bitfld.long 0x04 31. "HS_TX_TO,Enables the HS TX timer" "HS_TX_TO_0,HS_TX_TO_1"
bitfld.long 0x04 30. "HS_TX_TO_X64,Multiplication factor for the number of BYTE_CLK functional clock cycles defined in HS_TX_COUNTER bit field" "HS_TX_TO_X64_0,HS_TX_TO_X64_1"
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bitfld.long 0x04 29. "HS_TX_TO_X16,Multiplication factor for the number of BYTE_CLK functional clock cycles defined in HS_TX_COUNTER bit" "HS_TX_TO_X16_0,HS_TX_TO_X16_1"
hexmask.long.word 0x04 16.--28. 1. "HS_TX_TO_COUNTER,HS_TX_TIMER counter"
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bitfld.long 0x04 15. "LP_RX_TO,Enables the LP RX timer" "LP_RX_TO_0,LP_RX_TO_1"
bitfld.long 0x04 14. "LP_RX_TO_X16,Multiplication factor for the number of DSI_FCLK clock cycles defined in LP_RX_COUNTER bit field" "LP_RX_TO_X16_0,LP_RX_TO_X16_1"
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bitfld.long 0x04 13. "LP_RX_TO_X4,Multiplication factor for the number of DSI_FCLK clock cycles defined in LP_RX_COUNTER bit" "LP_RX_TO_X4_0,LP_RX_TO_X4_1"
hexmask.long.word 0x04 0.--12. 1. "LP_RX_TO_COUNTER,LP_RX_TIMER counter"
rgroup.long 0x84++0x03
line.long 0x00 "DSI_TX_FIFO_VC_EMPTINESS,Defines the emptiness of each space allocated for each virtual channel"
hexmask.long.byte 0x00 24.--31. 1. "VC3_FIFO_EMPTINESS,Emptiness of the FIFO allocated for virtual channel 3.The valid values are from 0 toDSI_GNQ[2:0] TX_FIFODEPTH-1 corresponding to 1x33-bit ...up to DSI_GNQ[2:0] TX_FIFODEPTH x33-bit"
hexmask.long.byte 0x00 16.--23. 1. "VC2_FIFO_EMPTINESS,Emptiness of the FIFO allocated for virtual channel 2.The valid values are from 0 toDSI_GNQ[2:0] TX_FIFODEPTH-1 corresponding to 1x33-bit ...up to DSI_GNQ[2:0] TX_FIFODEPTH x33-bit"
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hexmask.long.byte 0x00 8.--15. 1. "VC1_FIFO_EMPTINESS,Emptiness of the FIFO allocated for virtual channel 1.The valid values are from 0 toDSI_GNQ[2:0] TX_FIFODEPTH-1 corresponding to 1x33-bit ...up to DSI_GNQ[2:0] TX_FIFODEPTH x33-bit"
hexmask.long.byte 0x00 0.--7. 1. "VC0_FIFO_EMPTINESS,Emptiness of the FIFO allocated for virtual channel 0.The valid values are from 0 toDSI_GNQ[2:0] TX_FIFODEPTH-1 corresponding to 1x33-bit ...up to DSI_GNQ[2:0] TX_FIFODEPTH x33-bit"
group.long 0x70++0x03
line.long 0x00 "DSI_TX_FIFO_VC_SIZE,Defines the corresponding memory entries allocated for each virtual channel"
bitfld.long 0x00 28.--31. "VC3_FIFO_SIZE,Size of the FIFO allocated for virtual channel 3" "VC3_FIFO_SIZE_0,VC3_FIFO_SIZE_1,VC3_FIFO_SIZE_2,VC3_FIFO_SIZE_3,VC3_FIFO_SIZE_4,VC3_FIFO_SIZE_5,VC3_FIFO_SIZE_6,VC3_FIFO_SIZE_7,VC3_FIFO_SIZE_8,VC3_FIFO_SIZE_9,VC3_FIFO_SIZE_10,VC3_FIFO_SIZE_11,VC3_FIFO_SIZE_12,VC3_FIFO_SIZE_13,VC3_FIFO_SIZE_14,VC3_FIFO_SIZE_15"
bitfld.long 0x00 24.--26. "VC3_FIFO_ADD,Address of the space allocated in the FIFO for virtual channel 3" "VC3_FIFO_ADD_0,VC3_FIFO_ADD_1,VC3_FIFO_ADD_2,VC3_FIFO_ADD_3,VC3_FIFO_ADD_4,VC3_FIFO_ADD_5,VC3_FIFO_ADD_6,VC3_FIFO_ADD_7"
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bitfld.long 0x00 20.--23. "VC2_FIFO_SIZE,Size of the FIFO allocated for virtual channel 2" "VC2_FIFO_SIZE_0,VC2_FIFO_SIZE_1,VC2_FIFO_SIZE_2,VC2_FIFO_SIZE_3,VC2_FIFO_SIZE_4,VC2_FIFO_SIZE_5,VC2_FIFO_SIZE_6,VC2_FIFO_SIZE_7,VC2_FIFO_SIZE_8,VC2_FIFO_SIZE_9,VC2_FIFO_SIZE_10,VC2_FIFO_SIZE_11,VC2_FIFO_SIZE_12,VC2_FIFO_SIZE_13,VC2_FIFO_SIZE_14,VC2_FIFO_SIZE_15"
bitfld.long 0x00 16.--18. "VC2_FIFO_ADD,Address of the space allocated in the FIFO for virtual channel 2" "VC2_FIFO_ADD_0,VC2_FIFO_ADD_1,VC2_FIFO_ADD_2,VC2_FIFO_ADD_3,VC2_FIFO_ADD_4,VC2_FIFO_ADD_5,VC2_FIFO_ADD_6,VC2_FIFO_ADD_7"
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bitfld.long 0x00 12.--15. "VC1_FIFO_SIZE,Size of the FIFO allocated for virtual channel 1" "VC1_FIFO_SIZE_0,VC1_FIFO_SIZE_1,VC1_FIFO_SIZE_2,VC1_FIFO_SIZE_3,VC1_FIFO_SIZE_4,VC1_FIFO_SIZE_5,VC1_FIFO_SIZE_6,VC1_FIFO_SIZE_7,VC1_FIFO_SIZE_8,VC1_FIFO_SIZE_9,VC1_FIFO_SIZE_10,VC1_FIFO_SIZE_11,VC1_FIFO_SIZE_12,VC1_FIFO_SIZE_13,VC1_FIFO_SIZE_14,VC1_FIFO_SIZE_15"
bitfld.long 0x00 8.--10. "VC1_FIFO_ADD,Address of the space allocated in the FIFO for virtual channel 1" "VC1_FIFO_ADD_0,VC1_FIFO_ADD_1,VC1_FIFO_ADD_2,VC1_FIFO_ADD_3,VC1_FIFO_ADD_4,VC1_FIFO_ADD_5,VC1_FIFO_ADD_6,VC1_FIFO_ADD_7"
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bitfld.long 0x00 4.--7. "VC0_FIFO_SIZE,Size of the FIFO allocated for virtual channel 0" "VC0_FIFO_SIZE_0,VC0_FIFO_SIZE_1,VC0_FIFO_SIZE_2,VC0_FIFO_SIZE_3,VC0_FIFO_SIZE_4,VC0_FIFO_SIZE_5,VC0_FIFO_SIZE_6,VC0_FIFO_SIZE_7,VC0_FIFO_SIZE_8,VC0_FIFO_SIZE_9,VC0_FIFO_SIZE_10,VC0_FIFO_SIZE_11,VC0_FIFO_SIZE_12,VC0_FIFO_SIZE_13,VC0_FIFO_SIZE_14,VC0_FIFO_SIZE_15"
bitfld.long 0x00 0.--2. "VC0_FIFO_ADD,Address of the space allocated in the FIFO for virtual channel 0" "VC0_FIFO_ADD_0,VC0_FIFO_ADD_1,VC0_FIFO_ADD_2,VC0_FIFO_ADD_3,VC0_FIFO_ADD_4,VC0_FIFO_ADD_5,VC0_FIFO_ADD_6,VC0_FIFO_ADD_7"
group.long 0x60++0x0B
line.long 0x00 "DSI_VM_TIMING1,VIDEO MODE TIMING REGISTER This register defines the video mode timing"
hexmask.long.byte 0x00 24.--31. 1. "HSA,Defines the horizontal Sync active period used in video mode in number of byte clock cycles (TXBYTECLKHS clock) The supported values are from 0 to 255"
hexmask.long.word 0x00 12.--23. 1. "HFP,Defines the horizontal front porch used in video mode in number of byte clock cycles (TXBYTECLKHS clock) The supported values are from 0 to 4095"
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hexmask.long.word 0x00 0.--11. 1. "HBP,Defines the horizontal back porch used in video mode in number of byte clock cycles (TXBYTECLKHS clock) The supported values are from 0 to 4095"
line.long 0x04 "DSI_VM_TIMING2,VIDEO MODE TIMING REGISTER This register defines the video mode timing"
bitfld.long 0x04 24.--27. "WINDOW_SYNC,Number of BYTE clock cycles for the synchronization window" "WINDOW_SYNC_0,WINDOW_SYNC_1,WINDOW_SYNC_2,WINDOW_SYNC_3,WINDOW_SYNC_4,WINDOW_SYNC_5,WINDOW_SYNC_6,WINDOW_SYNC_7,WINDOW_SYNC_8,WINDOW_SYNC_9,WINDOW_SYNC_10,WINDOW_SYNC_11,WINDOW_SYNC_12,WINDOW_SYNC_13,WINDOW_SYNC_14,WINDOW_SYNC_15"
hexmask.long.byte 0x04 16.--23. 1. "VSA,Defines the vertical Sync active period used in video mode in number of lines"
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hexmask.long.byte 0x04 8.--15. 1. "VFP,Defines the vertical front porch used in video mode in number of lines"
hexmask.long.byte 0x04 0.--7. 1. "VBP,Defines the vertical back porch used in video mode in number of lines"
line.long 0x08 "DSI_VM_TIMING3,VIDEO MODE TIMING REGISTER This register defines the video mode timing"
hexmask.long.word 0x08 16.--31. 1. "TL,Defines the number of length of the line in video mode in number of byte clock cycles (TXBYTECLKHS clock) The supported values are from 0 to 8192"
hexmask.long.word 0x08 0.--15. 1. "VACT,Defines the number of active lines used in video mode"
group.long 0x80++0x03
line.long 0x00 "DSI_VM_TIMING4,VIDEO MODE TIMING REGISTER This register defines the video mode timing"
hexmask.long.byte 0x00 16.--23. 1. "HSA_HS_INTERLEAVING,Defines the number of TXBYTECLKHS clock cycles that can be used for interleaving High Speed command mode packet into Video Mode stream during HSA blanking period"
hexmask.long.byte 0x00 8.--15. 1. "HFP_HS_INTERLEAVING,Defines the number of TXBYTECLKHS clock cycles that can be used for interleaving High Speed command mode packet into Video Mode stream during HFP blanking period"
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hexmask.long.byte 0x00 0.--7. 1. "HBP_HS_INTERLEAVING,Defines the number of TXBYTECLKHS clock cycles that can be used for interleaving High Speed command mode packet into Video Mode stream during HBP blanking period"
group.long 0x88++0x0B
line.long 0x00 "DSI_VM_TIMING5,VIDEO MODE TIMING REGISTER This register defines the video mode timing"
hexmask.long.byte 0x00 16.--23. 1. "HSA_LP_INTERLEAVING,Defines the number of bytes of Low Power command mode packets that can be sent on PPI link during HSA blanking period"
hexmask.long.byte 0x00 8.--15. 1. "HFP_LP_INTERLEAVING,Defines the number of bytes of Low Power command mode packets that can be sent on PPI link during HFP blanking period"
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hexmask.long.byte 0x00 0.--7. 1. "HBP_LP_INTERLEAVING,Defines the number of bytes of Low Power command mode packets that can be sent on PPI link during HBP blanking period"
line.long 0x04 "DSI_VM_TIMING6,VIDEO MODE TIMING REGISTER This register defines the video mode timing"
hexmask.long.word 0x04 16.--31. 1. "BL_HS_INTERLEAVING,Defines the number of TXBYTECLKHS clock cycles that can be used for interleaving High Speed command mode packet into Video Mode stream during blanking periods during VSA VBP VFP periods inside one video frame on PPI link"
hexmask.long.word 0x04 0.--15. 1. "BL_LP_INTERLEAVING,Defines the maximum number of bytes of Low Power command mode packets that can be sent on PPI link during blanking periods during VSA VBP or VFP periods inside one video frame on PPI link"
line.long 0x08 "DSI_VM_TIMING7,Defines the minimum number of HS bytes clock cycles that are required to allow for the delays in entering and exiting HS mode"
hexmask.long.word 0x08 16.--31. 1. "ENTER_HS_MODE_LATENCY,Defines the number of TXBYTECLKHS clock cycles necessary for entering to HS mode"
hexmask.long.word 0x08 0.--15. 1. "EXIT_HS_MODE_LATENCY,Defines the number of TXBYTECLKHS clock cycles necessary for exiting from HS mode"
group.long 0x9C++0x03
line.long 0x00 "DSI_VM_TIMING8,VIDEO MODE TIMING REGISTER This register defines the video mode timing"
bitfld.long 0x00 0.--1. "HFPX,Extension to the HFP register" "HFPX_0,HFPX_1,HFPX_2,HFPX_3"
tree.end
tree "DSI2_PROTOCOL_ENGINE_L4_PER"
base ansd:0x48045000
tree "Channel_0"
group.long 0xA8++0x03
line.long 0x00 "DSI_TE_HSYNC_NUMBER_j_0,The register configures the number of HSYNC to synchronize the beginning of the transfer on DSI link based on the number of HSYNC pulse received on the TE line"
hexmask.long.word 0x00 0.--10. 1. "LINE_NUMBER,Programmable line number Line number from 0 to 2047"
group.long 0xA0++0x07
line.long 0x00 "DSI_TE_HSYNC_WIDTH_j_0,The register configures the TE HSYNC minimum pulse width for TE0 and TE1 CMOS signals The input TE signal is asynchronous and needs to be resynchronizred to DSI_CLK clock domain"
hexmask.long.word 0x00 8.--19. 1. "MIN_HSYNC_PULSE_WIDTH,Programmable min HSYNC pulse width Minimum HSYNC pulse width"
line.long 0x04 "DSI_TE_VSYNC_WIDTH_j_0,The register configures the TE VSYNC minimum pulse width for TE0 and TE1 CMOS signals The input TE signal is asynchronous and needs to be resynchronizred to DSI_CLK clock domain"
hexmask.long.word 0x04 8.--19. 1. "MIN_VSYNC_PULSE_WIDTH,Programmable min VSYNC pulse width Minimum VSYNC pulse width"
group.long 0x100++0x03
line.long 0x00 "DSI_VC_CTRL_i_0,CONTROL REGISTER - Virtual channel This register controls the virtual channel"
bitfld.long 0x00 31. "DCS_CMD_CODE,DCS command code value to insert between header and video port or Interface slave data when enabled by DCS_CMD_ENABLE (only when TE mechanism is not used otherwise the bit field DCS_CMD_CODE is ignored by DSI protocol engine)" "DCS_CMD_CODE_0,DCS_CMD_CODE_1"
bitfld.long 0x00 30. "DCS_CMD_ENABLE,Enables automatic insertion of DCS command codes when data is sourced by the video port" "DCS_CMD_ENABLE_0,DCS_CMD_ENABLE_1"
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bitfld.long 0x00 27.--29. "DMA_RX_REQ_NB,Selection of the use of the DMA request (associated to the RX FIFO)" "DMA_RX_REQ_NB_0,DMA_RX_REQ_NB_1,DMA_RX_REQ_NB_2,DMA_RX_REQ_NB_3,DMA_RX_REQ_NB_4,?,?,?"
bitfld.long 0x00 24.--26. "DMA_RX_THRESHOLD,Defines the threshold value for the DMA request (associated to the RX FIFO)" "DMA_RX_THRESHOLD_0,DMA_RX_THRESHOLD_1,DMA_RX_THRESHOLD_2,DMA_RX_THRESHOLD_3,DMA_RX_THRESHOLD_4,DMA_RX_THRESHOLD_5,?,?"
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bitfld.long 0x00 21.--23. "DMA_TX_REQ_NB,Selection of the use of the DMA request (associated to the TX FIFO)" "DMA_TX_REQ_NB_0,DMA_TX_REQ_NB_1,DMA_TX_REQ_NB_2,DMA_TX_REQ_NB_3,DMA_TX_REQ_NB_4,?,?,?"
rbitfld.long 0x00 20. "RX_FIFO_NOT_EMPTY,FIFO status in command mode" "RX_FIFO_NOT_EMPTY_0_r,RX_FIFO_NOT_EMPTY_1_r"
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bitfld.long 0x00 17.--19. "DMA_TX_THRESHOLD,Defines the threshold value for the DMA request (associated to the TX FIFO)" "DMA_TX_THRESHOLD_0,DMA_TX_THRESHOLD_1,DMA_TX_THRESHOLD_2,DMA_TX_THRESHOLD_3,DMA_TX_THRESHOLD_4,DMA_TX_THRESHOLD_5,?,?"
rbitfld.long 0x00 16. "TX_FIFO_FULL,FIFO status in command mode" "TX_FIFO_FULL_0_r,TX_FIFO_FULL_1_r"
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rbitfld.long 0x00 15. "VC_BUSY,Indicates if previously scheduled activities (packets BTA) are still being processed" "VC_BUSY_0_r,VC_BUSY_1_r"
rbitfld.long 0x00 14. "PP_BUSY,Ping-pong buffer busy status" "PP_BUSY_0_r,PP_BUSY_1_r"
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bitfld.long 0x00 13. "VP_SOURCE,Selection between video port 1 and video port 2" "VP_SOURCE_0,VP_SOURCE_1"
bitfld.long 0x00 12. "RGB565_ORDER,Byte order for RBG565" "RGB565_ORDER_0,RGB565_ORDER_1"
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bitfld.long 0x00 10.--11. "OCP_DATA_BUS_WIDTH,Defines the size of the Interface data bus" "OCP_DATA_BUS_WIDTH_0,OCP_DATA_BUS_WIDTH_1,OCP_DATA_BUS_WIDTH_2,OCP_DATA_BUS_WIDTH_3"
bitfld.long 0x00 9. "MODE_SPEED,Selection of the mode" "MODE_SPEED_0,MODE_SPEED_1"
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bitfld.long 0x00 8. "ECC_TX_EN,Enables the Error Correction Code generation for the transmit header (short and long packets)" "ECC_TX_EN_0,ECC_TX_EN_1"
bitfld.long 0x00 7. "CS_TX_EN,Enables the checksum generation for the transmit payload (long packet only)" "CS_TX_EN_0,CS_TX_EN_1"
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bitfld.long 0x00 6. "BTA_EN,Send the bus turn around to the peripheral" "BTA_EN_0,BTA_EN_1"
rbitfld.long 0x00 5. "TX_FIFO_NOT_EMPTY,FIFO status" "TX_FIFO_NOT_EMPTY_0_r,TX_FIFO_NOT_EMPTY_1_r"
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bitfld.long 0x00 4. "MODE,Selection of the mode" "MODE_0,MODE_1"
bitfld.long 0x00 3. "BTA_LONG_EN,Enables the automatic bus turn-around after completion of each long packet transmission" "BTA_LONG_EN_0,BTA_LONG_EN_1"
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bitfld.long 0x00 2. "BTA_SHORT_EN,Enables the automatic bus turn-around after completion of each short packet transmission" "BTA_SHORT_EN_0,BTA_SHORT_EN_1"
bitfld.long 0x00 1. "SOURCE,Selection of the source between Interface and the Video port(s) (used by the hardware only if MODE=COMMAND MODE (0x0) otherwise it is ignored)" "SOURCE_0,SOURCE_1"
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bitfld.long 0x00 0. "VC_EN,Enables the virtual channel" "VC_EN_0,VC_EN_1"
group.long 0x11C++0x03
line.long 0x00 "DSI_VC_IRQENABLE_i_0,INTERRUPT ENABLE REGISTER - Virtual channel This register regroups all the events related to virtual channel"
bitfld.long 0x00 8. "PP_BUSY_CHANGE_IRQ_EN,Video Port ping-pong buffer busy status" "PP_BUSY_CHANGE_IRQ_EN_0,PP_BUSY_CHANGE_IRQ_EN_1"
bitfld.long 0x00 7. "FIFO_TX_UDF_IRQ_EN,FIFO underflow enable" "FIFO_TX_UDF_IRQ_EN_0,FIFO_TX_UDF_IRQ_EN_1"
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bitfld.long 0x00 6. "ECC_NO_CORRECTION_IRQ_EN,ECC error (short and long packets)" "ECC_NO_CORRECTION_IRQ_EN_0,ECC_NO_CORRECTION_IRQ_EN_1"
bitfld.long 0x00 5. "BTA_IRQ_EN,Virtual channel -Bus turn around reception" "BTA_IRQ_EN_0,BTA_IRQ_EN_1"
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bitfld.long 0x00 4. "FIFO_RX_OVF_IRQ_EN,FIFO overflow enable" "FIFO_RX_OVF_IRQ_EN_0,FIFO_RX_OVF_IRQ_EN_1"
bitfld.long 0x00 3. "FIFO_TX_OVF_IRQ_EN,FIFO overflow enable" "FIFO_TX_OVF_IRQ_EN_0,FIFO_TX_OVF_IRQ_EN_1"
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bitfld.long 0x00 2. "PACKET_SENT_IRQ_EN,Indicates that a packet has been sent" "PACKET_SENT_IRQ_EN_0,PACKET_SENT_IRQ_EN_1"
bitfld.long 0x00 1. "ECC_CORRECTION_IRQ_EN,Virtual" "ECC_CORRECTION_IRQ_EN_0,ECC_CORRECTION_IRQ_EN_1"
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bitfld.long 0x00 0. "CS_IRQ_EN,Virtual" "CS_IRQ_EN_0,CS_IRQ_EN_1"
group.long 0x118++0x03
line.long 0x00 "DSI_VC_IRQSTATUS_i_0,INTERRUPT STATUS REGISTER - Virtual channel This register regroups all the events related to the virtual channel"
bitfld.long 0x00 8. "PP_BUSY_CHANGE_IRQ,Video Port ping-pong buffer busy status" "PP_BUSY_CHANGE_IRQ_0,PP_BUSY_CHANGE_IRQ_1"
bitfld.long 0x00 7. "FIFO_TX_UDF_IRQ,FIFO underflow status" "FIFO_TX_UDF_IRQ_0,FIFO_TX_UDF_IRQ_1"
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bitfld.long 0x00 6. "ECC_NO_CORRECTION_IRQ,ECC error status (short and long packets)" "ECC_NO_CORRECTION_IRQ_0,ECC_NO_CORRECTION_IRQ_1"
bitfld.long 0x00 5. "BTA_IRQ,Virtual" "BTA_IRQ_0,BTA_IRQ_1"
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bitfld.long 0x00 4. "FIFO_RX_OVF_IRQ,FIFO overflow error status" "FIFO_RX_OVF_IRQ_0,FIFO_RX_OVF_IRQ_1"
bitfld.long 0x00 3. "FIFO_TX_OVF_IRQ,FIFO overflow error status" "FIFO_TX_OVF_IRQ_0,FIFO_TX_OVF_IRQ_1"
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bitfld.long 0x00 2. "PACKET_SENT_IRQ,Indicates that a packet has been sent" "PACKET_SENT_IRQ_0,PACKET_SENT_IRQ_1"
bitfld.long 0x00 1. "ECC_CORRECTION_IRQ,Virtual" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
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bitfld.long 0x00 0. "CS_IRQ,Virtual" "CS_IRQ_0,CS_IRQ_1"
group.long 0x108++0x0B
line.long 0x00 "DSI_VC_LONG_PACKET_HEADER_i_0,LONG PACKET HEADER INFORMATION -Virtual channel This register sets the 32-bit DATA_ID + Word count + ECC (the virtual channel id can be different than VC)"
line.long 0x04 "DSI_VC_LONG_PACKET_PAYLOAD_i_0,LONG PACKET PAYLOAD INFORMATION -Virtual channel This register sets the payload information (excluding checksum)"
line.long 0x08 "DSI_VC_SHORT_PACKET_HEADER_i_0,SHORT PACKET HEADER INFORMATION -Virtual channel This register sets the 24-bit DATA_ID + Short Packet Data Field + ECC (the virtual channel id can be different than VC)"
group.long 0x104++0x03
line.long 0x00 "DSI_VC_TE_i_0,CONTROL REGISTER - Virtual channel This register controls the tearing effect logic"
bitfld.long 0x00 31. "TE_START,Manual control of the start of the transfer" "TE_START_0,TE_START_1"
bitfld.long 0x00 30. "TE_EN,Tearing Effect Control" "TE_EN_0,TE_EN_1"
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bitfld.long 0x00 29. "TE_LINE," "TE_LINE_0,TE_LINE_1"
bitfld.long 0x00 28. "TE_LINE_NB,Selection between TE0 and TE1 CMOS signals" "TE_LINE_NB_0,TE_LINE_NB_1"
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hexmask.long.tbyte 0x00 0.--23. 1. "TE_SIZE,Defines the number of byte (payload data excluding the check -sum) to be sent"
tree.end
tree "Channel_1"
group.long 0xB4++0x03
line.long 0x00 "DSI_TE_HSYNC_NUMBER_j_1,The register configures the number of HSYNC to synchronize the beginning of the transfer on DSI link based on the number of HSYNC pulse received on the TE line"
hexmask.long.word 0x00 0.--10. 1. "LINE_NUMBER,Programmable line number Line number from 0 to 2047"
group.long 0xAC++0x07
line.long 0x00 "DSI_TE_HSYNC_WIDTH_j_1,The register configures the TE HSYNC minimum pulse width for TE0 and TE1 CMOS signals The input TE signal is asynchronous and needs to be resynchronizred to DSI_CLK clock domain"
hexmask.long.word 0x00 8.--19. 1. "MIN_HSYNC_PULSE_WIDTH,Programmable min HSYNC pulse width Minimum HSYNC pulse width"
line.long 0x04 "DSI_TE_VSYNC_WIDTH_j_1,The register configures the TE VSYNC minimum pulse width for TE0 and TE1 CMOS signals The input TE signal is asynchronous and needs to be resynchronizred to DSI_CLK clock domain"
hexmask.long.word 0x04 8.--19. 1. "MIN_VSYNC_PULSE_WIDTH,Programmable min VSYNC pulse width Minimum VSYNC pulse width"
group.long 0x120++0x03
line.long 0x00 "DSI_VC_CTRL_i_1,CONTROL REGISTER - Virtual channel This register controls the virtual channel"
bitfld.long 0x00 31. "DCS_CMD_CODE,DCS command code value to insert between header and video port or Interface slave data when enabled by DCS_CMD_ENABLE (only when TE mechanism is not used otherwise the bit field DCS_CMD_CODE is ignored by DSI protocol engine)" "DCS_CMD_CODE_0,DCS_CMD_CODE_1"
bitfld.long 0x00 30. "DCS_CMD_ENABLE,Enables automatic insertion of DCS command codes when data is sourced by the video port" "DCS_CMD_ENABLE_0,DCS_CMD_ENABLE_1"
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bitfld.long 0x00 27.--29. "DMA_RX_REQ_NB,Selection of the use of the DMA request (associated to the RX FIFO)" "DMA_RX_REQ_NB_0,DMA_RX_REQ_NB_1,DMA_RX_REQ_NB_2,DMA_RX_REQ_NB_3,DMA_RX_REQ_NB_4,?,?,?"
bitfld.long 0x00 24.--26. "DMA_RX_THRESHOLD,Defines the threshold value for the DMA request (associated to the RX FIFO)" "DMA_RX_THRESHOLD_0,DMA_RX_THRESHOLD_1,DMA_RX_THRESHOLD_2,DMA_RX_THRESHOLD_3,DMA_RX_THRESHOLD_4,DMA_RX_THRESHOLD_5,?,?"
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bitfld.long 0x00 21.--23. "DMA_TX_REQ_NB,Selection of the use of the DMA request (associated to the TX FIFO)" "DMA_TX_REQ_NB_0,DMA_TX_REQ_NB_1,DMA_TX_REQ_NB_2,DMA_TX_REQ_NB_3,DMA_TX_REQ_NB_4,?,?,?"
rbitfld.long 0x00 20. "RX_FIFO_NOT_EMPTY,FIFO status in command mode" "RX_FIFO_NOT_EMPTY_0_r,RX_FIFO_NOT_EMPTY_1_r"
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bitfld.long 0x00 17.--19. "DMA_TX_THRESHOLD,Defines the threshold value for the DMA request (associated to the TX FIFO)" "DMA_TX_THRESHOLD_0,DMA_TX_THRESHOLD_1,DMA_TX_THRESHOLD_2,DMA_TX_THRESHOLD_3,DMA_TX_THRESHOLD_4,DMA_TX_THRESHOLD_5,?,?"
rbitfld.long 0x00 16. "TX_FIFO_FULL,FIFO status in command mode" "TX_FIFO_FULL_0_r,TX_FIFO_FULL_1_r"
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rbitfld.long 0x00 15. "VC_BUSY,Indicates if previously scheduled activities (packets BTA) are still being processed" "VC_BUSY_0_r,VC_BUSY_1_r"
rbitfld.long 0x00 14. "PP_BUSY,Ping-pong buffer busy status" "PP_BUSY_0_r,PP_BUSY_1_r"
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bitfld.long 0x00 13. "VP_SOURCE,Selection between video port 1 and video port 2" "VP_SOURCE_0,VP_SOURCE_1"
bitfld.long 0x00 12. "RGB565_ORDER,Byte order for RBG565" "RGB565_ORDER_0,RGB565_ORDER_1"
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bitfld.long 0x00 10.--11. "OCP_DATA_BUS_WIDTH,Defines the size of the Interface data bus" "OCP_DATA_BUS_WIDTH_0,OCP_DATA_BUS_WIDTH_1,OCP_DATA_BUS_WIDTH_2,OCP_DATA_BUS_WIDTH_3"
bitfld.long 0x00 9. "MODE_SPEED,Selection of the mode" "MODE_SPEED_0,MODE_SPEED_1"
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bitfld.long 0x00 8. "ECC_TX_EN,Enables the Error Correction Code generation for the transmit header (short and long packets)" "ECC_TX_EN_0,ECC_TX_EN_1"
bitfld.long 0x00 7. "CS_TX_EN,Enables the checksum generation for the transmit payload (long packet only)" "CS_TX_EN_0,CS_TX_EN_1"
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bitfld.long 0x00 6. "BTA_EN,Send the bus turn around to the peripheral" "BTA_EN_0,BTA_EN_1"
rbitfld.long 0x00 5. "TX_FIFO_NOT_EMPTY,FIFO status" "TX_FIFO_NOT_EMPTY_0_r,TX_FIFO_NOT_EMPTY_1_r"
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bitfld.long 0x00 4. "MODE,Selection of the mode" "MODE_0,MODE_1"
bitfld.long 0x00 3. "BTA_LONG_EN,Enables the automatic bus turn-around after completion of each long packet transmission" "BTA_LONG_EN_0,BTA_LONG_EN_1"
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bitfld.long 0x00 2. "BTA_SHORT_EN,Enables the automatic bus turn-around after completion of each short packet transmission" "BTA_SHORT_EN_0,BTA_SHORT_EN_1"
bitfld.long 0x00 1. "SOURCE,Selection of the source between Interface and the Video port(s) (used by the hardware only if MODE=COMMAND MODE (0x0) otherwise it is ignored)" "SOURCE_0,SOURCE_1"
newline
bitfld.long 0x00 0. "VC_EN,Enables the virtual channel" "VC_EN_0,VC_EN_1"
group.long 0x13C++0x03
line.long 0x00 "DSI_VC_IRQENABLE_i_1,INTERRUPT ENABLE REGISTER - Virtual channel This register regroups all the events related to virtual channel"
bitfld.long 0x00 8. "PP_BUSY_CHANGE_IRQ_EN,Video Port ping-pong buffer busy status" "PP_BUSY_CHANGE_IRQ_EN_0,PP_BUSY_CHANGE_IRQ_EN_1"
bitfld.long 0x00 7. "FIFO_TX_UDF_IRQ_EN,FIFO underflow enable" "FIFO_TX_UDF_IRQ_EN_0,FIFO_TX_UDF_IRQ_EN_1"
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bitfld.long 0x00 6. "ECC_NO_CORRECTION_IRQ_EN,ECC error (short and long packets)" "ECC_NO_CORRECTION_IRQ_EN_0,ECC_NO_CORRECTION_IRQ_EN_1"
bitfld.long 0x00 5. "BTA_IRQ_EN,Virtual channel -Bus turn around reception" "BTA_IRQ_EN_0,BTA_IRQ_EN_1"
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bitfld.long 0x00 4. "FIFO_RX_OVF_IRQ_EN,FIFO overflow enable" "FIFO_RX_OVF_IRQ_EN_0,FIFO_RX_OVF_IRQ_EN_1"
bitfld.long 0x00 3. "FIFO_TX_OVF_IRQ_EN,FIFO overflow enable" "FIFO_TX_OVF_IRQ_EN_0,FIFO_TX_OVF_IRQ_EN_1"
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bitfld.long 0x00 2. "PACKET_SENT_IRQ_EN,Indicates that a packet has been sent" "PACKET_SENT_IRQ_EN_0,PACKET_SENT_IRQ_EN_1"
bitfld.long 0x00 1. "ECC_CORRECTION_IRQ_EN,Virtual" "ECC_CORRECTION_IRQ_EN_0,ECC_CORRECTION_IRQ_EN_1"
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bitfld.long 0x00 0. "CS_IRQ_EN,Virtual" "CS_IRQ_EN_0,CS_IRQ_EN_1"
group.long 0x138++0x03
line.long 0x00 "DSI_VC_IRQSTATUS_i_1,INTERRUPT STATUS REGISTER - Virtual channel This register regroups all the events related to the virtual channel"
bitfld.long 0x00 8. "PP_BUSY_CHANGE_IRQ,Video Port ping-pong buffer busy status" "PP_BUSY_CHANGE_IRQ_0,PP_BUSY_CHANGE_IRQ_1"
bitfld.long 0x00 7. "FIFO_TX_UDF_IRQ,FIFO underflow status" "FIFO_TX_UDF_IRQ_0,FIFO_TX_UDF_IRQ_1"
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bitfld.long 0x00 6. "ECC_NO_CORRECTION_IRQ,ECC error status (short and long packets)" "ECC_NO_CORRECTION_IRQ_0,ECC_NO_CORRECTION_IRQ_1"
bitfld.long 0x00 5. "BTA_IRQ,Virtual" "BTA_IRQ_0,BTA_IRQ_1"
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bitfld.long 0x00 4. "FIFO_RX_OVF_IRQ,FIFO overflow error status" "FIFO_RX_OVF_IRQ_0,FIFO_RX_OVF_IRQ_1"
bitfld.long 0x00 3. "FIFO_TX_OVF_IRQ,FIFO overflow error status" "FIFO_TX_OVF_IRQ_0,FIFO_TX_OVF_IRQ_1"
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bitfld.long 0x00 2. "PACKET_SENT_IRQ,Indicates that a packet has been sent" "PACKET_SENT_IRQ_0,PACKET_SENT_IRQ_1"
bitfld.long 0x00 1. "ECC_CORRECTION_IRQ,Virtual" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
newline
bitfld.long 0x00 0. "CS_IRQ,Virtual" "CS_IRQ_0,CS_IRQ_1"
group.long 0x128++0x0B
line.long 0x00 "DSI_VC_LONG_PACKET_HEADER_i_1,LONG PACKET HEADER INFORMATION -Virtual channel This register sets the 32-bit DATA_ID + Word count + ECC (the virtual channel id can be different than VC)"
line.long 0x04 "DSI_VC_LONG_PACKET_PAYLOAD_i_1,LONG PACKET PAYLOAD INFORMATION -Virtual channel This register sets the payload information (excluding checksum)"
line.long 0x08 "DSI_VC_SHORT_PACKET_HEADER_i_1,SHORT PACKET HEADER INFORMATION -Virtual channel This register sets the 24-bit DATA_ID + Short Packet Data Field + ECC (the virtual channel id can be different than VC)"
group.long 0x124++0x03
line.long 0x00 "DSI_VC_TE_i_1,CONTROL REGISTER - Virtual channel This register controls the tearing effect logic"
bitfld.long 0x00 31. "TE_START,Manual control of the start of the transfer" "TE_START_0,TE_START_1"
bitfld.long 0x00 30. "TE_EN,Tearing Effect Control" "TE_EN_0,TE_EN_1"
newline
bitfld.long 0x00 29. "TE_LINE," "TE_LINE_0,TE_LINE_1"
bitfld.long 0x00 28. "TE_LINE_NB,Selection between TE0 and TE1 CMOS signals" "TE_LINE_NB_0,TE_LINE_NB_1"
newline
hexmask.long.tbyte 0x00 0.--23. 1. "TE_SIZE,Defines the number of byte (payload data excluding the check -sum) to be sent"
tree.end
tree "Channel_2"
group.long 0x140++0x03
line.long 0x00 "DSI_VC_CTRL_i_2,CONTROL REGISTER - Virtual channel This register controls the virtual channel"
bitfld.long 0x00 31. "DCS_CMD_CODE,DCS command code value to insert between header and video port or Interface slave data when enabled by DCS_CMD_ENABLE (only when TE mechanism is not used otherwise the bit field DCS_CMD_CODE is ignored by DSI protocol engine)" "DCS_CMD_CODE_0,DCS_CMD_CODE_1"
bitfld.long 0x00 30. "DCS_CMD_ENABLE,Enables automatic insertion of DCS command codes when data is sourced by the video port" "DCS_CMD_ENABLE_0,DCS_CMD_ENABLE_1"
newline
bitfld.long 0x00 27.--29. "DMA_RX_REQ_NB,Selection of the use of the DMA request (associated to the RX FIFO)" "DMA_RX_REQ_NB_0,DMA_RX_REQ_NB_1,DMA_RX_REQ_NB_2,DMA_RX_REQ_NB_3,DMA_RX_REQ_NB_4,?,?,?"
bitfld.long 0x00 24.--26. "DMA_RX_THRESHOLD,Defines the threshold value for the DMA request (associated to the RX FIFO)" "DMA_RX_THRESHOLD_0,DMA_RX_THRESHOLD_1,DMA_RX_THRESHOLD_2,DMA_RX_THRESHOLD_3,DMA_RX_THRESHOLD_4,DMA_RX_THRESHOLD_5,?,?"
newline
bitfld.long 0x00 21.--23. "DMA_TX_REQ_NB,Selection of the use of the DMA request (associated to the TX FIFO)" "DMA_TX_REQ_NB_0,DMA_TX_REQ_NB_1,DMA_TX_REQ_NB_2,DMA_TX_REQ_NB_3,DMA_TX_REQ_NB_4,?,?,?"
rbitfld.long 0x00 20. "RX_FIFO_NOT_EMPTY,FIFO status in command mode" "RX_FIFO_NOT_EMPTY_0_r,RX_FIFO_NOT_EMPTY_1_r"
newline
bitfld.long 0x00 17.--19. "DMA_TX_THRESHOLD,Defines the threshold value for the DMA request (associated to the TX FIFO)" "DMA_TX_THRESHOLD_0,DMA_TX_THRESHOLD_1,DMA_TX_THRESHOLD_2,DMA_TX_THRESHOLD_3,DMA_TX_THRESHOLD_4,DMA_TX_THRESHOLD_5,?,?"
rbitfld.long 0x00 16. "TX_FIFO_FULL,FIFO status in command mode" "TX_FIFO_FULL_0_r,TX_FIFO_FULL_1_r"
newline
rbitfld.long 0x00 15. "VC_BUSY,Indicates if previously scheduled activities (packets BTA) are still being processed" "VC_BUSY_0_r,VC_BUSY_1_r"
rbitfld.long 0x00 14. "PP_BUSY,Ping-pong buffer busy status" "PP_BUSY_0_r,PP_BUSY_1_r"
newline
bitfld.long 0x00 13. "VP_SOURCE,Selection between video port 1 and video port 2" "VP_SOURCE_0,VP_SOURCE_1"
bitfld.long 0x00 12. "RGB565_ORDER,Byte order for RBG565" "RGB565_ORDER_0,RGB565_ORDER_1"
newline
bitfld.long 0x00 10.--11. "OCP_DATA_BUS_WIDTH,Defines the size of the Interface data bus" "OCP_DATA_BUS_WIDTH_0,OCP_DATA_BUS_WIDTH_1,OCP_DATA_BUS_WIDTH_2,OCP_DATA_BUS_WIDTH_3"
bitfld.long 0x00 9. "MODE_SPEED,Selection of the mode" "MODE_SPEED_0,MODE_SPEED_1"
newline
bitfld.long 0x00 8. "ECC_TX_EN,Enables the Error Correction Code generation for the transmit header (short and long packets)" "ECC_TX_EN_0,ECC_TX_EN_1"
bitfld.long 0x00 7. "CS_TX_EN,Enables the checksum generation for the transmit payload (long packet only)" "CS_TX_EN_0,CS_TX_EN_1"
newline
bitfld.long 0x00 6. "BTA_EN,Send the bus turn around to the peripheral" "BTA_EN_0,BTA_EN_1"
rbitfld.long 0x00 5. "TX_FIFO_NOT_EMPTY,FIFO status" "TX_FIFO_NOT_EMPTY_0_r,TX_FIFO_NOT_EMPTY_1_r"
newline
bitfld.long 0x00 4. "MODE,Selection of the mode" "MODE_0,MODE_1"
bitfld.long 0x00 3. "BTA_LONG_EN,Enables the automatic bus turn-around after completion of each long packet transmission" "BTA_LONG_EN_0,BTA_LONG_EN_1"
newline
bitfld.long 0x00 2. "BTA_SHORT_EN,Enables the automatic bus turn-around after completion of each short packet transmission" "BTA_SHORT_EN_0,BTA_SHORT_EN_1"
bitfld.long 0x00 1. "SOURCE,Selection of the source between Interface and the Video port(s) (used by the hardware only if MODE=COMMAND MODE (0x0) otherwise it is ignored)" "SOURCE_0,SOURCE_1"
newline
bitfld.long 0x00 0. "VC_EN,Enables the virtual channel" "VC_EN_0,VC_EN_1"
group.long 0x15C++0x03
line.long 0x00 "DSI_VC_IRQENABLE_i_2,INTERRUPT ENABLE REGISTER - Virtual channel This register regroups all the events related to virtual channel"
bitfld.long 0x00 8. "PP_BUSY_CHANGE_IRQ_EN,Video Port ping-pong buffer busy status" "PP_BUSY_CHANGE_IRQ_EN_0,PP_BUSY_CHANGE_IRQ_EN_1"
bitfld.long 0x00 7. "FIFO_TX_UDF_IRQ_EN,FIFO underflow enable" "FIFO_TX_UDF_IRQ_EN_0,FIFO_TX_UDF_IRQ_EN_1"
newline
bitfld.long 0x00 6. "ECC_NO_CORRECTION_IRQ_EN,ECC error (short and long packets)" "ECC_NO_CORRECTION_IRQ_EN_0,ECC_NO_CORRECTION_IRQ_EN_1"
bitfld.long 0x00 5. "BTA_IRQ_EN,Virtual channel -Bus turn around reception" "BTA_IRQ_EN_0,BTA_IRQ_EN_1"
newline
bitfld.long 0x00 4. "FIFO_RX_OVF_IRQ_EN,FIFO overflow enable" "FIFO_RX_OVF_IRQ_EN_0,FIFO_RX_OVF_IRQ_EN_1"
bitfld.long 0x00 3. "FIFO_TX_OVF_IRQ_EN,FIFO overflow enable" "FIFO_TX_OVF_IRQ_EN_0,FIFO_TX_OVF_IRQ_EN_1"
newline
bitfld.long 0x00 2. "PACKET_SENT_IRQ_EN,Indicates that a packet has been sent" "PACKET_SENT_IRQ_EN_0,PACKET_SENT_IRQ_EN_1"
bitfld.long 0x00 1. "ECC_CORRECTION_IRQ_EN,Virtual" "ECC_CORRECTION_IRQ_EN_0,ECC_CORRECTION_IRQ_EN_1"
newline
bitfld.long 0x00 0. "CS_IRQ_EN,Virtual" "CS_IRQ_EN_0,CS_IRQ_EN_1"
group.long 0x158++0x03
line.long 0x00 "DSI_VC_IRQSTATUS_i_2,INTERRUPT STATUS REGISTER - Virtual channel This register regroups all the events related to the virtual channel"
bitfld.long 0x00 8. "PP_BUSY_CHANGE_IRQ,Video Port ping-pong buffer busy status" "PP_BUSY_CHANGE_IRQ_0,PP_BUSY_CHANGE_IRQ_1"
bitfld.long 0x00 7. "FIFO_TX_UDF_IRQ,FIFO underflow status" "FIFO_TX_UDF_IRQ_0,FIFO_TX_UDF_IRQ_1"
newline
bitfld.long 0x00 6. "ECC_NO_CORRECTION_IRQ,ECC error status (short and long packets)" "ECC_NO_CORRECTION_IRQ_0,ECC_NO_CORRECTION_IRQ_1"
bitfld.long 0x00 5. "BTA_IRQ,Virtual" "BTA_IRQ_0,BTA_IRQ_1"
newline
bitfld.long 0x00 4. "FIFO_RX_OVF_IRQ,FIFO overflow error status" "FIFO_RX_OVF_IRQ_0,FIFO_RX_OVF_IRQ_1"
bitfld.long 0x00 3. "FIFO_TX_OVF_IRQ,FIFO overflow error status" "FIFO_TX_OVF_IRQ_0,FIFO_TX_OVF_IRQ_1"
newline
bitfld.long 0x00 2. "PACKET_SENT_IRQ,Indicates that a packet has been sent" "PACKET_SENT_IRQ_0,PACKET_SENT_IRQ_1"
bitfld.long 0x00 1. "ECC_CORRECTION_IRQ,Virtual" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
newline
bitfld.long 0x00 0. "CS_IRQ,Virtual" "CS_IRQ_0,CS_IRQ_1"
group.long 0x148++0x0B
line.long 0x00 "DSI_VC_LONG_PACKET_HEADER_i_2,LONG PACKET HEADER INFORMATION -Virtual channel This register sets the 32-bit DATA_ID + Word count + ECC (the virtual channel id can be different than VC)"
line.long 0x04 "DSI_VC_LONG_PACKET_PAYLOAD_i_2,LONG PACKET PAYLOAD INFORMATION -Virtual channel This register sets the payload information (excluding checksum)"
line.long 0x08 "DSI_VC_SHORT_PACKET_HEADER_i_2,SHORT PACKET HEADER INFORMATION -Virtual channel This register sets the 24-bit DATA_ID + Short Packet Data Field + ECC (the virtual channel id can be different than VC)"
group.long 0x144++0x03
line.long 0x00 "DSI_VC_TE_i_2,CONTROL REGISTER - Virtual channel This register controls the tearing effect logic"
bitfld.long 0x00 31. "TE_START,Manual control of the start of the transfer" "TE_START_0,TE_START_1"
bitfld.long 0x00 30. "TE_EN,Tearing Effect Control" "TE_EN_0,TE_EN_1"
newline
bitfld.long 0x00 29. "TE_LINE," "TE_LINE_0,TE_LINE_1"
bitfld.long 0x00 28. "TE_LINE_NB,Selection between TE0 and TE1 CMOS signals" "TE_LINE_NB_0,TE_LINE_NB_1"
newline
hexmask.long.tbyte 0x00 0.--23. 1. "TE_SIZE,Defines the number of byte (payload data excluding the check -sum) to be sent"
tree.end
tree "Channel_3"
group.long 0x160++0x03
line.long 0x00 "DSI_VC_CTRL_i_3,CONTROL REGISTER - Virtual channel This register controls the virtual channel"
bitfld.long 0x00 31. "DCS_CMD_CODE,DCS command code value to insert between header and video port or Interface slave data when enabled by DCS_CMD_ENABLE (only when TE mechanism is not used otherwise the bit field DCS_CMD_CODE is ignored by DSI protocol engine)" "DCS_CMD_CODE_0,DCS_CMD_CODE_1"
bitfld.long 0x00 30. "DCS_CMD_ENABLE,Enables automatic insertion of DCS command codes when data is sourced by the video port" "DCS_CMD_ENABLE_0,DCS_CMD_ENABLE_1"
newline
bitfld.long 0x00 27.--29. "DMA_RX_REQ_NB,Selection of the use of the DMA request (associated to the RX FIFO)" "DMA_RX_REQ_NB_0,DMA_RX_REQ_NB_1,DMA_RX_REQ_NB_2,DMA_RX_REQ_NB_3,DMA_RX_REQ_NB_4,?,?,?"
bitfld.long 0x00 24.--26. "DMA_RX_THRESHOLD,Defines the threshold value for the DMA request (associated to the RX FIFO)" "DMA_RX_THRESHOLD_0,DMA_RX_THRESHOLD_1,DMA_RX_THRESHOLD_2,DMA_RX_THRESHOLD_3,DMA_RX_THRESHOLD_4,DMA_RX_THRESHOLD_5,?,?"
newline
bitfld.long 0x00 21.--23. "DMA_TX_REQ_NB,Selection of the use of the DMA request (associated to the TX FIFO)" "DMA_TX_REQ_NB_0,DMA_TX_REQ_NB_1,DMA_TX_REQ_NB_2,DMA_TX_REQ_NB_3,DMA_TX_REQ_NB_4,?,?,?"
rbitfld.long 0x00 20. "RX_FIFO_NOT_EMPTY,FIFO status in command mode" "RX_FIFO_NOT_EMPTY_0_r,RX_FIFO_NOT_EMPTY_1_r"
newline
bitfld.long 0x00 17.--19. "DMA_TX_THRESHOLD,Defines the threshold value for the DMA request (associated to the TX FIFO)" "DMA_TX_THRESHOLD_0,DMA_TX_THRESHOLD_1,DMA_TX_THRESHOLD_2,DMA_TX_THRESHOLD_3,DMA_TX_THRESHOLD_4,DMA_TX_THRESHOLD_5,?,?"
rbitfld.long 0x00 16. "TX_FIFO_FULL,FIFO status in command mode" "TX_FIFO_FULL_0_r,TX_FIFO_FULL_1_r"
newline
rbitfld.long 0x00 15. "VC_BUSY,Indicates if previously scheduled activities (packets BTA) are still being processed" "VC_BUSY_0_r,VC_BUSY_1_r"
rbitfld.long 0x00 14. "PP_BUSY,Ping-pong buffer busy status" "PP_BUSY_0_r,PP_BUSY_1_r"
newline
bitfld.long 0x00 13. "VP_SOURCE,Selection between video port 1 and video port 2" "VP_SOURCE_0,VP_SOURCE_1"
bitfld.long 0x00 12. "RGB565_ORDER,Byte order for RBG565" "RGB565_ORDER_0,RGB565_ORDER_1"
newline
bitfld.long 0x00 10.--11. "OCP_DATA_BUS_WIDTH,Defines the size of the Interface data bus" "OCP_DATA_BUS_WIDTH_0,OCP_DATA_BUS_WIDTH_1,OCP_DATA_BUS_WIDTH_2,OCP_DATA_BUS_WIDTH_3"
bitfld.long 0x00 9. "MODE_SPEED,Selection of the mode" "MODE_SPEED_0,MODE_SPEED_1"
newline
bitfld.long 0x00 8. "ECC_TX_EN,Enables the Error Correction Code generation for the transmit header (short and long packets)" "ECC_TX_EN_0,ECC_TX_EN_1"
bitfld.long 0x00 7. "CS_TX_EN,Enables the checksum generation for the transmit payload (long packet only)" "CS_TX_EN_0,CS_TX_EN_1"
newline
bitfld.long 0x00 6. "BTA_EN,Send the bus turn around to the peripheral" "BTA_EN_0,BTA_EN_1"
rbitfld.long 0x00 5. "TX_FIFO_NOT_EMPTY,FIFO status" "TX_FIFO_NOT_EMPTY_0_r,TX_FIFO_NOT_EMPTY_1_r"
newline
bitfld.long 0x00 4. "MODE,Selection of the mode" "MODE_0,MODE_1"
bitfld.long 0x00 3. "BTA_LONG_EN,Enables the automatic bus turn-around after completion of each long packet transmission" "BTA_LONG_EN_0,BTA_LONG_EN_1"
newline
bitfld.long 0x00 2. "BTA_SHORT_EN,Enables the automatic bus turn-around after completion of each short packet transmission" "BTA_SHORT_EN_0,BTA_SHORT_EN_1"
bitfld.long 0x00 1. "SOURCE,Selection of the source between Interface and the Video port(s) (used by the hardware only if MODE=COMMAND MODE (0x0) otherwise it is ignored)" "SOURCE_0,SOURCE_1"
newline
bitfld.long 0x00 0. "VC_EN,Enables the virtual channel" "VC_EN_0,VC_EN_1"
group.long 0x17C++0x03
line.long 0x00 "DSI_VC_IRQENABLE_i_3,INTERRUPT ENABLE REGISTER - Virtual channel This register regroups all the events related to virtual channel"
bitfld.long 0x00 8. "PP_BUSY_CHANGE_IRQ_EN,Video Port ping-pong buffer busy status" "PP_BUSY_CHANGE_IRQ_EN_0,PP_BUSY_CHANGE_IRQ_EN_1"
bitfld.long 0x00 7. "FIFO_TX_UDF_IRQ_EN,FIFO underflow enable" "FIFO_TX_UDF_IRQ_EN_0,FIFO_TX_UDF_IRQ_EN_1"
newline
bitfld.long 0x00 6. "ECC_NO_CORRECTION_IRQ_EN,ECC error (short and long packets)" "ECC_NO_CORRECTION_IRQ_EN_0,ECC_NO_CORRECTION_IRQ_EN_1"
bitfld.long 0x00 5. "BTA_IRQ_EN,Virtual channel -Bus turn around reception" "BTA_IRQ_EN_0,BTA_IRQ_EN_1"
newline
bitfld.long 0x00 4. "FIFO_RX_OVF_IRQ_EN,FIFO overflow enable" "FIFO_RX_OVF_IRQ_EN_0,FIFO_RX_OVF_IRQ_EN_1"
bitfld.long 0x00 3. "FIFO_TX_OVF_IRQ_EN,FIFO overflow enable" "FIFO_TX_OVF_IRQ_EN_0,FIFO_TX_OVF_IRQ_EN_1"
newline
bitfld.long 0x00 2. "PACKET_SENT_IRQ_EN,Indicates that a packet has been sent" "PACKET_SENT_IRQ_EN_0,PACKET_SENT_IRQ_EN_1"
bitfld.long 0x00 1. "ECC_CORRECTION_IRQ_EN,Virtual" "ECC_CORRECTION_IRQ_EN_0,ECC_CORRECTION_IRQ_EN_1"
newline
bitfld.long 0x00 0. "CS_IRQ_EN,Virtual" "CS_IRQ_EN_0,CS_IRQ_EN_1"
group.long 0x178++0x03
line.long 0x00 "DSI_VC_IRQSTATUS_i_3,INTERRUPT STATUS REGISTER - Virtual channel This register regroups all the events related to the virtual channel"
bitfld.long 0x00 8. "PP_BUSY_CHANGE_IRQ,Video Port ping-pong buffer busy status" "PP_BUSY_CHANGE_IRQ_0,PP_BUSY_CHANGE_IRQ_1"
bitfld.long 0x00 7. "FIFO_TX_UDF_IRQ,FIFO underflow status" "FIFO_TX_UDF_IRQ_0,FIFO_TX_UDF_IRQ_1"
newline
bitfld.long 0x00 6. "ECC_NO_CORRECTION_IRQ,ECC error status (short and long packets)" "ECC_NO_CORRECTION_IRQ_0,ECC_NO_CORRECTION_IRQ_1"
bitfld.long 0x00 5. "BTA_IRQ,Virtual" "BTA_IRQ_0,BTA_IRQ_1"
newline
bitfld.long 0x00 4. "FIFO_RX_OVF_IRQ,FIFO overflow error status" "FIFO_RX_OVF_IRQ_0,FIFO_RX_OVF_IRQ_1"
bitfld.long 0x00 3. "FIFO_TX_OVF_IRQ,FIFO overflow error status" "FIFO_TX_OVF_IRQ_0,FIFO_TX_OVF_IRQ_1"
newline
bitfld.long 0x00 2. "PACKET_SENT_IRQ,Indicates that a packet has been sent" "PACKET_SENT_IRQ_0,PACKET_SENT_IRQ_1"
bitfld.long 0x00 1. "ECC_CORRECTION_IRQ,Virtual" "ECC_CORRECTION_IRQ_0,ECC_CORRECTION_IRQ_1"
newline
bitfld.long 0x00 0. "CS_IRQ,Virtual" "CS_IRQ_0,CS_IRQ_1"
group.long 0x168++0x0B
line.long 0x00 "DSI_VC_LONG_PACKET_HEADER_i_3,LONG PACKET HEADER INFORMATION -Virtual channel This register sets the 32-bit DATA_ID + Word count + ECC (the virtual channel id can be different than VC)"
line.long 0x04 "DSI_VC_LONG_PACKET_PAYLOAD_i_3,LONG PACKET PAYLOAD INFORMATION -Virtual channel This register sets the payload information (excluding checksum)"
line.long 0x08 "DSI_VC_SHORT_PACKET_HEADER_i_3,SHORT PACKET HEADER INFORMATION -Virtual channel This register sets the 24-bit DATA_ID + Short Packet Data Field + ECC (the virtual channel id can be different than VC)"
group.long 0x164++0x03
line.long 0x00 "DSI_VC_TE_i_3,CONTROL REGISTER - Virtual channel This register controls the tearing effect logic"
bitfld.long 0x00 31. "TE_START,Manual control of the start of the transfer" "TE_START_0,TE_START_1"
bitfld.long 0x00 30. "TE_EN,Tearing Effect Control" "TE_EN_0,TE_EN_1"
newline
bitfld.long 0x00 29. "TE_LINE," "TE_LINE_0,TE_LINE_1"
bitfld.long 0x00 28. "TE_LINE_NB,Selection between TE0 and TE1 CMOS signals" "TE_LINE_NB_0,TE_LINE_NB_1"
newline
hexmask.long.tbyte 0x00 0.--23. 1. "TE_SIZE,Defines the number of byte (payload data excluding the check -sum) to be sent"
tree.end
group.long 0x54++0x03
line.long 0x00 "DSI_CLK_CTRL,CLOCK CONTROL This register controls the CLOCK GENERATION"
bitfld.long 0x00 30.--31. "PLL_PWR_CMD,Command for power control of the DSI PLL Control module" "PLL_PWR_CMD_0,PLL_PWR_CMD_1,PLL_PWR_CMD_2,PLL_PWR_CMD_3"
rbitfld.long 0x00 28.--29. "PLL_PWR_STATUS,Status of the power control of the DSI PLL Control module" "PLL_PWR_STATUS_0_r,PLL_PWR_STATUS_1_r,PLL_PWR_STATUS_2_r,PLL_PWR_STATUS_3_r"
newline
bitfld.long 0x00 21. "LP_RX_SYNCHRO_ENABLE,Defines if the functional is higher or lower than 30 MHz" "LP_RX_SYNCHRO_ENABLE_0,LP_RX_SYNCHRO_ENABLE_1"
bitfld.long 0x00 20. "LP_CLK_ENABLE,Controls the gating of the TXCLKESC clock" "LP_CLK_ENABLE_0,LP_CLK_ENABLE_1"
newline
bitfld.long 0x00 19. "HS_MANUAL_STOP_CTRL,In case HS_AUTO_STOP_ENABLE=0 the bit field allows manual control of the assertion/de-assertion of the signal DSIStopClk by the user" "HS_MANUAL_STOP_CTRL_0,HS_MANUAL_STOP_CTRL_1"
bitfld.long 0x00 18. "HS_AUTO_STOP_ENABLE,Enables the automatic assertion/de-assertion of DSIStopClk signal" "HS_AUTO_STOP_ENABLE_0,HS_AUTO_STOP_ENABLE_1"
newline
bitfld.long 0x00 16.--17. "LP_CLK_NULL_PACKET_SIZE,Indicates the size of LP NULL Packets to be sent automatically when after the last LP packet transfer" "LP_CLK_NULL_PACKET_SIZE_0,LP_CLK_NULL_PACKET_SIZE_1,LP_CLK_NULL_PACKET_SIZE_2,LP_CLK_NULL_PACKET_SIZE_3"
bitfld.long 0x00 15. "LP_CLK_NULL_PACKET_ENABLE,Enables the generation of NULL packet in low speed" "LP_CLK_NULL_PACKET_ENABLE_0,LP_CLK_NULL_PACKET_ENABLE_1"
newline
bitfld.long 0x00 14. "CIO_CLK_ICG,Gates SCPClk clock provided to DSI_PHY and PLL-CTRL module" "CIO_CLK_ICG_0,CIO_CLK_ICG_1"
bitfld.long 0x00 13. "DDR_CLK_ALWAYS_ON,Defines if the DDR clock is also sent when there is no HS packets sent to the peripheral (low-power mode)" "DDR_CLK_ALWAYS_ON_0,DDR_CLK_ALWAYS_ON_1"
newline
hexmask.long.word 0x00 0.--12. 1. "LP_CLK_DIVISOR,Defines the ratio to be used for the generation of the low-power mode clock from DSI functional clock"
group.long 0x6C++0x03
line.long 0x00 "DSI_CLK_TIMING,CLOCK TIMING REGISTER This register controls the DSI Protocol Engine module timers"
hexmask.long.byte 0x00 8.--15. 1. "DDR_CLK_PRE,Indicates the number of TXBYTECLKHS clock cycles between the start of the DDR clock and the assertion of the data request signal"
hexmask.long.byte 0x00 0.--7. 1. "DDR_CLK_POST,Indicates the number of TXBYTECLKHS clock cycles after the de-assertion of the data request signal and the stop of the DDR clock"
group.long 0x48++0x03
line.long 0x00 "DSI_COMPLEXIO_CFG1,COMPLEXIO CONFIGURATION REGISTER for the complex I/O This register contains the lane configuration for the order and position of the lanes (clock and data) and the polarity order for the control of the PHY differential signals in.."
bitfld.long 0x00 31. "SHADOWING,Shadowing configuration" "SHADOWING_0,SHADOWING_1"
bitfld.long 0x00 30. "GOBIT,Allows the synchronized update of the shadow registers when the signal DISPCUpdateSync is active" "GOBIT_0,GOBIT_1"
newline
rbitfld.long 0x00 29. "RESET_DONE,Internal reset monitoring of the power domain using the TXBYTECLKHS clock from the complex I/O" "RESET_DONE_0_r,RESET_DONE_1_r"
bitfld.long 0x00 27.--28. "PWR_CMD,Command for power control of the complex I/O" "PWR_CMD_0,PWR_CMD_1,PWR_CMD_2,?"
newline
rbitfld.long 0x00 25.--26. "PWR_STATUS,Status of the power control of the complex I/O" "PWR_STATUS_0_r,PWR_STATUS_1_r,PWR_STATUS_2_r,?"
bitfld.long 0x00 19. "DATA4_POL,+/- differential pin order of DATA lane 4" "DATA4_POL_0,DATA4_POL_1"
newline
bitfld.long 0x00 16.--18. "DATA4_POSITION,Position and order of the DATA lane 4" "DATA4_POSITION_0,DATA4_POSITION_1,DATA4_POSITION_2,DATA4_POSITION_3,DATA4_POSITION_4,DATA4_POSITION_5,?,?"
bitfld.long 0x00 15. "DATA3_POL,+/- differential pin order of DATA lane 3" "DATA3_POL_0,DATA3_POL_1"
newline
bitfld.long 0x00 12.--14. "DATA3_POSITION,Position and order of the DATA lane 3" "DATA3_POSITION_0,DATA3_POSITION_1,DATA3_POSITION_2,DATA3_POSITION_3,DATA3_POSITION_4,DATA3_POSITION_5,?,?"
bitfld.long 0x00 11. "DATA2_POL,+/- differential pin order of DATA lane 2" "DATA2_POL_0,DATA2_POL_1"
newline
bitfld.long 0x00 8.--10. "DATA2_POSITION,Position and order of the DATA lane 2" "DATA2_POSITION_0,DATA2_POSITION_1,DATA2_POSITION_2,DATA2_POSITION_3,DATA2_POSITION_4,DATA2_POSITION_5,?,?"
bitfld.long 0x00 7. "DATA1_POL,+/- pin differential pin order of DATA lane" "DATA1_POL_0,DATA1_POL_1"
newline
bitfld.long 0x00 4.--6. "DATA1_POSITION,Position and order of the DATA lane 1" "DATA1_POSITION_0,DATA1_POSITION_1,DATA1_POSITION_2,DATA1_POSITION_3,DATA1_POSITION_4,DATA1_POSITION_5,?,?"
bitfld.long 0x00 3. "CLOCK_POL,+/- differential pin order of CLOCK lane" "CLOCK_POL_0,CLOCK_POL_1"
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bitfld.long 0x00 0.--2. "CLOCK_POSITION,Position and order of the CLOCK lane" "CLOCK_POSITION_0,CLOCK_POSITION_1,CLOCK_POSITION_2,CLOCK_POSITION_3,CLOCK_POSITION_4,CLOCK_POSITION_5,CLOCK_POSITION_6,CLOCK_POSITION_7"
group.long 0x78++0x03
line.long 0x00 "DSI_COMPLEXIO_CFG2,COMPLEXIO CONFIGURATION REGISTER for the complex I/O This register contains the lane configuration for the ULPS for each lane"
rbitfld.long 0x00 17. "LP_BUSY,Indicates when there are still pending operations for VCs configured for LP mode" "LP_BUSY_0_r,LP_BUSY_1_r"
rbitfld.long 0x00 16. "HS_BUSY,Indicates when there are still pending operations for VCs configured for HS mode" "HS_BUSY_0_r,HS_BUSY_1_r"
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bitfld.long 0x00 9. "LANE5_ULPS_SIG2,Applicable only to DS1" "LANE5_ULPS_SIG2_0,LANE5_ULPS_SIG2_1"
bitfld.long 0x00 8. "LANE4_ULPS_SIG2,Applicable only to DS1" "LANE4_ULPS_SIG2_0,LANE4_ULPS_SIG2_1"
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bitfld.long 0x00 7. "LANE3_ULPS_SIG2,Enables the ULPS for the lane 3" "LANE3_ULPS_SIG2_0,LANE3_ULPS_SIG2_1"
bitfld.long 0x00 6. "LANE2_ULPS_SIG2,Enables the ULPS for the lane 2" "LANE2_ULPS_SIG2_0,LANE2_ULPS_SIG2_1"
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bitfld.long 0x00 5. "LANE1_ULPS_SIG2,Enables the ULPS for the lane 1" "LANE1_ULPS_SIG2_0,LANE1_ULPS_SIG2_1"
bitfld.long 0x00 4. "LANE5_ULPS_SIG1,Applicable only to DS1" "LANE5_ULPS_SIG1_0,LANE5_ULPS_SIG1_1"
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bitfld.long 0x00 3. "LANE4_ULPS_SIG1,Applicable only to DS1" "LANE4_ULPS_SIG1_0,LANE4_ULPS_SIG1_1"
bitfld.long 0x00 2. "LANE3_ULPS_SIG1,Enables the ULPS for the lane 3" "LANE3_ULPS_SIG1_0,LANE3_ULPS_SIG1_1"
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bitfld.long 0x00 1. "LANE2_ULPS_SIG1,Enables the ULPS for the lane 2" "LANE2_ULPS_SIG1_0,LANE2_ULPS_SIG1_1"
bitfld.long 0x00 0. "LANE1_ULPS_SIG1,Enables the ULPS for the lane 1" "LANE1_ULPS_SIG1_0,LANE1_ULPS_SIG1_1"
group.long 0x50++0x03
line.long 0x00 "DSI_COMPLEXIO_IRQENABLE,INTERRUPT ENABLE REGISTER - All errors from complex I/O"
bitfld.long 0x00 31. "ULPSACTIVENOT_ALL1_IRQ_EN,All the ULPSActiveNOT signals corresponding to the lanes with TXULPSExit being high are high" "ULPSACTIVENOT_ALL1_IRQ_EN_0,ULPSACTIVENOT_ALL1_IRQ_EN_1"
bitfld.long 0x00 30. "ULPSACTIVENOT_ALL0_IRQ_EN,All signals ULPSActiveNOT are" "ULPSACTIVENOT_ALL0_IRQ_EN_0,ULPSACTIVENOT_ALL0_IRQ_EN_1"
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bitfld.long 0x00 29. "ERRCONTENTIONLP1_5_IRQ_EN,Contention LP1 error for lane 5 Applicable only to DS1" "ERRCONTENTIONLP1_5_IRQ_EN_0,ERRCONTENTIONLP1_5_IRQ_EN_1"
bitfld.long 0x00 28. "ERRCONTENTIONLP0_5_IRQ_EN,Contention LP0 error for lane 5 Applicable only to DS1" "ERRCONTENTIONLP0_5_IRQ_EN_0,ERRCONTENTIONLP0_5_IRQ_EN_1"
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bitfld.long 0x00 27. "ERRCONTENTIONLP1_4_IRQ_EN,Contention LP1 error for lane 4 Applicable only to DS1" "ERRCONTENTIONLP1_4_IRQ_EN_0,ERRCONTENTIONLP1_4_IRQ_EN_1"
bitfld.long 0x00 26. "ERRCONTENTIONLP0_4_IRQ_EN,Contention LP0 error for lane 4 Applicable only to DS1" "ERRCONTENTIONLP0_4_IRQ_EN_0,ERRCONTENTIONLP0_4_IRQ_EN_1"
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bitfld.long 0x00 25. "ERRCONTENTIONLP1_3_IRQ_EN,Contention LP1 error for lane" "ERRCONTENTIONLP1_3_IRQ_EN_0,ERRCONTENTIONLP1_3_IRQ_EN_1"
bitfld.long 0x00 24. "ERRCONTENTIONLP0_3_IRQ_EN,Contention LP0 error for lane" "ERRCONTENTIONLP0_3_IRQ_EN_0,ERRCONTENTIONLP0_3_IRQ_EN_1"
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bitfld.long 0x00 23. "ERRCONTENTIONLP1_2_IRQ_EN,Contention LP1 error for lane" "ERRCONTENTIONLP1_2_IRQ_EN_0,ERRCONTENTIONLP1_2_IRQ_EN_1"
bitfld.long 0x00 22. "ERRCONTENTIONLP0_2_IRQ_EN,Contention LP0 error for lane" "ERRCONTENTIONLP0_2_IRQ_EN_0,ERRCONTENTIONLP0_2_IRQ_EN_1"
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bitfld.long 0x00 21. "ERRCONTENTIONLP1_1_IRQ_EN,Contention LP1 error for lane" "ERRCONTENTIONLP1_1_IRQ_EN_0,ERRCONTENTIONLP1_1_IRQ_EN_1"
bitfld.long 0x00 20. "ERRCONTENTIONLP0_1_IRQ_EN,Contention LP0 error for lane" "ERRCONTENTIONLP0_1_IRQ_EN_0,ERRCONTENTIONLP0_1_IRQ_EN_1"
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bitfld.long 0x00 19. "STATEULPS5_IRQ_EN,lane 5 in ULTRALOW-POWER state Applicable only to DS1" "STATEULPS5_IRQ_EN_0,STATEULPS5_IRQ_EN_1"
bitfld.long 0x00 18. "STATEULPS4_IRQ_EN,lane 4 in ULTRALOW-POWER state Applicable only to DS1" "STATEULPS4_IRQ_EN_0,STATEULPS4_IRQ_EN_1"
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bitfld.long 0x00 17. "STATEULPS3_IRQ_EN,lane 3 in ULTRALOW-POWER state" "STATEULPS3_IRQ_EN_0,STATEULPS3_IRQ_EN_1"
bitfld.long 0x00 16. "STATEULPS2_IRQ_EN,lane 2 in ULTRALOW-POWER state" "STATEULPS2_IRQ_EN_0,STATEULPS2_IRQ_EN_1"
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bitfld.long 0x00 15. "STATEULPS1_IRQ_EN,lane 1 in ULTRALOW-POWER state" "STATEULPS1_IRQ_EN_0,STATEULPS1_IRQ_EN_1"
bitfld.long 0x00 14. "ERRCONTROL5_IRQ_EN,Control error for lane 5 Applicable only to DS1" "ERRCONTROL5_IRQ_EN_0,ERRCONTROL5_IRQ_EN_1"
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bitfld.long 0x00 13. "ERRCONTROL4_IRQ_EN,Control error for lane 4 Applicable only to DS1" "ERRCONTROL4_IRQ_EN_0,ERRCONTROL4_IRQ_EN_1"
bitfld.long 0x00 12. "ERRCONTROL3_IRQ_EN,Control error for lane" "ERRCONTROL3_IRQ_EN_0,ERRCONTROL3_IRQ_EN_1"
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bitfld.long 0x00 11. "ERRCONTROL2_IRQ_EN,Control error for lane" "ERRCONTROL2_IRQ_EN_0,ERRCONTROL2_IRQ_EN_1"
bitfld.long 0x00 10. "ERRCONTROL1_IRQ_EN,Control error for lane" "ERRCONTROL1_IRQ_EN_0,ERRCONTROL1_IRQ_EN_1"
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bitfld.long 0x00 9. "ERRESC5_IRQ_EN,Escape entry error for lane 5 Applicable only to DS1" "ERRESC5_IRQ_EN_0,ERRESC5_IRQ_EN_1"
bitfld.long 0x00 8. "ERRESC4_IRQ_EN,Escape entry error for lane 4 Applicable only to DS1" "ERRESC4_IRQ_EN_0,ERRESC4_IRQ_EN_1"
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bitfld.long 0x00 7. "ERRESC3_IRQ_EN,Escape entry error for lane" "ERRESC3_IRQ_EN_0,ERRESC3_IRQ_EN_1"
bitfld.long 0x00 6. "ERRESC2_IRQ_EN,Escape entry error for lane" "ERRESC2_IRQ_EN_0,ERRESC2_IRQ_EN_1"
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bitfld.long 0x00 5. "ERRESC1_IRQ_EN,Escape entry error for lane" "ERRESC1_IRQ_EN_0,ERRESC1_IRQ_EN_1"
bitfld.long 0x00 4. "ERRSYNCSESC5_IRQ_EN,Low power Data transmission synchronization error for lane 5 Applicable only to DS1" "ERRSYNCSESC5_IRQ_EN_0,ERRSYNCSESC5_IRQ_EN_1"
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bitfld.long 0x00 3. "ERRSYNCSESC4_IRQ_EN,Low power Data transmission synchronization error for lane 4 Applicable only to DS1" "ERRSYNCSESC4_IRQ_EN_0,ERRSYNCSESC4_IRQ_EN_1"
bitfld.long 0x00 2. "ERRSYNCSESC3_IRQ_EN,Low power Data transmission synchronization error for lane" "ERRSYNCSESC3_IRQ_EN_0,ERRSYNCSESC3_IRQ_EN_1"
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bitfld.long 0x00 1. "ERRSYNCSESC2_IRQ_EN,Low power Data transmission synchronization error for lane" "ERRSYNCSESC2_IRQ_EN_0,ERRSYNCSESC2_IRQ_EN_1"
bitfld.long 0x00 0. "ERRSYNCSESC1_IRQ_EN,Low power Data transmission synchronization error for lane" "ERRSYNCSESC1_IRQ_EN_0,ERRSYNCSESC1_IRQ_EN_1"
group.long 0x4C++0x03
line.long 0x00 "DSI_COMPLEXIO_IRQSTATUS,INTERRUPT STATUS REGISTER - All errors from complex I/O"
bitfld.long 0x00 31. "ULPSACTIVENOT_ALL1_IRQ,All the ULPSActiveNOT signals corresponding to the lanes with TXULPSExit being high are high" "ULPSACTIVENOT_ALL1_IRQ_0,ULPSACTIVENOT_ALL1_IRQ_1"
bitfld.long 0x00 30. "ULPSACTIVENOT_ALL0_IRQ,All signals ULPSActiveNOT are" "ULPSACTIVENOT_ALL0_IRQ_0,ULPSACTIVENOT_ALL0_IRQ_1"
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bitfld.long 0x00 29. "ERRCONTENTIONLP1_5_IRQ,Contention LP1 error for lane 5 Applicable only to DS1" "ERRCONTENTIONLP1_5_IRQ_0,ERRCONTENTIONLP1_5_IRQ_1"
bitfld.long 0x00 28. "ERRCONTENTIONLP0_5_IRQ,Contention LP0 error for lane 5 Applicable only to DS1" "ERRCONTENTIONLP0_5_IRQ_0,ERRCONTENTIONLP0_5_IRQ_1"
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bitfld.long 0x00 27. "ERRCONTENTIONLP1_4_IRQ,Contention LP1 error for lane 4 Applicable only to DS1" "ERRCONTENTIONLP1_4_IRQ_0,ERRCONTENTIONLP1_4_IRQ_1"
bitfld.long 0x00 26. "ERRCONTENTIONLP0_4_IRQ,Contention LP0 error for lane 4 Applicable only to DS1" "ERRCONTENTIONLP0_4_IRQ_0,ERRCONTENTIONLP0_4_IRQ_1"
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bitfld.long 0x00 25. "ERRCONTENTIONLP1_3_IRQ,Contention LP1 error for lane" "ERRCONTENTIONLP1_3_IRQ_0,ERRCONTENTIONLP1_3_IRQ_1"
bitfld.long 0x00 24. "ERRCONTENTIONLP0_3_IRQ,Contention LP0 error for lane" "ERRCONTENTIONLP0_3_IRQ_0,ERRCONTENTIONLP0_3_IRQ_1"
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bitfld.long 0x00 23. "ERRCONTENTIONLP1_2_IRQ,Contention LP1 error for lane" "ERRCONTENTIONLP1_2_IRQ_0,ERRCONTENTIONLP1_2_IRQ_1"
bitfld.long 0x00 22. "ERRCONTENTIONLP0_2_IRQ,Contention LP0 error for lane" "ERRCONTENTIONLP0_2_IRQ_0,ERRCONTENTIONLP0_2_IRQ_1"
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bitfld.long 0x00 21. "ERRCONTENTIONLP1_1_IRQ,Contention LP1 error for lane" "ERRCONTENTIONLP1_1_IRQ_0,ERRCONTENTIONLP1_1_IRQ_1"
bitfld.long 0x00 20. "ERRCONTENTIONLP0_1_IRQ,Contention LP0 error for lane" "ERRCONTENTIONLP0_1_IRQ_0,ERRCONTENTIONLP0_1_IRQ_1"
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bitfld.long 0x00 19. "STATEULPS5_IRQ,lane 5 in ULTRALOW-POWER State Applicable only to DS1" "STATEULPS5_IRQ_0,STATEULPS5_IRQ_1"
bitfld.long 0x00 18. "STATEULPS4_IRQ,lane 4 in ultralow-power mode Applicable only to DS1" "STATEULPS4_IRQ_0,STATEULPS4_IRQ_1"
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bitfld.long 0x00 17. "STATEULPS3_IRQ,lane 3 in ULTRALOW-POWER state" "STATEULPS3_IRQ_0,STATEULPS3_IRQ_1"
bitfld.long 0x00 16. "STATEULPS2_IRQ,lane 2 in ULTRALOW-POWER state" "STATEULPS2_IRQ_0,STATEULPS2_IRQ_1"
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bitfld.long 0x00 15. "STATEULPS1_IRQ,lane 1 in ULTRALOW-POWER state" "STATEULPS1_IRQ_0,STATEULPS1_IRQ_1"
bitfld.long 0x00 14. "ERRCONTROL5_IRQ,Control error for lane 5 Applicable only to DS1" "ERRCONTROL5_IRQ_0,ERRCONTROL5_IRQ_1"
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bitfld.long 0x00 13. "ERRCONTROL4_IRQ,Control error for lane 4 Applicable only to DS1" "ERRCONTROL4_IRQ_0,ERRCONTROL4_IRQ_1"
bitfld.long 0x00 12. "ERRCONTROL3_IRQ,Control error for lane" "ERRCONTROL3_IRQ_0,ERRCONTROL3_IRQ_1"
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bitfld.long 0x00 11. "ERRCONTROL2_IRQ,Control error for lane" "ERRCONTROL2_IRQ_0,ERRCONTROL2_IRQ_1"
bitfld.long 0x00 10. "ERRCONTROL1_IRQ,Control error for lane" "ERRCONTROL1_IRQ_0,ERRCONTROL1_IRQ_1"
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bitfld.long 0x00 9. "ERRESC5_IRQ,Escape entry error for lane 5 Applicable only to DS1" "ERRESC5_IRQ_0,ERRESC5_IRQ_1"
bitfld.long 0x00 8. "ERRESC4_IRQ,Escape entry error for lane 4 Applicable only to DS1" "ERRESC4_IRQ_0,ERRESC4_IRQ_1"
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bitfld.long 0x00 7. "ERRESC3_IRQ,Escape entry error for lane" "ERRESC3_IRQ_0,ERRESC3_IRQ_1"
bitfld.long 0x00 6. "ERRESC2_IRQ,Escape entry error for lane" "ERRESC2_IRQ_0,ERRESC2_IRQ_1"
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bitfld.long 0x00 5. "ERRESC1_IRQ,Escape entry error for lane" "ERRESC1_IRQ_0,ERRESC1_IRQ_1"
bitfld.long 0x00 4. "ERRSYNCESC5_IRQ,Low power Data transmission synchronization error for lane 5 Applicable only to DS1" "ERRSYNCESC5_IRQ_0,ERRSYNCESC5_IRQ_1"
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bitfld.long 0x00 3. "ERRSYNCESC4_IRQ,Low power Data transmission synchronization error for lane 4 Applicable only to DS1" "ERRSYNCESC4_IRQ_0,ERRSYNCESC4_IRQ_1"
bitfld.long 0x00 2. "ERRSYNCESC3_IRQ,Low power Data transmission synchronization error for lane" "ERRSYNCESC3_IRQ_0,ERRSYNCESC3_IRQ_1"
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bitfld.long 0x00 1. "ERRSYNCESC2_IRQ,Low power Data transmission synchronization error for lane" "ERRSYNCESC2_IRQ_0,ERRSYNCESC2_IRQ_1"
bitfld.long 0x00 0. "ERRSYNCESC1_IRQ,Low power Data transmission synchronization error for lane" "ERRSYNCESC1_IRQ_0,ERRSYNCESC1_IRQ_1"
group.long 0x40++0x03
line.long 0x00 "DSI_CTRL,GLOBAL CONTROL REGISTER This register controls the DSI Protocol Engine module"
bitfld.long 0x00 24. "DISPC_UPDATE_SYNC,Determines if the Dispc_Update_Sync signal from the display controller is used" "DISPC_UPDATE_SYNC_0,DISPC_UPDATE_SYNC_1"
bitfld.long 0x00 23. "HSA_BLANKING_MODE,Blanking mode" "HSA_BLANKING_MODE_0,HSA_BLANKING_MODE_1"
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bitfld.long 0x00 22. "HBP_BLANKING_MODE,Blanking mode" "HBP_BLANKING_MODE_0,HBP_BLANKING_MODE_1"
bitfld.long 0x00 21. "HFP_BLANKING_MODE,Blanking mode" "HFP_BLANKING_MODE_0,HFP_BLANKING_MODE_1"
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bitfld.long 0x00 20. "BLANKING_MODE,Blanking mode" "BLANKING_MODE_0,BLANKING_MODE_1"
bitfld.long 0x00 19. "EOT_ENABLE,Enable EOT packets at the end of HS transmission" "EOT_ENABLE_0,EOT_ENABLE_1"
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bitfld.long 0x00 18. "VP_HSYNC_END,HSYNC end pulse" "VP_HSYNC_END_0,VP_HSYNC_END_1"
bitfld.long 0x00 17. "VP_HSYNC_START,HSYNC start pulse" "VP_HSYNC_START_0,VP_HSYNC_START_1"
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bitfld.long 0x00 16. "VP_VSYNC_END,VSYNC end pulse" "VP_VSYNC_END_0,VP_VSYNC_END_1"
bitfld.long 0x00 15. "VP_VSYNC_START,VSYNC start pulse" "VP_VSYNC_START_0,VP_VSYNC_START_1"
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bitfld.long 0x00 14. "TRIGGER_RESET_MODE,Selection of the trigger reset mode" "TRIGGER_RESET_MODE_0,TRIGGER_RESET_MODE_1"
bitfld.long 0x00 12.--13. "LINE_BUFFER,Number of line buffers to be used while receiving data on the video port" "LINE_BUFFER_0,LINE_BUFFER_1,LINE_BUFFER_2,?"
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bitfld.long 0x00 11. "VP_VSYNC_POL,VP vertical synchronization signal polarity" "VP_VSYNC_POL_0,VP_VSYNC_POL_1"
bitfld.long 0x00 10. "VP_HSYNC_POL,VP horizontal synchronization signal polarity" "VP_HSYNC_POL_0,VP_HSYNC_POL_1"
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bitfld.long 0x00 9. "VP_DE_POL,VP data enable signal polarity" "VP_DE_POL_0,VP_DE_POL_1"
bitfld.long 0x00 8. "VP_CLK_POL,VP pixel clock polarity" "VP_CLK_POL_0,VP_CLK_POL_1"
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bitfld.long 0x00 6.--7. "VP_DATA_BUS_WIDTH,Defines the size of the video port data bus" "VP_DATA_BUS_WIDTH_0,VP_DATA_BUS_WIDTH_1,VP_DATA_BUS_WIDTH_2,?"
bitfld.long 0x00 5. "TRIGGER_RESET,Send the reset trigger to the peripheral" "TRIGGER_RESET_0,TRIGGER_RESET_1"
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bitfld.long 0x00 4. "VP_CLK_RATIO,The field indicates the clock ratio between VP_CLK and VP_PCLK" "VP_CLK_RATIO_0,VP_CLK_RATIO_1"
bitfld.long 0x00 3. "TX_FIFO_ARBITRATION,Defines the arbitration scheme for granting the virtual channel pending ready requests in the TX FIFO" "TX_FIFO_ARBITRATION_0,TX_FIFO_ARBITRATION_1"
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bitfld.long 0x00 2. "ECC_RX_EN,Enables the Error Correction Code check for the received header (short and long packets for all virtual channel ids)" "ECC_RX_EN_0,ECC_RX_EN_1"
bitfld.long 0x00 1. "CS_RX_EN,Enables the checksum check for the received payload (long packet only for all virtual channel ids)" "CS_RX_EN_0,CS_RX_EN_1"
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bitfld.long 0x00 0. "IF_EN,Enables the module" "IF_EN_0,IF_EN_1"
group.long 0x98++0x03
line.long 0x00 "DSI_CTRL2,Additional control bits for use with Video Port 2"
bitfld.long 0x00 12.--13. "LINE_BUFFER,Number of line buffers to be used while receiving data on the video port" "LINE_BUFFER_0,LINE_BUFFER_1,LINE_BUFFER_2,?"
bitfld.long 0x00 11. "VP_VSYNC_POL,VP vertical synchronization signal polarity" "VP_VSYNC_POL_0,VP_VSYNC_POL_1"
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bitfld.long 0x00 10. "VP_HSYNC_POL,VP horizontal synchronization signal polarity" "VP_HSYNC_POL_0,VP_HSYNC_POL_1"
bitfld.long 0x00 9. "VP_DE_POL,VP data enable signal polarity" "VP_DE_POL_0,VP_DE_POL_1"
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bitfld.long 0x00 8. "VP_CLK_POL,VP pixel clock polarity" "VP_CLK_POL_0,VP_CLK_POL_1"
bitfld.long 0x00 6.--7. "VP_DATA_BUS_WIDTH,Defines the size of the video port data bus" "VP_DATA_BUS_WIDTH_0,VP_DATA_BUS_WIDTH_1,VP_DATA_BUS_WIDTH_2,?"
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bitfld.long 0x00 4. "VP_CLK_RATIO,The field indicates the clock ratio between VP_CLK and VP_PCLK" "VP_CLK_RATIO_0,VP_CLK_RATIO_1"
rgroup.long 0x44++0x03
line.long 0x00 "DSI_GNQ,GENERIC PARAMETER REGISTER This register provide a way to read the generic parameters used in the design"
bitfld.long 0x00 24. "NB_VIDEO_PORTS,Number of video ports" "NB_VIDEO_PORTS_0_r,NB_VIDEO_PORTS_1_r"
bitfld.long 0x00 22.--23. "VP2_NB_LINE_BUFFER,Determines the number of video buffer lines associated to video port 2" "VP2_NB_LINE_BUFFER_0_r,VP2_NB_LINE_BUFFER_1_r,VP2_NB_LINE_BUFFER_2_r,?"
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bitfld.long 0x00 18.--20. "VP2_LINE_BUFFER_SIZE,Determines the video line buffer size associated to video port 2" "?,VP2_LINE_BUFFER_SIZE_1_r,VP2_LINE_BUFFER_SIZE_2_r,VP2_LINE_BUFFER_SIZE_3_r,VP2_LINE_BUFFER_SIZE_4_r,VP2_LINE_BUFFER_SIZE_5_r,VP2_LINE_BUFFER_SIZE_6_r,?"
bitfld.long 0x00 16.--17. "VP1_NB_LINE_BUFFER,Determines the number of video buffer lines associated to video port 1" "VP1_NB_LINE_BUFFER_0_r,VP1_NB_LINE_BUFFER_1_r,VP1_NB_LINE_BUFFER_2_r,?"
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bitfld.long 0x00 12.--14. "VP1_LINE_BUFFER_SIZE,Determines the video line buffer size associated to video port 1" "?,VP1_LINE_BUFFER_SIZE_1_r,VP1_LINE_BUFFER_SIZE_2_r,VP1_LINE_BUFFER_SIZE_3_r,VP1_LINE_BUFFER_SIZE_4_r,VP1_LINE_BUFFER_SIZE_5_r,VP1_LINE_BUFFER_SIZE_6_r,?"
bitfld.long 0x00 9.--11. "NB_DATA_LANES,Determines the number of data lanes supported by the DSI protocol engine" "?,NB_DATA_LANES_1_r,NB_DATA_LANES_2_r,NB_DATA_LANES_3_r,NB_DATA_LANES_4_r,?,?,?"
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bitfld.long 0x00 6.--8. "NB_DMA_REQUEST,Determines the number of DMA_REQ signals" "NB_DMA_REQUEST_0_r,NB_DMA_REQUEST_1_r,NB_DMA_REQUEST_2_r,NB_DMA_REQUEST_3_r,NB_DMA_REQUEST_4_r,?,?,?"
bitfld.long 0x00 3.--5. "RX_FIFODEPTH,Determines the data RX FIFO depth (32-bit words) on the slave port" "?,?,?,?,RX_FIFODEPTH_4_r,RX_FIFODEPTH_5_r,RX_FIFODEPTH_6_r,RX_FIFODEPTH_7_r"
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bitfld.long 0x00 0.--2. "TX_FIFODEPTH,Determines the data TX FIFO depth (33-bit words) on the slave port" "?,?,?,?,TX_FIFODEPTH_4_r,TX_FIFODEPTH_5_r,TX_FIFODEPTH_6_r,TX_FIFODEPTH_7_r"
group.long 0x1C++0x03
line.long 0x00 "DSI_IRQENABLE,INTERRUPT ENABLE REGISTER - This register associates one bit for each virtual channel in order to enable/disable each virtual channel individually"
bitfld.long 0x00 22. "TE1_LINE_IRQ_EN,The VSYNC and corresponding HSYNC pulses defined in DSI_TE_HSYNC_NUMBER for the line TE1 have been received by the DSI protocol engine and have trigger the start of the data transfer to the peripheral" "TE1_LINE_IRQ_EN_0,TE1_LINE_IRQ_EN_1"
bitfld.long 0x00 21. "TE0_LINE_IRQ_EN,The VSYNC and corresponding HSYNC pulses defined in DSI_TE_HSYNC_NUMBER for the line TE0 have been received by the DSI protocol engine and have trigger the start of the data transfer to the peripheral" "TE0_LINE_IRQ_EN_0,TE0_LINE_IRQ_EN_1"
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bitfld.long 0x00 20. "TA_TO_IRQ_EN,Turn-around Time out" "TA_TO_IRQ_EN_0,TA_TO_IRQ_EN_1"
bitfld.long 0x00 18. "SYNC_LOST_IRQ_EN,Synchronization with Video port is lost (Video mode only)" "SYNC_LOST_IRQ_EN_0,SYNC_LOST_IRQ_EN_1"
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bitfld.long 0x00 17. "ACK_TRIGGER_IRQ_EN,Acknowledge trigger" "ACK_TRIGGER_IRQ_EN_0,ACK_TRIGGER_IRQ_EN_1"
bitfld.long 0x00 16. "TE_TRIGGER_IRQ_EN,Tearing Effect trigger" "TE_TRIGGER_IRQ_EN_0,TE_TRIGGER_IRQ_EN_1"
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bitfld.long 0x00 15. "LP_RX_TO_IRQ_EN,Interrupt for Low Power Rx Time out" "LP_RX_TO_IRQ_EN_0,LP_RX_TO_IRQ_EN_1"
bitfld.long 0x00 14. "HS_TX_TO_IRQ_EN,Interrupt for High Speed Tx Time out" "HS_TX_TO_IRQ_EN_0,HS_TX_TO_IRQ_EN_1"
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bitfld.long 0x00 9. "PLL_RECAL_IRQ_EN,PLL recal event (assertion of DSIRecal signal from the DSI PLL Control module)" "PLL_RECAL_IRQ_EN_0,PLL_RECAL_IRQ_EN_1"
bitfld.long 0x00 8. "PLL_UNLOCK_IRQ_EN,PLL un-clock event (de-assertion of DSILock signal from the DSI PLL Control module)" "PLL_UNLOCK_IRQ_EN_0,PLL_UNLOCK_IRQ_EN_1"
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bitfld.long 0x00 7. "PLL_LOCK_IRQ_EN,PLL clock event (assertion of DSILock signal from the DSI PLL Control module)" "PLL_LOCK_IRQ_EN_0,PLL_LOCK_IRQ_EN_1"
bitfld.long 0x00 5. "RESYNCHRONIZATION_IRQ_EN,Video mode resynchronization" "RESYNCHRONIZATION_IRQ_EN_0,RESYNCHRONIZATION_IRQ_EN_1"
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bitfld.long 0x00 4. "WAKEUP_IRQ_EN,Wakeup" "WAKEUP_IRQ_EN_0,WAKEUP_IRQ_EN_1"
group.long 0x18++0x03
line.long 0x00 "DSI_IRQSTATUS,INTERRUPT STATUS REGISTER - All virtual channels + Complex I/O + PLL This register associates one bit for each virtual channel in order to determine which virtual channel has generated the interrupt"
bitfld.long 0x00 22. "TE1_LINE_IRQ,The VSYNC and corresponding HSYNC pulses defined in DSI_TE_HSYNC_NUMBER for the line TE1 have been received by the DSI protocol engine and have trigger the start of the data transfer to the peripheral" "TE1_LINE_IRQ_0,TE1_LINE_IRQ_1"
bitfld.long 0x00 21. "TE0_LINE_IRQ,The VSYNC and corresponding HSYNC pulses defined in DSI_TE_HSYNC_NUMBER for the line TE0 have been received by the DSI protocol engine and have trigger the start of the data transfer to the peripheral" "TE0_LINE_IRQ_0,TE0_LINE_IRQ_1"
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bitfld.long 0x00 20. "TA_TO_IRQ,Turn-around Time out" "TA_TO_IRQ_0,TA_TO_IRQ_1"
bitfld.long 0x00 18. "SYNC_LOST_IRQ,Synchronization with Video port is lost (Video mode only)" "SYNC_LOST_IRQ_0,SYNC_LOST_IRQ_1"
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bitfld.long 0x00 17. "ACK_TRIGGER_IRQ,Acknowledge Trigger" "ACK_TRIGGER_IRQ_0,ACK_TRIGGER_IRQ_1"
bitfld.long 0x00 16. "TE_TRIGGER_IRQ,Tearing Effect Trigger" "TE_TRIGGER_IRQ_0,TE_TRIGGER_IRQ_1"
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bitfld.long 0x00 15. "LP_RX_TO_IRQ,Interrupt for Low Power Rx Time out" "LP_RX_TO_IRQ_0,LP_RX_TO_IRQ_1"
bitfld.long 0x00 14. "HS_TX_TO_IRQ,Interrupt for High Speed Tx Time out" "HS_TX_TO_IRQ_0,HS_TX_TO_IRQ_1"
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rbitfld.long 0x00 10. "COMPLEXIO_ERR_IRQ,Error signaling from Complex I/O: status of the complex I/O errors received from the complex I/O (events are defined inDSI_COMPLEXIO_IRQSTATUS)" "COMPLEXIO_ERR_IRQ_0_r,COMPLEXIO_ERR_IRQ_1_r"
bitfld.long 0x00 9. "PLL_RECAL_IRQ,PLL recal event (assertion of DSIRecal signal from the DSI PLL Control module)" "PLL_RECAL_IRQ_0,PLL_RECAL_IRQ_1"
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bitfld.long 0x00 8. "PLL_UNLOCK_IRQ,PLL un-clock event (de-assertion of DSILock signal from the DSI PLL Control module)" "PLL_UNLOCK_IRQ_0,PLL_UNLOCK_IRQ_1"
bitfld.long 0x00 7. "PLL_LOCK_IRQ,PLL clock event (assertion of DSILock signal from the DSI PLL Control module)" "PLL_LOCK_IRQ_0,PLL_LOCK_IRQ_1"
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bitfld.long 0x00 5. "RESYNCHRONIZATION_IRQ,Video mode resynchronization indicates to the software users that the video port works but the configuration of the timings for the display controller (DISPC) and for DSI Protocol engine may need to be modified to avoid the.." "RESYNCHRONIZATION_IRQ_0,RESYNCHRONIZATION_IRQ_1"
bitfld.long 0x00 4. "WAKEUP_IRQ,Wakeup" "WAKEUP_IRQ_0,WAKEUP_IRQ_1"
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rbitfld.long 0x00 3. "VIRTUAL_CHANNEL3_IRQ,Virtual channel" "VIRTUAL_CHANNEL3_IRQ_0_r,VIRTUAL_CHANNEL3_IRQ_1_r"
rbitfld.long 0x00 2. "VIRTUAL_CHANNEL2_IRQ,Virtual channel" "VIRTUAL_CHANNEL2_IRQ_0_r,VIRTUAL_CHANNEL2_IRQ_1_r"
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rbitfld.long 0x00 1. "VIRTUAL_CHANNEL1_IRQ,Virtual channel" "VIRTUAL_CHANNEL1_IRQ_0_r,VIRTUAL_CHANNEL1_IRQ_1_r"
rbitfld.long 0x00 0. "VIRTUAL_CHANNEL0_IRQ,Virtual channel" "VIRTUAL_CHANNEL0_IRQ_0_r,VIRTUAL_CHANNEL0_IRQ_1_r"
rgroup.long 0x00++0x03
line.long 0x00 "DSI_REVISION,IP Revision"
rgroup.long 0x7C++0x03
line.long 0x00 "DSI_RX_FIFO_VC_FULLNESS,Defines the fullness of each space allocated for each virtual channel"
hexmask.long.byte 0x00 24.--31. 1. "VC3_FIFO_FULLNESS,Fullness of the FIFO allocated for virtual channel 3.The valid values are from 0 toDSI_GNQ[5:3] RX_FIFODEPTH-1 corresponding to 1x33-bit ...up to DSI_GNQ[5:3] RX_FIFODEPTH x33-bit"
hexmask.long.byte 0x00 16.--23. 1. "VC2_FIFO_FULLNESS,Fullness of the FIFO allocated for virtual channel 2.The valid values are from 0 toDSI_GNQ[5:3] RX_FIFODEPTH-1 corresponding to 1x33-bit ...up to DSI_GNQ[5:3] RX_FIFODEPTH x33-bit"
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hexmask.long.byte 0x00 8.--15. 1. "VC1_FIFO_FULLNESS,Fullness of the FIFO allocated for virtual channel 1.The valid values are from 0 toDSI_GNQ[5:3] RX_FIFODEPTH-1 corresponding to 1x33-bit ...up to DSI_GNQ[5:3] RX_FIFODEPTH x33-bit"
hexmask.long.byte 0x00 0.--7. 1. "VC0_FIFO_FULLNESS,Fullness of the FIFO allocated for virtual channel 0.The valid values are from 0 toDSI_GNQ[5:3] RX_FIFODEPTH-1 corresponding to 1x33-bit ...up to DSI_GNQ[5:3] RX_FIFODEPTH x33-bit"
group.long 0x74++0x03
line.long 0x00 "DSI_RX_FIFO_VC_SIZE,Defines the corresponding memory entries allocated for each virtual channel and the addresses"
bitfld.long 0x00 28.--31. "VC3_FIFO_SIZE,Size of the FIFO allocated for virtual channel 3" "VC3_FIFO_SIZE_0,VC3_FIFO_SIZE_1,VC3_FIFO_SIZE_2,VC3_FIFO_SIZE_3,VC3_FIFO_SIZE_4,VC3_FIFO_SIZE_5,VC3_FIFO_SIZE_6,VC3_FIFO_SIZE_7,VC3_FIFO_SIZE_8,VC3_FIFO_SIZE_9,VC3_FIFO_SIZE_10,VC3_FIFO_SIZE_11,VC3_FIFO_SIZE_12,VC3_FIFO_SIZE_13,VC3_FIFO_SIZE_14,VC3_FIFO_SIZE_15"
bitfld.long 0x00 24.--26. "VC3_FIFO_ADD,Address of the space allocated in the FIFO for virtual channel 3" "VC3_FIFO_ADD_0,VC3_FIFO_ADD_1,VC3_FIFO_ADD_2,VC3_FIFO_ADD_3,VC3_FIFO_ADD_4,VC3_FIFO_ADD_5,VC3_FIFO_ADD_6,VC3_FIFO_ADD_7"
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bitfld.long 0x00 20.--23. "VC2_FIFO_SIZE,Size of the FIFO allocated for virtual channel 2" "VC2_FIFO_SIZE_0,VC2_FIFO_SIZE_1,VC2_FIFO_SIZE_2,VC2_FIFO_SIZE_3,VC2_FIFO_SIZE_4,VC2_FIFO_SIZE_5,VC2_FIFO_SIZE_6,VC2_FIFO_SIZE_7,VC2_FIFO_SIZE_8,VC2_FIFO_SIZE_9,VC2_FIFO_SIZE_10,VC2_FIFO_SIZE_11,VC2_FIFO_SIZE_12,VC2_FIFO_SIZE_13,VC2_FIFO_SIZE_14,VC2_FIFO_SIZE_15"
bitfld.long 0x00 16.--18. "VC2_FIFO_ADD,Address of the space allocated in the FIFO for virtual channel 2" "VC2_FIFO_ADD_0,VC2_FIFO_ADD_1,VC2_FIFO_ADD_2,VC2_FIFO_ADD_3,VC2_FIFO_ADD_4,VC2_FIFO_ADD_5,VC2_FIFO_ADD_6,VC2_FIFO_ADD_7"
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bitfld.long 0x00 12.--15. "VC1_FIFO_SIZE,Size of the FIFO allocated for virtual channel 1" "VC1_FIFO_SIZE_0,VC1_FIFO_SIZE_1,VC1_FIFO_SIZE_2,VC1_FIFO_SIZE_3,VC1_FIFO_SIZE_4,VC1_FIFO_SIZE_5,VC1_FIFO_SIZE_6,VC1_FIFO_SIZE_7,VC1_FIFO_SIZE_8,VC1_FIFO_SIZE_9,VC1_FIFO_SIZE_10,VC1_FIFO_SIZE_11,VC1_FIFO_SIZE_12,VC1_FIFO_SIZE_13,VC1_FIFO_SIZE_14,VC1_FIFO_SIZE_15"
bitfld.long 0x00 8.--10. "VC1_FIFO_ADD,Address of the space allocated in the FIFO for virtual channel 1" "VC1_FIFO_ADD_0,VC1_FIFO_ADD_1,VC1_FIFO_ADD_2,VC1_FIFO_ADD_3,VC1_FIFO_ADD_4,VC1_FIFO_ADD_5,VC1_FIFO_ADD_6,VC1_FIFO_ADD_7"
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bitfld.long 0x00 4.--7. "VC0_FIFO_SIZE,Size of the FIFO allocated for virtual channel 0" "VC0_FIFO_SIZE_0,VC0_FIFO_SIZE_1,VC0_FIFO_SIZE_2,VC0_FIFO_SIZE_3,VC0_FIFO_SIZE_4,VC0_FIFO_SIZE_5,VC0_FIFO_SIZE_6,VC0_FIFO_SIZE_7,VC0_FIFO_SIZE_8,VC0_FIFO_SIZE_9,VC0_FIFO_SIZE_10,VC0_FIFO_SIZE_11,VC0_FIFO_SIZE_12,VC0_FIFO_SIZE_13,VC0_FIFO_SIZE_14,VC0_FIFO_SIZE_15"
bitfld.long 0x00 0.--2. "VC0_FIFO_ADD,Address of the space allocated in the FIFO for virtual channel 0" "VC0_FIFO_ADD_0,VC0_FIFO_ADD_1,VC0_FIFO_ADD_2,VC0_FIFO_ADD_3,VC0_FIFO_ADD_4,VC0_FIFO_ADD_5,VC0_FIFO_ADD_6,VC0_FIFO_ADD_7"
group.long 0x94++0x03
line.long 0x00 "DSI_STOPCLK_TIMING,Number of functional clock cycles to wait for TXBYTECLKHS to stop/start after change in DSIStopClk signal"
hexmask.long.byte 0x00 0.--7. 1. "DSI_STOPCLK_LATENCY,Clock gating latency from DSI Protocol to TXBYTECLKHS"
group.long 0x10++0x07
line.long 0x00 "DSI_SYSCONFIG,SYSTEM CONFIGURATION REGISTER"
bitfld.long 0x00 8.--9. "CLOCKACTIVITY,Clocks activity during wake up mode period" "CLOCKACTIVITY_0,CLOCKACTIVITY_1,CLOCKACTIVITY_2,CLOCKACTIVITY_3"
bitfld.long 0x00 3.--4. "SIDLEMODE,Slave interface power management Idle req/ack control" "SIDLEMODE_0,SIDLEMODE_1,SIDLEMODE_2,SIDLEMODE_3"
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bitfld.long 0x00 2. "ENWAKEUP,Wake-up mode enable bit" "ENWAKEUP_0,ENWAKEUP_1"
bitfld.long 0x00 1. "SOFT_RESET,Software reset" "SOFT_RESET_0,SOFT_RESET_1"
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bitfld.long 0x00 0. "AUTO_IDLE,Internal interface gating strategy" "AUTO_IDLE_0,AUTO_IDLE_1"
line.long 0x04 "DSI_SYSSTATUS,SYSTEM STATUS REGISTER This register provides status information about the module. excluding the interrupt status register"
bitfld.long 0x04 0. "RESET_DONE,Internal reset monitoring" "RESET_DONE_0_r,RESET_DONE_1_r"
group.long 0x58++0x07
line.long 0x00 "DSI_TIMING1,TIMING1 REGISTER This register controls the DSI Protocol Engine module timers"
bitfld.long 0x00 31. "TA_TO,Enables the turn-around timer" "TA_TO_0,TA_TO_1"
bitfld.long 0x00 30. "TA_TO_X16,Multiplication factor for the number of DSI_CLK functional clocks cycles defined in TA_TO_COUNTER bit field" "TA_TO_X16_0,TA_TO_X16_1"
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bitfld.long 0x00 29. "TA_TO_X8,Multiplication factor for the number of DSI_CLK functional clock cycles defined in TA_TO_COUNTER bit field" "TA_TO_X8_0,TA_TO_X8_1"
hexmask.long.word 0x00 16.--28. 1. "TA_TO_COUNTER,Turn around counter"
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bitfld.long 0x00 15. "FORCE_TX_STOP_MODE_IO,Control of ForceTxStopMode signal" "FORCE_TX_STOP_MODE_IO_0,FORCE_TX_STOP_MODE_IO_1"
bitfld.long 0x00 14. "STOP_STATE_X16_IO,Multiplication factor for the number of DSI_CLK functional clock cycles defined in STOP_STATE_COUNTER_IO bit field" "STOP_STATE_X16_IO_0,STOP_STATE_X16_IO_1"
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bitfld.long 0x00 13. "STOP_STATE_X4_IO,Multiplication factor for the number of DSI_CLK functional clock cycles defined in STOP_STATE_COUNTER_IO bit field" "STOP_STATE_X4_IO_0,STOP_STATE_X4_IO_1"
hexmask.long.word 0x00 0.--12. 1. "STOP_STATE_COUNTER_IO,Stop state counter"
line.long 0x04 "DSI_TIMING2,TIMING2 REGISTER This register controls the DSI Protocol Engine module timers"
bitfld.long 0x04 31. "HS_TX_TO,Enables the HS TX timer" "HS_TX_TO_0,HS_TX_TO_1"
bitfld.long 0x04 30. "HS_TX_TO_X64,Multiplication factor for the number of BYTE_CLK functional clock cycles defined in HS_TX_COUNTER bit field" "HS_TX_TO_X64_0,HS_TX_TO_X64_1"
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bitfld.long 0x04 29. "HS_TX_TO_X16,Multiplication factor for the number of BYTE_CLK functional clock cycles defined in HS_TX_COUNTER bit" "HS_TX_TO_X16_0,HS_TX_TO_X16_1"
hexmask.long.word 0x04 16.--28. 1. "HS_TX_TO_COUNTER,HS_TX_TIMER counter"
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bitfld.long 0x04 15. "LP_RX_TO,Enables the LP RX timer" "LP_RX_TO_0,LP_RX_TO_1"
bitfld.long 0x04 14. "LP_RX_TO_X16,Multiplication factor for the number of DSI_FCLK clock cycles defined in LP_RX_COUNTER bit field" "LP_RX_TO_X16_0,LP_RX_TO_X16_1"
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bitfld.long 0x04 13. "LP_RX_TO_X4,Multiplication factor for the number of DSI_FCLK clock cycles defined in LP_RX_COUNTER bit" "LP_RX_TO_X4_0,LP_RX_TO_X4_1"
hexmask.long.word 0x04 0.--12. 1. "LP_RX_TO_COUNTER,LP_RX_TIMER counter"
rgroup.long 0x84++0x03
line.long 0x00 "DSI_TX_FIFO_VC_EMPTINESS,Defines the emptiness of each space allocated for each virtual channel"
hexmask.long.byte 0x00 24.--31. 1. "VC3_FIFO_EMPTINESS,Emptiness of the FIFO allocated for virtual channel 3.The valid values are from 0 toDSI_GNQ[2:0] TX_FIFODEPTH-1 corresponding to 1x33-bit ...up to DSI_GNQ[2:0] TX_FIFODEPTH x33-bit"
hexmask.long.byte 0x00 16.--23. 1. "VC2_FIFO_EMPTINESS,Emptiness of the FIFO allocated for virtual channel 2.The valid values are from 0 toDSI_GNQ[2:0] TX_FIFODEPTH-1 corresponding to 1x33-bit ...up to DSI_GNQ[2:0] TX_FIFODEPTH x33-bit"
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hexmask.long.byte 0x00 8.--15. 1. "VC1_FIFO_EMPTINESS,Emptiness of the FIFO allocated for virtual channel 1.The valid values are from 0 toDSI_GNQ[2:0] TX_FIFODEPTH-1 corresponding to 1x33-bit ...up to DSI_GNQ[2:0] TX_FIFODEPTH x33-bit"
hexmask.long.byte 0x00 0.--7. 1. "VC0_FIFO_EMPTINESS,Emptiness of the FIFO allocated for virtual channel 0.The valid values are from 0 toDSI_GNQ[2:0] TX_FIFODEPTH-1 corresponding to 1x33-bit ...up to DSI_GNQ[2:0] TX_FIFODEPTH x33-bit"
group.long 0x70++0x03
line.long 0x00 "DSI_TX_FIFO_VC_SIZE,Defines the corresponding memory entries allocated for each virtual channel"
bitfld.long 0x00 28.--31. "VC3_FIFO_SIZE,Size of the FIFO allocated for virtual channel 3" "VC3_FIFO_SIZE_0,VC3_FIFO_SIZE_1,VC3_FIFO_SIZE_2,VC3_FIFO_SIZE_3,VC3_FIFO_SIZE_4,VC3_FIFO_SIZE_5,VC3_FIFO_SIZE_6,VC3_FIFO_SIZE_7,VC3_FIFO_SIZE_8,VC3_FIFO_SIZE_9,VC3_FIFO_SIZE_10,VC3_FIFO_SIZE_11,VC3_FIFO_SIZE_12,VC3_FIFO_SIZE_13,VC3_FIFO_SIZE_14,VC3_FIFO_SIZE_15"
bitfld.long 0x00 24.--26. "VC3_FIFO_ADD,Address of the space allocated in the FIFO for virtual channel 3" "VC3_FIFO_ADD_0,VC3_FIFO_ADD_1,VC3_FIFO_ADD_2,VC3_FIFO_ADD_3,VC3_FIFO_ADD_4,VC3_FIFO_ADD_5,VC3_FIFO_ADD_6,VC3_FIFO_ADD_7"
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bitfld.long 0x00 20.--23. "VC2_FIFO_SIZE,Size of the FIFO allocated for virtual channel 2" "VC2_FIFO_SIZE_0,VC2_FIFO_SIZE_1,VC2_FIFO_SIZE_2,VC2_FIFO_SIZE_3,VC2_FIFO_SIZE_4,VC2_FIFO_SIZE_5,VC2_FIFO_SIZE_6,VC2_FIFO_SIZE_7,VC2_FIFO_SIZE_8,VC2_FIFO_SIZE_9,VC2_FIFO_SIZE_10,VC2_FIFO_SIZE_11,VC2_FIFO_SIZE_12,VC2_FIFO_SIZE_13,VC2_FIFO_SIZE_14,VC2_FIFO_SIZE_15"
bitfld.long 0x00 16.--18. "VC2_FIFO_ADD,Address of the space allocated in the FIFO for virtual channel 2" "VC2_FIFO_ADD_0,VC2_FIFO_ADD_1,VC2_FIFO_ADD_2,VC2_FIFO_ADD_3,VC2_FIFO_ADD_4,VC2_FIFO_ADD_5,VC2_FIFO_ADD_6,VC2_FIFO_ADD_7"
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bitfld.long 0x00 12.--15. "VC1_FIFO_SIZE,Size of the FIFO allocated for virtual channel 1" "VC1_FIFO_SIZE_0,VC1_FIFO_SIZE_1,VC1_FIFO_SIZE_2,VC1_FIFO_SIZE_3,VC1_FIFO_SIZE_4,VC1_FIFO_SIZE_5,VC1_FIFO_SIZE_6,VC1_FIFO_SIZE_7,VC1_FIFO_SIZE_8,VC1_FIFO_SIZE_9,VC1_FIFO_SIZE_10,VC1_FIFO_SIZE_11,VC1_FIFO_SIZE_12,VC1_FIFO_SIZE_13,VC1_FIFO_SIZE_14,VC1_FIFO_SIZE_15"
bitfld.long 0x00 8.--10. "VC1_FIFO_ADD,Address of the space allocated in the FIFO for virtual channel 1" "VC1_FIFO_ADD_0,VC1_FIFO_ADD_1,VC1_FIFO_ADD_2,VC1_FIFO_ADD_3,VC1_FIFO_ADD_4,VC1_FIFO_ADD_5,VC1_FIFO_ADD_6,VC1_FIFO_ADD_7"
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bitfld.long 0x00 4.--7. "VC0_FIFO_SIZE,Size of the FIFO allocated for virtual channel 0" "VC0_FIFO_SIZE_0,VC0_FIFO_SIZE_1,VC0_FIFO_SIZE_2,VC0_FIFO_SIZE_3,VC0_FIFO_SIZE_4,VC0_FIFO_SIZE_5,VC0_FIFO_SIZE_6,VC0_FIFO_SIZE_7,VC0_FIFO_SIZE_8,VC0_FIFO_SIZE_9,VC0_FIFO_SIZE_10,VC0_FIFO_SIZE_11,VC0_FIFO_SIZE_12,VC0_FIFO_SIZE_13,VC0_FIFO_SIZE_14,VC0_FIFO_SIZE_15"
bitfld.long 0x00 0.--2. "VC0_FIFO_ADD,Address of the space allocated in the FIFO for virtual channel 0" "VC0_FIFO_ADD_0,VC0_FIFO_ADD_1,VC0_FIFO_ADD_2,VC0_FIFO_ADD_3,VC0_FIFO_ADD_4,VC0_FIFO_ADD_5,VC0_FIFO_ADD_6,VC0_FIFO_ADD_7"
group.long 0x60++0x0B
line.long 0x00 "DSI_VM_TIMING1,VIDEO MODE TIMING REGISTER This register defines the video mode timing"
hexmask.long.byte 0x00 24.--31. 1. "HSA,Defines the horizontal Sync active period used in video mode in number of byte clock cycles (TXBYTECLKHS clock) The supported values are from 0 to 255"
hexmask.long.word 0x00 12.--23. 1. "HFP,Defines the horizontal front porch used in video mode in number of byte clock cycles (TXBYTECLKHS clock) The supported values are from 0 to 4095"
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hexmask.long.word 0x00 0.--11. 1. "HBP,Defines the horizontal back porch used in video mode in number of byte clock cycles (TXBYTECLKHS clock) The supported values are from 0 to 4095"
line.long 0x04 "DSI_VM_TIMING2,VIDEO MODE TIMING REGISTER This register defines the video mode timing"
bitfld.long 0x04 24.--27. "WINDOW_SYNC,Number of BYTE clock cycles for the synchronization window" "WINDOW_SYNC_0,WINDOW_SYNC_1,WINDOW_SYNC_2,WINDOW_SYNC_3,WINDOW_SYNC_4,WINDOW_SYNC_5,WINDOW_SYNC_6,WINDOW_SYNC_7,WINDOW_SYNC_8,WINDOW_SYNC_9,WINDOW_SYNC_10,WINDOW_SYNC_11,WINDOW_SYNC_12,WINDOW_SYNC_13,WINDOW_SYNC_14,WINDOW_SYNC_15"
hexmask.long.byte 0x04 16.--23. 1. "VSA,Defines the vertical Sync active period used in video mode in number of lines"
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hexmask.long.byte 0x04 8.--15. 1. "VFP,Defines the vertical front porch used in video mode in number of lines"
hexmask.long.byte 0x04 0.--7. 1. "VBP,Defines the vertical back porch used in video mode in number of lines"
line.long 0x08 "DSI_VM_TIMING3,VIDEO MODE TIMING REGISTER This register defines the video mode timing"
hexmask.long.word 0x08 16.--31. 1. "TL,Defines the number of length of the line in video mode in number of byte clock cycles (TXBYTECLKHS clock) The supported values are from 0 to 8192"
hexmask.long.word 0x08 0.--15. 1. "VACT,Defines the number of active lines used in video mode"
group.long 0x80++0x03
line.long 0x00 "DSI_VM_TIMING4,VIDEO MODE TIMING REGISTER This register defines the video mode timing"
hexmask.long.byte 0x00 16.--23. 1. "HSA_HS_INTERLEAVING,Defines the number of TXBYTECLKHS clock cycles that can be used for interleaving High Speed command mode packet into Video Mode stream during HSA blanking period"
hexmask.long.byte 0x00 8.--15. 1. "HFP_HS_INTERLEAVING,Defines the number of TXBYTECLKHS clock cycles that can be used for interleaving High Speed command mode packet into Video Mode stream during HFP blanking period"
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hexmask.long.byte 0x00 0.--7. 1. "HBP_HS_INTERLEAVING,Defines the number of TXBYTECLKHS clock cycles that can be used for interleaving High Speed command mode packet into Video Mode stream during HBP blanking period"
group.long 0x88++0x0B
line.long 0x00 "DSI_VM_TIMING5,VIDEO MODE TIMING REGISTER This register defines the video mode timing"
hexmask.long.byte 0x00 16.--23. 1. "HSA_LP_INTERLEAVING,Defines the number of bytes of Low Power command mode packets that can be sent on PPI link during HSA blanking period"
hexmask.long.byte 0x00 8.--15. 1. "HFP_LP_INTERLEAVING,Defines the number of bytes of Low Power command mode packets that can be sent on PPI link during HFP blanking period"
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hexmask.long.byte 0x00 0.--7. 1. "HBP_LP_INTERLEAVING,Defines the number of bytes of Low Power command mode packets that can be sent on PPI link during HBP blanking period"
line.long 0x04 "DSI_VM_TIMING6,VIDEO MODE TIMING REGISTER This register defines the video mode timing"
hexmask.long.word 0x04 16.--31. 1. "BL_HS_INTERLEAVING,Defines the number of TXBYTECLKHS clock cycles that can be used for interleaving High Speed command mode packet into Video Mode stream during blanking periods during VSA VBP VFP periods inside one video frame on PPI link"
hexmask.long.word 0x04 0.--15. 1. "BL_LP_INTERLEAVING,Defines the maximum number of bytes of Low Power command mode packets that can be sent on PPI link during blanking periods during VSA VBP or VFP periods inside one video frame on PPI link"
line.long 0x08 "DSI_VM_TIMING7,Defines the minimum number of HS bytes clock cycles that are required to allow for the delays in entering and exiting HS mode"
hexmask.long.word 0x08 16.--31. 1. "ENTER_HS_MODE_LATENCY,Defines the number of TXBYTECLKHS clock cycles necessary for entering to HS mode"
hexmask.long.word 0x08 0.--15. 1. "EXIT_HS_MODE_LATENCY,Defines the number of TXBYTECLKHS clock cycles necessary for exiting from HS mode"
group.long 0x9C++0x03
line.long 0x00 "DSI_VM_TIMING8,VIDEO MODE TIMING REGISTER This register defines the video mode timing"
bitfld.long 0x00 0.--1. "HFPX,Extension to the HFP register" "HFPX_0,HFPX_1,HFPX_2,HFPX_3"
tree.end
tree.end
tree "MMC_SD_SDIO"
repeat 2. (list 1. 2. )(list ansd:0x4809C000 ansd:0x480B4000 )
tree "MMCHS$1"
base $2
rgroup.long 0x00++0x07
line.long 0x00 "MMCHS_HL_REV,IP Revision Identifier (X.Y.R) Used by software to track features. bugs. and compatibility"
line.long 0x04 "MMCHS_HL_HWINFO,Information about the IP module's hardware configuration. that is. typically the module's HDL generics (if any)"
bitfld.long 0x04 6. "RETMODE,Retention mode generic parameter This bit field indicates whether the retention mode is supported using the pin PIRFFRET" "RETMODE_0,RETMODE_1"
bitfld.long 0x04 2.--5. "MEM_SIZE,Memory size for FIFO buffer" "?,MEM_SIZE_1_r,MEM_SIZE_2_r,?,MEM_SIZE_4_r,?,?,?,MEM_SIZE_8_r,?,?,?,?,?,?,?"
bitfld.long 0x04 1. "MERGE_MEM,Memory merged for FIFO buffer: This register defines the configuration of FIFO buffer architecture" "MERGE_MEM_0_r,MERGE_MEM_1_r"
bitfld.long 0x04 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" "MADMA_EN_0_r,MADMA_EN_1_r"
group.long 0x10++0x03
line.long 0x00 "MMCHS_HL_SYSCONFIG,Clock management configuration"
bitfld.long 0x00 4.--5. "STANDBYMODE,Configuration of the local initiator state management mode" "STANDBYMODE_0,STANDBYMODE_1,STANDBYMODE_2,STANDBYMODE_3"
bitfld.long 0x00 2.--3. "IDLEMODE,Configuration of the local target state management mode" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 1. "FREEEMU,Sensitivity to emulation (debug) suspend input signal" "FREEEMU_0,FREEEMU_1"
bitfld.long 0x00 0. "SOFTRESET,Software reset" "SOFTRESET_0_r,SOFTRESET_1_w"
group.long 0x110++0x07
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" "STANDBYMODE_0,STANDBYMODE_1,STANDBYMODE_2,STANDBYMODE_3"
bitfld.long 0x00 8.--9. "CLOCKACTIVITY,Clocks activity during wake up mode period" "CLOCKACTIVITY_0,CLOCKACTIVITY_1,CLOCKACTIVITY_2,CLOCKACTIVITY_3"
bitfld.long 0x00 3.--4. "SIDLEMODE,Power management" "SIDLEMODE_0,SIDLEMODE_1,SIDLEMODE_2,SIDLEMODE_3"
bitfld.long 0x00 2. "ENAWAKEUP,Wakeup feature control" "ENAWAKEUP_0,ENAWAKEUP_1"
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bitfld.long 0x00 1. "SOFTRESET,Software reset" "SOFTRESET_0_w,SOFTRESET_1_r"
bitfld.long 0x00 0. "AUTOIDLE,Internal Clock gating strategy" "AUTOIDLE_0,AUTOIDLE_1"
line.long 0x04 "MMCHS_SYSSTATUS,System Status Register This register provides status information about the module excluding the interrupt status information"
bitfld.long 0x04 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" "RESETDONE_0_r,RESETDONE_1_r"
group.long 0x124++0x0F
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"
line.long 0x04 "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"
bitfld.long 0x04 16. "OBI,Out-Of-Band Interrupt (OBI) data value" "OBI_0_r,OBI_1_r"
rbitfld.long 0x04 15. "SDCD,Card detect input signal (SDCD) data value" "SDCD_0_r,SDCD_1_r"
rbitfld.long 0x04 14. "SDWP,Write protect input signal (SDWP) data value" "SDWP_0_r,SDWP_1_r"
bitfld.long 0x04 13. "WAKD,Wake request output signal data value" "WAKD_0_r,WAKD_1_r"
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bitfld.long 0x04 12. "SSB,Set status bit This bit must be cleared prior attempting to clear a status bit of the interrupt status register (MMCHS_STAT)" "SSB_0_r,SSB_1_w"
bitfld.long 0x04 11. "D7D,DAT7 input/output signal data value" "D7D_0_w,D7D_1_w"
bitfld.long 0x04 10. "D6D,DAT6 input/output signal data value" "D6D_0_w,D6D_1_w"
bitfld.long 0x04 9. "D5D,DAT5 input/output signal data value" "D5D_0_w,D5D_1_w"
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bitfld.long 0x04 8. "D4D,DAT4 input/output signal data value" "D4D_0_r,D4D_1_r"
bitfld.long 0x04 7. "D3D,DAT3 input/output signal data value" "D3D_0_r,D3D_1_w"
bitfld.long 0x04 6. "D2D,DAT2 input/output signal data value" "D2D_0_r,D2D_1_r"
bitfld.long 0x04 5. "D1D,DAT1 input/output signal data value" "D1D_0_w,D1D_1_w"
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bitfld.long 0x04 4. "D0D,DAT0 input/output signal data value" "D0D_0_r,D0D_1_r"
bitfld.long 0x04 3. "DDIR,Control of the DAT[7:0] pins direction" "DDIR_0_r,DDIR_1_w"
bitfld.long 0x04 2. "CDAT,CMD input/output signal data value" "CDAT_0_r,CDAT_1_r"
bitfld.long 0x04 1. "CDIR,Control of the CMD pin direction" "CDIR_0_w,CDIR_1_w"
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bitfld.long 0x04 0. "MCKD,MMC clock output signal data value" "MCKD_0_w,MCKD_1_r"
line.long 0x08 "MMCHS_CON,Configuration register This register is used: - to select the functional mode or the SYSTEST mode for any card"
bitfld.long 0x08 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 written.." "SDMA_LNE_0,SDMA_LNE_1"
bitfld.long 0x08 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 is only available.." "DMA_MNS_0,DMA_MNS_1"
bitfld.long 0x08 19. "DDR,Dual Data Rate mode: When this register is set the controller uses both clock edge to emit or receive data" "DDR_0,DDR_1"
bitfld.long 0x08 18. "BOOT_CF0,Boot status supported: This register is set when the CMD line need to be forced to 0 for a boot sequence" "BOOT_CF0_0_r,BOOT_CF0_1_w"
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bitfld.long 0x08 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" "BOOT_ACK_0,BOOT_ACK_1"
bitfld.long 0x08 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]" "CLKEXTFREE_0,CLKEXTFREE_1"
bitfld.long 0x08 15. "PADEN,Control Power for MMC Lines: This register is only useful when MMC PADs contain power saving mechanism to minimize its leakage power" "PADEN_0,PADEN_1"
bitfld.long 0x08 14. "OBIE,Out-of-Band Interrupt Enable MMC cards only: This bit enables the detection of Out-of-Band Interrupt on MMCOBI input pin" "OBIE_0,OBIE_1"
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bitfld.long 0x08 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" "OBIP_0,OBIP_1"
bitfld.long 0x08 12. "CEATA,CE-ATA control mode MMC cards compliant with CE-ATA:By default this bit is set to 0" "CEATA_0,CEATA_1"
bitfld.long 0x08 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" "CTPL_0,CTPL_1"
bitfld.long 0x08 9.--10. "DVAL,Debounce filter value All cards This register is used to define a debounce period to filter the card detect input signal (SDCD)" "DVAL_0,DVAL_1,DVAL_2,DVAL_3"
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bitfld.long 0x08 8. "WPP,Write protect polarity For SD and SDIO cards only This bit selects the active level of the write protect input signal (SDWP)" "WPP_0,WPP_1"
bitfld.long 0x08 7. "CDP,Card detect polarity All cards This bit selects the active level of the card detect input signal (SDCD)" "CDP_0,CDP_1"
bitfld.long 0x08 6. "MIT,MMC interrupt command Only for MMC cards" "MIT_0,MIT_1"
bitfld.long 0x08 5. "DW8,8-bit mode MMC select For SD/SDIO cards this bit must be set to 0" "DW8_0,DW8_1"
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bitfld.long 0x08 4. "MODE,Mode select All cards These bits select between Functional mode and SYSTEST mode" "MODE_0,MODE_1"
bitfld.long 0x08 3. "STR,Stream command Only for MMC cards" "STR_0,STR_1"
bitfld.long 0x08 2. "HR,Broadcast host response Only for MMC cards" "HR_0,HR_1"
bitfld.long 0x08 1. "INIT,Send initialization stream All cards" "INIT_0,INIT_1"
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bitfld.long 0x08 0. "OD,Card open drain mode" "OD_0,OD_1"
line.long 0x0C "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 0x0C 0.--15. 1. "PWRCNT,Power counter register"
group.long 0x204++0x3F
line.long 0x00 "MMCHS_BLK,Transfer Length Configuration register [11:0] BLEN is the block size register"
hexmask.long.word 0x00 16.--31. 1. "NBLK,Blocks count for current transfer This register is enabled when Block count Enable (MMCHS_CMD[1] BCE) is set to 1 and is valid only for multiple block transfers"
hexmask.long.word 0x00 0.--11. 1. "BLEN,Transfer Block Size"
line.long 0x04 "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)"
line.long 0x08 "MMCHS_CMD,Command and transfer mode register [31:16] = the command register [15:0] = the transfer mode"
bitfld.long 0x08 24.--29. "INDX,Command index Binary encoded value from 0 to 63 specifying the command number send to card" "INDX_0,INDX_1,INDX_2,INDX_3,INDX_4,INDX_5,INDX_6,INDX_7,INDX_8,INDX_9,INDX_10,INDX_11,INDX_12,INDX_13,INDX_14,INDX_15,INDX_16,INDX_17,INDX_18,INDX_19,INDX_20,INDX_21,INDX_22,INDX_23,INDX_24,INDX_25,INDX_26,INDX_27,INDX_28,INDX_29,INDX_30,INDX_31,INDX_32,INDX_33,INDX_34,INDX_35,INDX_36,INDX_37,INDX_38,INDX_39,INDX_40,INDX_41,INDX_42,INDX_43,INDX_44,INDX_45,INDX_46,INDX_47,INDX_48,INDX_49,INDX_50,INDX_51,INDX_52,INDX_53,INDX_54,INDX_55,INDX_56,INDX_57,INDX_58,INDX_59,INDX_60,INDX_61,INDX_62,INDX_63"
bitfld.long 0x08 22.--23. "CMD_TYPE,Command type This register specifies three types of special command: Suspend Resume and Abort" "CMD_TYPE_0,CMD_TYPE_1,CMD_TYPE_2,CMD_TYPE_3"
bitfld.long 0x08 21. "DP,Data present select This register indicates that data is present and DAT line shall be used" "DP_0,DP_1"
bitfld.long 0x08 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" "CICE_0,CICE_1"
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bitfld.long 0x08 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" "CCCE_0,CCCE_1"
bitfld.long 0x08 16.--17. "RSP_TYPE,Response type This bits defines the response type of the command" "RSP_TYPE_0,RSP_TYPE_1,RSP_TYPE_2,RSP_TYPE_3"
bitfld.long 0x08 5. "MSBS,Multi/Single block select This bit must be set to 1 for data transfer in case of multi block command" "MSBS_0,MSBS_1"
bitfld.long 0x08 4. "DDIR,Data transfer Direction Select This bit defines either data transfer will be a read or a" "DDIR_0,DDIR_1"
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bitfld.long 0x08 2. "ACEN,Auto CMD12 Enable SDIO does not support this feature" "ACEN_0,ACEN_1"
bitfld.long 0x08 1. "BCE,Block Count Enable Multiple block transfers only" "BCE_0,BCE_1"
bitfld.long 0x08 0. "DE,DMA Enable This bit is used to enable DMA mode for host data access" "DE_0,DE_1"
line.long 0x0C "MMCHS_RSP10,Command response[31:0] Register This 32-bit register holds bits positions [31:0] of command response type R1/R1b/R2/R3/R4/R5/R5b/R6"
hexmask.long.word 0x0C 16.--31. 1. "RSP1,Command Response [31:16]"
hexmask.long.word 0x0C 0.--15. 1. "RSP0,Command Response [15:0]"
line.long 0x10 "MMCHS_RSP32,Command response[63:32] Register This 32-bit register holds bits positions [63:32] of command response type R2"
hexmask.long.word 0x10 16.--31. 1. "RSP3,Command Response [63:48]"
hexmask.long.word 0x10 0.--15. 1. "RSP2,Command Response [47:32]"
line.long 0x14 "MMCHS_RSP54,Command response[95:64] Register This 32-bit register holds bits positions [95:64] of command response type R2"
hexmask.long.word 0x14 16.--31. 1. "RSP5,Command Response [95:80]"
hexmask.long.word 0x14 0.--15. 1. "RSP4,Command Response [79:64]"
line.long 0x18 "MMCHS_RSP76,Command response[127:96] Register This 32-bit register holds bits positions [127:96] of command response type R2"
hexmask.long.word 0x18 16.--31. 1. "RSP7,Command Response [127:112]"
hexmask.long.word 0x18 0.--15. 1. "RSP6,Command Response [111:96]"
line.long 0x1C "MMCHS_DATA,Data Register This register is the 32-bit entry point of the buffer for read or write data transfers"
line.long 0x20 "MMCHS_PSTATE,Present state register The Host can get status of the Host Controller from this 32-bit read only register"
bitfld.long 0x20 24. "CLEV,CMD line signal level This status is used to check the CMD line level to recover from errors and for debugging" "CLEV_0_r,CLEV_1_r"
bitfld.long 0x20 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" "DLEV_0,DLEV_1,DLEV_2,DLEV_3,DLEV_4,DLEV_5,DLEV_6,DLEV_7,DLEV_8,DLEV_9,DLEV_10,DLEV_11,DLEV_12,DLEV_13,DLEV_14,DLEV_15"
bitfld.long 0x20 19. "WP,Write protect switch pin level For SDIO cards only" "WP_0_r,WP_1_r"
bitfld.long 0x20 18. "CDPL,Card detect pin level This bit reflects the inverse value of the card detect input pin (SDCD) debouncing is not performed on this bit and bit is valid only when Card State Stable (MMCHS_PSTATE[17] CSS) is set to 1" "CDPL_0_r,CDPL_1_r"
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bitfld.long 0x20 17. "CSS,Card State Stable This bit is used for testing" "CSS_0_r,CSS_1_r"
bitfld.long 0x20 16. "CINS,Card inserted This bit is the debounced value of the card detect input pin (SDCD)" "CINS_0_r,CINS_1_r"
bitfld.long 0x20 11. "BRE,Buffer read enable This bit is used for non-DMA read transfers" "BRE_0_r,BRE_1_r"
bitfld.long 0x20 10. "BWE,Buffer Write enable This status is used for non-DMA write transfers" "BWE_0_r,BWE_1_r"
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bitfld.long 0x20 9. "RTA,Read transfer active This status is used for detecting completion of a read transfer" "RTA_0_r,RTA_1_r"
bitfld.long 0x20 8. "WTA,Write transfer active This status indicates a write transfer active" "WTA_0_r,WTA_1_r"
bitfld.long 0x20 2. "DLA,DAT line active This status bit indicates whether one of the DAT line is in use" "DLA_0_r,DLA_1_r"
bitfld.long 0x20 1. "DATI,Command inhibit(DAT) This status bit is generated if either DAT line is active (MMCHS_PSTATE[2] DLA) or Read transfer is active (MMCHS_PSTATE[9] RTA) or when a command with busy is issued" "DATI_0_r,DATI_1_r"
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bitfld.long 0x20 0. "CMDI,Command inhibit(CMD) This status bit indicates that the CMD line is in use" "CMDI_0_r,CMDI_1_r"
line.long 0x24 "MMCHS_HCTL,Control register This register defines the host controls to set power. wakeup and transfer parameters"
bitfld.long 0x24 27. "OBWE,Wakeup event enable for 'Out-of-Band' Interrupt" "OBWE_0,OBWE_1"
bitfld.long 0x24 26. "REM,Wakeup event enable on SD card removal This bit enables wakeup events for card removal assertion" "REM_0,REM_1"
bitfld.long 0x24 25. "INS,Wakeup event enable on SD card insertion This bit enables wakeup events for card insertion assertion" "INS_0,INS_1"
bitfld.long 0x24 24. "IWE,Wakeup event enable on SD card interrupt This bit enables wakeup events for card interrupt assertion" "IWE_0,IWE_1"
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bitfld.long 0x24 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" "IBG_0,IBG_1"
bitfld.long 0x24 18. "RWC,Read wait control The read wait function is optional only for SDIO cards" "RWC_0,RWC_1"
bitfld.long 0x24 17. "CR,Continue request This bit is used to restart a transaction that was stopped by requesting a stop at block gap (MMCHS_HCTL[16] SBGR)" "CR_0,CR_1"
bitfld.long 0x24 16. "SBGR,Stop at block gap request This bit is used to stop executing a transaction at the next block gap" "SBGR_0,SBGR_1"
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bitfld.long 0x24 9.--11. "SDVS,SD bus voltage select All cards" "?,?,?,?,?,SDVS_5,SDVS_6,SDVS_7"
bitfld.long 0x24 8. "SDBP,SD bus power Before setting this bit the host driver shall select the SD bus voltage (MMCHS_HCTL[11:9] SDVS)" "SDBP_0,SDBP_1"
bitfld.long 0x24 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 Status/Signal Enable register in.." "CDSS_0,CDSS_1"
bitfld.long 0x24 6. "CDTL,Card Detect Test Level: This bit is enabled while the Card Detect Signal Selection is set to 1 and it indicates card inserted or not" "CDTL_0,CDTL_1"
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bitfld.long 0x24 3.--4. "DMAS,DMA Select Mode: One of supported DMA modes can be selected" "DMAS_0,DMAS_1,DMAS_2,DMAS_3"
bitfld.long 0x24 2. "HSPE,High Speed Enable: Before setting this bit the Host Driver shall check the High Speed Support in the Capabilities register" "HSPE_0,HSPE_1"
bitfld.long 0x24 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" "DTW_0,DTW_1"
rbitfld.long 0x24 0. "LED,Reserved bit" "LED_0,LED_1"
line.long 0x28 "MMCHS_SYSCTL,SD system control register This register defines the system controls to set software resets. clock frequency management and data timeout"
bitfld.long 0x28 26. "SRD,Software reset for DAT line" "SRD_0,SRD_1"
bitfld.long 0x28 25. "SRC,Software reset for CMD line For more information about SRC bit manipulation see " "SRC_0,SRC_1"
bitfld.long 0x28 24. "SRA,Software reset for all This bit is set to 1 for reset and released to 0 when completed" "SRA_0,SRA_1"
bitfld.long 0x28 16.--19. "DTO,Data timeout counter value and busy timeout" "DTO_0,DTO_1,?,?,?,?,?,?,?,?,?,?,?,?,DTO_14,DTO_15"
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hexmask.long.word 0x28 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)"
bitfld.long 0x28 2. "CEN,Clock enable This bit controls if the clock is provided to the card or not" "CEN_0,CEN_1"
rbitfld.long 0x28 1. "ICS,Internal clock stable (status) This bit indicates either the internal clock is stable or not" "ICS_0_r,ICS_1_r"
bitfld.long 0x28 0. "ICE,Internal clock enable This register controls the internal clock activity" "ICE_0,ICE_1"
line.long 0x2C "MMCHS_STAT,Interrupt status register The interrupt status regroups all the status of the module internal events that can generate an interrupt"
bitfld.long 0x2C 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[11] BRE = 0) -This.." "BADA_0_r,BADA_1_w"
bitfld.long 0x2C 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" "CERR_0_r,CERR_1_r"
bitfld.long 0x2C 25. "ADMAE,ADMA Error: This bit is set when the Host Controller detects errors during ADMA based data transfer" "ADMAE_0_r,ADMAE_1_r"
bitfld.long 0x2C 24. "ACE,Auto CMD12 error This bit is set automatically when one of the bits in Auto CMD12 Error status register has changed from 0 to 1" "ACE_0_r,ACE_1_w"
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rbitfld.long 0x2C 23. "CLE,Reserved" "CLE_0,CLE_1"
bitfld.long 0x2C 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" "DEB_0_w,DEB_1_r"
bitfld.long 0x2C 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" "DCRC_0_w,DCRC_1_w"
bitfld.long 0x2C 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" "DTO_0_w,DTO_1_r"
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bitfld.long 0x2C 19. "CIE,Command index error This bit is set automatically when response index differs from corresponding command index previously emitted" "CIE_0_w,CIE_1_w"
bitfld.long 0x2C 18. "CEB,Command end bit error This bit is set automatically when detecting a 0 at the end bit position of a command response" "CEB_0_r,CEB_1_w"
bitfld.long 0x2C 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[19] CCCE register" "CCRC_0_w,CCRC_1_r"
bitfld.long 0x2C 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" "CTO_0_r,CTO_1_w"
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rbitfld.long 0x2C 15. "ERRI,Error Interrupt If any of the bits in the Error Interrupt Status register (MMCHS_STAT[24:15]) are set then this bit is set to 1" "ERRI_0_r,ERRI_1_r"
bitfld.long 0x2C 10. "BSR,Boot status received interrupt This bit is set automatically when MMCHS_CON[18] BOOT_CF0 is set 0x0 or 0x1 and a boot status is received on DAT[0] line" "BSR_0_r,BSR_1_r"
bitfld.long 0x2C 9. "OBI,Out-Of-Band interrupt This bit is set automatically when MMCHS_CON[14] OBIE is set and an Out-of-Band interrupt occurs on OBI pin" "OBI_0_w,OBI_1_w"
rbitfld.long 0x2C 8. "CIRQ,Card interrupt This bit is only used for SD and SDIO and CE-ATA cards" "CIRQ_0_r,CIRQ_1_r"
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bitfld.long 0x2C 7. "CREM,Card removal This bit is set automatically when MMCHS_PSTATE[16] CINS changes from 1 to 0" "CREM_0_r,CREM_1_w"
bitfld.long 0x2C 6. "CINS,Card insertion This bit is set automatically when MMCHS_PSTATE[16] changes from 0 to 1" "CINS_0_w,CINS_1_r"
bitfld.long 0x2C 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[11:0] BLEN is completely written in the buffer" "BRR_0_w,BRR_1_w"
bitfld.long 0x2C 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[11:0] BLEN" "BWR_0_r,BWR_1_w"
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bitfld.long 0x2C 3. "DMA,DMA interrupt : This status is set when an interrupt is required in the ADMA instruction and after the data transfer completion" "DMA_0_w,DMA_1_r"
bitfld.long 0x2C 2. "BGE,Block gap event When a stop at block gap is requested (MMCHS_HCTL[16] SBGR) this bit is automatically set when transaction is stopped at the block gap during a read or write operation" "BGE_0_w,BGE_1_r"
bitfld.long 0x2C 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[16] SBGR)" "TC_0_r,TC_1_r"
bitfld.long 0x2C 0. "CC,Command complete This bit is set when a 1-to-0 transition occurs in the register command inhibit (MMCHS_PSTATE[0] CMDI) If the command is a type for which no response is expected then the command complete interrupt is generated at the end of the.." "CC_0_r,CC_1_r"
line.long 0x30 "MMCHS_IE,Interrupt SD enable register This register allows to enable/disable the module to set status bits. on an event-by-event basis"
bitfld.long 0x30 29. "BADA_ENABLE,Bad access to data space Interrupt Enable" "BADA_ENABLE_0,BADA_ENABLE_1"
bitfld.long 0x30 28. "CERR_ENABLE,Card error interrupt Enable" "CERR_ENABLE_0,CERR_ENABLE_1"
bitfld.long 0x30 25. "ADMAE_ENABLE,ADMA error Interrupt Enable" "ADMAE_ENABLE_0,ADMAE_ENABLE_1"
bitfld.long 0x30 24. "ACE_ENABLE,Auto CMD12 error Interrupt Enable" "ACE_ENABLE_0,ACE_ENABLE_1"
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rbitfld.long 0x30 23. "CLE,Reserved bit" "CLE_0,CLE_1"
bitfld.long 0x30 22. "DEB_ENABLE,Data end bit error Interrupt Enable" "DEB_ENABLE_0,DEB_ENABLE_1"
bitfld.long 0x30 21. "DCRC_ENABLE,Data CRC error Interrupt Enable" "DCRC_ENABLE_0,DCRC_ENABLE_1"
bitfld.long 0x30 20. "DTO_ENABLE,Data timeout error Interrupt Enable" "DTO_ENABLE_0,DTO_ENABLE_1"
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bitfld.long 0x30 19. "CIE_ENABLE,Command index error Interrupt Enable" "CIE_ENABLE_0,CIE_ENABLE_1"
bitfld.long 0x30 18. "CEB_ENABLE,Command end bit error Interrupt Enable" "CEB_ENABLE_0,CEB_ENABLE_1"
bitfld.long 0x30 17. "CCRC_ENABLE,Command CRC error Interrupt Enable" "CCRC_ENABLE_0,CCRC_ENABLE_1"
bitfld.long 0x30 16. "CTO_ENABLE,Command timeout error Interrupt Enable" "CTO_ENABLE_0,CTO_ENABLE_1"
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rbitfld.long 0x30 15. "NULL,Fixed to 0 The host driver shall control error interrupts using the Error Interrupt Signal Enable register" "NULL_0,NULL_1"
bitfld.long 0x30 10. "BSR_ENABLE,Boot status interrupt Enable A write to this register when MMCHS_CON[17] BOOT_ACK is set to 0x0 is ignored" "BSR_ENABLE_0,BSR_ENABLE_1"
bitfld.long 0x30 9. "OBI_ENABLE,Out-of-Band interrupt Enable A write to this register when MMCHS_CON[14] OBIE is set to 0 is ignored" "OBI_ENABLE_0,OBI_ENABLE_1"
bitfld.long 0x30 8. "CIRQ_ENABLE,Card interrupt Enable A clear of this bit also clears the corresponding status bit" "CIRQ_ENABLE_0,CIRQ_ENABLE_1"
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bitfld.long 0x30 7. "CREM_ENABLE,Card removal Interrupt Enable" "CREM_ENABLE_0,CREM_ENABLE_1"
bitfld.long 0x30 6. "CINS_ENABLE,Card insertion Interrupt Enable" "CINS_ENABLE_0,CINS_ENABLE_1"
bitfld.long 0x30 5. "BRR_ENABLE,Buffer Read Ready Interrupt Enable" "BRR_ENABLE_0,BRR_ENABLE_1"
bitfld.long 0x30 4. "BWR_ENABLE,Buffer Write Ready Interrupt Enable" "BWR_ENABLE_0,BWR_ENABLE_1"
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bitfld.long 0x30 3. "DMA_ENABLE,DMA interrupt Enable" "DMA_ENABLE_0,DMA_ENABLE_1"
bitfld.long 0x30 2. "BGE_ENABLE,Block Gap Event Interrupt Enable" "BGE_ENABLE_0,BGE_ENABLE_1"
bitfld.long 0x30 1. "TC_ENABLE,Transfer completed Interrupt Enable" "TC_ENABLE_0,TC_ENABLE_1"
bitfld.long 0x30 0. "CC_ENABLE,Command completed Interrupt Enable" "CC_ENABLE_0,CC_ENABLE_1"
line.long 0x34 "MMCHS_ISE,Interrupt signal enable register This register allows to enable/disable the module internal sources of status. on an event-by-event basis"
bitfld.long 0x34 29. "BADA_SIGEN,Bad access to data space signal status Enable" "BADA_SIGEN_0,BADA_SIGEN_1"
bitfld.long 0x34 28. "CERR_SIGEN,Card error interrupt signal status Enable" "CERR_SIGEN_0,CERR_SIGEN_1"
bitfld.long 0x34 25. "ADMAE_SIGEN,ADMA error signal status Enable" "ADMAE_SIGEN_0,ADMAE_SIGEN_1"
bitfld.long 0x34 24. "ACE_SIGEN,Auto CMD12 error signal status Enable" "ACE_SIGEN_0,ACE_SIGEN_1"
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rbitfld.long 0x34 23. "CLE,Reserved bit" "CLE_0,CLE_1"
bitfld.long 0x34 22. "DEB_SIGEN,Data end bit error signal status Enable" "DEB_SIGEN_0,DEB_SIGEN_1"
bitfld.long 0x34 21. "DCRC_SIGEN,Data CRC error signal status Enable" "DCRC_SIGEN_0,DCRC_SIGEN_1"
bitfld.long 0x34 20. "DTO_SIGEN,Data timeout error signal status Enable" "DTO_SIGEN_0,DTO_SIGEN_1"
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bitfld.long 0x34 19. "CIE_SIGEN,Command index error signal status Enable" "CIE_SIGEN_0,CIE_SIGEN_1"
bitfld.long 0x34 18. "CEB_SIGEN,Command end bit error signal status Enable" "CEB_SIGEN_0,CEB_SIGEN_1"
bitfld.long 0x34 17. "CCRC_SIGEN,Command CRC error signal status Enable" "CCRC_SIGEN_0,CCRC_SIGEN_1"
bitfld.long 0x34 16. "CTO_SIGEN,Command timeout error signal status Enable" "CTO_SIGEN_0,CTO_SIGEN_1"
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rbitfld.long 0x34 15. "NULL,Fixed to 0 The host driver shall control error interrupts using the Error Interrupt Signal Enable register" "NULL_0,NULL_1"
bitfld.long 0x34 10. "BSR_SIGEN,Boot status signal status EnableA write to this register whenMMCHS_CON[17] BOOT_ACK is set to 0x0 is ignored" "BSR_SIGEN_0,BSR_SIGEN_1"
bitfld.long 0x34 9. "OBI_SIGEN,Out-Of-Band Interrupt signal status Enable A write to this register when MMCHS_CON[14] OBIE is set to 0 is ignored" "OBI_SIGEN_0,OBI_SIGEN_1"
bitfld.long 0x34 8. "CIRQ_SIGEN,Card interrupt signal status Enable" "CIRQ_SIGEN_0,CIRQ_SIGEN_1"
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bitfld.long 0x34 7. "CREM_SIGEN,Card removal signal status Enable" "CREM_SIGEN_0,CREM_SIGEN_1"
bitfld.long 0x34 6. "CINS_SIGEN,Card insertion signal status Enable" "CINS_SIGEN_0,CINS_SIGEN_1"
bitfld.long 0x34 5. "BRR_SIGEN,Buffer Read Ready signal status Enable" "BRR_SIGEN_0,BRR_SIGEN_1"
bitfld.long 0x34 4. "BWR_SIGEN,Buffer Write Ready signal status Enable" "BWR_SIGEN_0,BWR_SIGEN_1"
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bitfld.long 0x34 3. "DMA_SIGEN,DMA interrupt Signal status enable" "DMA_SIGEN_0,DMA_SIGEN_1"
bitfld.long 0x34 2. "BGE_SIGEN,Black Gap Event signal status Enable" "BGE_SIGEN_0,BGE_SIGEN_1"
bitfld.long 0x34 1. "TC_SIGEN,Transfer completed signal status Enable" "TC_SIGEN_0,TC_SIGEN_1"
bitfld.long 0x34 0. "CC_SIGEN,Command completed signal status Enable" "CC_SIGEN_0,CC_SIGEN_1"
line.long 0x38 "MMCHS_AC12,Auto CMD12 Error Status Register The host driver may determine which of the errors cases related to Auto CMD12 has occurred by checking this register when an Auto CMD12 Error interrupt occurs"
bitfld.long 0x38 7. "CNI,Command not issue by Auto CMD12 error If this bit is set to 1 it means that pending command is not executed due to Auto CMD12 error : ACEB ACCE ACTO or ACNE" "CNI_0_r,CNI_1_r"
bitfld.long 0x38 4. "ACIE,Auto CMD12 index error This bit is a set to 1 when response index differs from corresponding command auto CMD12 index previously emitted" "ACIE_0_r,ACIE_1_r"
bitfld.long 0x38 3. "ACEB,Auto CMD12 end bit error This bit is set to 1 when detecting a 0 at the end bit position of auto CMD12 command response" "ACEB_0_r,ACEB_1_r"
bitfld.long 0x38 2. "ACCE,Auto CMD12 CRC error This bit is automatically set to 1 when a CRC7 error is detected in the auto CMD12 command response depending on the enable in MMCHS_CMD[19] CCCE register" "ACCE_0_r,ACCE_1_r"
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bitfld.long 0x38 1. "ACTO,Auto CMD12 timeout error This bit is set to 1 if no response is received within 64 clock cycles from the end bit of the auto CMD12 command" "ACTO_0_r,ACTO_1_r"
bitfld.long 0x38 0. "ACNE,Auto CMD12 not executed This bit is set to 1 if multiple block data transfer command has started and if an error occurs in command before Auto CMD12 starts" "ACNE_0_r,ACNE_1_r"
line.long 0x3C "MMCHS_CAPA,Capabilities register This register lists the capabilities of the MMC/SD/SDIO host controller"
rbitfld.long 0x3C 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" "BIT64_0_r,BIT64_1_r"
bitfld.long 0x3C 26. "VS18,Voltage support 1.8 V Initialization of this register (via a write access to this register) depends on the system capabilities" "VS18_0_r,VS18_1_w"
bitfld.long 0x3C 25. "VS30,Voltage support 3.0 V Initialization of this register (via a write access to this register) depends on the system capabilities" "VS30_0_w,VS30_1_r"
bitfld.long 0x3C 24. "VS33,Voltage support 3.3 V Initialization of this register (via a write access to this register) depends on the system capabilities" "VS33_0_w,VS33_1_r"
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rbitfld.long 0x3C 23. "SRS,Suspend/Resume support (SDIO cards only) This bit indicates whether the host controller supports suspend/resume functionality" "SRS_0_r,SRS_1_r"
rbitfld.long 0x3C 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" "DS_0_r,DS_1_r"
rbitfld.long 0x3C 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" "HSS_0_r,HSS_1_r"
rbitfld.long 0x3C 19. "AD2S,ADMA2 support: This bit indicates whether the host controller is capable of using ADMA2" "AD2S_0_r,AD2S_1_r"
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rbitfld.long 0x3C 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" "MBL_0_r,MBL_1_r,MBL_2_r,?"
rbitfld.long 0x3C 8.--13. "BCF,Base clock frequency for clock provided to the card" "BCF_0_r,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
rbitfld.long 0x3C 7. "TCU,Timeout clock unit This bit shows the unit of base clock frequency used to detect Data Timeout Error (MMCHS_STAT[20] DTO)" "TCU_0_r,TCU_1_r"
rbitfld.long 0x3C 0.--5. "TCF,Timeout clock frequency The timeout clock frequency is used to detect Data Timeout Error (MMCHS_STAT[20] DTO)" "TCF_0_r,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
group.long 0x248++0x03
line.long 0x00 "MMCHS_CUR_CAPA,Maximum current capabilities Register This register indicates the maximum current capability for each voltage"
hexmask.long.byte 0x00 16.--23. 1. "CUR_1V8,Maximum current for"
hexmask.long.byte 0x00 8.--15. 1. "CUR_3V0,Maximum current for"
hexmask.long.byte 0x00 0.--7. 1. "CUR_3V3,Maximum current for"
group.long 0x250++0x0B
line.long 0x00 "MMCHS_FE,Force Event Register for Error Interrupt status The force Event Register is not a physically implemented register"
bitfld.long 0x00 29. "FE_BADA,Force Event Bad access to data space" "FE_BADA_0_w,FE_BADA_1_w"
bitfld.long 0x00 28. "FE_CERR,Force Event Card error" "FE_CERR_0_w,FE_CERR_1_w"
bitfld.long 0x00 25. "FE_ADMAE,Force Event ADMA Error" "FE_ADMAE_0_w,FE_ADMAE_1_w"
bitfld.long 0x00 24. "FE_ACE,Force Event Auto CMD12 error" "FE_ACE_0_w,FE_ACE_1_w"
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bitfld.long 0x00 23. "FE_CLE,Reserved" "FE_CLE_0,FE_CLE_1"
bitfld.long 0x00 22. "FE_DEB,Force Event Data End Bit error" "FE_DEB_0_w,FE_DEB_1_w"
bitfld.long 0x00 21. "FE_DCRC,Force Event Data CRC Error" "FE_DCRC_0_w,FE_DCRC_1_w"
bitfld.long 0x00 20. "FE_DTO,Force Event Data timeout error" "FE_DTO_0_w,FE_DTO_1_w"
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bitfld.long 0x00 19. "FE_CIE,Force Event Command index error" "FE_CIE_0_w,FE_CIE_1_w"
bitfld.long 0x00 18. "FE_CEB,Force Event Command end bit error" "FE_CEB_0_w,FE_CEB_1_w"
bitfld.long 0x00 17. "FE_CCRC,Force Event Command CRC Error" "FE_CCRC_0_w,FE_CCRC_1_w"
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" "FE_CTO_0_w,FE_CTO_1_w"
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bitfld.long 0x00 7. "FE_CNI,Force Event Command not issue by Auto CMD12 error" "FE_CNI_0_w,FE_CNI_1_w"
bitfld.long 0x00 4. "FE_ACIE,Force Event Auto CMD12 index error" "FE_ACIE_0_w,FE_ACIE_1_w"
bitfld.long 0x00 3. "FE_ACEB,Force Event Auto CMD12 end bit error" "FE_ACEB_0_w,FE_ACEB_1_w"
bitfld.long 0x00 2. "FE_ACCE,Force Event Auto CMD12 CRC error" "FE_ACCE_0_w,FE_ACCE_1_w"
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bitfld.long 0x00 1. "FE_ACTO,Force Event Auto CMD12 timeout error" "FE_ACTO_0_w,FE_ACTO_1_w"
bitfld.long 0x00 0. "FE_ACNE,Force Event Auto CMD12 not executed" "FE_ACNE_0_w,FE_ACNE_1_w"
line.long 0x04 "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"
bitfld.long 0x04 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" "LME_0,LME_1"
bitfld.long 0x04 0.--1. "AES,ADMA Error State his field indicates the state of ADMA when error is occurred during ADMA data transfer" "AES_0,AES_1,AES_2,AES_3"
line.long 0x08 "MMCHS_ADMASAL,ADMA System address Low bits"
rgroup.long 0x2FC++0x03
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"
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 Standard SD Host Controller Specification Version"
bitfld.long 0x00 0. "SIS,Slot Interrupt Status This status bit indicates the inverted state of interrupt signal for the module" "SIS_0,SIS_1"
tree.end
repeat.end
repeat 3. (list 3. 4. 5. )(list ansd:0x480AD000 ansd:0x480D1000 ansd:0x480D5000 )
tree "MMCHS$1"
base $2
rgroup.long 0x00++0x07
line.long 0x00 "MMCHS_HL_REV,IP Revision Identifier (X.Y.R) Used by software to track features. bugs. and compatibility"
line.long 0x04 "MMCHS_HL_HWINFO,Information about the IP module's hardware configuration. that is. typically the module's HDL generics (if any)"
bitfld.long 0x04 6. "RETMODE,Retention mode generic parameter This bit field indicates whether the retention mode is supported using the pin PIRFFRET" "RETMODE_0,RETMODE_1"
bitfld.long 0x04 2.--5. "MEM_SIZE,Memory size for FIFO buffer" "?,MEM_SIZE_1_r,MEM_SIZE_2_r,?,MEM_SIZE_4_r,?,?,?,MEM_SIZE_8_r,?,?,?,?,?,?,?"
bitfld.long 0x04 1. "MERGE_MEM,Memory merged for FIFO buffer: This register defines the configuration of FIFO buffer architecture" "MERGE_MEM_0_r,MERGE_MEM_1_r"
bitfld.long 0x04 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" "MADMA_EN_0_r,MADMA_EN_1_r"
group.long 0x10++0x03
line.long 0x00 "MMCHS_HL_SYSCONFIG,Clock management configuration"
bitfld.long 0x00 4.--5. "STANDBYMODE,Configuration of the local initiator state management mode" "STANDBYMODE_0,STANDBYMODE_1,STANDBYMODE_2,STANDBYMODE_3"
bitfld.long 0x00 2.--3. "IDLEMODE,Configuration of the local target state management mode" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 1. "FREEEMU,Sensitivity to emulation (debug) suspend input signal" "FREEEMU_0,FREEEMU_1"
bitfld.long 0x00 0. "SOFTRESET,Software reset" "SOFTRESET_0_r,SOFTRESET_1_w"
group.long 0x110++0x07
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" "STANDBYMODE_0,STANDBYMODE_1,STANDBYMODE_2,STANDBYMODE_3"
bitfld.long 0x00 8.--9. "CLOCKACTIVITY,Clocks activity during wake up mode period" "CLOCKACTIVITY_0,CLOCKACTIVITY_1,CLOCKACTIVITY_2,CLOCKACTIVITY_3"
bitfld.long 0x00 3.--4. "SIDLEMODE,Power management" "SIDLEMODE_0,SIDLEMODE_1,SIDLEMODE_2,SIDLEMODE_3"
bitfld.long 0x00 2. "ENAWAKEUP,Wakeup feature control" "ENAWAKEUP_0,ENAWAKEUP_1"
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bitfld.long 0x00 1. "SOFTRESET,Software reset" "SOFTRESET_0_w,SOFTRESET_1_r"
bitfld.long 0x00 0. "AUTOIDLE,Internal Clock gating strategy" "AUTOIDLE_0,AUTOIDLE_1"
line.long 0x04 "MMCHS_SYSSTATUS,System Status Register This register provides status information about the module excluding the interrupt status information"
bitfld.long 0x04 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" "RESETDONE_0_r,RESETDONE_1_r"
group.long 0x124++0x0F
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"
line.long 0x04 "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"
bitfld.long 0x04 16. "OBI,Out-Of-Band Interrupt (OBI) data value" "OBI_0_r,OBI_1_r"
rbitfld.long 0x04 15. "SDCD,Card detect input signal (SDCD) data value" "SDCD_0_r,SDCD_1_r"
rbitfld.long 0x04 14. "SDWP,Write protect input signal (SDWP) data value" "SDWP_0_r,SDWP_1_r"
bitfld.long 0x04 13. "WAKD,Wake request output signal data value" "WAKD_0_r,WAKD_1_r"
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bitfld.long 0x04 12. "SSB,Set status bit This bit must be cleared prior attempting to clear a status bit of the interrupt status register (MMCHS_STAT)" "SSB_0_r,SSB_1_w"
bitfld.long 0x04 11. "D7D,DAT7 input/output signal data value" "D7D_0_w,D7D_1_w"
bitfld.long 0x04 10. "D6D,DAT6 input/output signal data value" "D6D_0_w,D6D_1_w"
bitfld.long 0x04 9. "D5D,DAT5 input/output signal data value" "D5D_0_w,D5D_1_w"
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bitfld.long 0x04 8. "D4D,DAT4 input/output signal data value" "D4D_0_r,D4D_1_r"
bitfld.long 0x04 7. "D3D,DAT3 input/output signal data value" "D3D_0_r,D3D_1_w"
bitfld.long 0x04 6. "D2D,DAT2 input/output signal data value" "D2D_0_r,D2D_1_r"
bitfld.long 0x04 5. "D1D,DAT1 input/output signal data value" "D1D_0_w,D1D_1_w"
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bitfld.long 0x04 4. "D0D,DAT0 input/output signal data value" "D0D_0_r,D0D_1_r"
bitfld.long 0x04 3. "DDIR,Control of the DAT[7:0] pins direction" "DDIR_0_r,DDIR_1_w"
bitfld.long 0x04 2. "CDAT,CMD input/output signal data value" "CDAT_0_r,CDAT_1_r"
bitfld.long 0x04 1. "CDIR,Control of the CMD pin direction" "CDIR_0_w,CDIR_1_w"
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bitfld.long 0x04 0. "MCKD,MMC clock output signal data value" "MCKD_0_w,MCKD_1_r"
line.long 0x08 "MMCHS_CON,Configuration register This register is used: - to select the functional mode or the SYSTEST mode for any card"
bitfld.long 0x08 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 written.." "SDMA_LNE_0,SDMA_LNE_1"
bitfld.long 0x08 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 is only available.." "DMA_MNS_0,DMA_MNS_1"
bitfld.long 0x08 19. "DDR,Dual Data Rate mode: When this register is set the controller uses both clock edge to emit or receive data" "DDR_0,DDR_1"
bitfld.long 0x08 18. "BOOT_CF0,Boot status supported: This register is set when the CMD line need to be forced to 0 for a boot sequence" "BOOT_CF0_0_r,BOOT_CF0_1_w"
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bitfld.long 0x08 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" "BOOT_ACK_0,BOOT_ACK_1"
bitfld.long 0x08 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]" "CLKEXTFREE_0,CLKEXTFREE_1"
bitfld.long 0x08 15. "PADEN,Control Power for MMC Lines: This register is only useful when MMC PADs contain power saving mechanism to minimize its leakage power" "PADEN_0,PADEN_1"
bitfld.long 0x08 14. "OBIE,Out-of-Band Interrupt Enable MMC cards only: This bit enables the detection of Out-of-Band Interrupt on MMCOBI input pin" "OBIE_0,OBIE_1"
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bitfld.long 0x08 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" "OBIP_0,OBIP_1"
bitfld.long 0x08 12. "CEATA,CE-ATA control mode MMC cards compliant with CE-ATA:By default this bit is set to 0" "CEATA_0,CEATA_1"
bitfld.long 0x08 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" "CTPL_0,CTPL_1"
bitfld.long 0x08 9.--10. "DVAL,Debounce filter value All cards This register is used to define a debounce period to filter the card detect input signal (SDCD)" "DVAL_0,DVAL_1,DVAL_2,DVAL_3"
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bitfld.long 0x08 8. "WPP,Write protect polarity For SD and SDIO cards only This bit selects the active level of the write protect input signal (SDWP)" "WPP_0,WPP_1"
bitfld.long 0x08 7. "CDP,Card detect polarity All cards This bit selects the active level of the card detect input signal (SDCD)" "CDP_0,CDP_1"
bitfld.long 0x08 6. "MIT,MMC interrupt command Only for MMC cards" "MIT_0,MIT_1"
bitfld.long 0x08 5. "DW8,8-bit mode MMC select For SD/SDIO cards this bit must be set to 0" "DW8_0,DW8_1"
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bitfld.long 0x08 4. "MODE,Mode select All cards These bits select between Functional mode and SYSTEST mode" "MODE_0,MODE_1"
bitfld.long 0x08 3. "STR,Stream command Only for MMC cards" "STR_0,STR_1"
bitfld.long 0x08 2. "HR,Broadcast host response Only for MMC cards" "HR_0,HR_1"
bitfld.long 0x08 1. "INIT,Send initialization stream All cards" "INIT_0,INIT_1"
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bitfld.long 0x08 0. "OD,Card open drain mode" "OD_0,OD_1"
line.long 0x0C "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 0x0C 0.--15. 1. "PWRCNT,Power counter register"
group.long 0x204++0x3F
line.long 0x00 "MMCHS_BLK,Transfer Length Configuration register [11:0] BLEN is the block size register"
hexmask.long.word 0x00 16.--31. 1. "NBLK,Blocks count for current transfer This register is enabled when Block count Enable (MMCHS_CMD[1] BCE) is set to 1 and is valid only for multiple block transfers"
hexmask.long.word 0x00 0.--11. 1. "BLEN,Transfer Block Size"
line.long 0x04 "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)"
line.long 0x08 "MMCHS_CMD,Command and transfer mode register [31:16] = the command register [15:0] = the transfer mode"
bitfld.long 0x08 24.--29. "INDX,Command index Binary encoded value from 0 to 63 specifying the command number send to card" "INDX_0,INDX_1,INDX_2,INDX_3,INDX_4,INDX_5,INDX_6,INDX_7,INDX_8,INDX_9,INDX_10,INDX_11,INDX_12,INDX_13,INDX_14,INDX_15,INDX_16,INDX_17,INDX_18,INDX_19,INDX_20,INDX_21,INDX_22,INDX_23,INDX_24,INDX_25,INDX_26,INDX_27,INDX_28,INDX_29,INDX_30,INDX_31,INDX_32,INDX_33,INDX_34,INDX_35,INDX_36,INDX_37,INDX_38,INDX_39,INDX_40,INDX_41,INDX_42,INDX_43,INDX_44,INDX_45,INDX_46,INDX_47,INDX_48,INDX_49,INDX_50,INDX_51,INDX_52,INDX_53,INDX_54,INDX_55,INDX_56,INDX_57,INDX_58,INDX_59,INDX_60,INDX_61,INDX_62,INDX_63"
bitfld.long 0x08 22.--23. "CMD_TYPE,Command type This register specifies three types of special command: Suspend Resume and Abort" "CMD_TYPE_0,CMD_TYPE_1,CMD_TYPE_2,CMD_TYPE_3"
bitfld.long 0x08 21. "DP,Data present select This register indicates that data is present and DAT line shall be used" "DP_0,DP_1"
bitfld.long 0x08 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" "CICE_0,CICE_1"
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bitfld.long 0x08 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" "CCCE_0,CCCE_1"
bitfld.long 0x08 16.--17. "RSP_TYPE,Response type This bits defines the response type of the command" "RSP_TYPE_0,RSP_TYPE_1,RSP_TYPE_2,RSP_TYPE_3"
bitfld.long 0x08 5. "MSBS,Multi/Single block select This bit must be set to 1 for data transfer in case of multi block command" "MSBS_0,MSBS_1"
bitfld.long 0x08 4. "DDIR,Data transfer Direction Select This bit defines either data transfer will be a read or a" "DDIR_0,DDIR_1"
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bitfld.long 0x08 2. "ACEN,Auto CMD12 Enable SDIO does not support this feature" "ACEN_0,ACEN_1"
bitfld.long 0x08 1. "BCE,Block Count Enable Multiple block transfers only" "BCE_0,BCE_1"
bitfld.long 0x08 0. "DE,DMA Enable This bit is used to enable DMA mode for host data access" "DE_0,DE_1"
line.long 0x0C "MMCHS_RSP10,Command response[31:0] Register This 32-bit register holds bits positions [31:0] of command response type R1/R1b/R2/R3/R4/R5/R5b/R6"
hexmask.long.word 0x0C 16.--31. 1. "RSP1,Command Response [31:16]"
hexmask.long.word 0x0C 0.--15. 1. "RSP0,Command Response [15:0]"
line.long 0x10 "MMCHS_RSP32,Command response[63:32] Register This 32-bit register holds bits positions [63:32] of command response type R2"
hexmask.long.word 0x10 16.--31. 1. "RSP3,Command Response [63:48]"
hexmask.long.word 0x10 0.--15. 1. "RSP2,Command Response [47:32]"
line.long 0x14 "MMCHS_RSP54,Command response[95:64] Register This 32-bit register holds bits positions [95:64] of command response type R2"
hexmask.long.word 0x14 16.--31. 1. "RSP5,Command Response [95:80]"
hexmask.long.word 0x14 0.--15. 1. "RSP4,Command Response [79:64]"
line.long 0x18 "MMCHS_RSP76,Command response[127:96] Register This 32-bit register holds bits positions [127:96] of command response type R2"
hexmask.long.word 0x18 16.--31. 1. "RSP7,Command Response [127:112]"
hexmask.long.word 0x18 0.--15. 1. "RSP6,Command Response [111:96]"
line.long 0x1C "MMCHS_DATA,Data Register This register is the 32-bit entry point of the buffer for read or write data transfers"
line.long 0x20 "MMCHS_PSTATE,Present state register The Host can get status of the Host Controller from this 32-bit read only register"
bitfld.long 0x20 24. "CLEV,CMD line signal level This status is used to check the CMD line level to recover from errors and for debugging" "CLEV_0_r,CLEV_1_r"
bitfld.long 0x20 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" "DLEV_0,DLEV_1,DLEV_2,DLEV_3,DLEV_4,DLEV_5,DLEV_6,DLEV_7,DLEV_8,DLEV_9,DLEV_10,DLEV_11,DLEV_12,DLEV_13,DLEV_14,DLEV_15"
bitfld.long 0x20 19. "WP,Write protect switch pin level For SDIO cards only" "WP_0_r,WP_1_r"
bitfld.long 0x20 18. "CDPL,Card detect pin level This bit reflects the inverse value of the card detect input pin (SDCD) debouncing is not performed on this bit and bit is valid only when Card State Stable (MMCHS_PSTATE[17] CSS) is set to 1" "CDPL_0_r,CDPL_1_r"
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bitfld.long 0x20 17. "CSS,Card State Stable This bit is used for testing" "CSS_0_r,CSS_1_r"
bitfld.long 0x20 16. "CINS,Card inserted This bit is the debounced value of the card detect input pin (SDCD)" "CINS_0_r,CINS_1_r"
bitfld.long 0x20 11. "BRE,Buffer read enable This bit is used for non-DMA read transfers" "BRE_0_r,BRE_1_r"
bitfld.long 0x20 10. "BWE,Buffer Write enable This status is used for non-DMA write transfers" "BWE_0_r,BWE_1_r"
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bitfld.long 0x20 9. "RTA,Read transfer active This status is used for detecting completion of a read transfer" "RTA_0_r,RTA_1_r"
bitfld.long 0x20 8. "WTA,Write transfer active This status indicates a write transfer active" "WTA_0_r,WTA_1_r"
bitfld.long 0x20 2. "DLA,DAT line active This status bit indicates whether one of the DAT line is in use" "DLA_0_r,DLA_1_r"
bitfld.long 0x20 1. "DATI,Command inhibit(DAT) This status bit is generated if either DAT line is active (MMCHS_PSTATE[2] DLA) or Read transfer is active (MMCHS_PSTATE[9] RTA) or when a command with busy is issued" "DATI_0_r,DATI_1_r"
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bitfld.long 0x20 0. "CMDI,Command inhibit(CMD) This status bit indicates that the CMD line is in use" "CMDI_0_r,CMDI_1_r"
line.long 0x24 "MMCHS_HCTL,Control register This register defines the host controls to set power. wakeup and transfer parameters"
bitfld.long 0x24 27. "OBWE,Wakeup event enable for 'Out-of-Band' Interrupt" "OBWE_0,OBWE_1"
bitfld.long 0x24 26. "REM,Wakeup event enable on SD card removal This bit enables wakeup events for card removal assertion" "REM_0,REM_1"
bitfld.long 0x24 25. "INS,Wakeup event enable on SD card insertion This bit enables wakeup events for card insertion assertion" "INS_0,INS_1"
bitfld.long 0x24 24. "IWE,Wakeup event enable on SD card interrupt This bit enables wakeup events for card interrupt assertion" "IWE_0,IWE_1"
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bitfld.long 0x24 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" "IBG_0,IBG_1"
bitfld.long 0x24 18. "RWC,Read wait control The read wait function is optional only for SDIO cards" "RWC_0,RWC_1"
bitfld.long 0x24 17. "CR,Continue request This bit is used to restart a transaction that was stopped by requesting a stop at block gap (MMCHS_HCTL[16] SBGR)" "CR_0,CR_1"
bitfld.long 0x24 16. "SBGR,Stop at block gap request This bit is used to stop executing a transaction at the next block gap" "SBGR_0,SBGR_1"
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bitfld.long 0x24 9.--11. "SDVS,SD bus voltage select All cards" "?,?,?,?,?,SDVS_5,SDVS_6,SDVS_7"
bitfld.long 0x24 8. "SDBP,SD bus power Before setting this bit the host driver shall select the SD bus voltage (MMCHS_HCTL[11:9] SDVS)" "SDBP_0,SDBP_1"
bitfld.long 0x24 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 Status/Signal Enable register in.." "CDSS_0,CDSS_1"
bitfld.long 0x24 6. "CDTL,Card Detect Test Level: This bit is enabled while the Card Detect Signal Selection is set to 1 and it indicates card inserted or not" "CDTL_0,CDTL_1"
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bitfld.long 0x24 3.--4. "DMAS,DMA Select Mode: One of supported DMA modes can be selected" "DMAS_0,DMAS_1,DMAS_2,DMAS_3"
bitfld.long 0x24 2. "HSPE,High Speed Enable: Before setting this bit the Host Driver shall check the High Speed Support in the Capabilities register" "HSPE_0,HSPE_1"
bitfld.long 0x24 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" "DTW_0,DTW_1"
rbitfld.long 0x24 0. "LED,Reserved bit" "LED_0,LED_1"
line.long 0x28 "MMCHS_SYSCTL,SD system control register This register defines the system controls to set software resets. clock frequency management and data timeout"
bitfld.long 0x28 26. "SRD,Software reset for DAT line" "SRD_0,SRD_1"
bitfld.long 0x28 25. "SRC,Software reset for CMD line For more information about SRC bit manipulation see " "SRC_0,SRC_1"
bitfld.long 0x28 24. "SRA,Software reset for all This bit is set to 1 for reset and released to 0 when completed" "SRA_0,SRA_1"
bitfld.long 0x28 16.--19. "DTO,Data timeout counter value and busy timeout" "DTO_0,DTO_1,?,?,?,?,?,?,?,?,?,?,?,?,DTO_14,DTO_15"
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hexmask.long.word 0x28 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)"
bitfld.long 0x28 2. "CEN,Clock enable This bit controls if the clock is provided to the card or not" "CEN_0,CEN_1"
rbitfld.long 0x28 1. "ICS,Internal clock stable (status) This bit indicates either the internal clock is stable or not" "ICS_0_r,ICS_1_r"
bitfld.long 0x28 0. "ICE,Internal clock enable This register controls the internal clock activity" "ICE_0,ICE_1"
line.long 0x2C "MMCHS_STAT,Interrupt status register The interrupt status regroups all the status of the module internal events that can generate an interrupt"
bitfld.long 0x2C 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[11] BRE = 0) -This.." "BADA_0_r,BADA_1_w"
bitfld.long 0x2C 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" "CERR_0_r,CERR_1_r"
bitfld.long 0x2C 25. "ADMAE,ADMA Error: This bit is set when the Host Controller detects errors during ADMA based data transfer" "ADMAE_0_r,ADMAE_1_r"
bitfld.long 0x2C 24. "ACE,Auto CMD12 error This bit is set automatically when one of the bits in Auto CMD12 Error status register has changed from 0 to 1" "ACE_0_r,ACE_1_w"
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rbitfld.long 0x2C 23. "CLE,Reserved" "CLE_0,CLE_1"
bitfld.long 0x2C 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" "DEB_0_w,DEB_1_r"
bitfld.long 0x2C 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" "DCRC_0_w,DCRC_1_w"
bitfld.long 0x2C 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" "DTO_0_w,DTO_1_r"
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bitfld.long 0x2C 19. "CIE,Command index error This bit is set automatically when response index differs from corresponding command index previously emitted" "CIE_0_w,CIE_1_w"
bitfld.long 0x2C 18. "CEB,Command end bit error This bit is set automatically when detecting a 0 at the end bit position of a command response" "CEB_0_r,CEB_1_w"
bitfld.long 0x2C 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[19] CCCE register" "CCRC_0_w,CCRC_1_r"
bitfld.long 0x2C 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" "CTO_0_r,CTO_1_w"
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rbitfld.long 0x2C 15. "ERRI,Error Interrupt If any of the bits in the Error Interrupt Status register (MMCHS_STAT[24:15]) are set then this bit is set to 1" "ERRI_0_r,ERRI_1_r"
bitfld.long 0x2C 10. "BSR,Boot status received interrupt This bit is set automatically when MMCHS_CON[18] BOOT_CF0 is set 0x0 or 0x1 and a boot status is received on DAT[0] line" "BSR_0_r,BSR_1_r"
bitfld.long 0x2C 9. "OBI,Out-Of-Band interrupt This bit is set automatically when MMCHS_CON[14] OBIE is set and an Out-of-Band interrupt occurs on OBI pin" "OBI_0_w,OBI_1_w"
rbitfld.long 0x2C 8. "CIRQ,Card interrupt This bit is only used for SD and SDIO and CE-ATA cards" "CIRQ_0_r,CIRQ_1_r"
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bitfld.long 0x2C 7. "CREM,Card removal This bit is set automatically when MMCHS_PSTATE[16] CINS changes from 1 to 0" "CREM_0_r,CREM_1_w"
bitfld.long 0x2C 6. "CINS,Card insertion This bit is set automatically when MMCHS_PSTATE[16] changes from 0 to 1" "CINS_0_w,CINS_1_r"
bitfld.long 0x2C 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[11:0] BLEN is completely written in the buffer" "BRR_0_w,BRR_1_w"
bitfld.long 0x2C 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[11:0] BLEN" "BWR_0_r,BWR_1_w"
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bitfld.long 0x2C 3. "DMA,DMA interrupt : This status is set when an interrupt is required in the ADMA instruction and after the data transfer completion" "DMA_0_w,DMA_1_r"
bitfld.long 0x2C 2. "BGE,Block gap event When a stop at block gap is requested (MMCHS_HCTL[16] SBGR) this bit is automatically set when transaction is stopped at the block gap during a read or write operation" "BGE_0_w,BGE_1_r"
bitfld.long 0x2C 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[16] SBGR)" "TC_0_r,TC_1_r"
bitfld.long 0x2C 0. "CC,Command complete This bit is set when a 1-to-0 transition occurs in the register command inhibit (MMCHS_PSTATE[0] CMDI) If the command is a type for which no response is expected then the command complete interrupt is generated at the end of the.." "CC_0_r,CC_1_r"
line.long 0x30 "MMCHS_IE,Interrupt SD enable register This register allows to enable/disable the module to set status bits. on an event-by-event basis"
bitfld.long 0x30 29. "BADA_ENABLE,Bad access to data space Interrupt Enable" "BADA_ENABLE_0,BADA_ENABLE_1"
bitfld.long 0x30 28. "CERR_ENABLE,Card error interrupt Enable" "CERR_ENABLE_0,CERR_ENABLE_1"
bitfld.long 0x30 25. "ADMAE_ENABLE,ADMA error Interrupt Enable" "ADMAE_ENABLE_0,ADMAE_ENABLE_1"
bitfld.long 0x30 24. "ACE_ENABLE,Auto CMD12 error Interrupt Enable" "ACE_ENABLE_0,ACE_ENABLE_1"
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rbitfld.long 0x30 23. "CLE,Reserved bit" "CLE_0,CLE_1"
bitfld.long 0x30 22. "DEB_ENABLE,Data end bit error Interrupt Enable" "DEB_ENABLE_0,DEB_ENABLE_1"
bitfld.long 0x30 21. "DCRC_ENABLE,Data CRC error Interrupt Enable" "DCRC_ENABLE_0,DCRC_ENABLE_1"
bitfld.long 0x30 20. "DTO_ENABLE,Data timeout error Interrupt Enable" "DTO_ENABLE_0,DTO_ENABLE_1"
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bitfld.long 0x30 19. "CIE_ENABLE,Command index error Interrupt Enable" "CIE_ENABLE_0,CIE_ENABLE_1"
bitfld.long 0x30 18. "CEB_ENABLE,Command end bit error Interrupt Enable" "CEB_ENABLE_0,CEB_ENABLE_1"
bitfld.long 0x30 17. "CCRC_ENABLE,Command CRC error Interrupt Enable" "CCRC_ENABLE_0,CCRC_ENABLE_1"
bitfld.long 0x30 16. "CTO_ENABLE,Command timeout error Interrupt Enable" "CTO_ENABLE_0,CTO_ENABLE_1"
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rbitfld.long 0x30 15. "NULL,Fixed to 0 The host driver shall control error interrupts using the Error Interrupt Signal Enable register" "NULL_0,NULL_1"
bitfld.long 0x30 10. "BSR_ENABLE,Boot status interrupt Enable A write to this register when MMCHS_CON[17] BOOT_ACK is set to 0x0 is ignored" "BSR_ENABLE_0,BSR_ENABLE_1"
bitfld.long 0x30 9. "OBI_ENABLE,Out-of-Band interrupt Enable A write to this register when MMCHS_CON[14] OBIE is set to 0 is ignored" "OBI_ENABLE_0,OBI_ENABLE_1"
bitfld.long 0x30 8. "CIRQ_ENABLE,Card interrupt Enable A clear of this bit also clears the corresponding status bit" "CIRQ_ENABLE_0,CIRQ_ENABLE_1"
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bitfld.long 0x30 7. "CREM_ENABLE,Card removal Interrupt Enable" "CREM_ENABLE_0,CREM_ENABLE_1"
bitfld.long 0x30 6. "CINS_ENABLE,Card insertion Interrupt Enable" "CINS_ENABLE_0,CINS_ENABLE_1"
bitfld.long 0x30 5. "BRR_ENABLE,Buffer Read Ready Interrupt Enable" "BRR_ENABLE_0,BRR_ENABLE_1"
bitfld.long 0x30 4. "BWR_ENABLE,Buffer Write Ready Interrupt Enable" "BWR_ENABLE_0,BWR_ENABLE_1"
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bitfld.long 0x30 3. "DMA_ENABLE,DMA interrupt Enable" "DMA_ENABLE_0,DMA_ENABLE_1"
bitfld.long 0x30 2. "BGE_ENABLE,Block Gap Event Interrupt Enable" "BGE_ENABLE_0,BGE_ENABLE_1"
bitfld.long 0x30 1. "TC_ENABLE,Transfer completed Interrupt Enable" "TC_ENABLE_0,TC_ENABLE_1"
bitfld.long 0x30 0. "CC_ENABLE,Command completed Interrupt Enable" "CC_ENABLE_0,CC_ENABLE_1"
line.long 0x34 "MMCHS_ISE,Interrupt signal enable register This register allows to enable/disable the module internal sources of status. on an event-by-event basis"
bitfld.long 0x34 29. "BADA_SIGEN,Bad access to data space signal status Enable" "BADA_SIGEN_0,BADA_SIGEN_1"
bitfld.long 0x34 28. "CERR_SIGEN,Card error interrupt signal status Enable" "CERR_SIGEN_0,CERR_SIGEN_1"
bitfld.long 0x34 25. "ADMAE_SIGEN,ADMA error signal status Enable" "ADMAE_SIGEN_0,ADMAE_SIGEN_1"
bitfld.long 0x34 24. "ACE_SIGEN,Auto CMD12 error signal status Enable" "ACE_SIGEN_0,ACE_SIGEN_1"
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rbitfld.long 0x34 23. "CLE,Reserved bit" "CLE_0,CLE_1"
bitfld.long 0x34 22. "DEB_SIGEN,Data end bit error signal status Enable" "DEB_SIGEN_0,DEB_SIGEN_1"
bitfld.long 0x34 21. "DCRC_SIGEN,Data CRC error signal status Enable" "DCRC_SIGEN_0,DCRC_SIGEN_1"
bitfld.long 0x34 20. "DTO_SIGEN,Data timeout error signal status Enable" "DTO_SIGEN_0,DTO_SIGEN_1"
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bitfld.long 0x34 19. "CIE_SIGEN,Command index error signal status Enable" "CIE_SIGEN_0,CIE_SIGEN_1"
bitfld.long 0x34 18. "CEB_SIGEN,Command end bit error signal status Enable" "CEB_SIGEN_0,CEB_SIGEN_1"
bitfld.long 0x34 17. "CCRC_SIGEN,Command CRC error signal status Enable" "CCRC_SIGEN_0,CCRC_SIGEN_1"
bitfld.long 0x34 16. "CTO_SIGEN,Command timeout error signal status Enable" "CTO_SIGEN_0,CTO_SIGEN_1"
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rbitfld.long 0x34 15. "NULL,Fixed to 0 The host driver shall control error interrupts using the Error Interrupt Signal Enable register" "NULL_0,NULL_1"
bitfld.long 0x34 10. "BSR_SIGEN,Boot status signal status EnableA write to this register whenMMCHS_CON[17] BOOT_ACK is set to 0x0 is ignored" "BSR_SIGEN_0,BSR_SIGEN_1"
bitfld.long 0x34 9. "OBI_SIGEN,Out-Of-Band Interrupt signal status Enable A write to this register when MMCHS_CON[14] OBIE is set to 0 is ignored" "OBI_SIGEN_0,OBI_SIGEN_1"
bitfld.long 0x34 8. "CIRQ_SIGEN,Card interrupt signal status Enable" "CIRQ_SIGEN_0,CIRQ_SIGEN_1"
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bitfld.long 0x34 7. "CREM_SIGEN,Card removal signal status Enable" "CREM_SIGEN_0,CREM_SIGEN_1"
bitfld.long 0x34 6. "CINS_SIGEN,Card insertion signal status Enable" "CINS_SIGEN_0,CINS_SIGEN_1"
bitfld.long 0x34 5. "BRR_SIGEN,Buffer Read Ready signal status Enable" "BRR_SIGEN_0,BRR_SIGEN_1"
bitfld.long 0x34 4. "BWR_SIGEN,Buffer Write Ready signal status Enable" "BWR_SIGEN_0,BWR_SIGEN_1"
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bitfld.long 0x34 3. "DMA_SIGEN,DMA interrupt Signal status enable" "DMA_SIGEN_0,DMA_SIGEN_1"
bitfld.long 0x34 2. "BGE_SIGEN,Black Gap Event signal status Enable" "BGE_SIGEN_0,BGE_SIGEN_1"
bitfld.long 0x34 1. "TC_SIGEN,Transfer completed signal status Enable" "TC_SIGEN_0,TC_SIGEN_1"
bitfld.long 0x34 0. "CC_SIGEN,Command completed signal status Enable" "CC_SIGEN_0,CC_SIGEN_1"
line.long 0x38 "MMCHS_AC12,Auto CMD12 Error Status Register The host driver may determine which of the errors cases related to Auto CMD12 has occurred by checking this register when an Auto CMD12 Error interrupt occurs"
bitfld.long 0x38 7. "CNI,Command not issue by Auto CMD12 error If this bit is set to 1 it means that pending command is not executed due to Auto CMD12 error : ACEB ACCE ACTO or ACNE" "CNI_0_r,CNI_1_r"
bitfld.long 0x38 4. "ACIE,Auto CMD12 index error This bit is a set to 1 when response index differs from corresponding command auto CMD12 index previously emitted" "ACIE_0_r,ACIE_1_r"
bitfld.long 0x38 3. "ACEB,Auto CMD12 end bit error This bit is set to 1 when detecting a 0 at the end bit position of auto CMD12 command response" "ACEB_0_r,ACEB_1_r"
bitfld.long 0x38 2. "ACCE,Auto CMD12 CRC error This bit is automatically set to 1 when a CRC7 error is detected in the auto CMD12 command response depending on the enable in MMCHS_CMD[19] CCCE register" "ACCE_0_r,ACCE_1_r"
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bitfld.long 0x38 1. "ACTO,Auto CMD12 timeout error This bit is set to 1 if no response is received within 64 clock cycles from the end bit of the auto CMD12 command" "ACTO_0_r,ACTO_1_r"
bitfld.long 0x38 0. "ACNE,Auto CMD12 not executed This bit is set to 1 if multiple block data transfer command has started and if an error occurs in command before Auto CMD12 starts" "ACNE_0_r,ACNE_1_r"
line.long 0x3C "MMCHS_CAPA,Capabilities register This register lists the capabilities of the MMC/SD/SDIO host controller"
rbitfld.long 0x3C 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" "BIT64_0_r,BIT64_1_r"
bitfld.long 0x3C 26. "VS18,Voltage support 1.8 V Initialization of this register (via a write access to this register) depends on the system capabilities" "VS18_0_r,VS18_1_w"
bitfld.long 0x3C 25. "VS30,Voltage support 3.0 V Initialization of this register (via a write access to this register) depends on the system capabilities" "VS30_0_w,VS30_1_r"
bitfld.long 0x3C 24. "VS33,Voltage support 3.3 V Initialization of this register (via a write access to this register) depends on the system capabilities" "VS33_0_w,VS33_1_r"
newline
rbitfld.long 0x3C 23. "SRS,Suspend/Resume support (SDIO cards only) This bit indicates whether the host controller supports suspend/resume functionality" "SRS_0_r,SRS_1_r"
rbitfld.long 0x3C 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" "DS_0_r,DS_1_r"
rbitfld.long 0x3C 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" "HSS_0_r,HSS_1_r"
rbitfld.long 0x3C 19. "AD2S,ADMA2 support: This bit indicates whether the host controller is capable of using ADMA2" "AD2S_0_r,AD2S_1_r"
newline
rbitfld.long 0x3C 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" "MBL_0_r,MBL_1_r,MBL_2_r,?"
rbitfld.long 0x3C 8.--13. "BCF,Base clock frequency for clock provided to the card" "BCF_0_r,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
rbitfld.long 0x3C 7. "TCU,Timeout clock unit This bit shows the unit of base clock frequency used to detect Data Timeout Error (MMCHS_STAT[20] DTO)" "TCU_0_r,TCU_1_r"
rbitfld.long 0x3C 0.--5. "TCF,Timeout clock frequency The timeout clock frequency is used to detect Data Timeout Error (MMCHS_STAT[20] DTO)" "TCF_0_r,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
group.long 0x248++0x03
line.long 0x00 "MMCHS_CUR_CAPA,Maximum current capabilities Register This register indicates the maximum current capability for each voltage"
hexmask.long.byte 0x00 16.--23. 1. "CUR_1V8,Maximum current for"
hexmask.long.byte 0x00 8.--15. 1. "CUR_3V0,Maximum current for"
hexmask.long.byte 0x00 0.--7. 1. "CUR_3V3,Maximum current for"
group.long 0x250++0x03
line.long 0x00 "MMCHS_FE,Force Event Register for Error Interrupt status The force Event Register is not a physically implemented register"
bitfld.long 0x00 29. "FE_BADA,Force Event Bad access to data space" "FE_BADA_0_w,FE_BADA_1_w"
bitfld.long 0x00 28. "FE_CERR,Force Event Card error" "FE_CERR_0_w,FE_CERR_1_w"
bitfld.long 0x00 25. "FE_ADMAE,Force Event ADMA Error" "FE_ADMAE_0_w,FE_ADMAE_1_w"
bitfld.long 0x00 24. "FE_ACE,Force Event Auto CMD12 error" "FE_ACE_0_w,FE_ACE_1_w"
newline
bitfld.long 0x00 23. "FE_CLE,Reserved" "FE_CLE_0,FE_CLE_1"
bitfld.long 0x00 22. "FE_DEB,Force Event Data End Bit error" "FE_DEB_0_w,FE_DEB_1_w"
bitfld.long 0x00 21. "FE_DCRC,Force Event Data CRC Error" "FE_DCRC_0_w,FE_DCRC_1_w"
bitfld.long 0x00 20. "FE_DTO,Force Event Data timeout error" "FE_DTO_0_w,FE_DTO_1_w"
newline
bitfld.long 0x00 19. "FE_CIE,Force Event Command index error" "FE_CIE_0_w,FE_CIE_1_w"
bitfld.long 0x00 18. "FE_CEB,Force Event Command end bit error" "FE_CEB_0_w,FE_CEB_1_w"
bitfld.long 0x00 17. "FE_CCRC,Force Event Command CRC Error" "FE_CCRC_0_w,FE_CCRC_1_w"
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" "FE_CTO_0_w,FE_CTO_1_w"
newline
bitfld.long 0x00 7. "FE_CNI,Force Event Command not issue by Auto CMD12 error" "FE_CNI_0_w,FE_CNI_1_w"
bitfld.long 0x00 4. "FE_ACIE,Force Event Auto CMD12 index error" "FE_ACIE_0_w,FE_ACIE_1_w"
bitfld.long 0x00 3. "FE_ACEB,Force Event Auto CMD12 end bit error" "FE_ACEB_0_w,FE_ACEB_1_w"
bitfld.long 0x00 2. "FE_ACCE,Force Event Auto CMD12 CRC error" "FE_ACCE_0_w,FE_ACCE_1_w"
newline
bitfld.long 0x00 1. "FE_ACTO,Force Event Auto CMD12 timeout error" "FE_ACTO_0_w,FE_ACTO_1_w"
bitfld.long 0x00 0. "FE_ACNE,Force Event Auto CMD12 not executed" "FE_ACNE_0_w,FE_ACNE_1_w"
rgroup.long 0x2FC++0x03
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"
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 Standard SD Host Controller Specification Version"
bitfld.long 0x00 0. "SIS,Slot Interrupt Status This status bit indicates the inverted state of interrupt signal for the module" "SIS_0,SIS_1"
tree.end
repeat.end
tree.end
tree "MMU"
tree "CORTEXM3_L2MMU"
base ansd:0x55082000
rgroup.long 0x00++0x03
line.long 0x00 "MMU_REVISION,This register contains the IP revision code"
group.long 0x10++0x0F
line.long 0x00 "MMU_SYSCONFIG,This register controls the various parameters of the L3 interconnect interface"
rbitfld.long 0x00 8.--9. "CLOCKACTIVITY,Clock activity during wake-up mode 00 Functional and Interconnect clocks can be switched off" "CLOCKACTIVITY_0,CLOCKACTIVITY_1,CLOCKACTIVITY_2,CLOCKACTIVITY_3"
bitfld.long 0x00 3.--4. "IDLEMODE,IdleMode" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 1. "SOFTRESET,Software reset" "SOFTRESET_0_w,SOFTRESET_1_r"
newline
bitfld.long 0x00 0. "AUTOIDLE,Internal interconnect clock gating strategy" "AUTOIDLE_0,AUTOIDLE_1"
line.long 0x04 "MMU_SYSSTATUS,This register provides status information about the module. excluding the interrupt status information"
bitfld.long 0x04 0. "RESETDONE,Internal reset monitoring" "RESETDONE_0_r,RESETDONE_1_r"
line.long 0x08 "MMU_IRQSTATUS,This interrupt status register regroups all the status of the module internal events that can generate an interrupt"
bitfld.long 0x08 4. "MULTIHITFAULT,Error due to multiple matches in the TLB" "MULTIHITFAULT_0_w,MULTIHITFAULT_1_r"
bitfld.long 0x08 3. "TABLEWALKFAULT,Error response received during a Table Walk" "TABLEWALKFAULT_0_w,TABLEWALKFAULT_1_r"
bitfld.long 0x08 2. "EMUMISS,Unrecoverable TLB miss during debug (hardware TWL disabled)" "EMUMISS_0_w,EMUMISS_1_r"
newline
bitfld.long 0x08 1. "TRANSLATIONFAULT,Invalid descriptor in translation tables (translation fault)" "TRANSLATIONFAULT_0_w,TRANSLATIONFAULT_1_r"
bitfld.long 0x08 0. "TLBMISS,Unrecoverable TLB miss (hardware TWL disabled)" "TLBMISS_0_w,TLBMISS_1_r"
line.long 0x0C "MMU_IRQENABLE,The interrupt enable register allows to mask/unmask the module internal sources of interrupt. on a event-by-event basis"
bitfld.long 0x0C 4. "MULTIHITFAULT,Error due to multiple matches in the TLB" "MULTIHITFAULT_0,MULTIHITFAULT_1"
bitfld.long 0x0C 3. "TABLEWALKFAULT,Error response received during a Table Walk" "TABLEWALKFAULT_0,TABLEWALKFAULT_1"
bitfld.long 0x0C 2. "EMUMISS,Unrecoverable TLB miss during debug (hardware TWL disabled)" "EMUMISS_0,EMUMISS_1"
newline
bitfld.long 0x0C 1. "TRANSLATIONFAULT,Invalid descriptor in translation tables (translation fault)" "TRANSLATIONFAULT_0,TRANSLATIONFAULT_1"
bitfld.long 0x0C 0. "TLBMISS,Unrecoverable TLB miss (hardware TWL disabled)" "TLBMISS_0,TLBMISS_1"
rgroup.long 0x40++0x33
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" "TWLRUNNING_0_r,TWLRUNNING_1_r"
line.long 0x04 "MMU_CNTL,This register programs the MMU features"
bitfld.long 0x04 3. "EMUTLBUPDATE,Enable TLB update on emulator table walk" "EMUTLBUPDATE_0,EMUTLBUPDATE_1"
bitfld.long 0x04 2. "TWLENABLE,Table Walking Logic enable" "TWLENABLE_0,TWLENABLE_1"
bitfld.long 0x04 1. "MMUENABLE,MMU enable" "MMUENABLE_0,MMUENABLE_1"
line.long 0x08 "MMU_FAULT_AD,This register contains the virtual address that generated the interrupt"
line.long 0x0C "MMU_TTB,This register contains the Translation Table Base address"
hexmask.long 0x0C 7.--31. 1. "TTBADDRESS,Translation Table Base Address"
line.long 0x10 "MMU_LOCK,This register locks some of the TLB entries"
bitfld.long 0x10 10.--14. "BASEVALUE,Locked entries base value" "BASEVALUE_0,BASEVALUE_1,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x10 4.--8. "CURRENTVICTIM,Current entry to be updated either by the TWL or by the software Write value : TLB entry to be updated by software Read value : TLB entry that will be updated by table walk logic" "CURRENTVICTIM_0,CURRENTVICTIM_1,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
line.long 0x14 "MMU_LD_TLB,This register loads a TLB entry (CAM+RAM)"
bitfld.long 0x14 0. "LDTLBITEM,Write (load) data in the TLB" "LDTLBITEM_0_w,LDTLBITEM_1_r"
line.long 0x18 "MMU_CAM,This register holds a CAM entry"
hexmask.long.tbyte 0x18 12.--31. 1. "VATAG,Virtual address tag"
bitfld.long 0x18 3. "P,Preserved bit" "P_0,P_1"
bitfld.long 0x18 2. "V,Valid bit" "V_0,V_1"
newline
bitfld.long 0x18 0.--1. "PAGESIZE,Page size" "PAGESIZE_0,PAGESIZE_1,PAGESIZE_2,PAGESIZE_3"
line.long 0x1C "MMU_RAM,This register holds a RAM entry"
hexmask.long.tbyte 0x1C 12.--31. 1. "PHYSICALADDRESS,Physical address of the page"
bitfld.long 0x1C 9. "ENDIANNESS,Endianness of the page" "ENDIANNESS_0,ENDIANNESS_1"
bitfld.long 0x1C 7.--8. "ELEMENTSIZE,Element size of the page (8 16 32 no translation)" "ELEMENTSIZE_0,ELEMENTSIZE_1,ELEMENTSIZE_2,ELEMENTSIZE_3"
newline
bitfld.long 0x1C 6. "MIXED,Mixed page attribute (use CPU element size)" "MIXED_0,MIXED_1"
line.long 0x20 "MMU_GFLUSH,This register flushes all the non-protected TLB entries"
bitfld.long 0x20 0. "GLOBALFLUSH,Flush all the non-protected TLB entries when set" "GLOBALFLUSH_0_w,GLOBALFLUSH_1_r"
line.long 0x24 "MMU_FLUSH_ENTRY,This register flushes the entry pointed to by the CAM virtual address"
bitfld.long 0x24 0. "FLUSHENTRY,Flush the TLB entry pointed by the virtual address (VATag) inMMU_CAM register even if this entry is set protected" "FLUSHENTRY_0_w,FLUSHENTRY_1_r"
line.long 0x28 "MMU_READ_CAM,This register reads CAM data from a CAM entry"
hexmask.long.tbyte 0x28 12.--31. 1. "VATAG,Virtual address tag"
bitfld.long 0x28 3. "P,Preserved bit" "P_0_r,P_1_r"
bitfld.long 0x28 2. "V,Valid bit" "V_0_r,V_1_r"
newline
bitfld.long 0x28 0.--1. "PAGESIZE,Page size" "PAGESIZE_0_r,PAGESIZE_1_r,PAGESIZE_2_r,PAGESIZE_3_r"
line.long 0x2C "MMU_READ_RAM,This register reads RAM data from a RAM entry"
hexmask.long.tbyte 0x2C 12.--31. 1. "PHYSICALADDRESS,Physical address of the page"
bitfld.long 0x2C 9. "ENDIANNESS,Endianness of the page" "ENDIANNESS_0_r,ENDIANNESS_1_r"
bitfld.long 0x2C 7.--8. "ELEMENTSIZE,Element size of the page (8 16 32 no translation)" "ELEMENTSIZE_0_r,ELEMENTSIZE_1_r,ELEMENTSIZE_2_r,ELEMENTSIZE_3_r"
newline
bitfld.long 0x2C 6. "MIXED,Mixed page attribute (use CPU element size)" "MIXED_0_r,MIXED_1_r"
line.long 0x30 "MMU_EMU_FAULT_AD,This register contains the last virtual address of a fault caused by the debugger"
rgroup.long 0x80++0x0B
line.long 0x00 "MMU_FAULT_PC,Capture first fault PC value. controlled by[0] FAULTINDICATION"
line.long 0x04 "MMU_FAULT_STATUS,"
rbitfld.long 0x04 4.--7. "MMU_FAULT_TRANS_ID,Master ID who cause a fault" "MMU_FAULT_TRANS_ID_0_r,MMU_FAULT_TRANS_ID_1_r,MMU_FAULT_TRANS_ID_2_r,MMU_FAULT_TRANS_ID_3_r,MMU_FAULT_TRANS_ID_4_r,MMU_FAULT_TRANS_ID_5_r,MMU_FAULT_TRANS_ID_6_r,MMU_FAULT_TRANS_ID_7_r,MMU_FAULT_TRANS_ID_8_r,?,?,?,?,?,?,?"
rbitfld.long 0x04 3. "RD_WR,indicates read or write" "RD_WR_0,RD_WR_1"
rbitfld.long 0x04 1.--2. "MMU_FAULT_TYPE,MReq Type[1:0]" "MMU_FAULT_TYPE_0_r,MMU_FAULT_TYPE_1_r,MMU_FAULT_TYPE_2_r,?"
newline
bitfld.long 0x04 0. "FAULTINDICATION,indicates a MMU fault" "FAULTINDICATION_0,FAULTINDICATION_1"
line.long 0x08 "MMU_GP_REG,Bus-error back response enable register"
bitfld.long 0x08 0. "BUS_ERR_BACK_EN,Bus-error back response enable bit" "BUS_ERR_BACK_EN_0,BUS_ERR_BACK_EN_1"
tree.end
tree "DSP_MMU"
base ansd:0x4A066000
rgroup.long 0x00++0x03
line.long 0x00 "MMU_REVISION,This register contains the IP revision code"
group.long 0x10++0x0F
line.long 0x00 "MMU_SYSCONFIG,This register controls the various parameters of the L3 interconnect interface"
rbitfld.long 0x00 8.--9. "CLOCKACTIVITY,Clock activity during wake-up mode 00 Functional and Interconnect clocks can be switched off" "CLOCKACTIVITY_0,CLOCKACTIVITY_1,CLOCKACTIVITY_2,CLOCKACTIVITY_3"
bitfld.long 0x00 3.--4. "IDLEMODE,IdleMode" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 1. "SOFTRESET,Software reset" "SOFTRESET_0_w,SOFTRESET_1_r"
newline
bitfld.long 0x00 0. "AUTOIDLE,Internal interconnect clock gating strategy" "AUTOIDLE_0,AUTOIDLE_1"
line.long 0x04 "MMU_SYSSTATUS,This register provides status information about the module. excluding the interrupt status information"
bitfld.long 0x04 0. "RESETDONE,Internal reset monitoring" "RESETDONE_0_r,RESETDONE_1_r"
line.long 0x08 "MMU_IRQSTATUS,This interrupt status register regroups all the status of the module internal events that can generate an interrupt"
bitfld.long 0x08 4. "MULTIHITFAULT,Error due to multiple matches in the TLB" "MULTIHITFAULT_0_w,MULTIHITFAULT_1_r"
bitfld.long 0x08 3. "TABLEWALKFAULT,Error response received during a Table Walk" "TABLEWALKFAULT_0_w,TABLEWALKFAULT_1_r"
bitfld.long 0x08 2. "EMUMISS,Unrecoverable TLB miss during debug (hardware TWL disabled)" "EMUMISS_0_w,EMUMISS_1_r"
newline
bitfld.long 0x08 1. "TRANSLATIONFAULT,Invalid descriptor in translation tables (translation fault)" "TRANSLATIONFAULT_0_w,TRANSLATIONFAULT_1_r"
bitfld.long 0x08 0. "TLBMISS,Unrecoverable TLB miss (hardware TWL disabled)" "TLBMISS_0_w,TLBMISS_1_r"
line.long 0x0C "MMU_IRQENABLE,The interrupt enable register allows to mask/unmask the module internal sources of interrupt. on a event-by-event basis"
bitfld.long 0x0C 4. "MULTIHITFAULT,Error due to multiple matches in the TLB" "MULTIHITFAULT_0,MULTIHITFAULT_1"
bitfld.long 0x0C 3. "TABLEWALKFAULT,Error response received during a Table Walk" "TABLEWALKFAULT_0,TABLEWALKFAULT_1"
bitfld.long 0x0C 2. "EMUMISS,Unrecoverable TLB miss during debug (hardware TWL disabled)" "EMUMISS_0,EMUMISS_1"
newline
bitfld.long 0x0C 1. "TRANSLATIONFAULT,Invalid descriptor in translation tables (translation fault)" "TRANSLATIONFAULT_0,TRANSLATIONFAULT_1"
bitfld.long 0x0C 0. "TLBMISS,Unrecoverable TLB miss (hardware TWL disabled)" "TLBMISS_0,TLBMISS_1"
rgroup.long 0x40++0x33
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" "TWLRUNNING_0_r,TWLRUNNING_1_r"
line.long 0x04 "MMU_CNTL,This register programs the MMU features"
bitfld.long 0x04 3. "EMUTLBUPDATE,Enable TLB update on emulator table walk" "EMUTLBUPDATE_0,EMUTLBUPDATE_1"
bitfld.long 0x04 2. "TWLENABLE,Table Walking Logic enable" "TWLENABLE_0,TWLENABLE_1"
bitfld.long 0x04 1. "MMUENABLE,MMU enable" "MMUENABLE_0,MMUENABLE_1"
line.long 0x08 "MMU_FAULT_AD,This register contains the virtual address that generated the interrupt"
line.long 0x0C "MMU_TTB,This register contains the Translation Table Base address"
hexmask.long 0x0C 7.--31. 1. "TTBADDRESS,Translation Table Base Address"
line.long 0x10 "MMU_LOCK,This register locks some of the TLB entries"
bitfld.long 0x10 10.--14. "BASEVALUE,Locked entries base value" "BASEVALUE_0,BASEVALUE_1,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x10 4.--8. "CURRENTVICTIM,Current entry to be updated either by the TWL or by the software Write value : TLB entry to be updated by software Read value : TLB entry that will be updated by table walk logic" "CURRENTVICTIM_0,CURRENTVICTIM_1,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
line.long 0x14 "MMU_LD_TLB,This register loads a TLB entry (CAM+RAM)"
bitfld.long 0x14 0. "LDTLBITEM,Write (load) data in the TLB" "LDTLBITEM_0_w,LDTLBITEM_1_r"
line.long 0x18 "MMU_CAM,This register holds a CAM entry"
hexmask.long.tbyte 0x18 12.--31. 1. "VATAG,Virtual address tag"
bitfld.long 0x18 3. "P,Preserved bit" "P_0,P_1"
bitfld.long 0x18 2. "V,Valid bit" "V_0,V_1"
newline
bitfld.long 0x18 0.--1. "PAGESIZE,Page size" "PAGESIZE_0,PAGESIZE_1,PAGESIZE_2,PAGESIZE_3"
line.long 0x1C "MMU_RAM,This register holds a RAM entry"
hexmask.long.tbyte 0x1C 12.--31. 1. "PHYSICALADDRESS,Physical address of the page"
bitfld.long 0x1C 9. "ENDIANNESS,Endianness of the page" "ENDIANNESS_0,ENDIANNESS_1"
bitfld.long 0x1C 7.--8. "ELEMENTSIZE,Element size of the page (8 16 32 no translation)" "ELEMENTSIZE_0,ELEMENTSIZE_1,ELEMENTSIZE_2,ELEMENTSIZE_3"
newline
bitfld.long 0x1C 6. "MIXED,Mixed page attribute (use CPU element size)" "MIXED_0,MIXED_1"
line.long 0x20 "MMU_GFLUSH,This register flushes all the non-protected TLB entries"
bitfld.long 0x20 0. "GLOBALFLUSH,Flush all the non-protected TLB entries when set" "GLOBALFLUSH_0_w,GLOBALFLUSH_1_r"
line.long 0x24 "MMU_FLUSH_ENTRY,This register flushes the entry pointed to by the CAM virtual address"
bitfld.long 0x24 0. "FLUSHENTRY,Flush the TLB entry pointed by the virtual address (VATag) inMMU_CAM register even if this entry is set protected" "FLUSHENTRY_0_w,FLUSHENTRY_1_r"
line.long 0x28 "MMU_READ_CAM,This register reads CAM data from a CAM entry"
hexmask.long.tbyte 0x28 12.--31. 1. "VATAG,Virtual address tag"
bitfld.long 0x28 3. "P,Preserved bit" "P_0_r,P_1_r"
bitfld.long 0x28 2. "V,Valid bit" "V_0_r,V_1_r"
newline
bitfld.long 0x28 0.--1. "PAGESIZE,Page size" "PAGESIZE_0_r,PAGESIZE_1_r,PAGESIZE_2_r,PAGESIZE_3_r"
line.long 0x2C "MMU_READ_RAM,This register reads RAM data from a RAM entry"
hexmask.long.tbyte 0x2C 12.--31. 1. "PHYSICALADDRESS,Physical address of the page"
bitfld.long 0x2C 9. "ENDIANNESS,Endianness of the page" "ENDIANNESS_0_r,ENDIANNESS_1_r"
bitfld.long 0x2C 7.--8. "ELEMENTSIZE,Element size of the page (8 16 32 no translation)" "ELEMENTSIZE_0_r,ELEMENTSIZE_1_r,ELEMENTSIZE_2_r,ELEMENTSIZE_3_r"
newline
bitfld.long 0x2C 6. "MIXED,Mixed page attribute (use CPU element size)" "MIXED_0_r,MIXED_1_r"
line.long 0x30 "MMU_EMU_FAULT_AD,This register contains the last virtual address of a fault caused by the debugger"
rgroup.long 0x80++0x0B
line.long 0x00 "MMU_FAULT_PC,Capture first fault PC value. controlled by[0] FAULTINDICATION"
line.long 0x04 "MMU_FAULT_STATUS,"
rbitfld.long 0x04 4.--7. "MMU_FAULT_TRANS_ID,Master ID who cause a fault" "MMU_FAULT_TRANS_ID_0_r,MMU_FAULT_TRANS_ID_1_r,MMU_FAULT_TRANS_ID_2_r,MMU_FAULT_TRANS_ID_3_r,MMU_FAULT_TRANS_ID_4_r,MMU_FAULT_TRANS_ID_5_r,MMU_FAULT_TRANS_ID_6_r,MMU_FAULT_TRANS_ID_7_r,MMU_FAULT_TRANS_ID_8_r,?,?,?,?,?,?,?"
rbitfld.long 0x04 3. "RD_WR,indicates read or write" "RD_WR_0,RD_WR_1"
rbitfld.long 0x04 1.--2. "MMU_FAULT_TYPE,MReq Type[1:0]" "MMU_FAULT_TYPE_0_r,MMU_FAULT_TYPE_1_r,MMU_FAULT_TYPE_2_r,?"
newline
bitfld.long 0x04 0. "FAULTINDICATION,indicates a MMU fault" "FAULTINDICATION_0,FAULTINDICATION_1"
line.long 0x08 "DSPSS_MMU_GPR,This register controls the DSP MMU hardware debug output multiplexer"
bitfld.long 0x08 15. "FORCE_IDLE_REQ,Force-idle request to see existence of pending bus request" "0,1"
bitfld.long 0x08 0.--3. "HWDEBUG_MUX,Control HWDEBUG output MUX" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree.end
tree "Multichannel_Audio_Serial_Port"
tree "McASP_Cortex_A9"
base ansd:0x40128000
tree "Channel_0"
group.long 0x100++0x03
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"
group.long 0x118++0x03
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"
group.long 0x130++0x03
line.long 0x00 "MCASP_DITUDRAi_0,DIT left channel user data register - provides the user data of each left channel (even TDM time slot)"
group.long 0x148++0x03
line.long 0x00 "MCASP_DITUDRBi_0,DIT right user data register - provides the user data of each right channel (odd TDM time slot)"
tree.end
tree "Channel_1"
group.long 0x104++0x03
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"
group.long 0x11C++0x03
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"
group.long 0x134++0x03
line.long 0x00 "MCASP_DITUDRAi_1,DIT left channel user data register - provides the user data of each left channel (even TDM time slot)"
group.long 0x14C++0x03
line.long 0x00 "MCASP_DITUDRBi_1,DIT right user data register - provides the user data of each right channel (odd TDM time slot)"
tree.end
tree "Channel_2"
group.long 0x108++0x03
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"
group.long 0x120++0x03
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"
group.long 0x138++0x03
line.long 0x00 "MCASP_DITUDRAi_2,DIT left channel user data register - provides the user data of each left channel (even TDM time slot)"
group.long 0x150++0x03
line.long 0x00 "MCASP_DITUDRBi_2,DIT right user data register - provides the user data of each right channel (odd TDM time slot)"
tree.end
tree "Channel_3"
group.long 0x10C++0x03
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"
group.long 0x124++0x03
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"
group.long 0x13C++0x03
line.long 0x00 "MCASP_DITUDRAi_3,DIT left channel user data register - provides the user data of each left channel (even TDM time slot)"
group.long 0x154++0x03
line.long 0x00 "MCASP_DITUDRBi_3,DIT right user data register - provides the user data of each right channel (odd TDM time slot)"
tree.end
tree "Channel_4"
group.long 0x110++0x03
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"
group.long 0x128++0x03
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"
group.long 0x140++0x03
line.long 0x00 "MCASP_DITUDRAi_4,DIT left channel user data register - provides the user data of each left channel (even TDM time slot)"
group.long 0x158++0x03
line.long 0x00 "MCASP_DITUDRBi_4,DIT right user data register - provides the user data of each right channel (odd TDM time slot)"
tree.end
tree "Channel_5"
group.long 0x114++0x03
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"
group.long 0x12C++0x03
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"
group.long 0x144++0x03
line.long 0x00 "MCASP_DITUDRAi_5,DIT left channel user data register - provides the user data of each left channel (even TDM time slot)"
group.long 0x15C++0x03
line.long 0x00 "MCASP_DITUDRBi_5,DIT right user data register - provides the user data of each right channel (odd TDM time slot)"
tree.end
group.long 0xB0++0x07
line.long 0x00 "MCASP_ACLKXCTL,Transmit clock control register - Configures the transmit bit clock (abe_mcasp_aclkx) and the transmit clock generator"
bitfld.long 0x00 6. "ASYNC,Transmit operation asynchronous enable bit" "ASYNC_0,ASYNC_1"
bitfld.long 0x00 5. "CLKXM,Transmit bit clock source bit" "CLKXM_0,CLKXM_1"
newline
bitfld.long 0x00 0.--4. "CLKXDIV,Transmit bit clock divide ratio bits determine the divide-down ratio from AHCLKX to ACLKX" "Divide-by-1,Divide-by-2 0x2 to,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,Divide-by-3 to divide-by-32"
line.long 0x04 "MCASP_AHCLKXCTL,High-frequency transmit clock control register - Configures the transmit high-frequency master clock (abe_mcasp_ahclkx) and the transmit clock generator"
bitfld.long 0x04 15. "HCLKXM,Transmit high-frequency clock source bit" "HCLKXM_0,HCLKXM_1"
abitfld.long 0x04 0.--11. "HCLKXDIV,Transmit high-frequency clock divide ratio bits determine the divide-down ratio from AUXCLK to abe_mcasp_ahclkx" "0x000=Divide-by-1,0x001=Divide-by-2 0x2 to,0xFFF=Divide-by-3 to divide-by-4096"
group.long 0x48++0x03
line.long 0x00 "MCASP_AMUTE,Mute control register - Controls the McASP mute output pin (abe_mcasp_amute)"
bitfld.long 0x00 12. "XDMAERR,Drives AMUTE active enable bit on transmit DMA error (XDMAERR)" "XDMAERR_0,XDMAERR_1"
bitfld.long 0x00 10. "XCKFAIL,XMT bad clock" "XCKFAIL_0,XCKFAIL_1"
newline
bitfld.long 0x00 8. "XSYNCERR,XMT unexpected FS" "XSYNCERR_0,XSYNCERR_1"
bitfld.long 0x00 6. "XUNDRN,XMT underrun occurs" "XUNDRN_0,XUNDRN_1"
newline
rbitfld.long 0x00 4. "INSTAT,Status of mute in pin determines drive on abe_mcasp_axr pin when theMCASP_PFUNC[0] and MCASP_PDIR[0] bits are set to 1" "INSTAT_0_r,INSTAT_1_r"
bitfld.long 0x00 3. "INEN,Drive abe_mcasp_amute active when abe_mcasp_amutein error is active" "INEN_0,INEN_1"
newline
bitfld.long 0x00 2. "INPOL,Audio mute in (abe_mcasp_amutein) polarity select bit" "INPOL_0,INPOL_1"
bitfld.long 0x00 0.--1. "MUTEN,abe_mcasp_amute pin enable bit field (unless overridden by GPIO registers)" "MUTEN_0,MUTEN_1,MUTEN_2,?"
group.long 0xBC++0x03
line.long 0x00 "MCASP_EVTCTLX,Transmitter Interrupt control register - controls generation of the McASP transmit interrupt (XINT)"
bitfld.long 0x00 7. "XSTAFRM,Transmit start of frame interrupt enable bit" "XSTAFRM_0,XSTAFRM_1"
bitfld.long 0x00 5. "XDATA,Transmit data-ready interrupt enable bit" "XDATA_0,XDATA_1"
newline
bitfld.long 0x00 4. "XLAST,Transmit last slot interrupt enable bit" "XLAST_0,XLAST_1"
bitfld.long 0x00 3. "XDMAERR,Transmit DMA error interrupt enable bit" "XDMAERR_0,XDMAERR_1"
newline
bitfld.long 0x00 2. "XCKFAIL,Transmit clock failure interrupt enable bit" "XCKFAIL_0,XCKFAIL_1"
bitfld.long 0x00 1. "XSYNCERR,Unexpected transmit frame-sync interrupt enable bit" "XSYNCERR_0,XSYNCERR_1"
newline
bitfld.long 0x00 0. "XUNDRN,Transmitter underrun interrupt enable bit" "XUNDRN_0,XUNDRN_1"
group.long 0x44++0x03
line.long 0x00 "MCASP_GBLCTL,Global transmit control register - provides initialization of the transmit section"
bitfld.long 0x00 12. "XFRST,Transmit frame-sync generator reset enable bit" "XFRST_0,XFRST_1"
bitfld.long 0x00 11. "XSMRST,Transmit state-machine reset enable bit" "XSMRST_0,XSMRST_1"
newline
bitfld.long 0x00 10. "XSRCLR,Transmit serializer clear enable bit" "XSRCLR_0,XSRCLR_1"
bitfld.long 0x00 9. "XHCLKRST,Transmit high-frequency clock divider reset enable bit" "XHCLKRST_0,XHCLKRST_1"
newline
bitfld.long 0x00 8. "XCLKRST,Transmit clock divider reset enable bit" "XCLKRST_0,XCLKRST_1"
group.long 0x20++0x03
line.long 0x00 "MCASP_PDCLR,The pin data clear register is an alias of the pin data output register () for writes only"
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" "AFSX_0,AFSX_1"
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" "AHCLKX_0,AHCLKX_1"
newline
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" "ACLKX_0,ACLKX_1"
bitfld.long 0x00 25. "AMUTE,Allows the corresponding AMUTE bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port" "AMUTE_0,AMUTE_1"
newline
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" "AXR0_0,AXR0_1"
rgroup.long 0x1C++0x03
line.long 0x00 "MCASP_PDIN,Pin data input register - holds the state of all the McASP pins"
bitfld.long 0x00 28. "AFSX,Logic level on abe_mcasp_afsx pin" "AFSX_0,AFSX_1"
bitfld.long 0x00 27. "AHCLKX,Logic level on abe_mcasp_ahclkx pin" "AHCLKX_0,AHCLKX_1"
newline
bitfld.long 0x00 26. "ACLKX,Logic level on abe_mcasp_aclkx pin" "ACLKX_0,ACLKX_1"
bitfld.long 0x00 25. "AMUTE,Logic level on abe_mcasp_amute pin" "AMUTE_0,AMUTE_1"
newline
bitfld.long 0x00 0. "AXR0,Logic level on abe_mcasp_axr pin" "AXR0_0,AXR0_1"
group.long 0x14++0x0B
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 28. "AFSX,Determines if abe_mcasp_afsx pin functions as an input or output" "AFSX_0,AFSX_1"
bitfld.long 0x00 27. "AHCLKX,Determines if abe_mcasp_ahclkx pin functions as an input or output" "AHCLKX_0,AHCLKX_1"
newline
bitfld.long 0x00 26. "ACLKX,Determines if abe_mcasp_aclkx pin functions as an input or output" "ACLKX_0,ACLKX_1"
bitfld.long 0x00 25. "AMUTE,Determines if abe_mcasp_amute pin functions as an input or output" "AMUTE_0,AMUTE_1"
newline
bitfld.long 0x00 0. "AXR0,Determines if abe_mcasp_axr pin functions as an input or output" "AXR0_0,AXR0_1"
line.long 0x04 "MCASP_PDOUT,Pin data output register - holds a value for data out at all times. and may be read back at all times"
bitfld.long 0x04 28. "AFSX,Determines drive on AFSX output pin when the correspondingMCASP_PFUNC[28] and MCASP_PDIR[28] bits are set to 1" "AFSX_0,AFSX_1"
bitfld.long 0x04 27. "AHCLKX,Determines drive on AHCLKX output pin when the correspondingMCASP_PFUNC[27] and MCASP_PDIR[27] bits are set to 1" "AHCLKX_0,AHCLKX_1"
newline
bitfld.long 0x04 26. "ACLKX,Determines drive on ACLKX output pin when the correspondingMCASP_PFUNC[26] and MCASP_PDIR[26] bits are set to" "ACLKX_0,ACLKX_1"
bitfld.long 0x04 25. "AMUTE,Determines drive on AMUTE output pin when the correspondingMCASP_PFUNC[25] and MCASP_PDIR[25] bits are set to 1" "AMUTE_0,AMUTE_1"
newline
bitfld.long 0x04 0. "AXR0,Determines drive on abe_mcasp_axr output pin when the correspondingMCASP_PFUNC[0] and MCASP_PDIR[0] bits are set to 1" "AXR0_0,AXR0_1"
line.long 0x08 "MCASP_PDSET,The pin data set register is an alias of the pin data output register () for writes only"
bitfld.long 0x08 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" "AFSX_0,AFSX_1"
bitfld.long 0x08 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" "AHCLKX_0,AHCLKX_1"
newline
bitfld.long 0x08 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" "ACLKX_0,ACLKX_1"
bitfld.long 0x08 25. "AMUTE,Allows the corresponding AMUTE bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port" "AMUTE_0,AMUTE_1"
newline
bitfld.long 0x08 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" "AXR0_0,AXR0_1"
group.long 0x10++0x03
line.long 0x00 "MCASP_PFUNC,Specifies the function of the pins as either a McASP pin or a GPIO pin"
bitfld.long 0x00 28. "AFSX,Determines if abe_mcasp_afsx pin functions as McASP or GPIO" "AFSX_0,AFSX_1"
bitfld.long 0x00 27. "AHCLKX,Determines if abe_mcasp_ahclkx pin functions as McASP or GPIO" "AHCLKX_0,AHCLKX_1"
newline
bitfld.long 0x00 26. "ACLKX,Determines if abe_mcasp_aclkx pin functions as McASP or GPIO" "ACLKX_0,ACLKX_1"
bitfld.long 0x00 25. "AMUTE,Determines if abe_mcasp_amute pin functions as McASP or GPIO" "AMUTE_0,AMUTE_1"
newline
bitfld.long 0x00 0. "AXR0,Determines if abe_mcasp_axr pin functions as McASP or GPIO" "AXR0_0,AXR0_1"
rgroup.long 0x00++0x07
line.long 0x00 "MCASP_PID,Peripheral identification register"
line.long 0x04 "MCASP_SYSCONFIG,Power idle module configuration register"
bitfld.long 0x04 0.--1. "IDLE_MODE," "?,No-idle mode,Smart-idle mode - default..,Reserved"
group.long 0x200++0x03
line.long 0x00 "MCASP_TXBUF0,Transmit buffer - The transmit buffer for the serializer holds data from the transmit format unit"
group.long 0xC8++0x03
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)"
hexmask.long.byte 0x00 16.--23. 1. "XMAX,0x0 to"
newline
hexmask.long.byte 0x00 8.--15. 1. "XMIN,0x0 to"
bitfld.long 0x00 0.--3. "XPS,Transmit clock check prescaler value" "McASP system clock divided by 1,McASP system clock divided by 2,McASP system clock divided by 4,McASP system clock divided by 8,McASP system clock divided by 16,McASP system clock divided by 32,McASP system clock divided by 64,McASP system clock divided by 128,McASP system clock divided by 256 0x9 to,?,?,?,?,?,?,Reserved"
group.long 0x50++0x03
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)" "VB_0,VB_1"
bitfld.long 0x00 2. "VA,Valid bit for even time slots (DIT left subframe)" "VA_0,VA_1"
newline
bitfld.long 0x00 0. "DITEN,DIT mode enable bit" "DITEN_0,DITEN_1"
group.long 0xCC++0x03
line.long 0x00 "MCASP_TXEVTCTL,Transmitter DMA event control register"
bitfld.long 0x00 0. "XDATDMA,Transmit data DMA request enable bit" "XDATDMA_0,XDATDMA_1"
group.long 0xAC++0x03
line.long 0x00 "MCASP_TXFMCTL,Transmit frame-sync control register - configures the transmit frame sync (abe_mcasp_afsx)"
hexmask.long.word 0x00 7.--15. 1. "XMOD,Transmit frame-sync mode select bits"
bitfld.long 0x00 4. "FXWID,The transmit frame-sync width select bit indicates the width of the transmit frame sync (abe_mcasp_afsx) during its active period" "FXWID_0,FXWID_1"
newline
bitfld.long 0x00 1. "FSXM,Transmit frame-sync generation select bit" "FSXM_0,FSXM_1"
bitfld.long 0x00 0. "FSXP,Transmit frame-sync polarity select bit" "FSXP_0,FSXP_1"
group.long 0xA8++0x03
line.long 0x00 "MCASP_TXFMT,Transmit bitstream format register - configures the transmit data format"
bitfld.long 0x00 16.--17. "XDATDLY,Transmit sync bit delay" "XDATDLY_0,XDATDLY_1,XDATDLY_2,?"
bitfld.long 0x00 15. "XRVRS,Transmit serial bitstream order" "Bitstream is LSB first,Reserved"
newline
bitfld.long 0x00 13.--14. "XPAD,Pad value for extra bits in slot not belonging to word defined by XMASK" "Pad extra bits with 0,?,?,Reserved"
bitfld.long 0x00 4.--7. "XSSZ,Transmit slot size0x0 to" "?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,XSSZ_15"
newline
bitfld.long 0x00 3. "XBUSEL,Selects whether writes to the serializer buffer XBUF originate from the peripheral configuration port or the DMA port" "XBUSEL_0,XBUSEL_1"
bitfld.long 0x00 0.--2. "XROT,Right-rotation value for transmit rotate right format unit" "XROT_0,XROT_1,XROT_2,XROT_3,XROT_4,XROT_5,XROT_6,XROT_7"
group.long 0xA4++0x03
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"
group.long 0xC0++0x03
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"
bitfld.long 0x00 8. "XERR,XERR bit always returns a logic-OR of: XUNDRN | XSYNCERR | XCKFAIL | XDMAERR" "XERR_0,XERR_1"
bitfld.long 0x00 7. "XDMAERR,Transmit DMA error flag" "XDMAERR_0,XDMAERR_1"
newline
bitfld.long 0x00 6. "XSTAFRM,Transmit start of frame flag" "XSTAFRM_0,XSTAFRM_1"
bitfld.long 0x00 5. "XDATA,Transmit data ready flag" "XDATA_0,XDATA_1"
newline
bitfld.long 0x00 4. "XLAST,Transmit last slot flag" "XLAST_0,XLAST_1"
rbitfld.long 0x00 3. "XTDMSLOT,Returns the LSB of XSLOT" "XTDMSLOT_0_r,XTDMSLOT_1_r"
newline
bitfld.long 0x00 2. "XCKFAIL,Transmit clock failure flag" "XCKFAIL_0,XCKFAIL_1"
bitfld.long 0x00 1. "XSYNCERR,Unexpected transmit frame-sync flag" "XSYNCERR_0,XSYNCERR_1"
newline
bitfld.long 0x00 0. "XUNDRN,Transmitter underrun flag" "XUNDRN_0,XUNDRN_1"
group.long 0xB8++0x03
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)"
rgroup.long 0xC4++0x03
line.long 0x00 "MCASP_TXTDMSLOT,Current transmit TDM time slot register"
hexmask.long.word 0x00 0.--9. 1. "XSLOTCNT,Current transmit time slot count"
group.long 0x180++0x03
line.long 0x00 "MCASP_XRSRCTL0,Serializer control register"
rbitfld.long 0x00 4. "XRDY,Transmit buffer ready bit" "XRDY_0_r,XRDY_1_r"
bitfld.long 0x00 0.--1. "SRMOD,Serializer mode bit" "SRMOD_0,SRMOD_1,?,?"
tree.end
tree "McASP_L3Interconnect"
base ansd:0x49028000
tree "Channel_0"
group.long 0x100++0x03
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"
group.long 0x118++0x03
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"
group.long 0x130++0x03
line.long 0x00 "MCASP_DITUDRAi_0,DIT left channel user data register - provides the user data of each left channel (even TDM time slot)"
group.long 0x148++0x03
line.long 0x00 "MCASP_DITUDRBi_0,DIT right user data register - provides the user data of each right channel (odd TDM time slot)"
tree.end
tree "Channel_1"
group.long 0x104++0x03
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"
group.long 0x11C++0x03
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"
group.long 0x134++0x03
line.long 0x00 "MCASP_DITUDRAi_1,DIT left channel user data register - provides the user data of each left channel (even TDM time slot)"
group.long 0x14C++0x03
line.long 0x00 "MCASP_DITUDRBi_1,DIT right user data register - provides the user data of each right channel (odd TDM time slot)"
tree.end
tree "Channel_2"
group.long 0x108++0x03
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"
group.long 0x120++0x03
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"
group.long 0x138++0x03
line.long 0x00 "MCASP_DITUDRAi_2,DIT left channel user data register - provides the user data of each left channel (even TDM time slot)"
group.long 0x150++0x03
line.long 0x00 "MCASP_DITUDRBi_2,DIT right user data register - provides the user data of each right channel (odd TDM time slot)"
tree.end
tree "Channel_3"
group.long 0x10C++0x03
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"
group.long 0x124++0x03
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"
group.long 0x13C++0x03
line.long 0x00 "MCASP_DITUDRAi_3,DIT left channel user data register - provides the user data of each left channel (even TDM time slot)"
group.long 0x154++0x03
line.long 0x00 "MCASP_DITUDRBi_3,DIT right user data register - provides the user data of each right channel (odd TDM time slot)"
tree.end
tree "Channel_4"
group.long 0x110++0x03
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"
group.long 0x128++0x03
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"
group.long 0x140++0x03
line.long 0x00 "MCASP_DITUDRAi_4,DIT left channel user data register - provides the user data of each left channel (even TDM time slot)"
group.long 0x158++0x03
line.long 0x00 "MCASP_DITUDRBi_4,DIT right user data register - provides the user data of each right channel (odd TDM time slot)"
tree.end
tree "Channel_5"
group.long 0x114++0x03
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"
group.long 0x12C++0x03
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"
group.long 0x144++0x03
line.long 0x00 "MCASP_DITUDRAi_5,DIT left channel user data register - provides the user data of each left channel (even TDM time slot)"
group.long 0x15C++0x03
line.long 0x00 "MCASP_DITUDRBi_5,DIT right user data register - provides the user data of each right channel (odd TDM time slot)"
tree.end
group.long 0xB0++0x07
line.long 0x00 "MCASP_ACLKXCTL,Transmit clock control register - Configures the transmit bit clock (abe_mcasp_aclkx) and the transmit clock generator"
bitfld.long 0x00 6. "ASYNC,Transmit operation asynchronous enable bit" "ASYNC_0,ASYNC_1"
bitfld.long 0x00 5. "CLKXM,Transmit bit clock source bit" "CLKXM_0,CLKXM_1"
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bitfld.long 0x00 0.--4. "CLKXDIV,Transmit bit clock divide ratio bits determine the divide-down ratio from AHCLKX to ACLKX" "Divide-by-1,Divide-by-2 0x2 to,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,Divide-by-3 to divide-by-32"
line.long 0x04 "MCASP_AHCLKXCTL,High-frequency transmit clock control register - Configures the transmit high-frequency master clock (abe_mcasp_ahclkx) and the transmit clock generator"
bitfld.long 0x04 15. "HCLKXM,Transmit high-frequency clock source bit" "HCLKXM_0,HCLKXM_1"
abitfld.long 0x04 0.--11. "HCLKXDIV,Transmit high-frequency clock divide ratio bits determine the divide-down ratio from AUXCLK to abe_mcasp_ahclkx" "0x000=Divide-by-1,0x001=Divide-by-2 0x2 to,0xFFF=Divide-by-3 to divide-by-4096"
group.long 0x48++0x03
line.long 0x00 "MCASP_AMUTE,Mute control register - Controls the McASP mute output pin (abe_mcasp_amute)"
bitfld.long 0x00 12. "XDMAERR,Drives AMUTE active enable bit on transmit DMA error (XDMAERR)" "XDMAERR_0,XDMAERR_1"
bitfld.long 0x00 10. "XCKFAIL,XMT bad clock" "XCKFAIL_0,XCKFAIL_1"
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bitfld.long 0x00 8. "XSYNCERR,XMT unexpected FS" "XSYNCERR_0,XSYNCERR_1"
bitfld.long 0x00 6. "XUNDRN,XMT underrun occurs" "XUNDRN_0,XUNDRN_1"
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rbitfld.long 0x00 4. "INSTAT,Status of mute in pin determines drive on abe_mcasp_axr pin when theMCASP_PFUNC[0] and MCASP_PDIR[0] bits are set to 1" "INSTAT_0_r,INSTAT_1_r"
bitfld.long 0x00 3. "INEN,Drive abe_mcasp_amute active when abe_mcasp_amutein error is active" "INEN_0,INEN_1"
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bitfld.long 0x00 2. "INPOL,Audio mute in (abe_mcasp_amutein) polarity select bit" "INPOL_0,INPOL_1"
bitfld.long 0x00 0.--1. "MUTEN,abe_mcasp_amute pin enable bit field (unless overridden by GPIO registers)" "MUTEN_0,MUTEN_1,MUTEN_2,?"
group.long 0xBC++0x03
line.long 0x00 "MCASP_EVTCTLX,Transmitter Interrupt control register - controls generation of the McASP transmit interrupt (XINT)"
bitfld.long 0x00 7. "XSTAFRM,Transmit start of frame interrupt enable bit" "XSTAFRM_0,XSTAFRM_1"
bitfld.long 0x00 5. "XDATA,Transmit data-ready interrupt enable bit" "XDATA_0,XDATA_1"
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bitfld.long 0x00 4. "XLAST,Transmit last slot interrupt enable bit" "XLAST_0,XLAST_1"
bitfld.long 0x00 3. "XDMAERR,Transmit DMA error interrupt enable bit" "XDMAERR_0,XDMAERR_1"
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bitfld.long 0x00 2. "XCKFAIL,Transmit clock failure interrupt enable bit" "XCKFAIL_0,XCKFAIL_1"
bitfld.long 0x00 1. "XSYNCERR,Unexpected transmit frame-sync interrupt enable bit" "XSYNCERR_0,XSYNCERR_1"
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bitfld.long 0x00 0. "XUNDRN,Transmitter underrun interrupt enable bit" "XUNDRN_0,XUNDRN_1"
group.long 0x44++0x03
line.long 0x00 "MCASP_GBLCTL,Global transmit control register - provides initialization of the transmit section"
bitfld.long 0x00 12. "XFRST,Transmit frame-sync generator reset enable bit" "XFRST_0,XFRST_1"
bitfld.long 0x00 11. "XSMRST,Transmit state-machine reset enable bit" "XSMRST_0,XSMRST_1"
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bitfld.long 0x00 10. "XSRCLR,Transmit serializer clear enable bit" "XSRCLR_0,XSRCLR_1"
bitfld.long 0x00 9. "XHCLKRST,Transmit high-frequency clock divider reset enable bit" "XHCLKRST_0,XHCLKRST_1"
newline
bitfld.long 0x00 8. "XCLKRST,Transmit clock divider reset enable bit" "XCLKRST_0,XCLKRST_1"
group.long 0x20++0x03
line.long 0x00 "MCASP_PDCLR,The pin data clear register is an alias of the pin data output register () for writes only"
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" "AFSX_0,AFSX_1"
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" "AHCLKX_0,AHCLKX_1"
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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" "ACLKX_0,ACLKX_1"
bitfld.long 0x00 25. "AMUTE,Allows the corresponding AMUTE bit inMCASP_PDOUT to be cleared to a logic low without affecting other I/O pins controlled by the same port" "AMUTE_0,AMUTE_1"
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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" "AXR0_0,AXR0_1"
rgroup.long 0x1C++0x03
line.long 0x00 "MCASP_PDIN,Pin data input register - holds the state of all the McASP pins"
bitfld.long 0x00 28. "AFSX,Logic level on abe_mcasp_afsx pin" "AFSX_0,AFSX_1"
bitfld.long 0x00 27. "AHCLKX,Logic level on abe_mcasp_ahclkx pin" "AHCLKX_0,AHCLKX_1"
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bitfld.long 0x00 26. "ACLKX,Logic level on abe_mcasp_aclkx pin" "ACLKX_0,ACLKX_1"
bitfld.long 0x00 25. "AMUTE,Logic level on abe_mcasp_amute pin" "AMUTE_0,AMUTE_1"
newline
bitfld.long 0x00 0. "AXR0,Logic level on abe_mcasp_axr pin" "AXR0_0,AXR0_1"
group.long 0x14++0x0B
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 28. "AFSX,Determines if abe_mcasp_afsx pin functions as an input or output" "AFSX_0,AFSX_1"
bitfld.long 0x00 27. "AHCLKX,Determines if abe_mcasp_ahclkx pin functions as an input or output" "AHCLKX_0,AHCLKX_1"
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bitfld.long 0x00 26. "ACLKX,Determines if abe_mcasp_aclkx pin functions as an input or output" "ACLKX_0,ACLKX_1"
bitfld.long 0x00 25. "AMUTE,Determines if abe_mcasp_amute pin functions as an input or output" "AMUTE_0,AMUTE_1"
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bitfld.long 0x00 0. "AXR0,Determines if abe_mcasp_axr pin functions as an input or output" "AXR0_0,AXR0_1"
line.long 0x04 "MCASP_PDOUT,Pin data output register - holds a value for data out at all times. and may be read back at all times"
bitfld.long 0x04 28. "AFSX,Determines drive on AFSX output pin when the correspondingMCASP_PFUNC[28] and MCASP_PDIR[28] bits are set to 1" "AFSX_0,AFSX_1"
bitfld.long 0x04 27. "AHCLKX,Determines drive on AHCLKX output pin when the correspondingMCASP_PFUNC[27] and MCASP_PDIR[27] bits are set to 1" "AHCLKX_0,AHCLKX_1"
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bitfld.long 0x04 26. "ACLKX,Determines drive on ACLKX output pin when the correspondingMCASP_PFUNC[26] and MCASP_PDIR[26] bits are set to" "ACLKX_0,ACLKX_1"
bitfld.long 0x04 25. "AMUTE,Determines drive on AMUTE output pin when the correspondingMCASP_PFUNC[25] and MCASP_PDIR[25] bits are set to 1" "AMUTE_0,AMUTE_1"
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bitfld.long 0x04 0. "AXR0,Determines drive on abe_mcasp_axr output pin when the correspondingMCASP_PFUNC[0] and MCASP_PDIR[0] bits are set to 1" "AXR0_0,AXR0_1"
line.long 0x08 "MCASP_PDSET,The pin data set register is an alias of the pin data output register () for writes only"
bitfld.long 0x08 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" "AFSX_0,AFSX_1"
bitfld.long 0x08 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" "AHCLKX_0,AHCLKX_1"
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bitfld.long 0x08 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" "ACLKX_0,ACLKX_1"
bitfld.long 0x08 25. "AMUTE,Allows the corresponding AMUTE bit inMCASP_PDOUT to be set to a logic high without affecting other I/O pins controlled by the same port" "AMUTE_0,AMUTE_1"
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bitfld.long 0x08 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" "AXR0_0,AXR0_1"
group.long 0x10++0x03
line.long 0x00 "MCASP_PFUNC,Specifies the function of the pins as either a McASP pin or a GPIO pin"
bitfld.long 0x00 28. "AFSX,Determines if abe_mcasp_afsx pin functions as McASP or GPIO" "AFSX_0,AFSX_1"
bitfld.long 0x00 27. "AHCLKX,Determines if abe_mcasp_ahclkx pin functions as McASP or GPIO" "AHCLKX_0,AHCLKX_1"
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bitfld.long 0x00 26. "ACLKX,Determines if abe_mcasp_aclkx pin functions as McASP or GPIO" "ACLKX_0,ACLKX_1"
bitfld.long 0x00 25. "AMUTE,Determines if abe_mcasp_amute pin functions as McASP or GPIO" "AMUTE_0,AMUTE_1"
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bitfld.long 0x00 0. "AXR0,Determines if abe_mcasp_axr pin functions as McASP or GPIO" "AXR0_0,AXR0_1"
rgroup.long 0x00++0x07
line.long 0x00 "MCASP_PID,Peripheral identification register"
line.long 0x04 "MCASP_SYSCONFIG,Power idle module configuration register"
bitfld.long 0x04 0.--1. "IDLE_MODE," "?,No-idle mode,Smart-idle mode - default..,Reserved"
group.long 0x200++0x03
line.long 0x00 "MCASP_TXBUF0,Transmit buffer - The transmit buffer for the serializer holds data from the transmit format unit"
group.long 0xC8++0x03
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)"
hexmask.long.byte 0x00 16.--23. 1. "XMAX,0x0 to"
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hexmask.long.byte 0x00 8.--15. 1. "XMIN,0x0 to"
bitfld.long 0x00 0.--3. "XPS,Transmit clock check prescaler value" "McASP system clock divided by 1,McASP system clock divided by 2,McASP system clock divided by 4,McASP system clock divided by 8,McASP system clock divided by 16,McASP system clock divided by 32,McASP system clock divided by 64,McASP system clock divided by 128,McASP system clock divided by 256 0x9 to,?,?,?,?,?,?,Reserved"
group.long 0x50++0x03
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)" "VB_0,VB_1"
bitfld.long 0x00 2. "VA,Valid bit for even time slots (DIT left subframe)" "VA_0,VA_1"
newline
bitfld.long 0x00 0. "DITEN,DIT mode enable bit" "DITEN_0,DITEN_1"
group.long 0xCC++0x03
line.long 0x00 "MCASP_TXEVTCTL,Transmitter DMA event control register"
bitfld.long 0x00 0. "XDATDMA,Transmit data DMA request enable bit" "XDATDMA_0,XDATDMA_1"
group.long 0xAC++0x03
line.long 0x00 "MCASP_TXFMCTL,Transmit frame-sync control register - configures the transmit frame sync (abe_mcasp_afsx)"
hexmask.long.word 0x00 7.--15. 1. "XMOD,Transmit frame-sync mode select bits"
bitfld.long 0x00 4. "FXWID,The transmit frame-sync width select bit indicates the width of the transmit frame sync (abe_mcasp_afsx) during its active period" "FXWID_0,FXWID_1"
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bitfld.long 0x00 1. "FSXM,Transmit frame-sync generation select bit" "FSXM_0,FSXM_1"
bitfld.long 0x00 0. "FSXP,Transmit frame-sync polarity select bit" "FSXP_0,FSXP_1"
group.long 0xA8++0x03
line.long 0x00 "MCASP_TXFMT,Transmit bitstream format register - configures the transmit data format"
bitfld.long 0x00 16.--17. "XDATDLY,Transmit sync bit delay" "XDATDLY_0,XDATDLY_1,XDATDLY_2,?"
bitfld.long 0x00 15. "XRVRS,Transmit serial bitstream order" "Bitstream is LSB first,Reserved"
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bitfld.long 0x00 13.--14. "XPAD,Pad value for extra bits in slot not belonging to word defined by XMASK" "Pad extra bits with 0,?,?,Reserved"
bitfld.long 0x00 4.--7. "XSSZ,Transmit slot size0x0 to" "?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,XSSZ_15"
newline
bitfld.long 0x00 3. "XBUSEL,Selects whether writes to the serializer buffer XBUF originate from the peripheral configuration port or the DMA port" "XBUSEL_0,XBUSEL_1"
bitfld.long 0x00 0.--2. "XROT,Right-rotation value for transmit rotate right format unit" "XROT_0,XROT_1,XROT_2,XROT_3,XROT_4,XROT_5,XROT_6,XROT_7"
group.long 0xA4++0x03
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"
group.long 0xC0++0x03
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"
bitfld.long 0x00 8. "XERR,XERR bit always returns a logic-OR of: XUNDRN | XSYNCERR | XCKFAIL | XDMAERR" "XERR_0,XERR_1"
bitfld.long 0x00 7. "XDMAERR,Transmit DMA error flag" "XDMAERR_0,XDMAERR_1"
newline
bitfld.long 0x00 6. "XSTAFRM,Transmit start of frame flag" "XSTAFRM_0,XSTAFRM_1"
bitfld.long 0x00 5. "XDATA,Transmit data ready flag" "XDATA_0,XDATA_1"
newline
bitfld.long 0x00 4. "XLAST,Transmit last slot flag" "XLAST_0,XLAST_1"
rbitfld.long 0x00 3. "XTDMSLOT,Returns the LSB of XSLOT" "XTDMSLOT_0_r,XTDMSLOT_1_r"
newline
bitfld.long 0x00 2. "XCKFAIL,Transmit clock failure flag" "XCKFAIL_0,XCKFAIL_1"
bitfld.long 0x00 1. "XSYNCERR,Unexpected transmit frame-sync flag" "XSYNCERR_0,XSYNCERR_1"
newline
bitfld.long 0x00 0. "XUNDRN,Transmitter underrun flag" "XUNDRN_0,XUNDRN_1"
group.long 0xB8++0x03
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)"
rgroup.long 0xC4++0x03
line.long 0x00 "MCASP_TXTDMSLOT,Current transmit TDM time slot register"
hexmask.long.word 0x00 0.--9. 1. "XSLOTCNT,Current transmit time slot count"
group.long 0x180++0x03
line.long 0x00 "MCASP_XRSRCTL0,Serializer control register"
rbitfld.long 0x00 4. "XRDY,Transmit buffer ready bit" "XRDY_0_r,XRDY_1_r"
bitfld.long 0x00 0.--1. "SRMOD,Serializer mode bit" "SRMOD_0,SRMOD_1,?,?"
tree.end
tree.end
tree "Multichannel_Buffered_Serial_Port_McBSP"
tree "MCBSP1_Cortex_A9"
base ansd:0x40122000
rgroup.long 0x00++0x03
line.long 0x00 "MCBSPLP_DRR_REG,McBSPLP data receive register"
group.long 0x08++0x03
line.long 0x00 "MCBSPLP_DXR_REG,McBSPLP data transmit register"
group.long 0x10++0x87
line.long 0x00 "MCBSPLP_SPCR2_REG,McBSPLP serial port control register 2"
bitfld.long 0x00 9. "FREE,Free Running Mode (When this bit is set the module ignores the Msuspend input)" "FREE_0,FREE_1"
bitfld.long 0x00 8. "SOFT,Soft Bit" "SOFT_0,SOFT_1"
bitfld.long 0x00 7. "FRST,Frame-Sync Generator Reset" "FRST_0,FRST_1"
bitfld.long 0x00 6. "GRST,Sample-Rate Generator Reset" "GRST_0,GRST_1"
newline
bitfld.long 0x00 4.--5. "XINTM,Transmit Interrupt Mode (legacy)" "XINTM_0,XINTM_1,XINTM_2,XINTM_3"
bitfld.long 0x00 3. "XSYNCERR,Transmit Synchronization Error (writing 0 to this bit clear the legacy transmit interrupt if asserted due to XSYNCERR condition)" "XSYNCERR_0,XSYNCERR_1"
rbitfld.long 0x00 2. "XEMPTY,Transmit Shift Register XSR Empty" "XEMPTY_0_r,XEMPTY_1_r"
rbitfld.long 0x00 1. "XRDY,Transmitter ready" "XRDY_0_r,XRDY_1_r"
newline
bitfld.long 0x00 0. "XRST,Transmitter reset" "XRST_0,XRST_1"
line.long 0x04 "MCBSPLP_SPCR1_REG,McBSPLP serial port control register 1"
bitfld.long 0x04 15. "ALB,Analog Loopback Mode" "ALB_0,ALB_1"
bitfld.long 0x04 13.--14. "RJUST,Receive Sign-Extension and Justification Mode" "RJUST_0,RJUST_1,RJUST_2,RJUST_3"
bitfld.long 0x04 7. "DXENA,DX Enabler" "DXENA_0,DXENA_1"
bitfld.long 0x04 4.--5. "RINTM,Receive Interrupt Mode (legacy)" "RINTM_0,RINTM_1,RINTM_2,RINTM_3"
newline
bitfld.long 0x04 3. "RSYNCERR,Receive Synchronization Error (writing 0 to this bit clear the legacy receive interrupt if asserted due to RSYNCERR condition)" "RSYNCERR_0,RSYNCERR_1"
rbitfld.long 0x04 2. "RFULL,Receive Shift Register (RSR]) Full" "RFULL_0_r,RFULL_1_r"
rbitfld.long 0x04 1. "RRDY,Receiver Ready" "RRDY_0_r,RRDY_1_r"
bitfld.long 0x04 0. "RRST,Receiver reset" "RRST_0,RRST_1"
line.long 0x08 "MCBSPLP_RCR2_REG,McBSPLP receive control register 2"
bitfld.long 0x08 15. "RPHASE,Receive Phases" "RPHASE_0,RPHASE_1"
hexmask.long.byte 0x08 8.--14. 1. "RFRLEN2,Receive Frame Length 2 Single-phase frame selected: RFRLEN2=don't care Dual-phase frame selected: RFRLEN2=000"
bitfld.long 0x08 5.--7. "RWDLEN2,Receive Word Length" "RWDLEN2_0,RWDLEN2_1,RWDLEN2_2,RWDLEN2_3,RWDLEN2_4,RWDLEN2_5,RWDLEN2_6,RWDLEN2_7"
bitfld.long 0x08 3.--4. "RREVERSE,Receive reverse mode" "RREVERSE_0,RREVERSE_1,RREVERSE_2,RREVERSE_3"
newline
bitfld.long 0x08 0.--1. "RDATDLY,Receive Data Delay" "RDATDLY_0,RDATDLY_1,RDATDLY_2,RDATDLY_3"
line.long 0x0C "MCBSPLP_RCR1_REG,McBSPLP receive control register 1"
hexmask.long.byte 0x0C 8.--14. 1. "RFRLEN1,Receive Frame Length 1 Single-phase frame selected: RFRLEN1=000"
bitfld.long 0x0C 5.--7. "RWDLEN1,Receive Word Length" "RWDLEN1_0,RWDLEN1_1,RWDLEN1_2,RWDLEN1_3,RWDLEN1_4,RWDLEN1_5,RWDLEN1_6,RWDLEN1_7"
line.long 0x10 "MCBSPLP_XCR2_REG,McBSPLP transmit control register 2"
bitfld.long 0x10 15. "XPHASE,Transmit Phases" "XPHASE_0,XPHASE_1"
hexmask.long.byte 0x10 8.--14. 1. "XFRLEN2,Transmit Frame Length 2 Single-phase frame selected: XFRLEN2=don't care Dual-phase frame selected: XFRLEN2=000"
bitfld.long 0x10 5.--7. "XWDLEN2,Transmit Word Length" "XWDLEN2_0,XWDLEN2_1,XWDLEN2_2,XWDLEN2_3,XWDLEN2_4,XWDLEN2_5,XWDLEN2_6,XWDLEN2_7"
bitfld.long 0x10 3.--4. "XREVERSE,Transmit reverse mode" "XREVERSE_0,XREVERSE_1,XREVERSE_2,XREVERSE_3"
newline
bitfld.long 0x10 0.--1. "XDATDLY,Transmit Data Delay" "XDATDLY_0,XDATDLY_1,XDATDLY_2,XDATDLY_3"
line.long 0x14 "MCBSPLP_XCR1_REG,McBSPLP transmit control register 1"
hexmask.long.byte 0x14 8.--14. 1. "XFRLEN1,Transmit Frame Length 1 Single-phase frame selected: XFRLEN1=000"
bitfld.long 0x14 5.--7. "XWDLEN1,Transmit Word Length" "XWDLEN1_0,XWDLEN1_1,XWDLEN1_2,XWDLEN1_3,XWDLEN1_4,XWDLEN1_5,XWDLEN1_6,XWDLEN1_7"
line.long 0x18 "MCBSPLP_SRGR2_REG,McBSPLP sample rate generator register 2"
bitfld.long 0x18 15. "GSYNC," "GSYNC_0,GSYNC_1"
bitfld.long 0x18 14. "CLKSP,CLKS Polarity Clock Edge Select Only used when the external clock CLKS drives the SRG clock (CLKSM=0)" "CLKSP_0,CLKSP_1"
bitfld.long 0x18 13. "CLKSM,McBSPLP Sample Rate Generator Clock Mode" "CLKSM_0,CLKSM_1"
bitfld.long 0x18 12. "FSGM,Sample Rate Generator Transmit Frame-Synchronization Mode Used when FSXM=1 in the PCR" "FSGM_0,FSGM_1"
newline
hexmask.long.word 0x18 0.--11. 1. "FPER,Frame Period"
line.long 0x1C "MCBSPLP_SRGR1_REG,McBSPLP sample rate generator register 1"
hexmask.long.byte 0x1C 8.--15. 1. "FWID,Frame Width"
hexmask.long.byte 0x1C 0.--7. 1. "CLKGDV,Sample Rate Generator Clock Divider This value is used as the divide-down number to generate the required SRG clock frequency"
line.long 0x20 "MCBSPLP_MCR2_REG,McBSPLP multi channel register 2"
bitfld.long 0x20 9. "XMCME," "XMCME_0,XMCME_1"
bitfld.long 0x20 7.--8. "XPBBLK,Transmit Partition B Block (legacy)" "XPBBLK_0,XPBBLK_1,XPBBLK_2,XPBBLK_3"
bitfld.long 0x20 5.--6. "XPABLK,Transmit Partition A Block (legacy)" "XPABLK_0,XPABLK_1,XPABLK_2,XPABLK_3"
bitfld.long 0x20 0.--1. "XMCM,Transmit Multichannel Selection Enable" "XMCM_0,XMCM_1,XMCM_2,XMCM_3"
line.long 0x24 "MCBSPLP_MCR1_REG,McBSPLP multi channel register 1"
bitfld.long 0x24 9. "RMCME,(legacy)" "RMCME_0,RMCME_1"
bitfld.long 0x24 7.--8. "RPBBLK,Receive Partition B Block (legacy)" "RPBBLK_0,RPBBLK_1,RPBBLK_2,RPBBLK_3"
bitfld.long 0x24 5.--6. "RPABLK,Receive Partition A Block (legacy)" "RPABLK_0,RPABLK_1,RPABLK_2,RPABLK_3"
bitfld.long 0x24 0. "RMCM,Receive Multichannel Selection Enable" "RMCM_0,RMCM_1"
line.long 0x28 "MCBSPLP_RCERA_REG,McBSPLP receive channel enable register partition A"
hexmask.long.word 0x28 0.--15. 1. "RCERA,Receive Channel Enable RCERA n=0 Disables reception of n-th channel in an even-numbered block in partition A RCERA n=1 Enables reception of n-th channel in an even-numbered block in partition A"
line.long 0x2C "MCBSPLP_RCERB_REG,McBSPLP receive channel enable register partition B"
hexmask.long.word 0x2C 0.--15. 1. "RCERB,Receive Channel Enable RCERB n=0 Disables reception of n-th channel in a even-numbered block in partition B RCERB n=1 Enables reception of n-th channel in a even-numbered block in partition B"
line.long 0x30 "MCBSPLP_XCERA_REG,McBSPLP transmit channel enable register partition A"
hexmask.long.word 0x30 0.--15. 1. "XCERA,Transmit Channel Enable XCERA n=0 Disables transmission of n-th channel in an event-numbered block in partition A XCERA n=1 Enables transmission of n-th channel in an event-numbered block in partition A"
line.long 0x34 "MCBSPLP_XCERB_REG,McBSPLP transmit channel enable register partition B"
hexmask.long.word 0x34 0.--15. 1. "XCERB,Transmit Channel Enable XCERB n=0 Disables transmission of n-th channel in an even-numbered block in partition B XCERB n=1 Enables transmission of n-th channel in an even-numbered block in partition B"
line.long 0x38 "MCBSPLP_PCR_REG,McBSPLP pin control register"
bitfld.long 0x38 14. "IDLE_EN,Idle enable" "IDLE_EN_0,IDLE_EN_1"
bitfld.long 0x38 13. "XIOEN,Transmit General Purpose I/O Mode only when XRST=0 in SPCR[1 2] (legacy)" "XIOEN_0,XIOEN_1"
bitfld.long 0x38 12. "RIOEN,Receive General Purpose I/O Mode when RRST=0 in SPCR[1 2] (legacy)" "RIOEN_0,RIOEN_1"
bitfld.long 0x38 11. "FSXM,Transmit Frame-Synchronization Mode" "FSXM_0,FSXM_1"
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bitfld.long 0x38 10. "FSRM,Receive Frame-Synchronization Mode" "FSRM_0,FSRM_1"
bitfld.long 0x38 9. "CLKXM,Transmitter Clock Mode" "CLKXM_0,CLKXM_1"
bitfld.long 0x38 8. "CLKRM,Receiver Clock Mode" "CLKRM_0,CLKRM_1"
bitfld.long 0x38 7. "SCLKME,The frequency of CLKG is: CLKG frequency = (Input clock frequency) / (CLKGDV + 1) SCLKME is used in conjunction with the CLKSM bit to select the input clock" "SCLKME_0,SCLKME_1"
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rbitfld.long 0x38 6. "CLKS_STAT,CLKS pin status" "CLKS_STAT_0_r,CLKS_STAT_1_r"
bitfld.long 0x38 5. "DX_STAT,DX pin status" "DX_STAT_0,DX_STAT_1"
rbitfld.long 0x38 4. "DR_STAT,DR pin status" "DR_STAT_0_r,DR_STAT_1_r"
bitfld.long 0x38 3. "FSXP,Transmit Frame-Synchronization Polarity" "FSXP_0,FSXP_1"
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bitfld.long 0x38 2. "FSRP,Receive Frame-Synchronization Polarity" "FSRP_0,FSRP_1"
bitfld.long 0x38 1. "CLKXP,Transmit Clock Polarity" "CLKXP_0,CLKXP_1"
bitfld.long 0x38 0. "CLKRP,Receive Clock Polarity" "CLKRP_0,CLKRP_1"
line.long 0x3C "MCBSPLP_RCERC_REG,McBSPLP receive channel enable register partition C"
hexmask.long.word 0x3C 0.--15. 1. "RCERC,Receive Channel Enable RCERC n=0 Disables reception of n-th channel in an even-numbered block in partition C RCERC n=1 Enables reception of n-th channel in an even-numbered block in partition C"
line.long 0x40 "MCBSPLP_RCERD_REG,McBSPLP receive channel enable register partition D"
hexmask.long.word 0x40 0.--15. 1. "RCERD,Receive Channel Enable RCERD n=0 Disables reception of n-th channel in an even-numbered block in partition D RCERD n=1 Enables reception of n-th channel in an even-numbered block in partition D"
line.long 0x44 "MCBSPLP_XCERC_REG,McBSPLP transmit channel enable register partition C"
hexmask.long.word 0x44 0.--15. 1. "XCERC,Transmit Channel Enable XCERC n=0 Disables transmission of n-th channel in an event-numbered block in partition C XCERC n=1 Enables transmission of n-th channel in an event-numbered block in partition C"
line.long 0x48 "MCBSPLP_XCERD_REG,McBSPLP transmit channel enable register partition D"
hexmask.long.word 0x48 0.--15. 1. "XCERD,Transmit Channel Enable XCERD n=0 Disables transmission of n-th channel in an even-numbered block in partition D XCERD n=1 Enables transmission of n-th channel in an even-numbered block in partition D"
line.long 0x4C "MCBSPLP_RCERE_REG,McBSPLP receive channel enable register partition E"
hexmask.long.word 0x4C 0.--15. 1. "RCERE,Receive Channel Enable RCERE n=0 Disables reception of n-th channel in an even-numbered block in partition E RCERE n=1 Enables reception of n-th channel in an even-numbered block in partition E"
line.long 0x50 "MCBSPLP_RCERF_REG,McBSPLP receive channel enable register partition F"
hexmask.long.word 0x50 0.--15. 1. "RCERF,Receive Channel Enable RCERF n=0 Disables reception of n-th channel in an even-numbered block in partition F RCERF n=1 Enables reception of n-th channel in an even-numbered block in partition F"
line.long 0x54 "MCBSPLP_XCERE_REG,McBSPLP transmit channel enable register partition E"
hexmask.long.word 0x54 0.--15. 1. "XCERE,Transmit Channel Enable XCERE n=0 Disables transmission of n-th channel in an event-numbered block in partition E XCERE n=1 Enables transmission of n-th channel in an event-numbered block in partition E"
line.long 0x58 "MCBSPLP_XCERF_REG,McBSPLP transmit channel enable register partition F"
hexmask.long.word 0x58 0.--15. 1. "XCERF,Transmit Channel Enable XCERF n=0 Disables transmission of n-th channel in an even-numbered block in partition F XCERF n=1 Enables transmission of n-th channel in an even-numbered block in partition F"
line.long 0x5C "MCBSPLP_RCERG_REG,McBSPLP receive channel enable register partition G"
hexmask.long.word 0x5C 0.--15. 1. "RCERG,Receive Channel Enable RCERG n=0 Disables reception of n-th channel in an even-numbered block in partition G RCERG n=1 Enables reception of n-th channel in an even-numbered block in partition G"
line.long 0x60 "MCBSPLP_RCERH_REG,McBSPLP receive channel enable register partition H"
hexmask.long.word 0x60 0.--15. 1. "RCERH,Receive Channel Enable RCERH n=0 Disables reception of n-th channel in an even-numbered block in partition H RCERH n=1 Enables reception of n-th channel in an even-numbered block in partition H"
line.long 0x64 "MCBSPLP_XCERG_REG,McBSPLP transmit channel enable register partition G"
hexmask.long.word 0x64 0.--15. 1. "XCERG,Transmit Channel Enable XCERG n=0 Disables transmission of n-th channel in an event-numbered block in partition G XCERG n=1 Enables transmission of n-th channel in an event-numbered block in partition G"
line.long 0x68 "MCBSPLP_XCERH_REG,McBSPLP transmit channel enable register partition H"
hexmask.long.word 0x68 0.--15. 1. "XCERH,Transmit Channel Enable XCERH n=0 Disables transmission of n-th channel in an even-numbered block in partition H XCERH n=1 Enables transmission of n-th channel in an even-numbered block in partition H"
line.long 0x6C "MCBSPLP_REV_REG,MCBSPLP Revision number register"
hexmask.long.byte 0x6C 0.--7. 1. "REV,Revision number"
line.long 0x70 "MCBSPLP_RINTCLR_REG,McBSPLP receive interrupt clear"
line.long 0x74 "MCBSPLP_XINTCLR_REG,McBSPLP transmit interrupt clear (legacy)"
line.long 0x78 "MCBSPLP_ROVFLCLR_REG,McBSPLP receive overflow interrupt clear"
line.long 0x7C "MCBSPLP_SYSCONFIG_REG,McBSPLP System Configuration register"
bitfld.long 0x7C 8.--9. "CLOCKACTIVITY," "CLOCKACTIVITY_0,CLOCKACTIVITY_1,CLOCKACTIVITY_2,CLOCKACTIVITY_3"
bitfld.long 0x7C 3.--4. "SIDLEMODE,Slave interface power management req/ack control" "SIDLEMODE_0,SIDLEMODE_1,SIDLEMODE_2,SIDLEMODE_3"
bitfld.long 0x7C 2. "ENAWAKEUP,WakeUp feature control" "ENAWAKEUP_0,ENAWAKEUP_1"
bitfld.long 0x7C 1. "SOFTRESET,McBSPLP global software reset" "SOFTRESET_0,SOFTRESET_1"
line.long 0x80 "MCBSPLP_THRSH2_REG,McBSPLP transmit buffer threshold (DMA or IRQ trigger)"
hexmask.long.byte 0x80 0.--6. 1. "XTHRESHOLD,Transmit buffer threshold value"
line.long 0x84 "MCBSPLP_THRSH1_REG,McBSPLP receive buffer threshold (DMA or IRQ trigger)"
hexmask.long.byte 0x84 0.--6. 1. "RTHRESHOLD,Receive buffer threshold value"
group.long 0xA0++0x1B
line.long 0x00 "MCBSPLP_IRQSTATUS_REG,McBSPLP Interrupt Status register (interconnect compliant IRQ line)"
bitfld.long 0x00 14. "XEMPTYEOF,Transmit Buffer Empty at end of frame (XEMPTYEOF is set to 1 when a complete frame was transmitted and the transmit buffer is empty)" "XEMPTYEOF_0,XEMPTYEOF_1"
bitfld.long 0x00 12. "XOVFLSTAT,Transmit Buffer Overflow (XOVFLSTAT bit is set to 1 when transmit buffer overflow; the data which is written while overflow condition is discarded)" "XOVFLSTAT_0,XOVFLSTAT_1"
bitfld.long 0x00 11. "XUNDFLSTAT,Transmit Buffer Underflow (XUNDFLSTAT bit is set to 1 when the transmit data buffer is empty new data is required to be transmitted)" "XUNDFLSTAT_0,XUNDFLSTAT_1"
bitfld.long 0x00 10. "XRDY,Transmit Buffer Threshold Reached (XRDY bit is set to 1 when the transmit buffer free locations are equal or above the THRSH2_REG value)" "XRDY_0,XRDY_1"
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bitfld.long 0x00 9. "XEOF,Transmit End Of Frame (XEOF is set to 1 when a complete frame was transmitted)" "XEOF_0,XEOF_1"
bitfld.long 0x00 8. "XFSX,Transmit Frame Synchronization (XFSX bit is set to 1 when a new transmit frame synchronization is asserted)" "XFSX_0,XFSX_1"
bitfld.long 0x00 7. "XSYNCERR,Transmit Frame Synchronization Error (XSYNCERR is set to 1 when a transmit frame-sync error is detected)" "XSYNCERR_0,XSYNCERR_1"
bitfld.long 0x00 5. "ROVFLSTAT,Receive Buffer Overflow (ROVFLSTAT bit is set to 1 when receive buffer overflow; the data which is written while overflow condition is discarded)" "ROVFLSTAT_0,ROVFLSTAT_1"
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bitfld.long 0x00 4. "RUNDFLSTAT,Receive Buffer Underflow (RUNDFLSTAT bit is set to 1 when read operation is performed to the receive data register while receive buffer is empty; data read while underflow condition is undefined)" "RUNDFLSTAT_0,RUNDFLSTAT_1"
bitfld.long 0x00 3. "RRDY,Receive Buffer Threshold Reached (RRDY bit is set to 1 when the receive buffer occupied locations are equal or above the THRSH1_REG value)" "RRDY_0,RRDY_1"
bitfld.long 0x00 2. "REOF,Receive End Of Frame (REOF is set to 1 when a complete frame was received)" "REOF_0,REOF_1"
bitfld.long 0x00 1. "RFSR,Receive Frame Synchronization (RFSR bit is set to 1 when a new receive frame synchronization is asserted)" "RFSR_0,RFSR_1"
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bitfld.long 0x00 0. "RSYNCERR,Receive Frame Synchronization Error (RSYNCERR is set to 1 when a receive frame-sync error is detected)" "RSYNCERR_0,RSYNCERR_1"
line.long 0x04 "MCBSPLP_IRQENABLE_REG,McBSPLP Interrupt Enable register (interconnect compliant IRQ line)"
bitfld.long 0x04 14. "XEMPTYEOFEN,Transmit buffer empty at end of frame enable bit" "XEMPTYEOFEN_0,XEMPTYEOFEN_1"
bitfld.long 0x04 12. "XOVFLEN,Transmit Buffer Overflow enable bit" "XOVFLEN_0,XOVFLEN_1"
bitfld.long 0x04 11. "XUNDFLEN,Transmit Buffer Underflow enable bit" "XUNDFLEN_0,XUNDFLEN_1"
bitfld.long 0x04 10. "XRDYEN,Transmit Buffer Threshold Reached enable bit" "XRDYEN_0,XRDYEN_1"
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bitfld.long 0x04 9. "XEOFEN,Transmit End Of Frame enable bit" "XEOFEN_0,XEOFEN_1"
bitfld.long 0x04 8. "XFSXEN,Transmit Frame Synchronization enable bit" "XFSXEN_0,XFSXEN_1"
bitfld.long 0x04 7. "XSYNCERREN,Transmit Frame Synchronization Error enable bit" "XSYNCERREN_0,XSYNCERREN_1"
bitfld.long 0x04 5. "ROVFLEN,Receive Buffer Overflow enable bit" "ROVFLEN_0,ROVFLEN_1"
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bitfld.long 0x04 4. "RUNDFLEN,Receive Buffer Underflow enable bit" "RUNDFLEN_0,RUNDFLEN_1"
bitfld.long 0x04 3. "RRDYEN,Receive Buffer Threshold enable bit" "RRDYEN_0,RRDYEN_1"
bitfld.long 0x04 2. "REOFEN,Receive End Of Frame enable bit" "REOFEN_0,REOFEN_1"
bitfld.long 0x04 1. "RFSREN,Receive Frame Synchronization enable bit" "RFSREN_0,RFSREN_1"
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bitfld.long 0x04 0. "RSYNCERREN,Receive Frame Synchronization Error enable bit" "RSYNCERREN_0,RSYNCERREN_1"
line.long 0x08 "MCBSPLP_WAKEUPEN_REG,McBSPLP Wakeup Enable register"
bitfld.long 0x08 14. "XEMPTYEOFEN,Transmit Buffer Empty at End Of Frame enable bit" "XEMPTYEOFEN_0,XEMPTYEOFEN_1"
bitfld.long 0x08 10. "XRDYEN,Transmit Buffer Threshold Reached WK enable bit" "XRDYEN_0,XRDYEN_1"
bitfld.long 0x08 9. "XEOFEN,Transmit End Of Frame WK enable bit" "XEOFEN_0,XEOFEN_1"
bitfld.long 0x08 8. "XFSXEN,Transmit Frame Synchronization WK enable bit" "XFSXEN_0,XFSXEN_1"
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bitfld.long 0x08 7. "XSYNCERREN,Transmit Frame Synchronization Error WK enable bit" "XSYNCERREN_0,XSYNCERREN_1"
bitfld.long 0x08 3. "RRDYEN,Receive Buffer Threshold wakeup enable bit" "RRDYEN_0,RRDYEN_1"
bitfld.long 0x08 2. "REOFEN,Receive End Of Frame WK enable bit" "REOFEN_0,REOFEN_1"
bitfld.long 0x08 1. "RFSREN,Receive Frame Synchronization WK enable bit" "RFSREN_0,RFSREN_1"
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bitfld.long 0x08 0. "RSYNCERREN,Receive Frame Synchronization Error WK enable bit" "RSYNCERREN_0,RSYNCERREN_1"
line.long 0x0C "MCBSPLP_XCCR_REG,McBSPLP transmit configuration control register"
bitfld.long 0x0C 15. "EXTCLKGATE,External clock gating enable (CLKX and FSX master only)" "EXTCLKGATE_0,EXTCLKGATE_1"
bitfld.long 0x0C 14. "PPCONNECT,Pair to pair connection" "PPCONNECT_0,PPCONNECT_1"
bitfld.long 0x0C 12.--13. "DXENDLY,When DXENA bit in SPCR1 is set to 1 this field selects the added delay as follow" "DXENDLY_0,DXENDLY_1,DXENDLY_2,DXENDLY_3"
bitfld.long 0x0C 11. "XFULL_CYCLE,Transmit full-cycle mode select" "XFULL_CYCLE_0,XFULL_CYCLE_1"
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bitfld.long 0x0C 5. "DLB,Digital Loop-Back" "DLB_0,DLB_1"
bitfld.long 0x0C 3. "XDMAEN,Transmit DMA Enable bit" "XDMAEN_0,XDMAEN_1"
bitfld.long 0x0C 0. "XDISABLE,Transmit Disable bit" "XDISABLE_0,XDISABLE_1"
line.long 0x10 "MCBSPLP_RCCR_REG,McBSPLP receive configuration control register"
bitfld.long 0x10 11. "RFULL_CYCLE,Receive full-cycle mode select" "RFULL_CYCLE_0,RFULL_CYCLE_1"
bitfld.long 0x10 3. "RDMAEN,Receive DMA Enable bit" "RDMAEN_0,RDMAEN_1"
bitfld.long 0x10 0. "RDISABLE,Receive Disable bit" "RDISABLE_0,RDISABLE_1"
line.long 0x14 "MCBSPLP_XBUFFSTAT_REG,McBSPLP transmit buffer status"
hexmask.long.byte 0x14 0.--7. 1. "XBUFFSTAT,Transmit Buffer Status (indicates the number of free locations inside transmit buffer)"
line.long 0x18 "MCBSPLP_RBUFFSTAT_REG,McBSPLP receive buffer status"
hexmask.long.byte 0x18 0.--7. 1. "RBUFFSTAT,Receive Buffer Status (indicates the number of occupied locations inside receive buffer)"
tree.end
tree "MCBSP1_L3Interconnect"
base ansd:0x49022000
rgroup.long 0x00++0x03
line.long 0x00 "MCBSPLP_DRR_REG,McBSPLP data receive register"
group.long 0x08++0x03
line.long 0x00 "MCBSPLP_DXR_REG,McBSPLP data transmit register"
group.long 0x10++0x87
line.long 0x00 "MCBSPLP_SPCR2_REG,McBSPLP serial port control register 2"
bitfld.long 0x00 9. "FREE,Free Running Mode (When this bit is set the module ignores the Msuspend input)" "FREE_0,FREE_1"
bitfld.long 0x00 8. "SOFT,Soft Bit" "SOFT_0,SOFT_1"
bitfld.long 0x00 7. "FRST,Frame-Sync Generator Reset" "FRST_0,FRST_1"
bitfld.long 0x00 6. "GRST,Sample-Rate Generator Reset" "GRST_0,GRST_1"
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bitfld.long 0x00 4.--5. "XINTM,Transmit Interrupt Mode (legacy)" "XINTM_0,XINTM_1,XINTM_2,XINTM_3"
bitfld.long 0x00 3. "XSYNCERR,Transmit Synchronization Error (writing 0 to this bit clear the legacy transmit interrupt if asserted due to XSYNCERR condition)" "XSYNCERR_0,XSYNCERR_1"
rbitfld.long 0x00 2. "XEMPTY,Transmit Shift Register XSR Empty" "XEMPTY_0_r,XEMPTY_1_r"
rbitfld.long 0x00 1. "XRDY,Transmitter ready" "XRDY_0_r,XRDY_1_r"
newline
bitfld.long 0x00 0. "XRST,Transmitter reset" "XRST_0,XRST_1"
line.long 0x04 "MCBSPLP_SPCR1_REG,McBSPLP serial port control register 1"
bitfld.long 0x04 15. "ALB,Analog Loopback Mode" "ALB_0,ALB_1"
bitfld.long 0x04 13.--14. "RJUST,Receive Sign-Extension and Justification Mode" "RJUST_0,RJUST_1,RJUST_2,RJUST_3"
bitfld.long 0x04 7. "DXENA,DX Enabler" "DXENA_0,DXENA_1"
bitfld.long 0x04 4.--5. "RINTM,Receive Interrupt Mode (legacy)" "RINTM_0,RINTM_1,RINTM_2,RINTM_3"
newline
bitfld.long 0x04 3. "RSYNCERR,Receive Synchronization Error (writing 0 to this bit clear the legacy receive interrupt if asserted due to RSYNCERR condition)" "RSYNCERR_0,RSYNCERR_1"
rbitfld.long 0x04 2. "RFULL,Receive Shift Register (RSR]) Full" "RFULL_0_r,RFULL_1_r"
rbitfld.long 0x04 1. "RRDY,Receiver Ready" "RRDY_0_r,RRDY_1_r"
bitfld.long 0x04 0. "RRST,Receiver reset" "RRST_0,RRST_1"
line.long 0x08 "MCBSPLP_RCR2_REG,McBSPLP receive control register 2"
bitfld.long 0x08 15. "RPHASE,Receive Phases" "RPHASE_0,RPHASE_1"
hexmask.long.byte 0x08 8.--14. 1. "RFRLEN2,Receive Frame Length 2 Single-phase frame selected: RFRLEN2=don't care Dual-phase frame selected: RFRLEN2=000"
bitfld.long 0x08 5.--7. "RWDLEN2,Receive Word Length" "RWDLEN2_0,RWDLEN2_1,RWDLEN2_2,RWDLEN2_3,RWDLEN2_4,RWDLEN2_5,RWDLEN2_6,RWDLEN2_7"
bitfld.long 0x08 3.--4. "RREVERSE,Receive reverse mode" "RREVERSE_0,RREVERSE_1,RREVERSE_2,RREVERSE_3"
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bitfld.long 0x08 0.--1. "RDATDLY,Receive Data Delay" "RDATDLY_0,RDATDLY_1,RDATDLY_2,RDATDLY_3"
line.long 0x0C "MCBSPLP_RCR1_REG,McBSPLP receive control register 1"
hexmask.long.byte 0x0C 8.--14. 1. "RFRLEN1,Receive Frame Length 1 Single-phase frame selected: RFRLEN1=000"
bitfld.long 0x0C 5.--7. "RWDLEN1,Receive Word Length" "RWDLEN1_0,RWDLEN1_1,RWDLEN1_2,RWDLEN1_3,RWDLEN1_4,RWDLEN1_5,RWDLEN1_6,RWDLEN1_7"
line.long 0x10 "MCBSPLP_XCR2_REG,McBSPLP transmit control register 2"
bitfld.long 0x10 15. "XPHASE,Transmit Phases" "XPHASE_0,XPHASE_1"
hexmask.long.byte 0x10 8.--14. 1. "XFRLEN2,Transmit Frame Length 2 Single-phase frame selected: XFRLEN2=don't care Dual-phase frame selected: XFRLEN2=000"
bitfld.long 0x10 5.--7. "XWDLEN2,Transmit Word Length" "XWDLEN2_0,XWDLEN2_1,XWDLEN2_2,XWDLEN2_3,XWDLEN2_4,XWDLEN2_5,XWDLEN2_6,XWDLEN2_7"
bitfld.long 0x10 3.--4. "XREVERSE,Transmit reverse mode" "XREVERSE_0,XREVERSE_1,XREVERSE_2,XREVERSE_3"
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bitfld.long 0x10 0.--1. "XDATDLY,Transmit Data Delay" "XDATDLY_0,XDATDLY_1,XDATDLY_2,XDATDLY_3"
line.long 0x14 "MCBSPLP_XCR1_REG,McBSPLP transmit control register 1"
hexmask.long.byte 0x14 8.--14. 1. "XFRLEN1,Transmit Frame Length 1 Single-phase frame selected: XFRLEN1=000"
bitfld.long 0x14 5.--7. "XWDLEN1,Transmit Word Length" "XWDLEN1_0,XWDLEN1_1,XWDLEN1_2,XWDLEN1_3,XWDLEN1_4,XWDLEN1_5,XWDLEN1_6,XWDLEN1_7"
line.long 0x18 "MCBSPLP_SRGR2_REG,McBSPLP sample rate generator register 2"
bitfld.long 0x18 15. "GSYNC," "GSYNC_0,GSYNC_1"
bitfld.long 0x18 14. "CLKSP,CLKS Polarity Clock Edge Select Only used when the external clock CLKS drives the SRG clock (CLKSM=0)" "CLKSP_0,CLKSP_1"
bitfld.long 0x18 13. "CLKSM,McBSPLP Sample Rate Generator Clock Mode" "CLKSM_0,CLKSM_1"
bitfld.long 0x18 12. "FSGM,Sample Rate Generator Transmit Frame-Synchronization Mode Used when FSXM=1 in the PCR" "FSGM_0,FSGM_1"
newline
hexmask.long.word 0x18 0.--11. 1. "FPER,Frame Period"
line.long 0x1C "MCBSPLP_SRGR1_REG,McBSPLP sample rate generator register 1"
hexmask.long.byte 0x1C 8.--15. 1. "FWID,Frame Width"
hexmask.long.byte 0x1C 0.--7. 1. "CLKGDV,Sample Rate Generator Clock Divider This value is used as the divide-down number to generate the required SRG clock frequency"
line.long 0x20 "MCBSPLP_MCR2_REG,McBSPLP multi channel register 2"
bitfld.long 0x20 9. "XMCME," "XMCME_0,XMCME_1"
bitfld.long 0x20 7.--8. "XPBBLK,Transmit Partition B Block (legacy)" "XPBBLK_0,XPBBLK_1,XPBBLK_2,XPBBLK_3"
bitfld.long 0x20 5.--6. "XPABLK,Transmit Partition A Block (legacy)" "XPABLK_0,XPABLK_1,XPABLK_2,XPABLK_3"
bitfld.long 0x20 0.--1. "XMCM,Transmit Multichannel Selection Enable" "XMCM_0,XMCM_1,XMCM_2,XMCM_3"
line.long 0x24 "MCBSPLP_MCR1_REG,McBSPLP multi channel register 1"
bitfld.long 0x24 9. "RMCME,(legacy)" "RMCME_0,RMCME_1"
bitfld.long 0x24 7.--8. "RPBBLK,Receive Partition B Block (legacy)" "RPBBLK_0,RPBBLK_1,RPBBLK_2,RPBBLK_3"
bitfld.long 0x24 5.--6. "RPABLK,Receive Partition A Block (legacy)" "RPABLK_0,RPABLK_1,RPABLK_2,RPABLK_3"
bitfld.long 0x24 0. "RMCM,Receive Multichannel Selection Enable" "RMCM_0,RMCM_1"
line.long 0x28 "MCBSPLP_RCERA_REG,McBSPLP receive channel enable register partition A"
hexmask.long.word 0x28 0.--15. 1. "RCERA,Receive Channel Enable RCERA n=0 Disables reception of n-th channel in an even-numbered block in partition A RCERA n=1 Enables reception of n-th channel in an even-numbered block in partition A"
line.long 0x2C "MCBSPLP_RCERB_REG,McBSPLP receive channel enable register partition B"
hexmask.long.word 0x2C 0.--15. 1. "RCERB,Receive Channel Enable RCERB n=0 Disables reception of n-th channel in a even-numbered block in partition B RCERB n=1 Enables reception of n-th channel in a even-numbered block in partition B"
line.long 0x30 "MCBSPLP_XCERA_REG,McBSPLP transmit channel enable register partition A"
hexmask.long.word 0x30 0.--15. 1. "XCERA,Transmit Channel Enable XCERA n=0 Disables transmission of n-th channel in an event-numbered block in partition A XCERA n=1 Enables transmission of n-th channel in an event-numbered block in partition A"
line.long 0x34 "MCBSPLP_XCERB_REG,McBSPLP transmit channel enable register partition B"
hexmask.long.word 0x34 0.--15. 1. "XCERB,Transmit Channel Enable XCERB n=0 Disables transmission of n-th channel in an even-numbered block in partition B XCERB n=1 Enables transmission of n-th channel in an even-numbered block in partition B"
line.long 0x38 "MCBSPLP_PCR_REG,McBSPLP pin control register"
bitfld.long 0x38 14. "IDLE_EN,Idle enable" "IDLE_EN_0,IDLE_EN_1"
bitfld.long 0x38 13. "XIOEN,Transmit General Purpose I/O Mode only when XRST=0 in SPCR[1 2] (legacy)" "XIOEN_0,XIOEN_1"
bitfld.long 0x38 12. "RIOEN,Receive General Purpose I/O Mode when RRST=0 in SPCR[1 2] (legacy)" "RIOEN_0,RIOEN_1"
bitfld.long 0x38 11. "FSXM,Transmit Frame-Synchronization Mode" "FSXM_0,FSXM_1"
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bitfld.long 0x38 10. "FSRM,Receive Frame-Synchronization Mode" "FSRM_0,FSRM_1"
bitfld.long 0x38 9. "CLKXM,Transmitter Clock Mode" "CLKXM_0,CLKXM_1"
bitfld.long 0x38 8. "CLKRM,Receiver Clock Mode" "CLKRM_0,CLKRM_1"
bitfld.long 0x38 7. "SCLKME,The frequency of CLKG is: CLKG frequency = (Input clock frequency) / (CLKGDV + 1) SCLKME is used in conjunction with the CLKSM bit to select the input clock" "SCLKME_0,SCLKME_1"
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rbitfld.long 0x38 6. "CLKS_STAT,CLKS pin status" "CLKS_STAT_0_r,CLKS_STAT_1_r"
bitfld.long 0x38 5. "DX_STAT,DX pin status" "DX_STAT_0,DX_STAT_1"
rbitfld.long 0x38 4. "DR_STAT,DR pin status" "DR_STAT_0_r,DR_STAT_1_r"
bitfld.long 0x38 3. "FSXP,Transmit Frame-Synchronization Polarity" "FSXP_0,FSXP_1"
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bitfld.long 0x38 2. "FSRP,Receive Frame-Synchronization Polarity" "FSRP_0,FSRP_1"
bitfld.long 0x38 1. "CLKXP,Transmit Clock Polarity" "CLKXP_0,CLKXP_1"
bitfld.long 0x38 0. "CLKRP,Receive Clock Polarity" "CLKRP_0,CLKRP_1"
line.long 0x3C "MCBSPLP_RCERC_REG,McBSPLP receive channel enable register partition C"
hexmask.long.word 0x3C 0.--15. 1. "RCERC,Receive Channel Enable RCERC n=0 Disables reception of n-th channel in an even-numbered block in partition C RCERC n=1 Enables reception of n-th channel in an even-numbered block in partition C"
line.long 0x40 "MCBSPLP_RCERD_REG,McBSPLP receive channel enable register partition D"
hexmask.long.word 0x40 0.--15. 1. "RCERD,Receive Channel Enable RCERD n=0 Disables reception of n-th channel in an even-numbered block in partition D RCERD n=1 Enables reception of n-th channel in an even-numbered block in partition D"
line.long 0x44 "MCBSPLP_XCERC_REG,McBSPLP transmit channel enable register partition C"
hexmask.long.word 0x44 0.--15. 1. "XCERC,Transmit Channel Enable XCERC n=0 Disables transmission of n-th channel in an event-numbered block in partition C XCERC n=1 Enables transmission of n-th channel in an event-numbered block in partition C"
line.long 0x48 "MCBSPLP_XCERD_REG,McBSPLP transmit channel enable register partition D"
hexmask.long.word 0x48 0.--15. 1. "XCERD,Transmit Channel Enable XCERD n=0 Disables transmission of n-th channel in an even-numbered block in partition D XCERD n=1 Enables transmission of n-th channel in an even-numbered block in partition D"
line.long 0x4C "MCBSPLP_RCERE_REG,McBSPLP receive channel enable register partition E"
hexmask.long.word 0x4C 0.--15. 1. "RCERE,Receive Channel Enable RCERE n=0 Disables reception of n-th channel in an even-numbered block in partition E RCERE n=1 Enables reception of n-th channel in an even-numbered block in partition E"
line.long 0x50 "MCBSPLP_RCERF_REG,McBSPLP receive channel enable register partition F"
hexmask.long.word 0x50 0.--15. 1. "RCERF,Receive Channel Enable RCERF n=0 Disables reception of n-th channel in an even-numbered block in partition F RCERF n=1 Enables reception of n-th channel in an even-numbered block in partition F"
line.long 0x54 "MCBSPLP_XCERE_REG,McBSPLP transmit channel enable register partition E"
hexmask.long.word 0x54 0.--15. 1. "XCERE,Transmit Channel Enable XCERE n=0 Disables transmission of n-th channel in an event-numbered block in partition E XCERE n=1 Enables transmission of n-th channel in an event-numbered block in partition E"
line.long 0x58 "MCBSPLP_XCERF_REG,McBSPLP transmit channel enable register partition F"
hexmask.long.word 0x58 0.--15. 1. "XCERF,Transmit Channel Enable XCERF n=0 Disables transmission of n-th channel in an even-numbered block in partition F XCERF n=1 Enables transmission of n-th channel in an even-numbered block in partition F"
line.long 0x5C "MCBSPLP_RCERG_REG,McBSPLP receive channel enable register partition G"
hexmask.long.word 0x5C 0.--15. 1. "RCERG,Receive Channel Enable RCERG n=0 Disables reception of n-th channel in an even-numbered block in partition G RCERG n=1 Enables reception of n-th channel in an even-numbered block in partition G"
line.long 0x60 "MCBSPLP_RCERH_REG,McBSPLP receive channel enable register partition H"
hexmask.long.word 0x60 0.--15. 1. "RCERH,Receive Channel Enable RCERH n=0 Disables reception of n-th channel in an even-numbered block in partition H RCERH n=1 Enables reception of n-th channel in an even-numbered block in partition H"
line.long 0x64 "MCBSPLP_XCERG_REG,McBSPLP transmit channel enable register partition G"
hexmask.long.word 0x64 0.--15. 1. "XCERG,Transmit Channel Enable XCERG n=0 Disables transmission of n-th channel in an event-numbered block in partition G XCERG n=1 Enables transmission of n-th channel in an event-numbered block in partition G"
line.long 0x68 "MCBSPLP_XCERH_REG,McBSPLP transmit channel enable register partition H"
hexmask.long.word 0x68 0.--15. 1. "XCERH,Transmit Channel Enable XCERH n=0 Disables transmission of n-th channel in an even-numbered block in partition H XCERH n=1 Enables transmission of n-th channel in an even-numbered block in partition H"
line.long 0x6C "MCBSPLP_REV_REG,MCBSPLP Revision number register"
hexmask.long.byte 0x6C 0.--7. 1. "REV,Revision number"
line.long 0x70 "MCBSPLP_RINTCLR_REG,McBSPLP receive interrupt clear"
line.long 0x74 "MCBSPLP_XINTCLR_REG,McBSPLP transmit interrupt clear (legacy)"
line.long 0x78 "MCBSPLP_ROVFLCLR_REG,McBSPLP receive overflow interrupt clear"
line.long 0x7C "MCBSPLP_SYSCONFIG_REG,McBSPLP System Configuration register"
bitfld.long 0x7C 8.--9. "CLOCKACTIVITY," "CLOCKACTIVITY_0,CLOCKACTIVITY_1,CLOCKACTIVITY_2,CLOCKACTIVITY_3"
bitfld.long 0x7C 3.--4. "SIDLEMODE,Slave interface power management req/ack control" "SIDLEMODE_0,SIDLEMODE_1,SIDLEMODE_2,SIDLEMODE_3"
bitfld.long 0x7C 2. "ENAWAKEUP,WakeUp feature control" "ENAWAKEUP_0,ENAWAKEUP_1"
bitfld.long 0x7C 1. "SOFTRESET,McBSPLP global software reset" "SOFTRESET_0,SOFTRESET_1"
line.long 0x80 "MCBSPLP_THRSH2_REG,McBSPLP transmit buffer threshold (DMA or IRQ trigger)"
hexmask.long.byte 0x80 0.--6. 1. "XTHRESHOLD,Transmit buffer threshold value"
line.long 0x84 "MCBSPLP_THRSH1_REG,McBSPLP receive buffer threshold (DMA or IRQ trigger)"
hexmask.long.byte 0x84 0.--6. 1. "RTHRESHOLD,Receive buffer threshold value"
group.long 0xA0++0x1B
line.long 0x00 "MCBSPLP_IRQSTATUS_REG,McBSPLP Interrupt Status register (interconnect compliant IRQ line)"
bitfld.long 0x00 14. "XEMPTYEOF,Transmit Buffer Empty at end of frame (XEMPTYEOF is set to 1 when a complete frame was transmitted and the transmit buffer is empty)" "XEMPTYEOF_0,XEMPTYEOF_1"
bitfld.long 0x00 12. "XOVFLSTAT,Transmit Buffer Overflow (XOVFLSTAT bit is set to 1 when transmit buffer overflow; the data which is written while overflow condition is discarded)" "XOVFLSTAT_0,XOVFLSTAT_1"
bitfld.long 0x00 11. "XUNDFLSTAT,Transmit Buffer Underflow (XUNDFLSTAT bit is set to 1 when the transmit data buffer is empty new data is required to be transmitted)" "XUNDFLSTAT_0,XUNDFLSTAT_1"
bitfld.long 0x00 10. "XRDY,Transmit Buffer Threshold Reached (XRDY bit is set to 1 when the transmit buffer free locations are equal or above the THRSH2_REG value)" "XRDY_0,XRDY_1"
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bitfld.long 0x00 9. "XEOF,Transmit End Of Frame (XEOF is set to 1 when a complete frame was transmitted)" "XEOF_0,XEOF_1"
bitfld.long 0x00 8. "XFSX,Transmit Frame Synchronization (XFSX bit is set to 1 when a new transmit frame synchronization is asserted)" "XFSX_0,XFSX_1"
bitfld.long 0x00 7. "XSYNCERR,Transmit Frame Synchronization Error (XSYNCERR is set to 1 when a transmit frame-sync error is detected)" "XSYNCERR_0,XSYNCERR_1"
bitfld.long 0x00 5. "ROVFLSTAT,Receive Buffer Overflow (ROVFLSTAT bit is set to 1 when receive buffer overflow; the data which is written while overflow condition is discarded)" "ROVFLSTAT_0,ROVFLSTAT_1"
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bitfld.long 0x00 4. "RUNDFLSTAT,Receive Buffer Underflow (RUNDFLSTAT bit is set to 1 when read operation is performed to the receive data register while receive buffer is empty; data read while underflow condition is undefined)" "RUNDFLSTAT_0,RUNDFLSTAT_1"
bitfld.long 0x00 3. "RRDY,Receive Buffer Threshold Reached (RRDY bit is set to 1 when the receive buffer occupied locations are equal or above the THRSH1_REG value)" "RRDY_0,RRDY_1"
bitfld.long 0x00 2. "REOF,Receive End Of Frame (REOF is set to 1 when a complete frame was received)" "REOF_0,REOF_1"
bitfld.long 0x00 1. "RFSR,Receive Frame Synchronization (RFSR bit is set to 1 when a new receive frame synchronization is asserted)" "RFSR_0,RFSR_1"
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bitfld.long 0x00 0. "RSYNCERR,Receive Frame Synchronization Error (RSYNCERR is set to 1 when a receive frame-sync error is detected)" "RSYNCERR_0,RSYNCERR_1"
line.long 0x04 "MCBSPLP_IRQENABLE_REG,McBSPLP Interrupt Enable register (interconnect compliant IRQ line)"
bitfld.long 0x04 14. "XEMPTYEOFEN,Transmit buffer empty at end of frame enable bit" "XEMPTYEOFEN_0,XEMPTYEOFEN_1"
bitfld.long 0x04 12. "XOVFLEN,Transmit Buffer Overflow enable bit" "XOVFLEN_0,XOVFLEN_1"
bitfld.long 0x04 11. "XUNDFLEN,Transmit Buffer Underflow enable bit" "XUNDFLEN_0,XUNDFLEN_1"
bitfld.long 0x04 10. "XRDYEN,Transmit Buffer Threshold Reached enable bit" "XRDYEN_0,XRDYEN_1"
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bitfld.long 0x04 9. "XEOFEN,Transmit End Of Frame enable bit" "XEOFEN_0,XEOFEN_1"
bitfld.long 0x04 8. "XFSXEN,Transmit Frame Synchronization enable bit" "XFSXEN_0,XFSXEN_1"
bitfld.long 0x04 7. "XSYNCERREN,Transmit Frame Synchronization Error enable bit" "XSYNCERREN_0,XSYNCERREN_1"
bitfld.long 0x04 5. "ROVFLEN,Receive Buffer Overflow enable bit" "ROVFLEN_0,ROVFLEN_1"
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bitfld.long 0x04 4. "RUNDFLEN,Receive Buffer Underflow enable bit" "RUNDFLEN_0,RUNDFLEN_1"
bitfld.long 0x04 3. "RRDYEN,Receive Buffer Threshold enable bit" "RRDYEN_0,RRDYEN_1"
bitfld.long 0x04 2. "REOFEN,Receive End Of Frame enable bit" "REOFEN_0,REOFEN_1"
bitfld.long 0x04 1. "RFSREN,Receive Frame Synchronization enable bit" "RFSREN_0,RFSREN_1"
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bitfld.long 0x04 0. "RSYNCERREN,Receive Frame Synchronization Error enable bit" "RSYNCERREN_0,RSYNCERREN_1"
line.long 0x08 "MCBSPLP_WAKEUPEN_REG,McBSPLP Wakeup Enable register"
bitfld.long 0x08 14. "XEMPTYEOFEN,Transmit Buffer Empty at End Of Frame enable bit" "XEMPTYEOFEN_0,XEMPTYEOFEN_1"
bitfld.long 0x08 10. "XRDYEN,Transmit Buffer Threshold Reached WK enable bit" "XRDYEN_0,XRDYEN_1"
bitfld.long 0x08 9. "XEOFEN,Transmit End Of Frame WK enable bit" "XEOFEN_0,XEOFEN_1"
bitfld.long 0x08 8. "XFSXEN,Transmit Frame Synchronization WK enable bit" "XFSXEN_0,XFSXEN_1"
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bitfld.long 0x08 7. "XSYNCERREN,Transmit Frame Synchronization Error WK enable bit" "XSYNCERREN_0,XSYNCERREN_1"
bitfld.long 0x08 3. "RRDYEN,Receive Buffer Threshold wakeup enable bit" "RRDYEN_0,RRDYEN_1"
bitfld.long 0x08 2. "REOFEN,Receive End Of Frame WK enable bit" "REOFEN_0,REOFEN_1"
bitfld.long 0x08 1. "RFSREN,Receive Frame Synchronization WK enable bit" "RFSREN_0,RFSREN_1"
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bitfld.long 0x08 0. "RSYNCERREN,Receive Frame Synchronization Error WK enable bit" "RSYNCERREN_0,RSYNCERREN_1"
line.long 0x0C "MCBSPLP_XCCR_REG,McBSPLP transmit configuration control register"
bitfld.long 0x0C 15. "EXTCLKGATE,External clock gating enable (CLKX and FSX master only)" "EXTCLKGATE_0,EXTCLKGATE_1"
bitfld.long 0x0C 14. "PPCONNECT,Pair to pair connection" "PPCONNECT_0,PPCONNECT_1"
bitfld.long 0x0C 12.--13. "DXENDLY,When DXENA bit in SPCR1 is set to 1 this field selects the added delay as follow" "DXENDLY_0,DXENDLY_1,DXENDLY_2,DXENDLY_3"
bitfld.long 0x0C 11. "XFULL_CYCLE,Transmit full-cycle mode select" "XFULL_CYCLE_0,XFULL_CYCLE_1"
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bitfld.long 0x0C 5. "DLB,Digital Loop-Back" "DLB_0,DLB_1"
bitfld.long 0x0C 3. "XDMAEN,Transmit DMA Enable bit" "XDMAEN_0,XDMAEN_1"
bitfld.long 0x0C 0. "XDISABLE,Transmit Disable bit" "XDISABLE_0,XDISABLE_1"
line.long 0x10 "MCBSPLP_RCCR_REG,McBSPLP receive configuration control register"
bitfld.long 0x10 11. "RFULL_CYCLE,Receive full-cycle mode select" "RFULL_CYCLE_0,RFULL_CYCLE_1"
bitfld.long 0x10 3. "RDMAEN,Receive DMA Enable bit" "RDMAEN_0,RDMAEN_1"
bitfld.long 0x10 0. "RDISABLE,Receive Disable bit" "RDISABLE_0,RDISABLE_1"
line.long 0x14 "MCBSPLP_XBUFFSTAT_REG,McBSPLP transmit buffer status"
hexmask.long.byte 0x14 0.--7. 1. "XBUFFSTAT,Transmit Buffer Status (indicates the number of free locations inside transmit buffer)"
line.long 0x18 "MCBSPLP_RBUFFSTAT_REG,McBSPLP receive buffer status"
hexmask.long.byte 0x18 0.--7. 1. "RBUFFSTAT,Receive Buffer Status (indicates the number of occupied locations inside receive buffer)"
tree.end
tree "MCBSP2_Cortex_A9"
base ansd:0x40124000
rgroup.long 0x00++0x03
line.long 0x00 "MCBSPLP_DRR_REG,McBSPLP data receive register"
group.long 0x08++0x03
line.long 0x00 "MCBSPLP_DXR_REG,McBSPLP data transmit register"
group.long 0x10++0x87
line.long 0x00 "MCBSPLP_SPCR2_REG,McBSPLP serial port control register 2"
bitfld.long 0x00 9. "FREE,Free Running Mode (When this bit is set the module ignores the Msuspend input)" "FREE_0,FREE_1"
bitfld.long 0x00 8. "SOFT,Soft Bit" "SOFT_0,SOFT_1"
bitfld.long 0x00 7. "FRST,Frame-Sync Generator Reset" "FRST_0,FRST_1"
bitfld.long 0x00 6. "GRST,Sample-Rate Generator Reset" "GRST_0,GRST_1"
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bitfld.long 0x00 4.--5. "XINTM,Transmit Interrupt Mode (legacy)" "XINTM_0,XINTM_1,XINTM_2,XINTM_3"
bitfld.long 0x00 3. "XSYNCERR,Transmit Synchronization Error (writing 0 to this bit clear the legacy transmit interrupt if asserted due to XSYNCERR condition)" "XSYNCERR_0,XSYNCERR_1"
rbitfld.long 0x00 2. "XEMPTY,Transmit Shift Register XSR Empty" "XEMPTY_0_r,XEMPTY_1_r"
rbitfld.long 0x00 1. "XRDY,Transmitter ready" "XRDY_0_r,XRDY_1_r"
newline
bitfld.long 0x00 0. "XRST,Transmitter reset" "XRST_0,XRST_1"
line.long 0x04 "MCBSPLP_SPCR1_REG,McBSPLP serial port control register 1"
bitfld.long 0x04 15. "ALB,Analog Loopback Mode" "ALB_0,ALB_1"
bitfld.long 0x04 13.--14. "RJUST,Receive Sign-Extension and Justification Mode" "RJUST_0,RJUST_1,RJUST_2,RJUST_3"
bitfld.long 0x04 7. "DXENA,DX Enabler" "DXENA_0,DXENA_1"
bitfld.long 0x04 4.--5. "RINTM,Receive Interrupt Mode (legacy)" "RINTM_0,RINTM_1,RINTM_2,RINTM_3"
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bitfld.long 0x04 3. "RSYNCERR,Receive Synchronization Error (writing 0 to this bit clear the legacy receive interrupt if asserted due to RSYNCERR condition)" "RSYNCERR_0,RSYNCERR_1"
rbitfld.long 0x04 2. "RFULL,Receive Shift Register (RSR]) Full" "RFULL_0_r,RFULL_1_r"
rbitfld.long 0x04 1. "RRDY,Receiver Ready" "RRDY_0_r,RRDY_1_r"
bitfld.long 0x04 0. "RRST,Receiver reset" "RRST_0,RRST_1"
line.long 0x08 "MCBSPLP_RCR2_REG,McBSPLP receive control register 2"
bitfld.long 0x08 15. "RPHASE,Receive Phases" "RPHASE_0,RPHASE_1"
hexmask.long.byte 0x08 8.--14. 1. "RFRLEN2,Receive Frame Length 2 Single-phase frame selected: RFRLEN2=don't care Dual-phase frame selected: RFRLEN2=000"
bitfld.long 0x08 5.--7. "RWDLEN2,Receive Word Length" "RWDLEN2_0,RWDLEN2_1,RWDLEN2_2,RWDLEN2_3,RWDLEN2_4,RWDLEN2_5,RWDLEN2_6,RWDLEN2_7"
bitfld.long 0x08 3.--4. "RREVERSE,Receive reverse mode" "RREVERSE_0,RREVERSE_1,RREVERSE_2,RREVERSE_3"
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bitfld.long 0x08 0.--1. "RDATDLY,Receive Data Delay" "RDATDLY_0,RDATDLY_1,RDATDLY_2,RDATDLY_3"
line.long 0x0C "MCBSPLP_RCR1_REG,McBSPLP receive control register 1"
hexmask.long.byte 0x0C 8.--14. 1. "RFRLEN1,Receive Frame Length 1 Single-phase frame selected: RFRLEN1=000"
bitfld.long 0x0C 5.--7. "RWDLEN1,Receive Word Length" "RWDLEN1_0,RWDLEN1_1,RWDLEN1_2,RWDLEN1_3,RWDLEN1_4,RWDLEN1_5,RWDLEN1_6,RWDLEN1_7"
line.long 0x10 "MCBSPLP_XCR2_REG,McBSPLP transmit control register 2"
bitfld.long 0x10 15. "XPHASE,Transmit Phases" "XPHASE_0,XPHASE_1"
hexmask.long.byte 0x10 8.--14. 1. "XFRLEN2,Transmit Frame Length 2 Single-phase frame selected: XFRLEN2=don't care Dual-phase frame selected: XFRLEN2=000"
bitfld.long 0x10 5.--7. "XWDLEN2,Transmit Word Length" "XWDLEN2_0,XWDLEN2_1,XWDLEN2_2,XWDLEN2_3,XWDLEN2_4,XWDLEN2_5,XWDLEN2_6,XWDLEN2_7"
bitfld.long 0x10 3.--4. "XREVERSE,Transmit reverse mode" "XREVERSE_0,XREVERSE_1,XREVERSE_2,XREVERSE_3"
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bitfld.long 0x10 0.--1. "XDATDLY,Transmit Data Delay" "XDATDLY_0,XDATDLY_1,XDATDLY_2,XDATDLY_3"
line.long 0x14 "MCBSPLP_XCR1_REG,McBSPLP transmit control register 1"
hexmask.long.byte 0x14 8.--14. 1. "XFRLEN1,Transmit Frame Length 1 Single-phase frame selected: XFRLEN1=000"
bitfld.long 0x14 5.--7. "XWDLEN1,Transmit Word Length" "XWDLEN1_0,XWDLEN1_1,XWDLEN1_2,XWDLEN1_3,XWDLEN1_4,XWDLEN1_5,XWDLEN1_6,XWDLEN1_7"
line.long 0x18 "MCBSPLP_SRGR2_REG,McBSPLP sample rate generator register 2"
bitfld.long 0x18 15. "GSYNC," "GSYNC_0,GSYNC_1"
bitfld.long 0x18 14. "CLKSP,CLKS Polarity Clock Edge Select Only used when the external clock CLKS drives the SRG clock (CLKSM=0)" "CLKSP_0,CLKSP_1"
bitfld.long 0x18 13. "CLKSM,McBSPLP Sample Rate Generator Clock Mode" "CLKSM_0,CLKSM_1"
bitfld.long 0x18 12. "FSGM,Sample Rate Generator Transmit Frame-Synchronization Mode Used when FSXM=1 in the PCR" "FSGM_0,FSGM_1"
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hexmask.long.word 0x18 0.--11. 1. "FPER,Frame Period"
line.long 0x1C "MCBSPLP_SRGR1_REG,McBSPLP sample rate generator register 1"
hexmask.long.byte 0x1C 8.--15. 1. "FWID,Frame Width"
hexmask.long.byte 0x1C 0.--7. 1. "CLKGDV,Sample Rate Generator Clock Divider This value is used as the divide-down number to generate the required SRG clock frequency"
line.long 0x20 "MCBSPLP_MCR2_REG,McBSPLP multi channel register 2"
bitfld.long 0x20 9. "XMCME," "XMCME_0,XMCME_1"
bitfld.long 0x20 7.--8. "XPBBLK,Transmit Partition B Block (legacy)" "XPBBLK_0,XPBBLK_1,XPBBLK_2,XPBBLK_3"
bitfld.long 0x20 5.--6. "XPABLK,Transmit Partition A Block (legacy)" "XPABLK_0,XPABLK_1,XPABLK_2,XPABLK_3"
bitfld.long 0x20 0.--1. "XMCM,Transmit Multichannel Selection Enable" "XMCM_0,XMCM_1,XMCM_2,XMCM_3"
line.long 0x24 "MCBSPLP_MCR1_REG,McBSPLP multi channel register 1"
bitfld.long 0x24 9. "RMCME,(legacy)" "RMCME_0,RMCME_1"
bitfld.long 0x24 7.--8. "RPBBLK,Receive Partition B Block (legacy)" "RPBBLK_0,RPBBLK_1,RPBBLK_2,RPBBLK_3"
bitfld.long 0x24 5.--6. "RPABLK,Receive Partition A Block (legacy)" "RPABLK_0,RPABLK_1,RPABLK_2,RPABLK_3"
bitfld.long 0x24 0. "RMCM,Receive Multichannel Selection Enable" "RMCM_0,RMCM_1"
line.long 0x28 "MCBSPLP_RCERA_REG,McBSPLP receive channel enable register partition A"
hexmask.long.word 0x28 0.--15. 1. "RCERA,Receive Channel Enable RCERA n=0 Disables reception of n-th channel in an even-numbered block in partition A RCERA n=1 Enables reception of n-th channel in an even-numbered block in partition A"
line.long 0x2C "MCBSPLP_RCERB_REG,McBSPLP receive channel enable register partition B"
hexmask.long.word 0x2C 0.--15. 1. "RCERB,Receive Channel Enable RCERB n=0 Disables reception of n-th channel in a even-numbered block in partition B RCERB n=1 Enables reception of n-th channel in a even-numbered block in partition B"
line.long 0x30 "MCBSPLP_XCERA_REG,McBSPLP transmit channel enable register partition A"
hexmask.long.word 0x30 0.--15. 1. "XCERA,Transmit Channel Enable XCERA n=0 Disables transmission of n-th channel in an event-numbered block in partition A XCERA n=1 Enables transmission of n-th channel in an event-numbered block in partition A"
line.long 0x34 "MCBSPLP_XCERB_REG,McBSPLP transmit channel enable register partition B"
hexmask.long.word 0x34 0.--15. 1. "XCERB,Transmit Channel Enable XCERB n=0 Disables transmission of n-th channel in an even-numbered block in partition B XCERB n=1 Enables transmission of n-th channel in an even-numbered block in partition B"
line.long 0x38 "MCBSPLP_PCR_REG,McBSPLP pin control register"
bitfld.long 0x38 14. "IDLE_EN,Idle enable" "IDLE_EN_0,IDLE_EN_1"
bitfld.long 0x38 13. "XIOEN,Transmit General Purpose I/O Mode only when XRST=0 in SPCR[1 2] (legacy)" "XIOEN_0,XIOEN_1"
bitfld.long 0x38 12. "RIOEN,Receive General Purpose I/O Mode when RRST=0 in SPCR[1 2] (legacy)" "RIOEN_0,RIOEN_1"
bitfld.long 0x38 11. "FSXM,Transmit Frame-Synchronization Mode" "FSXM_0,FSXM_1"
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bitfld.long 0x38 10. "FSRM,Receive Frame-Synchronization Mode" "FSRM_0,FSRM_1"
bitfld.long 0x38 9. "CLKXM,Transmitter Clock Mode" "CLKXM_0,CLKXM_1"
bitfld.long 0x38 8. "CLKRM,Receiver Clock Mode" "CLKRM_0,CLKRM_1"
bitfld.long 0x38 7. "SCLKME,The frequency of CLKG is: CLKG frequency = (Input clock frequency) / (CLKGDV + 1) SCLKME is used in conjunction with the CLKSM bit to select the input clock" "SCLKME_0,SCLKME_1"
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rbitfld.long 0x38 6. "CLKS_STAT,CLKS pin status" "CLKS_STAT_0_r,CLKS_STAT_1_r"
bitfld.long 0x38 5. "DX_STAT,DX pin status" "DX_STAT_0,DX_STAT_1"
rbitfld.long 0x38 4. "DR_STAT,DR pin status" "DR_STAT_0_r,DR_STAT_1_r"
bitfld.long 0x38 3. "FSXP,Transmit Frame-Synchronization Polarity" "FSXP_0,FSXP_1"
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bitfld.long 0x38 2. "FSRP,Receive Frame-Synchronization Polarity" "FSRP_0,FSRP_1"
bitfld.long 0x38 1. "CLKXP,Transmit Clock Polarity" "CLKXP_0,CLKXP_1"
bitfld.long 0x38 0. "CLKRP,Receive Clock Polarity" "CLKRP_0,CLKRP_1"
line.long 0x3C "MCBSPLP_RCERC_REG,McBSPLP receive channel enable register partition C"
hexmask.long.word 0x3C 0.--15. 1. "RCERC,Receive Channel Enable RCERC n=0 Disables reception of n-th channel in an even-numbered block in partition C RCERC n=1 Enables reception of n-th channel in an even-numbered block in partition C"
line.long 0x40 "MCBSPLP_RCERD_REG,McBSPLP receive channel enable register partition D"
hexmask.long.word 0x40 0.--15. 1. "RCERD,Receive Channel Enable RCERD n=0 Disables reception of n-th channel in an even-numbered block in partition D RCERD n=1 Enables reception of n-th channel in an even-numbered block in partition D"
line.long 0x44 "MCBSPLP_XCERC_REG,McBSPLP transmit channel enable register partition C"
hexmask.long.word 0x44 0.--15. 1. "XCERC,Transmit Channel Enable XCERC n=0 Disables transmission of n-th channel in an event-numbered block in partition C XCERC n=1 Enables transmission of n-th channel in an event-numbered block in partition C"
line.long 0x48 "MCBSPLP_XCERD_REG,McBSPLP transmit channel enable register partition D"
hexmask.long.word 0x48 0.--15. 1. "XCERD,Transmit Channel Enable XCERD n=0 Disables transmission of n-th channel in an even-numbered block in partition D XCERD n=1 Enables transmission of n-th channel in an even-numbered block in partition D"
line.long 0x4C "MCBSPLP_RCERE_REG,McBSPLP receive channel enable register partition E"
hexmask.long.word 0x4C 0.--15. 1. "RCERE,Receive Channel Enable RCERE n=0 Disables reception of n-th channel in an even-numbered block in partition E RCERE n=1 Enables reception of n-th channel in an even-numbered block in partition E"
line.long 0x50 "MCBSPLP_RCERF_REG,McBSPLP receive channel enable register partition F"
hexmask.long.word 0x50 0.--15. 1. "RCERF,Receive Channel Enable RCERF n=0 Disables reception of n-th channel in an even-numbered block in partition F RCERF n=1 Enables reception of n-th channel in an even-numbered block in partition F"
line.long 0x54 "MCBSPLP_XCERE_REG,McBSPLP transmit channel enable register partition E"
hexmask.long.word 0x54 0.--15. 1. "XCERE,Transmit Channel Enable XCERE n=0 Disables transmission of n-th channel in an event-numbered block in partition E XCERE n=1 Enables transmission of n-th channel in an event-numbered block in partition E"
line.long 0x58 "MCBSPLP_XCERF_REG,McBSPLP transmit channel enable register partition F"
hexmask.long.word 0x58 0.--15. 1. "XCERF,Transmit Channel Enable XCERF n=0 Disables transmission of n-th channel in an even-numbered block in partition F XCERF n=1 Enables transmission of n-th channel in an even-numbered block in partition F"
line.long 0x5C "MCBSPLP_RCERG_REG,McBSPLP receive channel enable register partition G"
hexmask.long.word 0x5C 0.--15. 1. "RCERG,Receive Channel Enable RCERG n=0 Disables reception of n-th channel in an even-numbered block in partition G RCERG n=1 Enables reception of n-th channel in an even-numbered block in partition G"
line.long 0x60 "MCBSPLP_RCERH_REG,McBSPLP receive channel enable register partition H"
hexmask.long.word 0x60 0.--15. 1. "RCERH,Receive Channel Enable RCERH n=0 Disables reception of n-th channel in an even-numbered block in partition H RCERH n=1 Enables reception of n-th channel in an even-numbered block in partition H"
line.long 0x64 "MCBSPLP_XCERG_REG,McBSPLP transmit channel enable register partition G"
hexmask.long.word 0x64 0.--15. 1. "XCERG,Transmit Channel Enable XCERG n=0 Disables transmission of n-th channel in an event-numbered block in partition G XCERG n=1 Enables transmission of n-th channel in an event-numbered block in partition G"
line.long 0x68 "MCBSPLP_XCERH_REG,McBSPLP transmit channel enable register partition H"
hexmask.long.word 0x68 0.--15. 1. "XCERH,Transmit Channel Enable XCERH n=0 Disables transmission of n-th channel in an even-numbered block in partition H XCERH n=1 Enables transmission of n-th channel in an even-numbered block in partition H"
line.long 0x6C "MCBSPLP_REV_REG,MCBSPLP Revision number register"
hexmask.long.byte 0x6C 0.--7. 1. "REV,Revision number"
line.long 0x70 "MCBSPLP_RINTCLR_REG,McBSPLP receive interrupt clear"
line.long 0x74 "MCBSPLP_XINTCLR_REG,McBSPLP transmit interrupt clear (legacy)"
line.long 0x78 "MCBSPLP_ROVFLCLR_REG,McBSPLP receive overflow interrupt clear"
line.long 0x7C "MCBSPLP_SYSCONFIG_REG,McBSPLP System Configuration register"
bitfld.long 0x7C 8.--9. "CLOCKACTIVITY," "CLOCKACTIVITY_0,CLOCKACTIVITY_1,CLOCKACTIVITY_2,CLOCKACTIVITY_3"
bitfld.long 0x7C 3.--4. "SIDLEMODE,Slave interface power management req/ack control" "SIDLEMODE_0,SIDLEMODE_1,SIDLEMODE_2,SIDLEMODE_3"
bitfld.long 0x7C 2. "ENAWAKEUP,WakeUp feature control" "ENAWAKEUP_0,ENAWAKEUP_1"
bitfld.long 0x7C 1. "SOFTRESET,McBSPLP global software reset" "SOFTRESET_0,SOFTRESET_1"
line.long 0x80 "MCBSPLP_THRSH2_REG,McBSPLP transmit buffer threshold (DMA or IRQ trigger)"
hexmask.long.byte 0x80 0.--6. 1. "XTHRESHOLD,Transmit buffer threshold value"
line.long 0x84 "MCBSPLP_THRSH1_REG,McBSPLP receive buffer threshold (DMA or IRQ trigger)"
hexmask.long.byte 0x84 0.--6. 1. "RTHRESHOLD,Receive buffer threshold value"
group.long 0xA0++0x1B
line.long 0x00 "MCBSPLP_IRQSTATUS_REG,McBSPLP Interrupt Status register (interconnect compliant IRQ line)"
bitfld.long 0x00 14. "XEMPTYEOF,Transmit Buffer Empty at end of frame (XEMPTYEOF is set to 1 when a complete frame was transmitted and the transmit buffer is empty)" "XEMPTYEOF_0,XEMPTYEOF_1"
bitfld.long 0x00 12. "XOVFLSTAT,Transmit Buffer Overflow (XOVFLSTAT bit is set to 1 when transmit buffer overflow; the data which is written while overflow condition is discarded)" "XOVFLSTAT_0,XOVFLSTAT_1"
bitfld.long 0x00 11. "XUNDFLSTAT,Transmit Buffer Underflow (XUNDFLSTAT bit is set to 1 when the transmit data buffer is empty new data is required to be transmitted)" "XUNDFLSTAT_0,XUNDFLSTAT_1"
bitfld.long 0x00 10. "XRDY,Transmit Buffer Threshold Reached (XRDY bit is set to 1 when the transmit buffer free locations are equal or above the THRSH2_REG value)" "XRDY_0,XRDY_1"
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bitfld.long 0x00 9. "XEOF,Transmit End Of Frame (XEOF is set to 1 when a complete frame was transmitted)" "XEOF_0,XEOF_1"
bitfld.long 0x00 8. "XFSX,Transmit Frame Synchronization (XFSX bit is set to 1 when a new transmit frame synchronization is asserted)" "XFSX_0,XFSX_1"
bitfld.long 0x00 7. "XSYNCERR,Transmit Frame Synchronization Error (XSYNCERR is set to 1 when a transmit frame-sync error is detected)" "XSYNCERR_0,XSYNCERR_1"
bitfld.long 0x00 5. "ROVFLSTAT,Receive Buffer Overflow (ROVFLSTAT bit is set to 1 when receive buffer overflow; the data which is written while overflow condition is discarded)" "ROVFLSTAT_0,ROVFLSTAT_1"
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bitfld.long 0x00 4. "RUNDFLSTAT,Receive Buffer Underflow (RUNDFLSTAT bit is set to 1 when read operation is performed to the receive data register while receive buffer is empty; data read while underflow condition is undefined)" "RUNDFLSTAT_0,RUNDFLSTAT_1"
bitfld.long 0x00 3. "RRDY,Receive Buffer Threshold Reached (RRDY bit is set to 1 when the receive buffer occupied locations are equal or above the THRSH1_REG value)" "RRDY_0,RRDY_1"
bitfld.long 0x00 2. "REOF,Receive End Of Frame (REOF is set to 1 when a complete frame was received)" "REOF_0,REOF_1"
bitfld.long 0x00 1. "RFSR,Receive Frame Synchronization (RFSR bit is set to 1 when a new receive frame synchronization is asserted)" "RFSR_0,RFSR_1"
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bitfld.long 0x00 0. "RSYNCERR,Receive Frame Synchronization Error (RSYNCERR is set to 1 when a receive frame-sync error is detected)" "RSYNCERR_0,RSYNCERR_1"
line.long 0x04 "MCBSPLP_IRQENABLE_REG,McBSPLP Interrupt Enable register (interconnect compliant IRQ line)"
bitfld.long 0x04 14. "XEMPTYEOFEN,Transmit buffer empty at end of frame enable bit" "XEMPTYEOFEN_0,XEMPTYEOFEN_1"
bitfld.long 0x04 12. "XOVFLEN,Transmit Buffer Overflow enable bit" "XOVFLEN_0,XOVFLEN_1"
bitfld.long 0x04 11. "XUNDFLEN,Transmit Buffer Underflow enable bit" "XUNDFLEN_0,XUNDFLEN_1"
bitfld.long 0x04 10. "XRDYEN,Transmit Buffer Threshold Reached enable bit" "XRDYEN_0,XRDYEN_1"
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bitfld.long 0x04 9. "XEOFEN,Transmit End Of Frame enable bit" "XEOFEN_0,XEOFEN_1"
bitfld.long 0x04 8. "XFSXEN,Transmit Frame Synchronization enable bit" "XFSXEN_0,XFSXEN_1"
bitfld.long 0x04 7. "XSYNCERREN,Transmit Frame Synchronization Error enable bit" "XSYNCERREN_0,XSYNCERREN_1"
bitfld.long 0x04 5. "ROVFLEN,Receive Buffer Overflow enable bit" "ROVFLEN_0,ROVFLEN_1"
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bitfld.long 0x04 4. "RUNDFLEN,Receive Buffer Underflow enable bit" "RUNDFLEN_0,RUNDFLEN_1"
bitfld.long 0x04 3. "RRDYEN,Receive Buffer Threshold enable bit" "RRDYEN_0,RRDYEN_1"
bitfld.long 0x04 2. "REOFEN,Receive End Of Frame enable bit" "REOFEN_0,REOFEN_1"
bitfld.long 0x04 1. "RFSREN,Receive Frame Synchronization enable bit" "RFSREN_0,RFSREN_1"
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bitfld.long 0x04 0. "RSYNCERREN,Receive Frame Synchronization Error enable bit" "RSYNCERREN_0,RSYNCERREN_1"
line.long 0x08 "MCBSPLP_WAKEUPEN_REG,McBSPLP Wakeup Enable register"
bitfld.long 0x08 14. "XEMPTYEOFEN,Transmit Buffer Empty at End Of Frame enable bit" "XEMPTYEOFEN_0,XEMPTYEOFEN_1"
bitfld.long 0x08 10. "XRDYEN,Transmit Buffer Threshold Reached WK enable bit" "XRDYEN_0,XRDYEN_1"
bitfld.long 0x08 9. "XEOFEN,Transmit End Of Frame WK enable bit" "XEOFEN_0,XEOFEN_1"
bitfld.long 0x08 8. "XFSXEN,Transmit Frame Synchronization WK enable bit" "XFSXEN_0,XFSXEN_1"
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bitfld.long 0x08 7. "XSYNCERREN,Transmit Frame Synchronization Error WK enable bit" "XSYNCERREN_0,XSYNCERREN_1"
bitfld.long 0x08 3. "RRDYEN,Receive Buffer Threshold wakeup enable bit" "RRDYEN_0,RRDYEN_1"
bitfld.long 0x08 2. "REOFEN,Receive End Of Frame WK enable bit" "REOFEN_0,REOFEN_1"
bitfld.long 0x08 1. "RFSREN,Receive Frame Synchronization WK enable bit" "RFSREN_0,RFSREN_1"
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bitfld.long 0x08 0. "RSYNCERREN,Receive Frame Synchronization Error WK enable bit" "RSYNCERREN_0,RSYNCERREN_1"
line.long 0x0C "MCBSPLP_XCCR_REG,McBSPLP transmit configuration control register"
bitfld.long 0x0C 15. "EXTCLKGATE,External clock gating enable (CLKX and FSX master only)" "EXTCLKGATE_0,EXTCLKGATE_1"
bitfld.long 0x0C 14. "PPCONNECT,Pair to pair connection" "PPCONNECT_0,PPCONNECT_1"
bitfld.long 0x0C 12.--13. "DXENDLY,When DXENA bit in SPCR1 is set to 1 this field selects the added delay as follow" "DXENDLY_0,DXENDLY_1,DXENDLY_2,DXENDLY_3"
bitfld.long 0x0C 11. "XFULL_CYCLE,Transmit full-cycle mode select" "XFULL_CYCLE_0,XFULL_CYCLE_1"
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bitfld.long 0x0C 5. "DLB,Digital Loop-Back" "DLB_0,DLB_1"
bitfld.long 0x0C 3. "XDMAEN,Transmit DMA Enable bit" "XDMAEN_0,XDMAEN_1"
bitfld.long 0x0C 0. "XDISABLE,Transmit Disable bit" "XDISABLE_0,XDISABLE_1"
line.long 0x10 "MCBSPLP_RCCR_REG,McBSPLP receive configuration control register"
bitfld.long 0x10 11. "RFULL_CYCLE,Receive full-cycle mode select" "RFULL_CYCLE_0,RFULL_CYCLE_1"
bitfld.long 0x10 3. "RDMAEN,Receive DMA Enable bit" "RDMAEN_0,RDMAEN_1"
bitfld.long 0x10 0. "RDISABLE,Receive Disable bit" "RDISABLE_0,RDISABLE_1"
line.long 0x14 "MCBSPLP_XBUFFSTAT_REG,McBSPLP transmit buffer status"
hexmask.long.byte 0x14 0.--7. 1. "XBUFFSTAT,Transmit Buffer Status (indicates the number of free locations inside transmit buffer)"
line.long 0x18 "MCBSPLP_RBUFFSTAT_REG,McBSPLP receive buffer status"
hexmask.long.byte 0x18 0.--7. 1. "RBUFFSTAT,Receive Buffer Status (indicates the number of occupied locations inside receive buffer)"
tree.end
tree "MCBSP2_L3Interconnect"
base ansd:0x49024000
rgroup.long 0x00++0x03
line.long 0x00 "MCBSPLP_DRR_REG,McBSPLP data receive register"
group.long 0x08++0x03
line.long 0x00 "MCBSPLP_DXR_REG,McBSPLP data transmit register"
group.long 0x10++0x87
line.long 0x00 "MCBSPLP_SPCR2_REG,McBSPLP serial port control register 2"
bitfld.long 0x00 9. "FREE,Free Running Mode (When this bit is set the module ignores the Msuspend input)" "FREE_0,FREE_1"
bitfld.long 0x00 8. "SOFT,Soft Bit" "SOFT_0,SOFT_1"
bitfld.long 0x00 7. "FRST,Frame-Sync Generator Reset" "FRST_0,FRST_1"
bitfld.long 0x00 6. "GRST,Sample-Rate Generator Reset" "GRST_0,GRST_1"
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bitfld.long 0x00 4.--5. "XINTM,Transmit Interrupt Mode (legacy)" "XINTM_0,XINTM_1,XINTM_2,XINTM_3"
bitfld.long 0x00 3. "XSYNCERR,Transmit Synchronization Error (writing 0 to this bit clear the legacy transmit interrupt if asserted due to XSYNCERR condition)" "XSYNCERR_0,XSYNCERR_1"
rbitfld.long 0x00 2. "XEMPTY,Transmit Shift Register XSR Empty" "XEMPTY_0_r,XEMPTY_1_r"
rbitfld.long 0x00 1. "XRDY,Transmitter ready" "XRDY_0_r,XRDY_1_r"
newline
bitfld.long 0x00 0. "XRST,Transmitter reset" "XRST_0,XRST_1"
line.long 0x04 "MCBSPLP_SPCR1_REG,McBSPLP serial port control register 1"
bitfld.long 0x04 15. "ALB,Analog Loopback Mode" "ALB_0,ALB_1"
bitfld.long 0x04 13.--14. "RJUST,Receive Sign-Extension and Justification Mode" "RJUST_0,RJUST_1,RJUST_2,RJUST_3"
bitfld.long 0x04 7. "DXENA,DX Enabler" "DXENA_0,DXENA_1"
bitfld.long 0x04 4.--5. "RINTM,Receive Interrupt Mode (legacy)" "RINTM_0,RINTM_1,RINTM_2,RINTM_3"
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bitfld.long 0x04 3. "RSYNCERR,Receive Synchronization Error (writing 0 to this bit clear the legacy receive interrupt if asserted due to RSYNCERR condition)" "RSYNCERR_0,RSYNCERR_1"
rbitfld.long 0x04 2. "RFULL,Receive Shift Register (RSR]) Full" "RFULL_0_r,RFULL_1_r"
rbitfld.long 0x04 1. "RRDY,Receiver Ready" "RRDY_0_r,RRDY_1_r"
bitfld.long 0x04 0. "RRST,Receiver reset" "RRST_0,RRST_1"
line.long 0x08 "MCBSPLP_RCR2_REG,McBSPLP receive control register 2"
bitfld.long 0x08 15. "RPHASE,Receive Phases" "RPHASE_0,RPHASE_1"
hexmask.long.byte 0x08 8.--14. 1. "RFRLEN2,Receive Frame Length 2 Single-phase frame selected: RFRLEN2=don't care Dual-phase frame selected: RFRLEN2=000"
bitfld.long 0x08 5.--7. "RWDLEN2,Receive Word Length" "RWDLEN2_0,RWDLEN2_1,RWDLEN2_2,RWDLEN2_3,RWDLEN2_4,RWDLEN2_5,RWDLEN2_6,RWDLEN2_7"
bitfld.long 0x08 3.--4. "RREVERSE,Receive reverse mode" "RREVERSE_0,RREVERSE_1,RREVERSE_2,RREVERSE_3"
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bitfld.long 0x08 0.--1. "RDATDLY,Receive Data Delay" "RDATDLY_0,RDATDLY_1,RDATDLY_2,RDATDLY_3"
line.long 0x0C "MCBSPLP_RCR1_REG,McBSPLP receive control register 1"
hexmask.long.byte 0x0C 8.--14. 1. "RFRLEN1,Receive Frame Length 1 Single-phase frame selected: RFRLEN1=000"
bitfld.long 0x0C 5.--7. "RWDLEN1,Receive Word Length" "RWDLEN1_0,RWDLEN1_1,RWDLEN1_2,RWDLEN1_3,RWDLEN1_4,RWDLEN1_5,RWDLEN1_6,RWDLEN1_7"
line.long 0x10 "MCBSPLP_XCR2_REG,McBSPLP transmit control register 2"
bitfld.long 0x10 15. "XPHASE,Transmit Phases" "XPHASE_0,XPHASE_1"
hexmask.long.byte 0x10 8.--14. 1. "XFRLEN2,Transmit Frame Length 2 Single-phase frame selected: XFRLEN2=don't care Dual-phase frame selected: XFRLEN2=000"
bitfld.long 0x10 5.--7. "XWDLEN2,Transmit Word Length" "XWDLEN2_0,XWDLEN2_1,XWDLEN2_2,XWDLEN2_3,XWDLEN2_4,XWDLEN2_5,XWDLEN2_6,XWDLEN2_7"
bitfld.long 0x10 3.--4. "XREVERSE,Transmit reverse mode" "XREVERSE_0,XREVERSE_1,XREVERSE_2,XREVERSE_3"
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bitfld.long 0x10 0.--1. "XDATDLY,Transmit Data Delay" "XDATDLY_0,XDATDLY_1,XDATDLY_2,XDATDLY_3"
line.long 0x14 "MCBSPLP_XCR1_REG,McBSPLP transmit control register 1"
hexmask.long.byte 0x14 8.--14. 1. "XFRLEN1,Transmit Frame Length 1 Single-phase frame selected: XFRLEN1=000"
bitfld.long 0x14 5.--7. "XWDLEN1,Transmit Word Length" "XWDLEN1_0,XWDLEN1_1,XWDLEN1_2,XWDLEN1_3,XWDLEN1_4,XWDLEN1_5,XWDLEN1_6,XWDLEN1_7"
line.long 0x18 "MCBSPLP_SRGR2_REG,McBSPLP sample rate generator register 2"
bitfld.long 0x18 15. "GSYNC," "GSYNC_0,GSYNC_1"
bitfld.long 0x18 14. "CLKSP,CLKS Polarity Clock Edge Select Only used when the external clock CLKS drives the SRG clock (CLKSM=0)" "CLKSP_0,CLKSP_1"
bitfld.long 0x18 13. "CLKSM,McBSPLP Sample Rate Generator Clock Mode" "CLKSM_0,CLKSM_1"
bitfld.long 0x18 12. "FSGM,Sample Rate Generator Transmit Frame-Synchronization Mode Used when FSXM=1 in the PCR" "FSGM_0,FSGM_1"
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hexmask.long.word 0x18 0.--11. 1. "FPER,Frame Period"
line.long 0x1C "MCBSPLP_SRGR1_REG,McBSPLP sample rate generator register 1"
hexmask.long.byte 0x1C 8.--15. 1. "FWID,Frame Width"
hexmask.long.byte 0x1C 0.--7. 1. "CLKGDV,Sample Rate Generator Clock Divider This value is used as the divide-down number to generate the required SRG clock frequency"
line.long 0x20 "MCBSPLP_MCR2_REG,McBSPLP multi channel register 2"
bitfld.long 0x20 9. "XMCME," "XMCME_0,XMCME_1"
bitfld.long 0x20 7.--8. "XPBBLK,Transmit Partition B Block (legacy)" "XPBBLK_0,XPBBLK_1,XPBBLK_2,XPBBLK_3"
bitfld.long 0x20 5.--6. "XPABLK,Transmit Partition A Block (legacy)" "XPABLK_0,XPABLK_1,XPABLK_2,XPABLK_3"
bitfld.long 0x20 0.--1. "XMCM,Transmit Multichannel Selection Enable" "XMCM_0,XMCM_1,XMCM_2,XMCM_3"
line.long 0x24 "MCBSPLP_MCR1_REG,McBSPLP multi channel register 1"
bitfld.long 0x24 9. "RMCME,(legacy)" "RMCME_0,RMCME_1"
bitfld.long 0x24 7.--8. "RPBBLK,Receive Partition B Block (legacy)" "RPBBLK_0,RPBBLK_1,RPBBLK_2,RPBBLK_3"
bitfld.long 0x24 5.--6. "RPABLK,Receive Partition A Block (legacy)" "RPABLK_0,RPABLK_1,RPABLK_2,RPABLK_3"
bitfld.long 0x24 0. "RMCM,Receive Multichannel Selection Enable" "RMCM_0,RMCM_1"
line.long 0x28 "MCBSPLP_RCERA_REG,McBSPLP receive channel enable register partition A"
hexmask.long.word 0x28 0.--15. 1. "RCERA,Receive Channel Enable RCERA n=0 Disables reception of n-th channel in an even-numbered block in partition A RCERA n=1 Enables reception of n-th channel in an even-numbered block in partition A"
line.long 0x2C "MCBSPLP_RCERB_REG,McBSPLP receive channel enable register partition B"
hexmask.long.word 0x2C 0.--15. 1. "RCERB,Receive Channel Enable RCERB n=0 Disables reception of n-th channel in a even-numbered block in partition B RCERB n=1 Enables reception of n-th channel in a even-numbered block in partition B"
line.long 0x30 "MCBSPLP_XCERA_REG,McBSPLP transmit channel enable register partition A"
hexmask.long.word 0x30 0.--15. 1. "XCERA,Transmit Channel Enable XCERA n=0 Disables transmission of n-th channel in an event-numbered block in partition A XCERA n=1 Enables transmission of n-th channel in an event-numbered block in partition A"
line.long 0x34 "MCBSPLP_XCERB_REG,McBSPLP transmit channel enable register partition B"
hexmask.long.word 0x34 0.--15. 1. "XCERB,Transmit Channel Enable XCERB n=0 Disables transmission of n-th channel in an even-numbered block in partition B XCERB n=1 Enables transmission of n-th channel in an even-numbered block in partition B"
line.long 0x38 "MCBSPLP_PCR_REG,McBSPLP pin control register"
bitfld.long 0x38 14. "IDLE_EN,Idle enable" "IDLE_EN_0,IDLE_EN_1"
bitfld.long 0x38 13. "XIOEN,Transmit General Purpose I/O Mode only when XRST=0 in SPCR[1 2] (legacy)" "XIOEN_0,XIOEN_1"
bitfld.long 0x38 12. "RIOEN,Receive General Purpose I/O Mode when RRST=0 in SPCR[1 2] (legacy)" "RIOEN_0,RIOEN_1"
bitfld.long 0x38 11. "FSXM,Transmit Frame-Synchronization Mode" "FSXM_0,FSXM_1"
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bitfld.long 0x38 10. "FSRM,Receive Frame-Synchronization Mode" "FSRM_0,FSRM_1"
bitfld.long 0x38 9. "CLKXM,Transmitter Clock Mode" "CLKXM_0,CLKXM_1"
bitfld.long 0x38 8. "CLKRM,Receiver Clock Mode" "CLKRM_0,CLKRM_1"
bitfld.long 0x38 7. "SCLKME,The frequency of CLKG is: CLKG frequency = (Input clock frequency) / (CLKGDV + 1) SCLKME is used in conjunction with the CLKSM bit to select the input clock" "SCLKME_0,SCLKME_1"
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rbitfld.long 0x38 6. "CLKS_STAT,CLKS pin status" "CLKS_STAT_0_r,CLKS_STAT_1_r"
bitfld.long 0x38 5. "DX_STAT,DX pin status" "DX_STAT_0,DX_STAT_1"
rbitfld.long 0x38 4. "DR_STAT,DR pin status" "DR_STAT_0_r,DR_STAT_1_r"
bitfld.long 0x38 3. "FSXP,Transmit Frame-Synchronization Polarity" "FSXP_0,FSXP_1"
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bitfld.long 0x38 2. "FSRP,Receive Frame-Synchronization Polarity" "FSRP_0,FSRP_1"
bitfld.long 0x38 1. "CLKXP,Transmit Clock Polarity" "CLKXP_0,CLKXP_1"
bitfld.long 0x38 0. "CLKRP,Receive Clock Polarity" "CLKRP_0,CLKRP_1"
line.long 0x3C "MCBSPLP_RCERC_REG,McBSPLP receive channel enable register partition C"
hexmask.long.word 0x3C 0.--15. 1. "RCERC,Receive Channel Enable RCERC n=0 Disables reception of n-th channel in an even-numbered block in partition C RCERC n=1 Enables reception of n-th channel in an even-numbered block in partition C"
line.long 0x40 "MCBSPLP_RCERD_REG,McBSPLP receive channel enable register partition D"
hexmask.long.word 0x40 0.--15. 1. "RCERD,Receive Channel Enable RCERD n=0 Disables reception of n-th channel in an even-numbered block in partition D RCERD n=1 Enables reception of n-th channel in an even-numbered block in partition D"
line.long 0x44 "MCBSPLP_XCERC_REG,McBSPLP transmit channel enable register partition C"
hexmask.long.word 0x44 0.--15. 1. "XCERC,Transmit Channel Enable XCERC n=0 Disables transmission of n-th channel in an event-numbered block in partition C XCERC n=1 Enables transmission of n-th channel in an event-numbered block in partition C"
line.long 0x48 "MCBSPLP_XCERD_REG,McBSPLP transmit channel enable register partition D"
hexmask.long.word 0x48 0.--15. 1. "XCERD,Transmit Channel Enable XCERD n=0 Disables transmission of n-th channel in an even-numbered block in partition D XCERD n=1 Enables transmission of n-th channel in an even-numbered block in partition D"
line.long 0x4C "MCBSPLP_RCERE_REG,McBSPLP receive channel enable register partition E"
hexmask.long.word 0x4C 0.--15. 1. "RCERE,Receive Channel Enable RCERE n=0 Disables reception of n-th channel in an even-numbered block in partition E RCERE n=1 Enables reception of n-th channel in an even-numbered block in partition E"
line.long 0x50 "MCBSPLP_RCERF_REG,McBSPLP receive channel enable register partition F"
hexmask.long.word 0x50 0.--15. 1. "RCERF,Receive Channel Enable RCERF n=0 Disables reception of n-th channel in an even-numbered block in partition F RCERF n=1 Enables reception of n-th channel in an even-numbered block in partition F"
line.long 0x54 "MCBSPLP_XCERE_REG,McBSPLP transmit channel enable register partition E"
hexmask.long.word 0x54 0.--15. 1. "XCERE,Transmit Channel Enable XCERE n=0 Disables transmission of n-th channel in an event-numbered block in partition E XCERE n=1 Enables transmission of n-th channel in an event-numbered block in partition E"
line.long 0x58 "MCBSPLP_XCERF_REG,McBSPLP transmit channel enable register partition F"
hexmask.long.word 0x58 0.--15. 1. "XCERF,Transmit Channel Enable XCERF n=0 Disables transmission of n-th channel in an even-numbered block in partition F XCERF n=1 Enables transmission of n-th channel in an even-numbered block in partition F"
line.long 0x5C "MCBSPLP_RCERG_REG,McBSPLP receive channel enable register partition G"
hexmask.long.word 0x5C 0.--15. 1. "RCERG,Receive Channel Enable RCERG n=0 Disables reception of n-th channel in an even-numbered block in partition G RCERG n=1 Enables reception of n-th channel in an even-numbered block in partition G"
line.long 0x60 "MCBSPLP_RCERH_REG,McBSPLP receive channel enable register partition H"
hexmask.long.word 0x60 0.--15. 1. "RCERH,Receive Channel Enable RCERH n=0 Disables reception of n-th channel in an even-numbered block in partition H RCERH n=1 Enables reception of n-th channel in an even-numbered block in partition H"
line.long 0x64 "MCBSPLP_XCERG_REG,McBSPLP transmit channel enable register partition G"
hexmask.long.word 0x64 0.--15. 1. "XCERG,Transmit Channel Enable XCERG n=0 Disables transmission of n-th channel in an event-numbered block in partition G XCERG n=1 Enables transmission of n-th channel in an event-numbered block in partition G"
line.long 0x68 "MCBSPLP_XCERH_REG,McBSPLP transmit channel enable register partition H"
hexmask.long.word 0x68 0.--15. 1. "XCERH,Transmit Channel Enable XCERH n=0 Disables transmission of n-th channel in an even-numbered block in partition H XCERH n=1 Enables transmission of n-th channel in an even-numbered block in partition H"
line.long 0x6C "MCBSPLP_REV_REG,MCBSPLP Revision number register"
hexmask.long.byte 0x6C 0.--7. 1. "REV,Revision number"
line.long 0x70 "MCBSPLP_RINTCLR_REG,McBSPLP receive interrupt clear"
line.long 0x74 "MCBSPLP_XINTCLR_REG,McBSPLP transmit interrupt clear (legacy)"
line.long 0x78 "MCBSPLP_ROVFLCLR_REG,McBSPLP receive overflow interrupt clear"
line.long 0x7C "MCBSPLP_SYSCONFIG_REG,McBSPLP System Configuration register"
bitfld.long 0x7C 8.--9. "CLOCKACTIVITY," "CLOCKACTIVITY_0,CLOCKACTIVITY_1,CLOCKACTIVITY_2,CLOCKACTIVITY_3"
bitfld.long 0x7C 3.--4. "SIDLEMODE,Slave interface power management req/ack control" "SIDLEMODE_0,SIDLEMODE_1,SIDLEMODE_2,SIDLEMODE_3"
bitfld.long 0x7C 2. "ENAWAKEUP,WakeUp feature control" "ENAWAKEUP_0,ENAWAKEUP_1"
bitfld.long 0x7C 1. "SOFTRESET,McBSPLP global software reset" "SOFTRESET_0,SOFTRESET_1"
line.long 0x80 "MCBSPLP_THRSH2_REG,McBSPLP transmit buffer threshold (DMA or IRQ trigger)"
hexmask.long.byte 0x80 0.--6. 1. "XTHRESHOLD,Transmit buffer threshold value"
line.long 0x84 "MCBSPLP_THRSH1_REG,McBSPLP receive buffer threshold (DMA or IRQ trigger)"
hexmask.long.byte 0x84 0.--6. 1. "RTHRESHOLD,Receive buffer threshold value"
group.long 0xA0++0x1B
line.long 0x00 "MCBSPLP_IRQSTATUS_REG,McBSPLP Interrupt Status register (interconnect compliant IRQ line)"
bitfld.long 0x00 14. "XEMPTYEOF,Transmit Buffer Empty at end of frame (XEMPTYEOF is set to 1 when a complete frame was transmitted and the transmit buffer is empty)" "XEMPTYEOF_0,XEMPTYEOF_1"
bitfld.long 0x00 12. "XOVFLSTAT,Transmit Buffer Overflow (XOVFLSTAT bit is set to 1 when transmit buffer overflow; the data which is written while overflow condition is discarded)" "XOVFLSTAT_0,XOVFLSTAT_1"
bitfld.long 0x00 11. "XUNDFLSTAT,Transmit Buffer Underflow (XUNDFLSTAT bit is set to 1 when the transmit data buffer is empty new data is required to be transmitted)" "XUNDFLSTAT_0,XUNDFLSTAT_1"
bitfld.long 0x00 10. "XRDY,Transmit Buffer Threshold Reached (XRDY bit is set to 1 when the transmit buffer free locations are equal or above the THRSH2_REG value)" "XRDY_0,XRDY_1"
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bitfld.long 0x00 9. "XEOF,Transmit End Of Frame (XEOF is set to 1 when a complete frame was transmitted)" "XEOF_0,XEOF_1"
bitfld.long 0x00 8. "XFSX,Transmit Frame Synchronization (XFSX bit is set to 1 when a new transmit frame synchronization is asserted)" "XFSX_0,XFSX_1"
bitfld.long 0x00 7. "XSYNCERR,Transmit Frame Synchronization Error (XSYNCERR is set to 1 when a transmit frame-sync error is detected)" "XSYNCERR_0,XSYNCERR_1"
bitfld.long 0x00 5. "ROVFLSTAT,Receive Buffer Overflow (ROVFLSTAT bit is set to 1 when receive buffer overflow; the data which is written while overflow condition is discarded)" "ROVFLSTAT_0,ROVFLSTAT_1"
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bitfld.long 0x00 4. "RUNDFLSTAT,Receive Buffer Underflow (RUNDFLSTAT bit is set to 1 when read operation is performed to the receive data register while receive buffer is empty; data read while underflow condition is undefined)" "RUNDFLSTAT_0,RUNDFLSTAT_1"
bitfld.long 0x00 3. "RRDY,Receive Buffer Threshold Reached (RRDY bit is set to 1 when the receive buffer occupied locations are equal or above the THRSH1_REG value)" "RRDY_0,RRDY_1"
bitfld.long 0x00 2. "REOF,Receive End Of Frame (REOF is set to 1 when a complete frame was received)" "REOF_0,REOF_1"
bitfld.long 0x00 1. "RFSR,Receive Frame Synchronization (RFSR bit is set to 1 when a new receive frame synchronization is asserted)" "RFSR_0,RFSR_1"
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bitfld.long 0x00 0. "RSYNCERR,Receive Frame Synchronization Error (RSYNCERR is set to 1 when a receive frame-sync error is detected)" "RSYNCERR_0,RSYNCERR_1"
line.long 0x04 "MCBSPLP_IRQENABLE_REG,McBSPLP Interrupt Enable register (interconnect compliant IRQ line)"
bitfld.long 0x04 14. "XEMPTYEOFEN,Transmit buffer empty at end of frame enable bit" "XEMPTYEOFEN_0,XEMPTYEOFEN_1"
bitfld.long 0x04 12. "XOVFLEN,Transmit Buffer Overflow enable bit" "XOVFLEN_0,XOVFLEN_1"
bitfld.long 0x04 11. "XUNDFLEN,Transmit Buffer Underflow enable bit" "XUNDFLEN_0,XUNDFLEN_1"
bitfld.long 0x04 10. "XRDYEN,Transmit Buffer Threshold Reached enable bit" "XRDYEN_0,XRDYEN_1"
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bitfld.long 0x04 9. "XEOFEN,Transmit End Of Frame enable bit" "XEOFEN_0,XEOFEN_1"
bitfld.long 0x04 8. "XFSXEN,Transmit Frame Synchronization enable bit" "XFSXEN_0,XFSXEN_1"
bitfld.long 0x04 7. "XSYNCERREN,Transmit Frame Synchronization Error enable bit" "XSYNCERREN_0,XSYNCERREN_1"
bitfld.long 0x04 5. "ROVFLEN,Receive Buffer Overflow enable bit" "ROVFLEN_0,ROVFLEN_1"
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bitfld.long 0x04 4. "RUNDFLEN,Receive Buffer Underflow enable bit" "RUNDFLEN_0,RUNDFLEN_1"
bitfld.long 0x04 3. "RRDYEN,Receive Buffer Threshold enable bit" "RRDYEN_0,RRDYEN_1"
bitfld.long 0x04 2. "REOFEN,Receive End Of Frame enable bit" "REOFEN_0,REOFEN_1"
bitfld.long 0x04 1. "RFSREN,Receive Frame Synchronization enable bit" "RFSREN_0,RFSREN_1"
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bitfld.long 0x04 0. "RSYNCERREN,Receive Frame Synchronization Error enable bit" "RSYNCERREN_0,RSYNCERREN_1"
line.long 0x08 "MCBSPLP_WAKEUPEN_REG,McBSPLP Wakeup Enable register"
bitfld.long 0x08 14. "XEMPTYEOFEN,Transmit Buffer Empty at End Of Frame enable bit" "XEMPTYEOFEN_0,XEMPTYEOFEN_1"
bitfld.long 0x08 10. "XRDYEN,Transmit Buffer Threshold Reached WK enable bit" "XRDYEN_0,XRDYEN_1"
bitfld.long 0x08 9. "XEOFEN,Transmit End Of Frame WK enable bit" "XEOFEN_0,XEOFEN_1"
bitfld.long 0x08 8. "XFSXEN,Transmit Frame Synchronization WK enable bit" "XFSXEN_0,XFSXEN_1"
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bitfld.long 0x08 7. "XSYNCERREN,Transmit Frame Synchronization Error WK enable bit" "XSYNCERREN_0,XSYNCERREN_1"
bitfld.long 0x08 3. "RRDYEN,Receive Buffer Threshold wakeup enable bit" "RRDYEN_0,RRDYEN_1"
bitfld.long 0x08 2. "REOFEN,Receive End Of Frame WK enable bit" "REOFEN_0,REOFEN_1"
bitfld.long 0x08 1. "RFSREN,Receive Frame Synchronization WK enable bit" "RFSREN_0,RFSREN_1"
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bitfld.long 0x08 0. "RSYNCERREN,Receive Frame Synchronization Error WK enable bit" "RSYNCERREN_0,RSYNCERREN_1"
line.long 0x0C "MCBSPLP_XCCR_REG,McBSPLP transmit configuration control register"
bitfld.long 0x0C 15. "EXTCLKGATE,External clock gating enable (CLKX and FSX master only)" "EXTCLKGATE_0,EXTCLKGATE_1"
bitfld.long 0x0C 14. "PPCONNECT,Pair to pair connection" "PPCONNECT_0,PPCONNECT_1"
bitfld.long 0x0C 12.--13. "DXENDLY,When DXENA bit in SPCR1 is set to 1 this field selects the added delay as follow" "DXENDLY_0,DXENDLY_1,DXENDLY_2,DXENDLY_3"
bitfld.long 0x0C 11. "XFULL_CYCLE,Transmit full-cycle mode select" "XFULL_CYCLE_0,XFULL_CYCLE_1"
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bitfld.long 0x0C 5. "DLB,Digital Loop-Back" "DLB_0,DLB_1"
bitfld.long 0x0C 3. "XDMAEN,Transmit DMA Enable bit" "XDMAEN_0,XDMAEN_1"
bitfld.long 0x0C 0. "XDISABLE,Transmit Disable bit" "XDISABLE_0,XDISABLE_1"
line.long 0x10 "MCBSPLP_RCCR_REG,McBSPLP receive configuration control register"
bitfld.long 0x10 11. "RFULL_CYCLE,Receive full-cycle mode select" "RFULL_CYCLE_0,RFULL_CYCLE_1"
bitfld.long 0x10 3. "RDMAEN,Receive DMA Enable bit" "RDMAEN_0,RDMAEN_1"
bitfld.long 0x10 0. "RDISABLE,Receive Disable bit" "RDISABLE_0,RDISABLE_1"
line.long 0x14 "MCBSPLP_XBUFFSTAT_REG,McBSPLP transmit buffer status"
hexmask.long.byte 0x14 0.--7. 1. "XBUFFSTAT,Transmit Buffer Status (indicates the number of free locations inside transmit buffer)"
line.long 0x18 "MCBSPLP_RBUFFSTAT_REG,McBSPLP receive buffer status"
hexmask.long.byte 0x18 0.--7. 1. "RBUFFSTAT,Receive Buffer Status (indicates the number of occupied locations inside receive buffer)"
tree.end
tree "MCBSP3_Cortex_A9"
base ansd:0x40126000
rgroup.long 0x00++0x03
line.long 0x00 "MCBSPLP_DRR_REG,McBSPLP data receive register"
group.long 0x08++0x03
line.long 0x00 "MCBSPLP_DXR_REG,McBSPLP data transmit register"
group.long 0x10++0x87
line.long 0x00 "MCBSPLP_SPCR2_REG,McBSPLP serial port control register 2"
bitfld.long 0x00 9. "FREE,Free Running Mode (When this bit is set the module ignores the Msuspend input)" "FREE_0,FREE_1"
bitfld.long 0x00 8. "SOFT,Soft Bit" "SOFT_0,SOFT_1"
bitfld.long 0x00 7. "FRST,Frame-Sync Generator Reset" "FRST_0,FRST_1"
bitfld.long 0x00 6. "GRST,Sample-Rate Generator Reset" "GRST_0,GRST_1"
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bitfld.long 0x00 4.--5. "XINTM,Transmit Interrupt Mode (legacy)" "XINTM_0,XINTM_1,XINTM_2,XINTM_3"
bitfld.long 0x00 3. "XSYNCERR,Transmit Synchronization Error (writing 0 to this bit clear the legacy transmit interrupt if asserted due to XSYNCERR condition)" "XSYNCERR_0,XSYNCERR_1"
rbitfld.long 0x00 2. "XEMPTY,Transmit Shift Register XSR Empty" "XEMPTY_0_r,XEMPTY_1_r"
rbitfld.long 0x00 1. "XRDY,Transmitter ready" "XRDY_0_r,XRDY_1_r"
newline
bitfld.long 0x00 0. "XRST,Transmitter reset" "XRST_0,XRST_1"
line.long 0x04 "MCBSPLP_SPCR1_REG,McBSPLP serial port control register 1"
bitfld.long 0x04 15. "ALB,Analog Loopback Mode" "ALB_0,ALB_1"
bitfld.long 0x04 13.--14. "RJUST,Receive Sign-Extension and Justification Mode" "RJUST_0,RJUST_1,RJUST_2,RJUST_3"
bitfld.long 0x04 7. "DXENA,DX Enabler" "DXENA_0,DXENA_1"
bitfld.long 0x04 4.--5. "RINTM,Receive Interrupt Mode (legacy)" "RINTM_0,RINTM_1,RINTM_2,RINTM_3"
newline
bitfld.long 0x04 3. "RSYNCERR,Receive Synchronization Error (writing 0 to this bit clear the legacy receive interrupt if asserted due to RSYNCERR condition)" "RSYNCERR_0,RSYNCERR_1"
rbitfld.long 0x04 2. "RFULL,Receive Shift Register (RSR]) Full" "RFULL_0_r,RFULL_1_r"
rbitfld.long 0x04 1. "RRDY,Receiver Ready" "RRDY_0_r,RRDY_1_r"
bitfld.long 0x04 0. "RRST,Receiver reset" "RRST_0,RRST_1"
line.long 0x08 "MCBSPLP_RCR2_REG,McBSPLP receive control register 2"
bitfld.long 0x08 15. "RPHASE,Receive Phases" "RPHASE_0,RPHASE_1"
hexmask.long.byte 0x08 8.--14. 1. "RFRLEN2,Receive Frame Length 2 Single-phase frame selected: RFRLEN2=don't care Dual-phase frame selected: RFRLEN2=000"
bitfld.long 0x08 5.--7. "RWDLEN2,Receive Word Length" "RWDLEN2_0,RWDLEN2_1,RWDLEN2_2,RWDLEN2_3,RWDLEN2_4,RWDLEN2_5,RWDLEN2_6,RWDLEN2_7"
bitfld.long 0x08 3.--4. "RREVERSE,Receive reverse mode" "RREVERSE_0,RREVERSE_1,RREVERSE_2,RREVERSE_3"
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bitfld.long 0x08 0.--1. "RDATDLY,Receive Data Delay" "RDATDLY_0,RDATDLY_1,RDATDLY_2,RDATDLY_3"
line.long 0x0C "MCBSPLP_RCR1_REG,McBSPLP receive control register 1"
hexmask.long.byte 0x0C 8.--14. 1. "RFRLEN1,Receive Frame Length 1 Single-phase frame selected: RFRLEN1=000"
bitfld.long 0x0C 5.--7. "RWDLEN1,Receive Word Length" "RWDLEN1_0,RWDLEN1_1,RWDLEN1_2,RWDLEN1_3,RWDLEN1_4,RWDLEN1_5,RWDLEN1_6,RWDLEN1_7"
line.long 0x10 "MCBSPLP_XCR2_REG,McBSPLP transmit control register 2"
bitfld.long 0x10 15. "XPHASE,Transmit Phases" "XPHASE_0,XPHASE_1"
hexmask.long.byte 0x10 8.--14. 1. "XFRLEN2,Transmit Frame Length 2 Single-phase frame selected: XFRLEN2=don't care Dual-phase frame selected: XFRLEN2=000"
bitfld.long 0x10 5.--7. "XWDLEN2,Transmit Word Length" "XWDLEN2_0,XWDLEN2_1,XWDLEN2_2,XWDLEN2_3,XWDLEN2_4,XWDLEN2_5,XWDLEN2_6,XWDLEN2_7"
bitfld.long 0x10 3.--4. "XREVERSE,Transmit reverse mode" "XREVERSE_0,XREVERSE_1,XREVERSE_2,XREVERSE_3"
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bitfld.long 0x10 0.--1. "XDATDLY,Transmit Data Delay" "XDATDLY_0,XDATDLY_1,XDATDLY_2,XDATDLY_3"
line.long 0x14 "MCBSPLP_XCR1_REG,McBSPLP transmit control register 1"
hexmask.long.byte 0x14 8.--14. 1. "XFRLEN1,Transmit Frame Length 1 Single-phase frame selected: XFRLEN1=000"
bitfld.long 0x14 5.--7. "XWDLEN1,Transmit Word Length" "XWDLEN1_0,XWDLEN1_1,XWDLEN1_2,XWDLEN1_3,XWDLEN1_4,XWDLEN1_5,XWDLEN1_6,XWDLEN1_7"
line.long 0x18 "MCBSPLP_SRGR2_REG,McBSPLP sample rate generator register 2"
bitfld.long 0x18 15. "GSYNC," "GSYNC_0,GSYNC_1"
bitfld.long 0x18 14. "CLKSP,CLKS Polarity Clock Edge Select Only used when the external clock CLKS drives the SRG clock (CLKSM=0)" "CLKSP_0,CLKSP_1"
bitfld.long 0x18 13. "CLKSM,McBSPLP Sample Rate Generator Clock Mode" "CLKSM_0,CLKSM_1"
bitfld.long 0x18 12. "FSGM,Sample Rate Generator Transmit Frame-Synchronization Mode Used when FSXM=1 in the PCR" "FSGM_0,FSGM_1"
newline
hexmask.long.word 0x18 0.--11. 1. "FPER,Frame Period"
line.long 0x1C "MCBSPLP_SRGR1_REG,McBSPLP sample rate generator register 1"
hexmask.long.byte 0x1C 8.--15. 1. "FWID,Frame Width"
hexmask.long.byte 0x1C 0.--7. 1. "CLKGDV,Sample Rate Generator Clock Divider This value is used as the divide-down number to generate the required SRG clock frequency"
line.long 0x20 "MCBSPLP_MCR2_REG,McBSPLP multi channel register 2"
bitfld.long 0x20 9. "XMCME," "XMCME_0,XMCME_1"
bitfld.long 0x20 7.--8. "XPBBLK,Transmit Partition B Block (legacy)" "XPBBLK_0,XPBBLK_1,XPBBLK_2,XPBBLK_3"
bitfld.long 0x20 5.--6. "XPABLK,Transmit Partition A Block (legacy)" "XPABLK_0,XPABLK_1,XPABLK_2,XPABLK_3"
bitfld.long 0x20 0.--1. "XMCM,Transmit Multichannel Selection Enable" "XMCM_0,XMCM_1,XMCM_2,XMCM_3"
line.long 0x24 "MCBSPLP_MCR1_REG,McBSPLP multi channel register 1"
bitfld.long 0x24 9. "RMCME,(legacy)" "RMCME_0,RMCME_1"
bitfld.long 0x24 7.--8. "RPBBLK,Receive Partition B Block (legacy)" "RPBBLK_0,RPBBLK_1,RPBBLK_2,RPBBLK_3"
bitfld.long 0x24 5.--6. "RPABLK,Receive Partition A Block (legacy)" "RPABLK_0,RPABLK_1,RPABLK_2,RPABLK_3"
bitfld.long 0x24 0. "RMCM,Receive Multichannel Selection Enable" "RMCM_0,RMCM_1"
line.long 0x28 "MCBSPLP_RCERA_REG,McBSPLP receive channel enable register partition A"
hexmask.long.word 0x28 0.--15. 1. "RCERA,Receive Channel Enable RCERA n=0 Disables reception of n-th channel in an even-numbered block in partition A RCERA n=1 Enables reception of n-th channel in an even-numbered block in partition A"
line.long 0x2C "MCBSPLP_RCERB_REG,McBSPLP receive channel enable register partition B"
hexmask.long.word 0x2C 0.--15. 1. "RCERB,Receive Channel Enable RCERB n=0 Disables reception of n-th channel in a even-numbered block in partition B RCERB n=1 Enables reception of n-th channel in a even-numbered block in partition B"
line.long 0x30 "MCBSPLP_XCERA_REG,McBSPLP transmit channel enable register partition A"
hexmask.long.word 0x30 0.--15. 1. "XCERA,Transmit Channel Enable XCERA n=0 Disables transmission of n-th channel in an event-numbered block in partition A XCERA n=1 Enables transmission of n-th channel in an event-numbered block in partition A"
line.long 0x34 "MCBSPLP_XCERB_REG,McBSPLP transmit channel enable register partition B"
hexmask.long.word 0x34 0.--15. 1. "XCERB,Transmit Channel Enable XCERB n=0 Disables transmission of n-th channel in an even-numbered block in partition B XCERB n=1 Enables transmission of n-th channel in an even-numbered block in partition B"
line.long 0x38 "MCBSPLP_PCR_REG,McBSPLP pin control register"
bitfld.long 0x38 14. "IDLE_EN,Idle enable" "IDLE_EN_0,IDLE_EN_1"
bitfld.long 0x38 13. "XIOEN,Transmit General Purpose I/O Mode only when XRST=0 in SPCR[1 2] (legacy)" "XIOEN_0,XIOEN_1"
bitfld.long 0x38 12. "RIOEN,Receive General Purpose I/O Mode when RRST=0 in SPCR[1 2] (legacy)" "RIOEN_0,RIOEN_1"
bitfld.long 0x38 11. "FSXM,Transmit Frame-Synchronization Mode" "FSXM_0,FSXM_1"
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bitfld.long 0x38 10. "FSRM,Receive Frame-Synchronization Mode" "FSRM_0,FSRM_1"
bitfld.long 0x38 9. "CLKXM,Transmitter Clock Mode" "CLKXM_0,CLKXM_1"
bitfld.long 0x38 8. "CLKRM,Receiver Clock Mode" "CLKRM_0,CLKRM_1"
bitfld.long 0x38 7. "SCLKME,The frequency of CLKG is: CLKG frequency = (Input clock frequency) / (CLKGDV + 1) SCLKME is used in conjunction with the CLKSM bit to select the input clock" "SCLKME_0,SCLKME_1"
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rbitfld.long 0x38 6. "CLKS_STAT,CLKS pin status" "CLKS_STAT_0_r,CLKS_STAT_1_r"
bitfld.long 0x38 5. "DX_STAT,DX pin status" "DX_STAT_0,DX_STAT_1"
rbitfld.long 0x38 4. "DR_STAT,DR pin status" "DR_STAT_0_r,DR_STAT_1_r"
bitfld.long 0x38 3. "FSXP,Transmit Frame-Synchronization Polarity" "FSXP_0,FSXP_1"
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bitfld.long 0x38 2. "FSRP,Receive Frame-Synchronization Polarity" "FSRP_0,FSRP_1"
bitfld.long 0x38 1. "CLKXP,Transmit Clock Polarity" "CLKXP_0,CLKXP_1"
bitfld.long 0x38 0. "CLKRP,Receive Clock Polarity" "CLKRP_0,CLKRP_1"
line.long 0x3C "MCBSPLP_RCERC_REG,McBSPLP receive channel enable register partition C"
hexmask.long.word 0x3C 0.--15. 1. "RCERC,Receive Channel Enable RCERC n=0 Disables reception of n-th channel in an even-numbered block in partition C RCERC n=1 Enables reception of n-th channel in an even-numbered block in partition C"
line.long 0x40 "MCBSPLP_RCERD_REG,McBSPLP receive channel enable register partition D"
hexmask.long.word 0x40 0.--15. 1. "RCERD,Receive Channel Enable RCERD n=0 Disables reception of n-th channel in an even-numbered block in partition D RCERD n=1 Enables reception of n-th channel in an even-numbered block in partition D"
line.long 0x44 "MCBSPLP_XCERC_REG,McBSPLP transmit channel enable register partition C"
hexmask.long.word 0x44 0.--15. 1. "XCERC,Transmit Channel Enable XCERC n=0 Disables transmission of n-th channel in an event-numbered block in partition C XCERC n=1 Enables transmission of n-th channel in an event-numbered block in partition C"
line.long 0x48 "MCBSPLP_XCERD_REG,McBSPLP transmit channel enable register partition D"
hexmask.long.word 0x48 0.--15. 1. "XCERD,Transmit Channel Enable XCERD n=0 Disables transmission of n-th channel in an even-numbered block in partition D XCERD n=1 Enables transmission of n-th channel in an even-numbered block in partition D"
line.long 0x4C "MCBSPLP_RCERE_REG,McBSPLP receive channel enable register partition E"
hexmask.long.word 0x4C 0.--15. 1. "RCERE,Receive Channel Enable RCERE n=0 Disables reception of n-th channel in an even-numbered block in partition E RCERE n=1 Enables reception of n-th channel in an even-numbered block in partition E"
line.long 0x50 "MCBSPLP_RCERF_REG,McBSPLP receive channel enable register partition F"
hexmask.long.word 0x50 0.--15. 1. "RCERF,Receive Channel Enable RCERF n=0 Disables reception of n-th channel in an even-numbered block in partition F RCERF n=1 Enables reception of n-th channel in an even-numbered block in partition F"
line.long 0x54 "MCBSPLP_XCERE_REG,McBSPLP transmit channel enable register partition E"
hexmask.long.word 0x54 0.--15. 1. "XCERE,Transmit Channel Enable XCERE n=0 Disables transmission of n-th channel in an event-numbered block in partition E XCERE n=1 Enables transmission of n-th channel in an event-numbered block in partition E"
line.long 0x58 "MCBSPLP_XCERF_REG,McBSPLP transmit channel enable register partition F"
hexmask.long.word 0x58 0.--15. 1. "XCERF,Transmit Channel Enable XCERF n=0 Disables transmission of n-th channel in an even-numbered block in partition F XCERF n=1 Enables transmission of n-th channel in an even-numbered block in partition F"
line.long 0x5C "MCBSPLP_RCERG_REG,McBSPLP receive channel enable register partition G"
hexmask.long.word 0x5C 0.--15. 1. "RCERG,Receive Channel Enable RCERG n=0 Disables reception of n-th channel in an even-numbered block in partition G RCERG n=1 Enables reception of n-th channel in an even-numbered block in partition G"
line.long 0x60 "MCBSPLP_RCERH_REG,McBSPLP receive channel enable register partition H"
hexmask.long.word 0x60 0.--15. 1. "RCERH,Receive Channel Enable RCERH n=0 Disables reception of n-th channel in an even-numbered block in partition H RCERH n=1 Enables reception of n-th channel in an even-numbered block in partition H"
line.long 0x64 "MCBSPLP_XCERG_REG,McBSPLP transmit channel enable register partition G"
hexmask.long.word 0x64 0.--15. 1. "XCERG,Transmit Channel Enable XCERG n=0 Disables transmission of n-th channel in an event-numbered block in partition G XCERG n=1 Enables transmission of n-th channel in an event-numbered block in partition G"
line.long 0x68 "MCBSPLP_XCERH_REG,McBSPLP transmit channel enable register partition H"
hexmask.long.word 0x68 0.--15. 1. "XCERH,Transmit Channel Enable XCERH n=0 Disables transmission of n-th channel in an even-numbered block in partition H XCERH n=1 Enables transmission of n-th channel in an even-numbered block in partition H"
line.long 0x6C "MCBSPLP_REV_REG,MCBSPLP Revision number register"
hexmask.long.byte 0x6C 0.--7. 1. "REV,Revision number"
line.long 0x70 "MCBSPLP_RINTCLR_REG,McBSPLP receive interrupt clear"
line.long 0x74 "MCBSPLP_XINTCLR_REG,McBSPLP transmit interrupt clear (legacy)"
line.long 0x78 "MCBSPLP_ROVFLCLR_REG,McBSPLP receive overflow interrupt clear"
line.long 0x7C "MCBSPLP_SYSCONFIG_REG,McBSPLP System Configuration register"
bitfld.long 0x7C 8.--9. "CLOCKACTIVITY," "CLOCKACTIVITY_0,CLOCKACTIVITY_1,CLOCKACTIVITY_2,CLOCKACTIVITY_3"
bitfld.long 0x7C 3.--4. "SIDLEMODE,Slave interface power management req/ack control" "SIDLEMODE_0,SIDLEMODE_1,SIDLEMODE_2,SIDLEMODE_3"
bitfld.long 0x7C 2. "ENAWAKEUP,WakeUp feature control" "ENAWAKEUP_0,ENAWAKEUP_1"
bitfld.long 0x7C 1. "SOFTRESET,McBSPLP global software reset" "SOFTRESET_0,SOFTRESET_1"
line.long 0x80 "MCBSPLP_THRSH2_REG,McBSPLP transmit buffer threshold (DMA or IRQ trigger)"
hexmask.long.byte 0x80 0.--6. 1. "XTHRESHOLD,Transmit buffer threshold value"
line.long 0x84 "MCBSPLP_THRSH1_REG,McBSPLP receive buffer threshold (DMA or IRQ trigger)"
hexmask.long.byte 0x84 0.--6. 1. "RTHRESHOLD,Receive buffer threshold value"
group.long 0xA0++0x1B
line.long 0x00 "MCBSPLP_IRQSTATUS_REG,McBSPLP Interrupt Status register (interconnect compliant IRQ line)"
bitfld.long 0x00 14. "XEMPTYEOF,Transmit Buffer Empty at end of frame (XEMPTYEOF is set to 1 when a complete frame was transmitted and the transmit buffer is empty)" "XEMPTYEOF_0,XEMPTYEOF_1"
bitfld.long 0x00 12. "XOVFLSTAT,Transmit Buffer Overflow (XOVFLSTAT bit is set to 1 when transmit buffer overflow; the data which is written while overflow condition is discarded)" "XOVFLSTAT_0,XOVFLSTAT_1"
bitfld.long 0x00 11. "XUNDFLSTAT,Transmit Buffer Underflow (XUNDFLSTAT bit is set to 1 when the transmit data buffer is empty new data is required to be transmitted)" "XUNDFLSTAT_0,XUNDFLSTAT_1"
bitfld.long 0x00 10. "XRDY,Transmit Buffer Threshold Reached (XRDY bit is set to 1 when the transmit buffer free locations are equal or above the THRSH2_REG value)" "XRDY_0,XRDY_1"
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bitfld.long 0x00 9. "XEOF,Transmit End Of Frame (XEOF is set to 1 when a complete frame was transmitted)" "XEOF_0,XEOF_1"
bitfld.long 0x00 8. "XFSX,Transmit Frame Synchronization (XFSX bit is set to 1 when a new transmit frame synchronization is asserted)" "XFSX_0,XFSX_1"
bitfld.long 0x00 7. "XSYNCERR,Transmit Frame Synchronization Error (XSYNCERR is set to 1 when a transmit frame-sync error is detected)" "XSYNCERR_0,XSYNCERR_1"
bitfld.long 0x00 5. "ROVFLSTAT,Receive Buffer Overflow (ROVFLSTAT bit is set to 1 when receive buffer overflow; the data which is written while overflow condition is discarded)" "ROVFLSTAT_0,ROVFLSTAT_1"
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bitfld.long 0x00 4. "RUNDFLSTAT,Receive Buffer Underflow (RUNDFLSTAT bit is set to 1 when read operation is performed to the receive data register while receive buffer is empty; data read while underflow condition is undefined)" "RUNDFLSTAT_0,RUNDFLSTAT_1"
bitfld.long 0x00 3. "RRDY,Receive Buffer Threshold Reached (RRDY bit is set to 1 when the receive buffer occupied locations are equal or above the THRSH1_REG value)" "RRDY_0,RRDY_1"
bitfld.long 0x00 2. "REOF,Receive End Of Frame (REOF is set to 1 when a complete frame was received)" "REOF_0,REOF_1"
bitfld.long 0x00 1. "RFSR,Receive Frame Synchronization (RFSR bit is set to 1 when a new receive frame synchronization is asserted)" "RFSR_0,RFSR_1"
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bitfld.long 0x00 0. "RSYNCERR,Receive Frame Synchronization Error (RSYNCERR is set to 1 when a receive frame-sync error is detected)" "RSYNCERR_0,RSYNCERR_1"
line.long 0x04 "MCBSPLP_IRQENABLE_REG,McBSPLP Interrupt Enable register (interconnect compliant IRQ line)"
bitfld.long 0x04 14. "XEMPTYEOFEN,Transmit buffer empty at end of frame enable bit" "XEMPTYEOFEN_0,XEMPTYEOFEN_1"
bitfld.long 0x04 12. "XOVFLEN,Transmit Buffer Overflow enable bit" "XOVFLEN_0,XOVFLEN_1"
bitfld.long 0x04 11. "XUNDFLEN,Transmit Buffer Underflow enable bit" "XUNDFLEN_0,XUNDFLEN_1"
bitfld.long 0x04 10. "XRDYEN,Transmit Buffer Threshold Reached enable bit" "XRDYEN_0,XRDYEN_1"
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bitfld.long 0x04 9. "XEOFEN,Transmit End Of Frame enable bit" "XEOFEN_0,XEOFEN_1"
bitfld.long 0x04 8. "XFSXEN,Transmit Frame Synchronization enable bit" "XFSXEN_0,XFSXEN_1"
bitfld.long 0x04 7. "XSYNCERREN,Transmit Frame Synchronization Error enable bit" "XSYNCERREN_0,XSYNCERREN_1"
bitfld.long 0x04 5. "ROVFLEN,Receive Buffer Overflow enable bit" "ROVFLEN_0,ROVFLEN_1"
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bitfld.long 0x04 4. "RUNDFLEN,Receive Buffer Underflow enable bit" "RUNDFLEN_0,RUNDFLEN_1"
bitfld.long 0x04 3. "RRDYEN,Receive Buffer Threshold enable bit" "RRDYEN_0,RRDYEN_1"
bitfld.long 0x04 2. "REOFEN,Receive End Of Frame enable bit" "REOFEN_0,REOFEN_1"
bitfld.long 0x04 1. "RFSREN,Receive Frame Synchronization enable bit" "RFSREN_0,RFSREN_1"
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bitfld.long 0x04 0. "RSYNCERREN,Receive Frame Synchronization Error enable bit" "RSYNCERREN_0,RSYNCERREN_1"
line.long 0x08 "MCBSPLP_WAKEUPEN_REG,McBSPLP Wakeup Enable register"
bitfld.long 0x08 14. "XEMPTYEOFEN,Transmit Buffer Empty at End Of Frame enable bit" "XEMPTYEOFEN_0,XEMPTYEOFEN_1"
bitfld.long 0x08 10. "XRDYEN,Transmit Buffer Threshold Reached WK enable bit" "XRDYEN_0,XRDYEN_1"
bitfld.long 0x08 9. "XEOFEN,Transmit End Of Frame WK enable bit" "XEOFEN_0,XEOFEN_1"
bitfld.long 0x08 8. "XFSXEN,Transmit Frame Synchronization WK enable bit" "XFSXEN_0,XFSXEN_1"
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bitfld.long 0x08 7. "XSYNCERREN,Transmit Frame Synchronization Error WK enable bit" "XSYNCERREN_0,XSYNCERREN_1"
bitfld.long 0x08 3. "RRDYEN,Receive Buffer Threshold wakeup enable bit" "RRDYEN_0,RRDYEN_1"
bitfld.long 0x08 2. "REOFEN,Receive End Of Frame WK enable bit" "REOFEN_0,REOFEN_1"
bitfld.long 0x08 1. "RFSREN,Receive Frame Synchronization WK enable bit" "RFSREN_0,RFSREN_1"
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bitfld.long 0x08 0. "RSYNCERREN,Receive Frame Synchronization Error WK enable bit" "RSYNCERREN_0,RSYNCERREN_1"
line.long 0x0C "MCBSPLP_XCCR_REG,McBSPLP transmit configuration control register"
bitfld.long 0x0C 15. "EXTCLKGATE,External clock gating enable (CLKX and FSX master only)" "EXTCLKGATE_0,EXTCLKGATE_1"
bitfld.long 0x0C 14. "PPCONNECT,Pair to pair connection" "PPCONNECT_0,PPCONNECT_1"
bitfld.long 0x0C 12.--13. "DXENDLY,When DXENA bit in SPCR1 is set to 1 this field selects the added delay as follow" "DXENDLY_0,DXENDLY_1,DXENDLY_2,DXENDLY_3"
bitfld.long 0x0C 11. "XFULL_CYCLE,Transmit full-cycle mode select" "XFULL_CYCLE_0,XFULL_CYCLE_1"
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bitfld.long 0x0C 5. "DLB,Digital Loop-Back" "DLB_0,DLB_1"
bitfld.long 0x0C 3. "XDMAEN,Transmit DMA Enable bit" "XDMAEN_0,XDMAEN_1"
bitfld.long 0x0C 0. "XDISABLE,Transmit Disable bit" "XDISABLE_0,XDISABLE_1"
line.long 0x10 "MCBSPLP_RCCR_REG,McBSPLP receive configuration control register"
bitfld.long 0x10 11. "RFULL_CYCLE,Receive full-cycle mode select" "RFULL_CYCLE_0,RFULL_CYCLE_1"
bitfld.long 0x10 3. "RDMAEN,Receive DMA Enable bit" "RDMAEN_0,RDMAEN_1"
bitfld.long 0x10 0. "RDISABLE,Receive Disable bit" "RDISABLE_0,RDISABLE_1"
line.long 0x14 "MCBSPLP_XBUFFSTAT_REG,McBSPLP transmit buffer status"
hexmask.long.byte 0x14 0.--7. 1. "XBUFFSTAT,Transmit Buffer Status (indicates the number of free locations inside transmit buffer)"
line.long 0x18 "MCBSPLP_RBUFFSTAT_REG,McBSPLP receive buffer status"
hexmask.long.byte 0x18 0.--7. 1. "RBUFFSTAT,Receive Buffer Status (indicates the number of occupied locations inside receive buffer)"
tree.end
tree "MCBSP3_L3Interconnect"
base ansd:0x49026000
rgroup.long 0x00++0x03
line.long 0x00 "MCBSPLP_DRR_REG,McBSPLP data receive register"
group.long 0x08++0x03
line.long 0x00 "MCBSPLP_DXR_REG,McBSPLP data transmit register"
group.long 0x10++0x87
line.long 0x00 "MCBSPLP_SPCR2_REG,McBSPLP serial port control register 2"
bitfld.long 0x00 9. "FREE,Free Running Mode (When this bit is set the module ignores the Msuspend input)" "FREE_0,FREE_1"
bitfld.long 0x00 8. "SOFT,Soft Bit" "SOFT_0,SOFT_1"
bitfld.long 0x00 7. "FRST,Frame-Sync Generator Reset" "FRST_0,FRST_1"
bitfld.long 0x00 6. "GRST,Sample-Rate Generator Reset" "GRST_0,GRST_1"
newline
bitfld.long 0x00 4.--5. "XINTM,Transmit Interrupt Mode (legacy)" "XINTM_0,XINTM_1,XINTM_2,XINTM_3"
bitfld.long 0x00 3. "XSYNCERR,Transmit Synchronization Error (writing 0 to this bit clear the legacy transmit interrupt if asserted due to XSYNCERR condition)" "XSYNCERR_0,XSYNCERR_1"
rbitfld.long 0x00 2. "XEMPTY,Transmit Shift Register XSR Empty" "XEMPTY_0_r,XEMPTY_1_r"
rbitfld.long 0x00 1. "XRDY,Transmitter ready" "XRDY_0_r,XRDY_1_r"
newline
bitfld.long 0x00 0. "XRST,Transmitter reset" "XRST_0,XRST_1"
line.long 0x04 "MCBSPLP_SPCR1_REG,McBSPLP serial port control register 1"
bitfld.long 0x04 15. "ALB,Analog Loopback Mode" "ALB_0,ALB_1"
bitfld.long 0x04 13.--14. "RJUST,Receive Sign-Extension and Justification Mode" "RJUST_0,RJUST_1,RJUST_2,RJUST_3"
bitfld.long 0x04 7. "DXENA,DX Enabler" "DXENA_0,DXENA_1"
bitfld.long 0x04 4.--5. "RINTM,Receive Interrupt Mode (legacy)" "RINTM_0,RINTM_1,RINTM_2,RINTM_3"
newline
bitfld.long 0x04 3. "RSYNCERR,Receive Synchronization Error (writing 0 to this bit clear the legacy receive interrupt if asserted due to RSYNCERR condition)" "RSYNCERR_0,RSYNCERR_1"
rbitfld.long 0x04 2. "RFULL,Receive Shift Register (RSR]) Full" "RFULL_0_r,RFULL_1_r"
rbitfld.long 0x04 1. "RRDY,Receiver Ready" "RRDY_0_r,RRDY_1_r"
bitfld.long 0x04 0. "RRST,Receiver reset" "RRST_0,RRST_1"
line.long 0x08 "MCBSPLP_RCR2_REG,McBSPLP receive control register 2"
bitfld.long 0x08 15. "RPHASE,Receive Phases" "RPHASE_0,RPHASE_1"
hexmask.long.byte 0x08 8.--14. 1. "RFRLEN2,Receive Frame Length 2 Single-phase frame selected: RFRLEN2=don't care Dual-phase frame selected: RFRLEN2=000"
bitfld.long 0x08 5.--7. "RWDLEN2,Receive Word Length" "RWDLEN2_0,RWDLEN2_1,RWDLEN2_2,RWDLEN2_3,RWDLEN2_4,RWDLEN2_5,RWDLEN2_6,RWDLEN2_7"
bitfld.long 0x08 3.--4. "RREVERSE,Receive reverse mode" "RREVERSE_0,RREVERSE_1,RREVERSE_2,RREVERSE_3"
newline
bitfld.long 0x08 0.--1. "RDATDLY,Receive Data Delay" "RDATDLY_0,RDATDLY_1,RDATDLY_2,RDATDLY_3"
line.long 0x0C "MCBSPLP_RCR1_REG,McBSPLP receive control register 1"
hexmask.long.byte 0x0C 8.--14. 1. "RFRLEN1,Receive Frame Length 1 Single-phase frame selected: RFRLEN1=000"
bitfld.long 0x0C 5.--7. "RWDLEN1,Receive Word Length" "RWDLEN1_0,RWDLEN1_1,RWDLEN1_2,RWDLEN1_3,RWDLEN1_4,RWDLEN1_5,RWDLEN1_6,RWDLEN1_7"
line.long 0x10 "MCBSPLP_XCR2_REG,McBSPLP transmit control register 2"
bitfld.long 0x10 15. "XPHASE,Transmit Phases" "XPHASE_0,XPHASE_1"
hexmask.long.byte 0x10 8.--14. 1. "XFRLEN2,Transmit Frame Length 2 Single-phase frame selected: XFRLEN2=don't care Dual-phase frame selected: XFRLEN2=000"
bitfld.long 0x10 5.--7. "XWDLEN2,Transmit Word Length" "XWDLEN2_0,XWDLEN2_1,XWDLEN2_2,XWDLEN2_3,XWDLEN2_4,XWDLEN2_5,XWDLEN2_6,XWDLEN2_7"
bitfld.long 0x10 3.--4. "XREVERSE,Transmit reverse mode" "XREVERSE_0,XREVERSE_1,XREVERSE_2,XREVERSE_3"
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bitfld.long 0x10 0.--1. "XDATDLY,Transmit Data Delay" "XDATDLY_0,XDATDLY_1,XDATDLY_2,XDATDLY_3"
line.long 0x14 "MCBSPLP_XCR1_REG,McBSPLP transmit control register 1"
hexmask.long.byte 0x14 8.--14. 1. "XFRLEN1,Transmit Frame Length 1 Single-phase frame selected: XFRLEN1=000"
bitfld.long 0x14 5.--7. "XWDLEN1,Transmit Word Length" "XWDLEN1_0,XWDLEN1_1,XWDLEN1_2,XWDLEN1_3,XWDLEN1_4,XWDLEN1_5,XWDLEN1_6,XWDLEN1_7"
line.long 0x18 "MCBSPLP_SRGR2_REG,McBSPLP sample rate generator register 2"
bitfld.long 0x18 15. "GSYNC," "GSYNC_0,GSYNC_1"
bitfld.long 0x18 14. "CLKSP,CLKS Polarity Clock Edge Select Only used when the external clock CLKS drives the SRG clock (CLKSM=0)" "CLKSP_0,CLKSP_1"
bitfld.long 0x18 13. "CLKSM,McBSPLP Sample Rate Generator Clock Mode" "CLKSM_0,CLKSM_1"
bitfld.long 0x18 12. "FSGM,Sample Rate Generator Transmit Frame-Synchronization Mode Used when FSXM=1 in the PCR" "FSGM_0,FSGM_1"
newline
hexmask.long.word 0x18 0.--11. 1. "FPER,Frame Period"
line.long 0x1C "MCBSPLP_SRGR1_REG,McBSPLP sample rate generator register 1"
hexmask.long.byte 0x1C 8.--15. 1. "FWID,Frame Width"
hexmask.long.byte 0x1C 0.--7. 1. "CLKGDV,Sample Rate Generator Clock Divider This value is used as the divide-down number to generate the required SRG clock frequency"
line.long 0x20 "MCBSPLP_MCR2_REG,McBSPLP multi channel register 2"
bitfld.long 0x20 9. "XMCME," "XMCME_0,XMCME_1"
bitfld.long 0x20 7.--8. "XPBBLK,Transmit Partition B Block (legacy)" "XPBBLK_0,XPBBLK_1,XPBBLK_2,XPBBLK_3"
bitfld.long 0x20 5.--6. "XPABLK,Transmit Partition A Block (legacy)" "XPABLK_0,XPABLK_1,XPABLK_2,XPABLK_3"
bitfld.long 0x20 0.--1. "XMCM,Transmit Multichannel Selection Enable" "XMCM_0,XMCM_1,XMCM_2,XMCM_3"
line.long 0x24 "MCBSPLP_MCR1_REG,McBSPLP multi channel register 1"
bitfld.long 0x24 9. "RMCME,(legacy)" "RMCME_0,RMCME_1"
bitfld.long 0x24 7.--8. "RPBBLK,Receive Partition B Block (legacy)" "RPBBLK_0,RPBBLK_1,RPBBLK_2,RPBBLK_3"
bitfld.long 0x24 5.--6. "RPABLK,Receive Partition A Block (legacy)" "RPABLK_0,RPABLK_1,RPABLK_2,RPABLK_3"
bitfld.long 0x24 0. "RMCM,Receive Multichannel Selection Enable" "RMCM_0,RMCM_1"
line.long 0x28 "MCBSPLP_RCERA_REG,McBSPLP receive channel enable register partition A"
hexmask.long.word 0x28 0.--15. 1. "RCERA,Receive Channel Enable RCERA n=0 Disables reception of n-th channel in an even-numbered block in partition A RCERA n=1 Enables reception of n-th channel in an even-numbered block in partition A"
line.long 0x2C "MCBSPLP_RCERB_REG,McBSPLP receive channel enable register partition B"
hexmask.long.word 0x2C 0.--15. 1. "RCERB,Receive Channel Enable RCERB n=0 Disables reception of n-th channel in a even-numbered block in partition B RCERB n=1 Enables reception of n-th channel in a even-numbered block in partition B"
line.long 0x30 "MCBSPLP_XCERA_REG,McBSPLP transmit channel enable register partition A"
hexmask.long.word 0x30 0.--15. 1. "XCERA,Transmit Channel Enable XCERA n=0 Disables transmission of n-th channel in an event-numbered block in partition A XCERA n=1 Enables transmission of n-th channel in an event-numbered block in partition A"
line.long 0x34 "MCBSPLP_XCERB_REG,McBSPLP transmit channel enable register partition B"
hexmask.long.word 0x34 0.--15. 1. "XCERB,Transmit Channel Enable XCERB n=0 Disables transmission of n-th channel in an even-numbered block in partition B XCERB n=1 Enables transmission of n-th channel in an even-numbered block in partition B"
line.long 0x38 "MCBSPLP_PCR_REG,McBSPLP pin control register"
bitfld.long 0x38 14. "IDLE_EN,Idle enable" "IDLE_EN_0,IDLE_EN_1"
bitfld.long 0x38 13. "XIOEN,Transmit General Purpose I/O Mode only when XRST=0 in SPCR[1 2] (legacy)" "XIOEN_0,XIOEN_1"
bitfld.long 0x38 12. "RIOEN,Receive General Purpose I/O Mode when RRST=0 in SPCR[1 2] (legacy)" "RIOEN_0,RIOEN_1"
bitfld.long 0x38 11. "FSXM,Transmit Frame-Synchronization Mode" "FSXM_0,FSXM_1"
newline
bitfld.long 0x38 10. "FSRM,Receive Frame-Synchronization Mode" "FSRM_0,FSRM_1"
bitfld.long 0x38 9. "CLKXM,Transmitter Clock Mode" "CLKXM_0,CLKXM_1"
bitfld.long 0x38 8. "CLKRM,Receiver Clock Mode" "CLKRM_0,CLKRM_1"
bitfld.long 0x38 7. "SCLKME,The frequency of CLKG is: CLKG frequency = (Input clock frequency) / (CLKGDV + 1) SCLKME is used in conjunction with the CLKSM bit to select the input clock" "SCLKME_0,SCLKME_1"
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rbitfld.long 0x38 6. "CLKS_STAT,CLKS pin status" "CLKS_STAT_0_r,CLKS_STAT_1_r"
bitfld.long 0x38 5. "DX_STAT,DX pin status" "DX_STAT_0,DX_STAT_1"
rbitfld.long 0x38 4. "DR_STAT,DR pin status" "DR_STAT_0_r,DR_STAT_1_r"
bitfld.long 0x38 3. "FSXP,Transmit Frame-Synchronization Polarity" "FSXP_0,FSXP_1"
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bitfld.long 0x38 2. "FSRP,Receive Frame-Synchronization Polarity" "FSRP_0,FSRP_1"
bitfld.long 0x38 1. "CLKXP,Transmit Clock Polarity" "CLKXP_0,CLKXP_1"
bitfld.long 0x38 0. "CLKRP,Receive Clock Polarity" "CLKRP_0,CLKRP_1"
line.long 0x3C "MCBSPLP_RCERC_REG,McBSPLP receive channel enable register partition C"
hexmask.long.word 0x3C 0.--15. 1. "RCERC,Receive Channel Enable RCERC n=0 Disables reception of n-th channel in an even-numbered block in partition C RCERC n=1 Enables reception of n-th channel in an even-numbered block in partition C"
line.long 0x40 "MCBSPLP_RCERD_REG,McBSPLP receive channel enable register partition D"
hexmask.long.word 0x40 0.--15. 1. "RCERD,Receive Channel Enable RCERD n=0 Disables reception of n-th channel in an even-numbered block in partition D RCERD n=1 Enables reception of n-th channel in an even-numbered block in partition D"
line.long 0x44 "MCBSPLP_XCERC_REG,McBSPLP transmit channel enable register partition C"
hexmask.long.word 0x44 0.--15. 1. "XCERC,Transmit Channel Enable XCERC n=0 Disables transmission of n-th channel in an event-numbered block in partition C XCERC n=1 Enables transmission of n-th channel in an event-numbered block in partition C"
line.long 0x48 "MCBSPLP_XCERD_REG,McBSPLP transmit channel enable register partition D"
hexmask.long.word 0x48 0.--15. 1. "XCERD,Transmit Channel Enable XCERD n=0 Disables transmission of n-th channel in an even-numbered block in partition D XCERD n=1 Enables transmission of n-th channel in an even-numbered block in partition D"
line.long 0x4C "MCBSPLP_RCERE_REG,McBSPLP receive channel enable register partition E"
hexmask.long.word 0x4C 0.--15. 1. "RCERE,Receive Channel Enable RCERE n=0 Disables reception of n-th channel in an even-numbered block in partition E RCERE n=1 Enables reception of n-th channel in an even-numbered block in partition E"
line.long 0x50 "MCBSPLP_RCERF_REG,McBSPLP receive channel enable register partition F"
hexmask.long.word 0x50 0.--15. 1. "RCERF,Receive Channel Enable RCERF n=0 Disables reception of n-th channel in an even-numbered block in partition F RCERF n=1 Enables reception of n-th channel in an even-numbered block in partition F"
line.long 0x54 "MCBSPLP_XCERE_REG,McBSPLP transmit channel enable register partition E"
hexmask.long.word 0x54 0.--15. 1. "XCERE,Transmit Channel Enable XCERE n=0 Disables transmission of n-th channel in an event-numbered block in partition E XCERE n=1 Enables transmission of n-th channel in an event-numbered block in partition E"
line.long 0x58 "MCBSPLP_XCERF_REG,McBSPLP transmit channel enable register partition F"
hexmask.long.word 0x58 0.--15. 1. "XCERF,Transmit Channel Enable XCERF n=0 Disables transmission of n-th channel in an even-numbered block in partition F XCERF n=1 Enables transmission of n-th channel in an even-numbered block in partition F"
line.long 0x5C "MCBSPLP_RCERG_REG,McBSPLP receive channel enable register partition G"
hexmask.long.word 0x5C 0.--15. 1. "RCERG,Receive Channel Enable RCERG n=0 Disables reception of n-th channel in an even-numbered block in partition G RCERG n=1 Enables reception of n-th channel in an even-numbered block in partition G"
line.long 0x60 "MCBSPLP_RCERH_REG,McBSPLP receive channel enable register partition H"
hexmask.long.word 0x60 0.--15. 1. "RCERH,Receive Channel Enable RCERH n=0 Disables reception of n-th channel in an even-numbered block in partition H RCERH n=1 Enables reception of n-th channel in an even-numbered block in partition H"
line.long 0x64 "MCBSPLP_XCERG_REG,McBSPLP transmit channel enable register partition G"
hexmask.long.word 0x64 0.--15. 1. "XCERG,Transmit Channel Enable XCERG n=0 Disables transmission of n-th channel in an event-numbered block in partition G XCERG n=1 Enables transmission of n-th channel in an event-numbered block in partition G"
line.long 0x68 "MCBSPLP_XCERH_REG,McBSPLP transmit channel enable register partition H"
hexmask.long.word 0x68 0.--15. 1. "XCERH,Transmit Channel Enable XCERH n=0 Disables transmission of n-th channel in an even-numbered block in partition H XCERH n=1 Enables transmission of n-th channel in an even-numbered block in partition H"
line.long 0x6C "MCBSPLP_REV_REG,MCBSPLP Revision number register"
hexmask.long.byte 0x6C 0.--7. 1. "REV,Revision number"
line.long 0x70 "MCBSPLP_RINTCLR_REG,McBSPLP receive interrupt clear"
line.long 0x74 "MCBSPLP_XINTCLR_REG,McBSPLP transmit interrupt clear (legacy)"
line.long 0x78 "MCBSPLP_ROVFLCLR_REG,McBSPLP receive overflow interrupt clear"
line.long 0x7C "MCBSPLP_SYSCONFIG_REG,McBSPLP System Configuration register"
bitfld.long 0x7C 8.--9. "CLOCKACTIVITY," "CLOCKACTIVITY_0,CLOCKACTIVITY_1,CLOCKACTIVITY_2,CLOCKACTIVITY_3"
bitfld.long 0x7C 3.--4. "SIDLEMODE,Slave interface power management req/ack control" "SIDLEMODE_0,SIDLEMODE_1,SIDLEMODE_2,SIDLEMODE_3"
bitfld.long 0x7C 2. "ENAWAKEUP,WakeUp feature control" "ENAWAKEUP_0,ENAWAKEUP_1"
bitfld.long 0x7C 1. "SOFTRESET,McBSPLP global software reset" "SOFTRESET_0,SOFTRESET_1"
line.long 0x80 "MCBSPLP_THRSH2_REG,McBSPLP transmit buffer threshold (DMA or IRQ trigger)"
hexmask.long.byte 0x80 0.--6. 1. "XTHRESHOLD,Transmit buffer threshold value"
line.long 0x84 "MCBSPLP_THRSH1_REG,McBSPLP receive buffer threshold (DMA or IRQ trigger)"
hexmask.long.byte 0x84 0.--6. 1. "RTHRESHOLD,Receive buffer threshold value"
group.long 0xA0++0x1B
line.long 0x00 "MCBSPLP_IRQSTATUS_REG,McBSPLP Interrupt Status register (interconnect compliant IRQ line)"
bitfld.long 0x00 14. "XEMPTYEOF,Transmit Buffer Empty at end of frame (XEMPTYEOF is set to 1 when a complete frame was transmitted and the transmit buffer is empty)" "XEMPTYEOF_0,XEMPTYEOF_1"
bitfld.long 0x00 12. "XOVFLSTAT,Transmit Buffer Overflow (XOVFLSTAT bit is set to 1 when transmit buffer overflow; the data which is written while overflow condition is discarded)" "XOVFLSTAT_0,XOVFLSTAT_1"
bitfld.long 0x00 11. "XUNDFLSTAT,Transmit Buffer Underflow (XUNDFLSTAT bit is set to 1 when the transmit data buffer is empty new data is required to be transmitted)" "XUNDFLSTAT_0,XUNDFLSTAT_1"
bitfld.long 0x00 10. "XRDY,Transmit Buffer Threshold Reached (XRDY bit is set to 1 when the transmit buffer free locations are equal or above the THRSH2_REG value)" "XRDY_0,XRDY_1"
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bitfld.long 0x00 9. "XEOF,Transmit End Of Frame (XEOF is set to 1 when a complete frame was transmitted)" "XEOF_0,XEOF_1"
bitfld.long 0x00 8. "XFSX,Transmit Frame Synchronization (XFSX bit is set to 1 when a new transmit frame synchronization is asserted)" "XFSX_0,XFSX_1"
bitfld.long 0x00 7. "XSYNCERR,Transmit Frame Synchronization Error (XSYNCERR is set to 1 when a transmit frame-sync error is detected)" "XSYNCERR_0,XSYNCERR_1"
bitfld.long 0x00 5. "ROVFLSTAT,Receive Buffer Overflow (ROVFLSTAT bit is set to 1 when receive buffer overflow; the data which is written while overflow condition is discarded)" "ROVFLSTAT_0,ROVFLSTAT_1"
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bitfld.long 0x00 4. "RUNDFLSTAT,Receive Buffer Underflow (RUNDFLSTAT bit is set to 1 when read operation is performed to the receive data register while receive buffer is empty; data read while underflow condition is undefined)" "RUNDFLSTAT_0,RUNDFLSTAT_1"
bitfld.long 0x00 3. "RRDY,Receive Buffer Threshold Reached (RRDY bit is set to 1 when the receive buffer occupied locations are equal or above the THRSH1_REG value)" "RRDY_0,RRDY_1"
bitfld.long 0x00 2. "REOF,Receive End Of Frame (REOF is set to 1 when a complete frame was received)" "REOF_0,REOF_1"
bitfld.long 0x00 1. "RFSR,Receive Frame Synchronization (RFSR bit is set to 1 when a new receive frame synchronization is asserted)" "RFSR_0,RFSR_1"
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bitfld.long 0x00 0. "RSYNCERR,Receive Frame Synchronization Error (RSYNCERR is set to 1 when a receive frame-sync error is detected)" "RSYNCERR_0,RSYNCERR_1"
line.long 0x04 "MCBSPLP_IRQENABLE_REG,McBSPLP Interrupt Enable register (interconnect compliant IRQ line)"
bitfld.long 0x04 14. "XEMPTYEOFEN,Transmit buffer empty at end of frame enable bit" "XEMPTYEOFEN_0,XEMPTYEOFEN_1"
bitfld.long 0x04 12. "XOVFLEN,Transmit Buffer Overflow enable bit" "XOVFLEN_0,XOVFLEN_1"
bitfld.long 0x04 11. "XUNDFLEN,Transmit Buffer Underflow enable bit" "XUNDFLEN_0,XUNDFLEN_1"
bitfld.long 0x04 10. "XRDYEN,Transmit Buffer Threshold Reached enable bit" "XRDYEN_0,XRDYEN_1"
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bitfld.long 0x04 9. "XEOFEN,Transmit End Of Frame enable bit" "XEOFEN_0,XEOFEN_1"
bitfld.long 0x04 8. "XFSXEN,Transmit Frame Synchronization enable bit" "XFSXEN_0,XFSXEN_1"
bitfld.long 0x04 7. "XSYNCERREN,Transmit Frame Synchronization Error enable bit" "XSYNCERREN_0,XSYNCERREN_1"
bitfld.long 0x04 5. "ROVFLEN,Receive Buffer Overflow enable bit" "ROVFLEN_0,ROVFLEN_1"
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bitfld.long 0x04 4. "RUNDFLEN,Receive Buffer Underflow enable bit" "RUNDFLEN_0,RUNDFLEN_1"
bitfld.long 0x04 3. "RRDYEN,Receive Buffer Threshold enable bit" "RRDYEN_0,RRDYEN_1"
bitfld.long 0x04 2. "REOFEN,Receive End Of Frame enable bit" "REOFEN_0,REOFEN_1"
bitfld.long 0x04 1. "RFSREN,Receive Frame Synchronization enable bit" "RFSREN_0,RFSREN_1"
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bitfld.long 0x04 0. "RSYNCERREN,Receive Frame Synchronization Error enable bit" "RSYNCERREN_0,RSYNCERREN_1"
line.long 0x08 "MCBSPLP_WAKEUPEN_REG,McBSPLP Wakeup Enable register"
bitfld.long 0x08 14. "XEMPTYEOFEN,Transmit Buffer Empty at End Of Frame enable bit" "XEMPTYEOFEN_0,XEMPTYEOFEN_1"
bitfld.long 0x08 10. "XRDYEN,Transmit Buffer Threshold Reached WK enable bit" "XRDYEN_0,XRDYEN_1"
bitfld.long 0x08 9. "XEOFEN,Transmit End Of Frame WK enable bit" "XEOFEN_0,XEOFEN_1"
bitfld.long 0x08 8. "XFSXEN,Transmit Frame Synchronization WK enable bit" "XFSXEN_0,XFSXEN_1"
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bitfld.long 0x08 7. "XSYNCERREN,Transmit Frame Synchronization Error WK enable bit" "XSYNCERREN_0,XSYNCERREN_1"
bitfld.long 0x08 3. "RRDYEN,Receive Buffer Threshold wakeup enable bit" "RRDYEN_0,RRDYEN_1"
bitfld.long 0x08 2. "REOFEN,Receive End Of Frame WK enable bit" "REOFEN_0,REOFEN_1"
bitfld.long 0x08 1. "RFSREN,Receive Frame Synchronization WK enable bit" "RFSREN_0,RFSREN_1"
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bitfld.long 0x08 0. "RSYNCERREN,Receive Frame Synchronization Error WK enable bit" "RSYNCERREN_0,RSYNCERREN_1"
line.long 0x0C "MCBSPLP_XCCR_REG,McBSPLP transmit configuration control register"
bitfld.long 0x0C 15. "EXTCLKGATE,External clock gating enable (CLKX and FSX master only)" "EXTCLKGATE_0,EXTCLKGATE_1"
bitfld.long 0x0C 14. "PPCONNECT,Pair to pair connection" "PPCONNECT_0,PPCONNECT_1"
bitfld.long 0x0C 12.--13. "DXENDLY,When DXENA bit in SPCR1 is set to 1 this field selects the added delay as follow" "DXENDLY_0,DXENDLY_1,DXENDLY_2,DXENDLY_3"
bitfld.long 0x0C 11. "XFULL_CYCLE,Transmit full-cycle mode select" "XFULL_CYCLE_0,XFULL_CYCLE_1"
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bitfld.long 0x0C 5. "DLB,Digital Loop-Back" "DLB_0,DLB_1"
bitfld.long 0x0C 3. "XDMAEN,Transmit DMA Enable bit" "XDMAEN_0,XDMAEN_1"
bitfld.long 0x0C 0. "XDISABLE,Transmit Disable bit" "XDISABLE_0,XDISABLE_1"
line.long 0x10 "MCBSPLP_RCCR_REG,McBSPLP receive configuration control register"
bitfld.long 0x10 11. "RFULL_CYCLE,Receive full-cycle mode select" "RFULL_CYCLE_0,RFULL_CYCLE_1"
bitfld.long 0x10 3. "RDMAEN,Receive DMA Enable bit" "RDMAEN_0,RDMAEN_1"
bitfld.long 0x10 0. "RDISABLE,Receive Disable bit" "RDISABLE_0,RDISABLE_1"
line.long 0x14 "MCBSPLP_XBUFFSTAT_REG,McBSPLP transmit buffer status"
hexmask.long.byte 0x14 0.--7. 1. "XBUFFSTAT,Transmit Buffer Status (indicates the number of free locations inside transmit buffer)"
line.long 0x18 "MCBSPLP_RBUFFSTAT_REG,McBSPLP receive buffer status"
hexmask.long.byte 0x18 0.--7. 1. "RBUFFSTAT,Receive Buffer Status (indicates the number of occupied locations inside receive buffer)"
tree.end
tree "MCBSP4_L4_PERInterconnect"
base ansd:0x48096000
rgroup.long 0x00++0x03
line.long 0x00 "MCBSPLP_DRR_REG,McBSPLP data receive register"
group.long 0x08++0x03
line.long 0x00 "MCBSPLP_DXR_REG,McBSPLP data transmit register"
group.long 0x10++0x87
line.long 0x00 "MCBSPLP_SPCR2_REG,McBSPLP serial port control register 2"
bitfld.long 0x00 9. "FREE,Free Running Mode (When this bit is set the module ignores the Msuspend input)" "FREE_0,FREE_1"
bitfld.long 0x00 8. "SOFT,Soft Bit" "SOFT_0,SOFT_1"
bitfld.long 0x00 7. "FRST,Frame-Sync Generator Reset" "FRST_0,FRST_1"
bitfld.long 0x00 6. "GRST,Sample-Rate Generator Reset" "GRST_0,GRST_1"
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bitfld.long 0x00 4.--5. "XINTM,Transmit Interrupt Mode (legacy)" "XINTM_0,XINTM_1,XINTM_2,XINTM_3"
bitfld.long 0x00 3. "XSYNCERR,Transmit Synchronization Error (writing 0 to this bit clear the legacy transmit interrupt if asserted due to XSYNCERR condition)" "XSYNCERR_0,XSYNCERR_1"
rbitfld.long 0x00 2. "XEMPTY,Transmit Shift Register XSR Empty" "XEMPTY_0_r,XEMPTY_1_r"
rbitfld.long 0x00 1. "XRDY,Transmitter ready" "XRDY_0_r,XRDY_1_r"
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bitfld.long 0x00 0. "XRST,Transmitter reset" "XRST_0,XRST_1"
line.long 0x04 "MCBSPLP_SPCR1_REG,McBSPLP serial port control register 1"
bitfld.long 0x04 15. "ALB,Analog Loopback Mode" "ALB_0,ALB_1"
bitfld.long 0x04 13.--14. "RJUST,Receive Sign-Extension and Justification Mode" "RJUST_0,RJUST_1,RJUST_2,RJUST_3"
bitfld.long 0x04 7. "DXENA,DX Enabler" "DXENA_0,DXENA_1"
bitfld.long 0x04 4.--5. "RINTM,Receive Interrupt Mode (legacy)" "RINTM_0,RINTM_1,RINTM_2,RINTM_3"
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bitfld.long 0x04 3. "RSYNCERR,Receive Synchronization Error (writing 0 to this bit clear the legacy receive interrupt if asserted due to RSYNCERR condition)" "RSYNCERR_0,RSYNCERR_1"
rbitfld.long 0x04 2. "RFULL,Receive Shift Register (RSR]) Full" "RFULL_0_r,RFULL_1_r"
rbitfld.long 0x04 1. "RRDY,Receiver Ready" "RRDY_0_r,RRDY_1_r"
bitfld.long 0x04 0. "RRST,Receiver reset" "RRST_0,RRST_1"
line.long 0x08 "MCBSPLP_RCR2_REG,McBSPLP receive control register 2"
bitfld.long 0x08 15. "RPHASE,Receive Phases" "RPHASE_0,RPHASE_1"
hexmask.long.byte 0x08 8.--14. 1. "RFRLEN2,Receive Frame Length 2 Single-phase frame selected: RFRLEN2=don't care Dual-phase frame selected: RFRLEN2=000"
bitfld.long 0x08 5.--7. "RWDLEN2,Receive Word Length" "RWDLEN2_0,RWDLEN2_1,RWDLEN2_2,RWDLEN2_3,RWDLEN2_4,RWDLEN2_5,RWDLEN2_6,RWDLEN2_7"
bitfld.long 0x08 3.--4. "RREVERSE,Receive reverse mode" "RREVERSE_0,RREVERSE_1,RREVERSE_2,RREVERSE_3"
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bitfld.long 0x08 0.--1. "RDATDLY,Receive Data Delay" "RDATDLY_0,RDATDLY_1,RDATDLY_2,RDATDLY_3"
line.long 0x0C "MCBSPLP_RCR1_REG,McBSPLP receive control register 1"
hexmask.long.byte 0x0C 8.--14. 1. "RFRLEN1,Receive Frame Length 1 Single-phase frame selected: RFRLEN1=000"
bitfld.long 0x0C 5.--7. "RWDLEN1,Receive Word Length" "RWDLEN1_0,RWDLEN1_1,RWDLEN1_2,RWDLEN1_3,RWDLEN1_4,RWDLEN1_5,RWDLEN1_6,RWDLEN1_7"
line.long 0x10 "MCBSPLP_XCR2_REG,McBSPLP transmit control register 2"
bitfld.long 0x10 15. "XPHASE,Transmit Phases" "XPHASE_0,XPHASE_1"
hexmask.long.byte 0x10 8.--14. 1. "XFRLEN2,Transmit Frame Length 2 Single-phase frame selected: XFRLEN2=don't care Dual-phase frame selected: XFRLEN2=000"
bitfld.long 0x10 5.--7. "XWDLEN2,Transmit Word Length" "XWDLEN2_0,XWDLEN2_1,XWDLEN2_2,XWDLEN2_3,XWDLEN2_4,XWDLEN2_5,XWDLEN2_6,XWDLEN2_7"
bitfld.long 0x10 3.--4. "XREVERSE,Transmit reverse mode" "XREVERSE_0,XREVERSE_1,XREVERSE_2,XREVERSE_3"
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bitfld.long 0x10 0.--1. "XDATDLY,Transmit Data Delay" "XDATDLY_0,XDATDLY_1,XDATDLY_2,XDATDLY_3"
line.long 0x14 "MCBSPLP_XCR1_REG,McBSPLP transmit control register 1"
hexmask.long.byte 0x14 8.--14. 1. "XFRLEN1,Transmit Frame Length 1 Single-phase frame selected: XFRLEN1=000"
bitfld.long 0x14 5.--7. "XWDLEN1,Transmit Word Length" "XWDLEN1_0,XWDLEN1_1,XWDLEN1_2,XWDLEN1_3,XWDLEN1_4,XWDLEN1_5,XWDLEN1_6,XWDLEN1_7"
line.long 0x18 "MCBSPLP_SRGR2_REG,McBSPLP sample rate generator register 2"
bitfld.long 0x18 15. "GSYNC," "GSYNC_0,GSYNC_1"
bitfld.long 0x18 14. "CLKSP,CLKS Polarity Clock Edge Select Only used when the external clock CLKS drives the SRG clock (CLKSM=0)" "CLKSP_0,CLKSP_1"
bitfld.long 0x18 13. "CLKSM,McBSPLP Sample Rate Generator Clock Mode" "CLKSM_0,CLKSM_1"
bitfld.long 0x18 12. "FSGM,Sample Rate Generator Transmit Frame-Synchronization Mode Used when FSXM=1 in the PCR" "FSGM_0,FSGM_1"
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hexmask.long.word 0x18 0.--11. 1. "FPER,Frame Period"
line.long 0x1C "MCBSPLP_SRGR1_REG,McBSPLP sample rate generator register 1"
hexmask.long.byte 0x1C 8.--15. 1. "FWID,Frame Width"
hexmask.long.byte 0x1C 0.--7. 1. "CLKGDV,Sample Rate Generator Clock Divider This value is used as the divide-down number to generate the required SRG clock frequency"
line.long 0x20 "MCBSPLP_MCR2_REG,McBSPLP multi channel register 2"
bitfld.long 0x20 9. "XMCME," "XMCME_0,XMCME_1"
bitfld.long 0x20 7.--8. "XPBBLK,Transmit Partition B Block (legacy)" "XPBBLK_0,XPBBLK_1,XPBBLK_2,XPBBLK_3"
bitfld.long 0x20 5.--6. "XPABLK,Transmit Partition A Block (legacy)" "XPABLK_0,XPABLK_1,XPABLK_2,XPABLK_3"
bitfld.long 0x20 0.--1. "XMCM,Transmit Multichannel Selection Enable" "XMCM_0,XMCM_1,XMCM_2,XMCM_3"
line.long 0x24 "MCBSPLP_MCR1_REG,McBSPLP multi channel register 1"
bitfld.long 0x24 9. "RMCME,(legacy)" "RMCME_0,RMCME_1"
bitfld.long 0x24 7.--8. "RPBBLK,Receive Partition B Block (legacy)" "RPBBLK_0,RPBBLK_1,RPBBLK_2,RPBBLK_3"
bitfld.long 0x24 5.--6. "RPABLK,Receive Partition A Block (legacy)" "RPABLK_0,RPABLK_1,RPABLK_2,RPABLK_3"
bitfld.long 0x24 0. "RMCM,Receive Multichannel Selection Enable" "RMCM_0,RMCM_1"
line.long 0x28 "MCBSPLP_RCERA_REG,McBSPLP receive channel enable register partition A"
hexmask.long.word 0x28 0.--15. 1. "RCERA,Receive Channel Enable RCERA n=0 Disables reception of n-th channel in an even-numbered block in partition A RCERA n=1 Enables reception of n-th channel in an even-numbered block in partition A"
line.long 0x2C "MCBSPLP_RCERB_REG,McBSPLP receive channel enable register partition B"
hexmask.long.word 0x2C 0.--15. 1. "RCERB,Receive Channel Enable RCERB n=0 Disables reception of n-th channel in a even-numbered block in partition B RCERB n=1 Enables reception of n-th channel in a even-numbered block in partition B"
line.long 0x30 "MCBSPLP_XCERA_REG,McBSPLP transmit channel enable register partition A"
hexmask.long.word 0x30 0.--15. 1. "XCERA,Transmit Channel Enable XCERA n=0 Disables transmission of n-th channel in an event-numbered block in partition A XCERA n=1 Enables transmission of n-th channel in an event-numbered block in partition A"
line.long 0x34 "MCBSPLP_XCERB_REG,McBSPLP transmit channel enable register partition B"
hexmask.long.word 0x34 0.--15. 1. "XCERB,Transmit Channel Enable XCERB n=0 Disables transmission of n-th channel in an even-numbered block in partition B XCERB n=1 Enables transmission of n-th channel in an even-numbered block in partition B"
line.long 0x38 "MCBSPLP_PCR_REG,McBSPLP pin control register"
bitfld.long 0x38 14. "IDLE_EN,Idle enable" "IDLE_EN_0,IDLE_EN_1"
bitfld.long 0x38 13. "XIOEN,Transmit General Purpose I/O Mode only when XRST=0 in SPCR[1 2] (legacy)" "XIOEN_0,XIOEN_1"
bitfld.long 0x38 12. "RIOEN,Receive General Purpose I/O Mode when RRST=0 in SPCR[1 2] (legacy)" "RIOEN_0,RIOEN_1"
bitfld.long 0x38 11. "FSXM,Transmit Frame-Synchronization Mode" "FSXM_0,FSXM_1"
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bitfld.long 0x38 10. "FSRM,Receive Frame-Synchronization Mode" "FSRM_0,FSRM_1"
bitfld.long 0x38 9. "CLKXM,Transmitter Clock Mode" "CLKXM_0,CLKXM_1"
bitfld.long 0x38 8. "CLKRM,Receiver Clock Mode" "CLKRM_0,CLKRM_1"
bitfld.long 0x38 7. "SCLKME,The frequency of CLKG is: CLKG frequency = (Input clock frequency) / (CLKGDV + 1) SCLKME is used in conjunction with the CLKSM bit to select the input clock" "SCLKME_0,SCLKME_1"
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rbitfld.long 0x38 6. "CLKS_STAT,CLKS pin status" "CLKS_STAT_0_r,CLKS_STAT_1_r"
bitfld.long 0x38 5. "DX_STAT,DX pin status" "DX_STAT_0,DX_STAT_1"
rbitfld.long 0x38 4. "DR_STAT,DR pin status" "DR_STAT_0_r,DR_STAT_1_r"
bitfld.long 0x38 3. "FSXP,Transmit Frame-Synchronization Polarity" "FSXP_0,FSXP_1"
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bitfld.long 0x38 2. "FSRP,Receive Frame-Synchronization Polarity" "FSRP_0,FSRP_1"
bitfld.long 0x38 1. "CLKXP,Transmit Clock Polarity" "CLKXP_0,CLKXP_1"
bitfld.long 0x38 0. "CLKRP,Receive Clock Polarity" "CLKRP_0,CLKRP_1"
line.long 0x3C "MCBSPLP_RCERC_REG,McBSPLP receive channel enable register partition C"
hexmask.long.word 0x3C 0.--15. 1. "RCERC,Receive Channel Enable RCERC n=0 Disables reception of n-th channel in an even-numbered block in partition C RCERC n=1 Enables reception of n-th channel in an even-numbered block in partition C"
line.long 0x40 "MCBSPLP_RCERD_REG,McBSPLP receive channel enable register partition D"
hexmask.long.word 0x40 0.--15. 1. "RCERD,Receive Channel Enable RCERD n=0 Disables reception of n-th channel in an even-numbered block in partition D RCERD n=1 Enables reception of n-th channel in an even-numbered block in partition D"
line.long 0x44 "MCBSPLP_XCERC_REG,McBSPLP transmit channel enable register partition C"
hexmask.long.word 0x44 0.--15. 1. "XCERC,Transmit Channel Enable XCERC n=0 Disables transmission of n-th channel in an event-numbered block in partition C XCERC n=1 Enables transmission of n-th channel in an event-numbered block in partition C"
line.long 0x48 "MCBSPLP_XCERD_REG,McBSPLP transmit channel enable register partition D"
hexmask.long.word 0x48 0.--15. 1. "XCERD,Transmit Channel Enable XCERD n=0 Disables transmission of n-th channel in an even-numbered block in partition D XCERD n=1 Enables transmission of n-th channel in an even-numbered block in partition D"
line.long 0x4C "MCBSPLP_RCERE_REG,McBSPLP receive channel enable register partition E"
hexmask.long.word 0x4C 0.--15. 1. "RCERE,Receive Channel Enable RCERE n=0 Disables reception of n-th channel in an even-numbered block in partition E RCERE n=1 Enables reception of n-th channel in an even-numbered block in partition E"
line.long 0x50 "MCBSPLP_RCERF_REG,McBSPLP receive channel enable register partition F"
hexmask.long.word 0x50 0.--15. 1. "RCERF,Receive Channel Enable RCERF n=0 Disables reception of n-th channel in an even-numbered block in partition F RCERF n=1 Enables reception of n-th channel in an even-numbered block in partition F"
line.long 0x54 "MCBSPLP_XCERE_REG,McBSPLP transmit channel enable register partition E"
hexmask.long.word 0x54 0.--15. 1. "XCERE,Transmit Channel Enable XCERE n=0 Disables transmission of n-th channel in an event-numbered block in partition E XCERE n=1 Enables transmission of n-th channel in an event-numbered block in partition E"
line.long 0x58 "MCBSPLP_XCERF_REG,McBSPLP transmit channel enable register partition F"
hexmask.long.word 0x58 0.--15. 1. "XCERF,Transmit Channel Enable XCERF n=0 Disables transmission of n-th channel in an even-numbered block in partition F XCERF n=1 Enables transmission of n-th channel in an even-numbered block in partition F"
line.long 0x5C "MCBSPLP_RCERG_REG,McBSPLP receive channel enable register partition G"
hexmask.long.word 0x5C 0.--15. 1. "RCERG,Receive Channel Enable RCERG n=0 Disables reception of n-th channel in an even-numbered block in partition G RCERG n=1 Enables reception of n-th channel in an even-numbered block in partition G"
line.long 0x60 "MCBSPLP_RCERH_REG,McBSPLP receive channel enable register partition H"
hexmask.long.word 0x60 0.--15. 1. "RCERH,Receive Channel Enable RCERH n=0 Disables reception of n-th channel in an even-numbered block in partition H RCERH n=1 Enables reception of n-th channel in an even-numbered block in partition H"
line.long 0x64 "MCBSPLP_XCERG_REG,McBSPLP transmit channel enable register partition G"
hexmask.long.word 0x64 0.--15. 1. "XCERG,Transmit Channel Enable XCERG n=0 Disables transmission of n-th channel in an event-numbered block in partition G XCERG n=1 Enables transmission of n-th channel in an event-numbered block in partition G"
line.long 0x68 "MCBSPLP_XCERH_REG,McBSPLP transmit channel enable register partition H"
hexmask.long.word 0x68 0.--15. 1. "XCERH,Transmit Channel Enable XCERH n=0 Disables transmission of n-th channel in an even-numbered block in partition H XCERH n=1 Enables transmission of n-th channel in an even-numbered block in partition H"
line.long 0x6C "MCBSPLP_REV_REG,MCBSPLP Revision number register"
hexmask.long.byte 0x6C 0.--7. 1. "REV,Revision number"
line.long 0x70 "MCBSPLP_RINTCLR_REG,McBSPLP receive interrupt clear"
line.long 0x74 "MCBSPLP_XINTCLR_REG,McBSPLP transmit interrupt clear (legacy)"
line.long 0x78 "MCBSPLP_ROVFLCLR_REG,McBSPLP receive overflow interrupt clear"
line.long 0x7C "MCBSPLP_SYSCONFIG_REG,McBSPLP System Configuration register"
bitfld.long 0x7C 8.--9. "CLOCKACTIVITY," "CLOCKACTIVITY_0,CLOCKACTIVITY_1,CLOCKACTIVITY_2,CLOCKACTIVITY_3"
bitfld.long 0x7C 3.--4. "SIDLEMODE,Slave interface power management req/ack control" "SIDLEMODE_0,SIDLEMODE_1,SIDLEMODE_2,SIDLEMODE_3"
bitfld.long 0x7C 2. "ENAWAKEUP,WakeUp feature control" "ENAWAKEUP_0,ENAWAKEUP_1"
bitfld.long 0x7C 1. "SOFTRESET,McBSPLP global software reset" "SOFTRESET_0,SOFTRESET_1"
line.long 0x80 "MCBSPLP_THRSH2_REG,McBSPLP transmit buffer threshold (DMA or IRQ trigger)"
hexmask.long.byte 0x80 0.--6. 1. "XTHRESHOLD,Transmit buffer threshold value"
line.long 0x84 "MCBSPLP_THRSH1_REG,McBSPLP receive buffer threshold (DMA or IRQ trigger)"
hexmask.long.byte 0x84 0.--6. 1. "RTHRESHOLD,Receive buffer threshold value"
group.long 0xA0++0x1B
line.long 0x00 "MCBSPLP_IRQSTATUS_REG,McBSPLP Interrupt Status register (interconnect compliant IRQ line)"
bitfld.long 0x00 14. "XEMPTYEOF,Transmit Buffer Empty at end of frame (XEMPTYEOF is set to 1 when a complete frame was transmitted and the transmit buffer is empty)" "XEMPTYEOF_0,XEMPTYEOF_1"
bitfld.long 0x00 12. "XOVFLSTAT,Transmit Buffer Overflow (XOVFLSTAT bit is set to 1 when transmit buffer overflow; the data which is written while overflow condition is discarded)" "XOVFLSTAT_0,XOVFLSTAT_1"
bitfld.long 0x00 11. "XUNDFLSTAT,Transmit Buffer Underflow (XUNDFLSTAT bit is set to 1 when the transmit data buffer is empty new data is required to be transmitted)" "XUNDFLSTAT_0,XUNDFLSTAT_1"
bitfld.long 0x00 10. "XRDY,Transmit Buffer Threshold Reached (XRDY bit is set to 1 when the transmit buffer free locations are equal or above the THRSH2_REG value)" "XRDY_0,XRDY_1"
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bitfld.long 0x00 9. "XEOF,Transmit End Of Frame (XEOF is set to 1 when a complete frame was transmitted)" "XEOF_0,XEOF_1"
bitfld.long 0x00 8. "XFSX,Transmit Frame Synchronization (XFSX bit is set to 1 when a new transmit frame synchronization is asserted)" "XFSX_0,XFSX_1"
bitfld.long 0x00 7. "XSYNCERR,Transmit Frame Synchronization Error (XSYNCERR is set to 1 when a transmit frame-sync error is detected)" "XSYNCERR_0,XSYNCERR_1"
bitfld.long 0x00 5. "ROVFLSTAT,Receive Buffer Overflow (ROVFLSTAT bit is set to 1 when receive buffer overflow; the data which is written while overflow condition is discarded)" "ROVFLSTAT_0,ROVFLSTAT_1"
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bitfld.long 0x00 4. "RUNDFLSTAT,Receive Buffer Underflow (RUNDFLSTAT bit is set to 1 when read operation is performed to the receive data register while receive buffer is empty; data read while underflow condition is undefined)" "RUNDFLSTAT_0,RUNDFLSTAT_1"
bitfld.long 0x00 3. "RRDY,Receive Buffer Threshold Reached (RRDY bit is set to 1 when the receive buffer occupied locations are equal or above the THRSH1_REG value)" "RRDY_0,RRDY_1"
bitfld.long 0x00 2. "REOF,Receive End Of Frame (REOF is set to 1 when a complete frame was received)" "REOF_0,REOF_1"
bitfld.long 0x00 1. "RFSR,Receive Frame Synchronization (RFSR bit is set to 1 when a new receive frame synchronization is asserted)" "RFSR_0,RFSR_1"
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bitfld.long 0x00 0. "RSYNCERR,Receive Frame Synchronization Error (RSYNCERR is set to 1 when a receive frame-sync error is detected)" "RSYNCERR_0,RSYNCERR_1"
line.long 0x04 "MCBSPLP_IRQENABLE_REG,McBSPLP Interrupt Enable register (interconnect compliant IRQ line)"
bitfld.long 0x04 14. "XEMPTYEOFEN,Transmit buffer empty at end of frame enable bit" "XEMPTYEOFEN_0,XEMPTYEOFEN_1"
bitfld.long 0x04 12. "XOVFLEN,Transmit Buffer Overflow enable bit" "XOVFLEN_0,XOVFLEN_1"
bitfld.long 0x04 11. "XUNDFLEN,Transmit Buffer Underflow enable bit" "XUNDFLEN_0,XUNDFLEN_1"
bitfld.long 0x04 10. "XRDYEN,Transmit Buffer Threshold Reached enable bit" "XRDYEN_0,XRDYEN_1"
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bitfld.long 0x04 9. "XEOFEN,Transmit End Of Frame enable bit" "XEOFEN_0,XEOFEN_1"
bitfld.long 0x04 8. "XFSXEN,Transmit Frame Synchronization enable bit" "XFSXEN_0,XFSXEN_1"
bitfld.long 0x04 7. "XSYNCERREN,Transmit Frame Synchronization Error enable bit" "XSYNCERREN_0,XSYNCERREN_1"
bitfld.long 0x04 5. "ROVFLEN,Receive Buffer Overflow enable bit" "ROVFLEN_0,ROVFLEN_1"
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bitfld.long 0x04 4. "RUNDFLEN,Receive Buffer Underflow enable bit" "RUNDFLEN_0,RUNDFLEN_1"
bitfld.long 0x04 3. "RRDYEN,Receive Buffer Threshold enable bit" "RRDYEN_0,RRDYEN_1"
bitfld.long 0x04 2. "REOFEN,Receive End Of Frame enable bit" "REOFEN_0,REOFEN_1"
bitfld.long 0x04 1. "RFSREN,Receive Frame Synchronization enable bit" "RFSREN_0,RFSREN_1"
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bitfld.long 0x04 0. "RSYNCERREN,Receive Frame Synchronization Error enable bit" "RSYNCERREN_0,RSYNCERREN_1"
line.long 0x08 "MCBSPLP_WAKEUPEN_REG,McBSPLP Wakeup Enable register"
bitfld.long 0x08 14. "XEMPTYEOFEN,Transmit Buffer Empty at End Of Frame enable bit" "XEMPTYEOFEN_0,XEMPTYEOFEN_1"
bitfld.long 0x08 10. "XRDYEN,Transmit Buffer Threshold Reached WK enable bit" "XRDYEN_0,XRDYEN_1"
bitfld.long 0x08 9. "XEOFEN,Transmit End Of Frame WK enable bit" "XEOFEN_0,XEOFEN_1"
bitfld.long 0x08 8. "XFSXEN,Transmit Frame Synchronization WK enable bit" "XFSXEN_0,XFSXEN_1"
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bitfld.long 0x08 7. "XSYNCERREN,Transmit Frame Synchronization Error WK enable bit" "XSYNCERREN_0,XSYNCERREN_1"
bitfld.long 0x08 3. "RRDYEN,Receive Buffer Threshold wakeup enable bit" "RRDYEN_0,RRDYEN_1"
bitfld.long 0x08 2. "REOFEN,Receive End Of Frame WK enable bit" "REOFEN_0,REOFEN_1"
bitfld.long 0x08 1. "RFSREN,Receive Frame Synchronization WK enable bit" "RFSREN_0,RFSREN_1"
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bitfld.long 0x08 0. "RSYNCERREN,Receive Frame Synchronization Error WK enable bit" "RSYNCERREN_0,RSYNCERREN_1"
line.long 0x0C "MCBSPLP_XCCR_REG,McBSPLP transmit configuration control register"
bitfld.long 0x0C 15. "EXTCLKGATE,External clock gating enable (CLKX and FSX master only)" "EXTCLKGATE_0,EXTCLKGATE_1"
bitfld.long 0x0C 14. "PPCONNECT,Pair to pair connection" "PPCONNECT_0,PPCONNECT_1"
bitfld.long 0x0C 12.--13. "DXENDLY,When DXENA bit in SPCR1 is set to 1 this field selects the added delay as follow" "DXENDLY_0,DXENDLY_1,DXENDLY_2,DXENDLY_3"
bitfld.long 0x0C 11. "XFULL_CYCLE,Transmit full-cycle mode select" "XFULL_CYCLE_0,XFULL_CYCLE_1"
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bitfld.long 0x0C 5. "DLB,Digital Loop-Back" "DLB_0,DLB_1"
bitfld.long 0x0C 3. "XDMAEN,Transmit DMA Enable bit" "XDMAEN_0,XDMAEN_1"
bitfld.long 0x0C 0. "XDISABLE,Transmit Disable bit" "XDISABLE_0,XDISABLE_1"
line.long 0x10 "MCBSPLP_RCCR_REG,McBSPLP receive configuration control register"
bitfld.long 0x10 11. "RFULL_CYCLE,Receive full-cycle mode select" "RFULL_CYCLE_0,RFULL_CYCLE_1"
bitfld.long 0x10 3. "RDMAEN,Receive DMA Enable bit" "RDMAEN_0,RDMAEN_1"
bitfld.long 0x10 0. "RDISABLE,Receive Disable bit" "RDISABLE_0,RDISABLE_1"
line.long 0x14 "MCBSPLP_XBUFFSTAT_REG,McBSPLP transmit buffer status"
hexmask.long.byte 0x14 0.--7. 1. "XBUFFSTAT,Transmit Buffer Status (indicates the number of free locations inside transmit buffer)"
line.long 0x18 "MCBSPLP_RBUFFSTAT_REG,McBSPLP receive buffer status"
hexmask.long.byte 0x18 0.--7. 1. "RBUFFSTAT,Receive Buffer Status (indicates the number of occupied locations inside receive buffer)"
tree.end
tree.end
tree "Multichannel_PDM_Controller"
tree "McPDM_Cortex_A9"
base ansd:0x40132000
rgroup.long 0x00++0x03
line.long 0x00 "MCPDM_REVISION,IP revision identifier (X.Y.R) used by software to track features. bugs. and compatibility"
group.long 0x10++0x03
line.long 0x00 "MCPDM_SYSCONFIG,This register allows controlling various parameters of the OCP interface"
bitfld.long 0x00 2.--3. "IDLEMODE,Configuration of the idle mode" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 1. "FREEMU,Sensitivity to emulation (debug) suspend input signal" "FREEMU_0,FREEMU_1"
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bitfld.long 0x00 0. "SOFTRESET,McPDM software Reset" "SOFTRESET_0_r,SOFTRESET_1_w"
group.long 0x24++0x37
line.long 0x00 "MCPDM_IRQSTATUS_RAW,Interrupt request raw status register (for debug purpose)"
bitfld.long 0x00 11. "UP_IRQ_FULL,FIFO-uplink-full signal appears when a write access is performed and the FIFO uplink is already full" "UP_IRQ_FULL_0_w,UP_IRQ_FULL_1_r"
bitfld.long 0x00 10. "UP_IRQ_ALST_FULL,FIFO uplink almost-full signal appears when the FIFO uplink contains (FIFO uplink size - 1) elements" "UP_IRQ_ALST_FULL_0_w,UP_IRQ_ALST_FULL_1_r"
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bitfld.long 0x00 9. "UP_IRQ_EMPTY,FIFO uplink empty signal appears when a read access is done and FIFO uplink already empty" "UP_IRQ_EMPTY_0_w,UP_IRQ_EMPTY_1_r"
bitfld.long 0x00 8. "UP_IRQ,FIFO uplink interrupt appears when the number of data present in the FIFO uplink has reached the value of the FIFO uplink threshold" "UP_IRQ_0_w,UP_IRQ_1_r"
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bitfld.long 0x00 3. "DN_IRQ_FULL,FIFO downlink full signal appears when the FIFO uplink is full and another a write access is performed" "DN_IRQ_FULL_0_w,DN_IRQ_FULL_1_r"
bitfld.long 0x00 2. "DN_IRQ_ALST_EMPTY,FIFO downlink almost empty signal appears when the FIFO downlink contains only one element" "DN_IRQ_ALST_EMPTY_0_w,DN_IRQ_ALST_EMPTY_1_r"
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bitfld.long 0x00 1. "DN_IRQ_EMPTY,FIFO-downlink-empty signal appears when read access is performed and FIFO downlink is already empty" "DN_IRQ_EMPTY_0_w,DN_IRQ_EMPTY_1_r"
bitfld.long 0x00 0. "DN_IRQ,FIFO downlink status is set when the number of data is below the FIFO downlink threshold value" "DN_IRQ_0_w,DN_IRQ_1_r"
line.long 0x04 "MCPDM_IRQSTATUS,Interrupt request status register"
bitfld.long 0x04 11. "UP_IRQ_FULL,FIFO-uplink-full signal appears when a write access is performed and the FIFO uplink is already full" "UP_IRQ_FULL_0_w,UP_IRQ_FULL_1_r"
bitfld.long 0x04 10. "UP_IRQ_ALST_FULL,FIFO uplink almost-full signal appears when the FIFO uplink contains (FIFO uplink size - 1) elements" "UP_IRQ_ALST_FULL_0_w,UP_IRQ_ALST_FULL_1_r"
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bitfld.long 0x04 9. "UP_IRQ_EMPTY,FIFO uplink empty signal appears when a read access is done and FIFO uplink already empty" "UP_IRQ_EMPTY_0_w,UP_IRQ_EMPTY_1_r"
bitfld.long 0x04 8. "UP_IRQ,FIFO uplink interrupt appears when the number of data present in the FIFO uplink has reached the value of the FIFO uplink threshold" "UP_IRQ_0_w,UP_IRQ_1_r"
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bitfld.long 0x04 3. "DN_IRQ_FULL,FIFO downlink full signal appears when the FIFO uplink is full and another a write access is performed" "DN_IRQ_FULL_0_w,DN_IRQ_FULL_1_r"
bitfld.long 0x04 2. "DN_IRQ_ALST_EMPTY,FIFO downlink almost empty signal appears when the FIFO downlink contains only one element" "DN_IRQ_ALST_EMPTY_0_w,DN_IRQ_ALST_EMPTY_1_r"
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bitfld.long 0x04 1. "DN_IRQ_EMPTY,FIFO-downlink-empty signal appears when read access is performed and FIFO downlink is already empty" "DN_IRQ_EMPTY_0_w,DN_IRQ_EMPTY_1_r"
bitfld.long 0x04 0. "DN_IRQ,FIFO downlink status is set when the number of data is below the FIFO downlink threshold value" "DN_IRQ_0_w,DN_IRQ_1_r"
line.long 0x08 "MCPDM_IRQENABLE_SET,Interrupt request enable set register"
bitfld.long 0x08 11. "UP_IRQ_FULL_MASK,FIFO-uplink-full event interrupt enabling bit" "UP_IRQ_FULL_MASK_0_w,UP_IRQ_FULL_MASK_1_r"
bitfld.long 0x08 10. "UP_IRQ_ALST_FULL_MASK,FIFO-uplink-almost-full event interrupt enabling bit" "UP_IRQ_ALST_FULL_MASK_0_w,UP_IRQ_ALST_FULL_MASK_1_r"
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bitfld.long 0x08 9. "UP_IRQ_EMPTY_MASK,FIFO-uplink-empty event interrupt enabling bit" "UP_IRQ_EMPTY_MASK_0_w,UP_IRQ_EMPTY_MASK_1_r"
bitfld.long 0x08 8. "UP_IRQ_MASK,FIFO-uplink-read-request event interrupt enabling bit" "UP_IRQ_MASK_0_w,UP_IRQ_MASK_1_r"
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bitfld.long 0x08 3. "DN_IRQ_FULL_MASK,FIFO-downlink-full event interrupt enabling bit" "DN_IRQ_FULL_MASK_0_w,DN_IRQ_FULL_MASK_1_r"
bitfld.long 0x08 2. "DN_IRQ_ALST_EMPTY_MASK,FIFO downlink almost-empty event interrupt enabling bit" "DN_IRQ_ALST_EMPTY_MASK_0_w,DN_IRQ_ALST_EMPTY_MASK_1_r"
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bitfld.long 0x08 1. "DN_IRQ_EMPTY_MASK,FIFO-downlink-empty event interrupt enabling bit" "DN_IRQ_EMPTY_MASK_0_w,DN_IRQ_EMPTY_MASK_1_r"
bitfld.long 0x08 0. "DN_IRQ_MASK,FIFO downlink write-request event interrupt enabling bit" "DN_IRQ_MASK_0_w,DN_IRQ_MASK_1_r"
line.long 0x0C "MCPDM_IRQENABLE_CLR,Interrupt request enable clear register"
bitfld.long 0x0C 11. "UP_IRQ_FULL_MASK,FIFO-uplink-full event interrupt disabling bit" "UP_IRQ_FULL_MASK_0_w,UP_IRQ_FULL_MASK_1_r"
bitfld.long 0x0C 10. "UP_IRQ_ALST_FULL_MASK,FIFO-uplink-almost-full event interrupt disabling bit" "UP_IRQ_ALST_FULL_MASK_0_w,UP_IRQ_ALST_FULL_MASK_1_r"
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bitfld.long 0x0C 9. "UP_IRQ_EMPTY_MASK,FIFO-uplink-empty event interrupt disabling bit" "UP_IRQ_EMPTY_MASK_0_w,UP_IRQ_EMPTY_MASK_1_r"
bitfld.long 0x0C 8. "UP_IRQ_MASK,FIFO-uplink-read-request event interrupt disabling bit" "UP_IRQ_MASK_0_w,UP_IRQ_MASK_1_r"
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bitfld.long 0x0C 3. "DN_IRQ_FULL_MASK,FIFO-downlink-full event interrupt disabling bit" "DN_IRQ_FULL_MASK_0_w,DN_IRQ_FULL_MASK_1_r"
bitfld.long 0x0C 2. "DN_IRQ_ALST_EMPTY_MASK,FIFO downlink almost-empty event interrupt disabling bit" "DN_IRQ_ALST_EMPTY_MASK_0_w,DN_IRQ_ALST_EMPTY_MASK_1_r"
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bitfld.long 0x0C 1. "DN_IRQ_EMPTY_MASK,FIFO-downlink-empty event interrupt disabling bit" "DN_IRQ_EMPTY_MASK_0_w,DN_IRQ_EMPTY_MASK_1_r"
bitfld.long 0x0C 0. "DN_IRQ_MASK,FIFO downlink write-request event interrupt disabling bit" "DN_IRQ_MASK_0_w,DN_IRQ_MASK_1_r"
line.long 0x10 "MCPDM_IRQWAKEEN,Interrupt request wake-up enable register"
bitfld.long 0x10 1. "IRQ_WAKEUP_UP_EN,Enabling/disabling bit for wake-up request generation upon a FIFO-uplink-read-request event" "IRQ_WAKEUP_UP_EN_0,IRQ_WAKEUP_UP_EN_1"
bitfld.long 0x10 0. "IRQ_WAKEUP_DN_EN,Enabling/disabling bit for wake-up by FIFO downlink write-request event" "IRQ_WAKEUP_DN_EN_0,IRQ_WAKEUP_DN_EN_1"
line.long 0x14 "MCPDM_DMAENABLE_SET,DMA request enable set register"
bitfld.long 0x14 1. "DMA_UP_ENABLE,Uplink path DMA request generation enabling bit" "DMA_UP_ENABLE_0_w,DMA_UP_ENABLE_1_r"
bitfld.long 0x14 0. "DMA_DN_ENABLE,Downlink path DMA request generation enabling bit" "DMA_DN_ENABLE_0_w,DMA_DN_ENABLE_1_r"
line.long 0x18 "MCPDM_DMAENABLE_CLR,DMA request enable clear register"
bitfld.long 0x18 1. "DMA_UP_ENABLE,Uplink path DMA request generation disabling bit" "DMA_UP_ENABLE_0_w,DMA_UP_ENABLE_1_r"
bitfld.long 0x18 0. "DMA_DN_ENABLE,Downlink path DMA request generation disabling bit" "DMA_DN_ENABLE_0_w,DMA_DN_ENABLE_1_r"
line.long 0x1C "MCPDM_DMAWAKEEN,DMA request wake-up enable register"
bitfld.long 0x1C 1. "DMA_WAKEUP_UP_EN,Enabling/disabling bit for wake-up request generation upon an uplink path DMA request" "DMA_WAKEUP_UP_EN_0,DMA_WAKEUP_UP_EN_1"
bitfld.long 0x1C 0. "DMA_WAKEUP_DN_EN,Enabling/disabling bit for wake-up request generation upon a downlink path DMA request" "DMA_WAKEUP_DN_EN_0,DMA_WAKEUP_DN_EN_1"
line.long 0x20 "MCPDM_CTRL,MCPDM control register"
bitfld.long 0x20 14. "WD_EN,This bit is used to enable or disable the pulse-density modulator watchdog logic.0x0: Disabled (default after reset)0x1: Enabled" "0,1"
bitfld.long 0x20 13. "DIV_SEL,Multiply by 2 the FS of the uplink path0x0: FS = 88.2 kHz or 96 kHz0x1: FS = 176.4 kHz or 192 kHz" "0,1"
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bitfld.long 0x20 12. "SW_DN_RST,Software reset of the downlink path" "SW_DN_RST_0,SW_DN_RST_1"
bitfld.long 0x20 11. "SW_UP_RST,Software reset of the uplink path" "SW_UP_RST_0,SW_UP_RST_1"
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bitfld.long 0x20 10. "STATUS_INT,Status channel enabling/disabling bit" "STATUS_INT_0,STATUS_INT_1"
bitfld.long 0x20 9. "CMD_INT,Command channel enabling/disabling bit" "CMD_INT_0,CMD_INT_1"
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bitfld.long 0x20 8. "PDMOUTFORMAT,Audio format selection" "PDMOUTFORMAT_0,PDMOUTFORMAT_1"
bitfld.long 0x20 7. "PDM_DN5_EN,Audio downlink channel 5 enabling/disabling bit" "PDM_DN5_EN_0,PDM_DN5_EN_1"
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bitfld.long 0x20 6. "PDM_DN4_EN,Audio downlink channel 4 enabling/disabling bit" "PDM_DN4_EN_0,PDM_DN4_EN_1"
bitfld.long 0x20 5. "PDM_DN3_EN,Audio downlink channel 3 enabling/disabling bit" "PDM_DN3_EN_0,PDM_DN3_EN_1"
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bitfld.long 0x20 4. "PDM_DN2_EN,Audio downlink channel 2 enabling/disabling bit" "PDM_DN2_EN_0,PDM_DN2_EN_1"
bitfld.long 0x20 3. "PDM_DN1_EN,Audio downlink channel 1 enabling/disabling bit" "PDM_DN1_EN_0,PDM_DN1_EN_1"
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bitfld.long 0x20 2. "PDM_UP3_EN,Audio uplink channel 3 enabling/disabling bit" "PDM_UP3_EN_0,PDM_UP3_EN_1"
bitfld.long 0x20 1. "PDM_UP2_EN,Audio uplink channel 2 enabling/disabling bit" "PDM_UP2_EN_0,PDM_UP2_EN_1"
newline
bitfld.long 0x20 0. "PDM_UP1_EN,Audio uplink channel 1 enabling/disabling bit" "PDM_UP1_EN_0,PDM_UP1_EN_1"
line.long 0x24 "MCPDM_DN_DATA,Downlink path data register"
line.long 0x28 "MCPDM_UP_DATA,Uplink path data register"
line.long 0x2C "MCPDM_FIFO_CTRL_DN,FIFO downlink control register"
bitfld.long 0x2C 0.--3. "DN_TRESH,FIFO downlink threshold value" "DN_TRESH_0,DN_TRESH_1,DN_TRESH_2,DN_TRESH_3,DN_TRESH_4,DN_TRESH_5,DN_TRESH_6,DN_TRESH_7,DN_TRESH_8,DN_TRESH_9,DN_TRESH_10,DN_TRESH_11,DN_TRESH_12,DN_TRESH_13,DN_TRESH_14,DN_TRESH_15"
line.long 0x30 "MCPDM_FIFO_CTRL_UP,FIFO uplink control register"
bitfld.long 0x30 0.--3. "UP_TRESH,FIFO uplink threshold value" "UP_TRESH_0,UP_TRESH_1,UP_TRESH_2,UP_TRESH_3,UP_TRESH_4,UP_TRESH_5,UP_TRESH_6,UP_TRESH_7,UP_TRESH_8,UP_TRESH_9,UP_TRESH_10,UP_TRESH_11,UP_TRESH_12,UP_TRESH_13,UP_TRESH_14,UP_TRESH_15"
line.long 0x34 "MCPDM_DN_OFFSET,"
bitfld.long 0x34 9.--13. "DN_OFST_RX2,Offset value for the audio downlink channel 2" "DN_OFST_RX2_0,DN_OFST_RX2_1,DN_OFST_RX2_2,DN_OFST_RX2_3,DN_OFST_RX2_4,DN_OFST_RX2_5,DN_OFST_RX2_6,DN_OFST_RX2_7,DN_OFST_RX2_8,DN_OFST_RX2_9,DN_OFST_RX2_10,DN_OFST_RX2_11,DN_OFST_RX2_12,DN_OFST_RX2_13,DN_OFST_RX2_14,DN_OFST_RX2_15,DN_OFST_RX2_16,DN_OFST_RX2_17,DN_OFST_RX2_18,DN_OFST_RX2_19,DN_OFST_RX2_20,DN_OFST_RX2_21,DN_OFST_RX2_22,DN_OFST_RX2_23,DN_OFST_RX2_24,DN_OFST_RX2_25,DN_OFST_RX2_26,DN_OFST_RX2_27,DN_OFST_RX2_28,DN_OFST_RX2_29,DN_OFST_RX2_30,DN_OFST_RX2_31"
bitfld.long 0x34 8. "DN_OFST_RX2_EN,Offset cancellation feature enabling/disabling bit for the audio downlink channel 2" "DN_OFST_RX2_EN_0,DN_OFST_RX2_EN_1"
newline
bitfld.long 0x34 1.--5. "DN_OFST_RX1,Offset value for the audio downlink channel 1" "DN_OFST_RX1_0,DN_OFST_RX1_1,DN_OFST_RX1_2,DN_OFST_RX1_3,DN_OFST_RX1_4,DN_OFST_RX1_5,DN_OFST_RX1_6,DN_OFST_RX1_7,DN_OFST_RX1_8,DN_OFST_RX1_9,DN_OFST_RX1_10,DN_OFST_RX1_11,DN_OFST_RX1_12,DN_OFST_RX1_13,DN_OFST_RX1_14,DN_OFST_RX1_15,DN_OFST_RX1_16,DN_OFST_RX1_17,DN_OFST_RX1_18,DN_OFST_RX1_19,DN_OFST_RX1_20,DN_OFST_RX1_21,DN_OFST_RX1_22,DN_OFST_RX1_23,DN_OFST_RX1_24,DN_OFST_RX1_25,DN_OFST_RX1_26,DN_OFST_RX1_27,DN_OFST_RX1_28,DN_OFST_RX1_29,DN_OFST_RX1_30,DN_OFST_RX1_31"
bitfld.long 0x34 0. "DN_OFST_RX1_EN,Offset cancellation feature enabling/disabling bit for the audio downlink channel 1" "DN_OFST_RX1_EN_0,DN_OFST_RX1_EN_1"
tree.end
tree "McPDM_L3Interconnect"
base ansd:0x49032000
rgroup.long 0x00++0x03
line.long 0x00 "MCPDM_REVISION,IP revision identifier (X.Y.R) used by software to track features. bugs. and compatibility"
group.long 0x10++0x03
line.long 0x00 "MCPDM_SYSCONFIG,This register allows controlling various parameters of the OCP interface"
bitfld.long 0x00 2.--3. "IDLEMODE,Configuration of the idle mode" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 1. "FREEMU,Sensitivity to emulation (debug) suspend input signal" "FREEMU_0,FREEMU_1"
newline
bitfld.long 0x00 0. "SOFTRESET,McPDM software Reset" "SOFTRESET_0_r,SOFTRESET_1_w"
group.long 0x24++0x37
line.long 0x00 "MCPDM_IRQSTATUS_RAW,Interrupt request raw status register (for debug purpose)"
bitfld.long 0x00 11. "UP_IRQ_FULL,FIFO-uplink-full signal appears when a write access is performed and the FIFO uplink is already full" "UP_IRQ_FULL_0_w,UP_IRQ_FULL_1_r"
bitfld.long 0x00 10. "UP_IRQ_ALST_FULL,FIFO uplink almost-full signal appears when the FIFO uplink contains (FIFO uplink size - 1) elements" "UP_IRQ_ALST_FULL_0_w,UP_IRQ_ALST_FULL_1_r"
newline
bitfld.long 0x00 9. "UP_IRQ_EMPTY,FIFO uplink empty signal appears when a read access is done and FIFO uplink already empty" "UP_IRQ_EMPTY_0_w,UP_IRQ_EMPTY_1_r"
bitfld.long 0x00 8. "UP_IRQ,FIFO uplink interrupt appears when the number of data present in the FIFO uplink has reached the value of the FIFO uplink threshold" "UP_IRQ_0_w,UP_IRQ_1_r"
newline
bitfld.long 0x00 3. "DN_IRQ_FULL,FIFO downlink full signal appears when the FIFO uplink is full and another a write access is performed" "DN_IRQ_FULL_0_w,DN_IRQ_FULL_1_r"
bitfld.long 0x00 2. "DN_IRQ_ALST_EMPTY,FIFO downlink almost empty signal appears when the FIFO downlink contains only one element" "DN_IRQ_ALST_EMPTY_0_w,DN_IRQ_ALST_EMPTY_1_r"
newline
bitfld.long 0x00 1. "DN_IRQ_EMPTY,FIFO-downlink-empty signal appears when read access is performed and FIFO downlink is already empty" "DN_IRQ_EMPTY_0_w,DN_IRQ_EMPTY_1_r"
bitfld.long 0x00 0. "DN_IRQ,FIFO downlink status is set when the number of data is below the FIFO downlink threshold value" "DN_IRQ_0_w,DN_IRQ_1_r"
line.long 0x04 "MCPDM_IRQSTATUS,Interrupt request status register"
bitfld.long 0x04 11. "UP_IRQ_FULL,FIFO-uplink-full signal appears when a write access is performed and the FIFO uplink is already full" "UP_IRQ_FULL_0_w,UP_IRQ_FULL_1_r"
bitfld.long 0x04 10. "UP_IRQ_ALST_FULL,FIFO uplink almost-full signal appears when the FIFO uplink contains (FIFO uplink size - 1) elements" "UP_IRQ_ALST_FULL_0_w,UP_IRQ_ALST_FULL_1_r"
newline
bitfld.long 0x04 9. "UP_IRQ_EMPTY,FIFO uplink empty signal appears when a read access is done and FIFO uplink already empty" "UP_IRQ_EMPTY_0_w,UP_IRQ_EMPTY_1_r"
bitfld.long 0x04 8. "UP_IRQ,FIFO uplink interrupt appears when the number of data present in the FIFO uplink has reached the value of the FIFO uplink threshold" "UP_IRQ_0_w,UP_IRQ_1_r"
newline
bitfld.long 0x04 3. "DN_IRQ_FULL,FIFO downlink full signal appears when the FIFO uplink is full and another a write access is performed" "DN_IRQ_FULL_0_w,DN_IRQ_FULL_1_r"
bitfld.long 0x04 2. "DN_IRQ_ALST_EMPTY,FIFO downlink almost empty signal appears when the FIFO downlink contains only one element" "DN_IRQ_ALST_EMPTY_0_w,DN_IRQ_ALST_EMPTY_1_r"
newline
bitfld.long 0x04 1. "DN_IRQ_EMPTY,FIFO-downlink-empty signal appears when read access is performed and FIFO downlink is already empty" "DN_IRQ_EMPTY_0_w,DN_IRQ_EMPTY_1_r"
bitfld.long 0x04 0. "DN_IRQ,FIFO downlink status is set when the number of data is below the FIFO downlink threshold value" "DN_IRQ_0_w,DN_IRQ_1_r"
line.long 0x08 "MCPDM_IRQENABLE_SET,Interrupt request enable set register"
bitfld.long 0x08 11. "UP_IRQ_FULL_MASK,FIFO-uplink-full event interrupt enabling bit" "UP_IRQ_FULL_MASK_0_w,UP_IRQ_FULL_MASK_1_r"
bitfld.long 0x08 10. "UP_IRQ_ALST_FULL_MASK,FIFO-uplink-almost-full event interrupt enabling bit" "UP_IRQ_ALST_FULL_MASK_0_w,UP_IRQ_ALST_FULL_MASK_1_r"
newline
bitfld.long 0x08 9. "UP_IRQ_EMPTY_MASK,FIFO-uplink-empty event interrupt enabling bit" "UP_IRQ_EMPTY_MASK_0_w,UP_IRQ_EMPTY_MASK_1_r"
bitfld.long 0x08 8. "UP_IRQ_MASK,FIFO-uplink-read-request event interrupt enabling bit" "UP_IRQ_MASK_0_w,UP_IRQ_MASK_1_r"
newline
bitfld.long 0x08 3. "DN_IRQ_FULL_MASK,FIFO-downlink-full event interrupt enabling bit" "DN_IRQ_FULL_MASK_0_w,DN_IRQ_FULL_MASK_1_r"
bitfld.long 0x08 2. "DN_IRQ_ALST_EMPTY_MASK,FIFO downlink almost-empty event interrupt enabling bit" "DN_IRQ_ALST_EMPTY_MASK_0_w,DN_IRQ_ALST_EMPTY_MASK_1_r"
newline
bitfld.long 0x08 1. "DN_IRQ_EMPTY_MASK,FIFO-downlink-empty event interrupt enabling bit" "DN_IRQ_EMPTY_MASK_0_w,DN_IRQ_EMPTY_MASK_1_r"
bitfld.long 0x08 0. "DN_IRQ_MASK,FIFO downlink write-request event interrupt enabling bit" "DN_IRQ_MASK_0_w,DN_IRQ_MASK_1_r"
line.long 0x0C "MCPDM_IRQENABLE_CLR,Interrupt request enable clear register"
bitfld.long 0x0C 11. "UP_IRQ_FULL_MASK,FIFO-uplink-full event interrupt disabling bit" "UP_IRQ_FULL_MASK_0_w,UP_IRQ_FULL_MASK_1_r"
bitfld.long 0x0C 10. "UP_IRQ_ALST_FULL_MASK,FIFO-uplink-almost-full event interrupt disabling bit" "UP_IRQ_ALST_FULL_MASK_0_w,UP_IRQ_ALST_FULL_MASK_1_r"
newline
bitfld.long 0x0C 9. "UP_IRQ_EMPTY_MASK,FIFO-uplink-empty event interrupt disabling bit" "UP_IRQ_EMPTY_MASK_0_w,UP_IRQ_EMPTY_MASK_1_r"
bitfld.long 0x0C 8. "UP_IRQ_MASK,FIFO-uplink-read-request event interrupt disabling bit" "UP_IRQ_MASK_0_w,UP_IRQ_MASK_1_r"
newline
bitfld.long 0x0C 3. "DN_IRQ_FULL_MASK,FIFO-downlink-full event interrupt disabling bit" "DN_IRQ_FULL_MASK_0_w,DN_IRQ_FULL_MASK_1_r"
bitfld.long 0x0C 2. "DN_IRQ_ALST_EMPTY_MASK,FIFO downlink almost-empty event interrupt disabling bit" "DN_IRQ_ALST_EMPTY_MASK_0_w,DN_IRQ_ALST_EMPTY_MASK_1_r"
newline
bitfld.long 0x0C 1. "DN_IRQ_EMPTY_MASK,FIFO-downlink-empty event interrupt disabling bit" "DN_IRQ_EMPTY_MASK_0_w,DN_IRQ_EMPTY_MASK_1_r"
bitfld.long 0x0C 0. "DN_IRQ_MASK,FIFO downlink write-request event interrupt disabling bit" "DN_IRQ_MASK_0_w,DN_IRQ_MASK_1_r"
line.long 0x10 "MCPDM_IRQWAKEEN,Interrupt request wake-up enable register"
bitfld.long 0x10 1. "IRQ_WAKEUP_UP_EN,Enabling/disabling bit for wake-up request generation upon a FIFO-uplink-read-request event" "IRQ_WAKEUP_UP_EN_0,IRQ_WAKEUP_UP_EN_1"
bitfld.long 0x10 0. "IRQ_WAKEUP_DN_EN,Enabling/disabling bit for wake-up by FIFO downlink write-request event" "IRQ_WAKEUP_DN_EN_0,IRQ_WAKEUP_DN_EN_1"
line.long 0x14 "MCPDM_DMAENABLE_SET,DMA request enable set register"
bitfld.long 0x14 1. "DMA_UP_ENABLE,Uplink path DMA request generation enabling bit" "DMA_UP_ENABLE_0_w,DMA_UP_ENABLE_1_r"
bitfld.long 0x14 0. "DMA_DN_ENABLE,Downlink path DMA request generation enabling bit" "DMA_DN_ENABLE_0_w,DMA_DN_ENABLE_1_r"
line.long 0x18 "MCPDM_DMAENABLE_CLR,DMA request enable clear register"
bitfld.long 0x18 1. "DMA_UP_ENABLE,Uplink path DMA request generation disabling bit" "DMA_UP_ENABLE_0_w,DMA_UP_ENABLE_1_r"
bitfld.long 0x18 0. "DMA_DN_ENABLE,Downlink path DMA request generation disabling bit" "DMA_DN_ENABLE_0_w,DMA_DN_ENABLE_1_r"
line.long 0x1C "MCPDM_DMAWAKEEN,DMA request wake-up enable register"
bitfld.long 0x1C 1. "DMA_WAKEUP_UP_EN,Enabling/disabling bit for wake-up request generation upon an uplink path DMA request" "DMA_WAKEUP_UP_EN_0,DMA_WAKEUP_UP_EN_1"
bitfld.long 0x1C 0. "DMA_WAKEUP_DN_EN,Enabling/disabling bit for wake-up request generation upon a downlink path DMA request" "DMA_WAKEUP_DN_EN_0,DMA_WAKEUP_DN_EN_1"
line.long 0x20 "MCPDM_CTRL,MCPDM control register"
bitfld.long 0x20 14. "WD_EN,This bit is used to enable or disable the pulse-density modulator watchdog logic.0x0: Disabled (default after reset)0x1: Enabled" "0,1"
bitfld.long 0x20 13. "DIV_SEL,Multiply by 2 the FS of the uplink path0x0: FS = 88.2 kHz or 96 kHz0x1: FS = 176.4 kHz or 192 kHz" "0,1"
newline
bitfld.long 0x20 12. "SW_DN_RST,Software reset of the downlink path" "SW_DN_RST_0,SW_DN_RST_1"
bitfld.long 0x20 11. "SW_UP_RST,Software reset of the uplink path" "SW_UP_RST_0,SW_UP_RST_1"
newline
bitfld.long 0x20 10. "STATUS_INT,Status channel enabling/disabling bit" "STATUS_INT_0,STATUS_INT_1"
bitfld.long 0x20 9. "CMD_INT,Command channel enabling/disabling bit" "CMD_INT_0,CMD_INT_1"
newline
bitfld.long 0x20 8. "PDMOUTFORMAT,Audio format selection" "PDMOUTFORMAT_0,PDMOUTFORMAT_1"
bitfld.long 0x20 7. "PDM_DN5_EN,Audio downlink channel 5 enabling/disabling bit" "PDM_DN5_EN_0,PDM_DN5_EN_1"
newline
bitfld.long 0x20 6. "PDM_DN4_EN,Audio downlink channel 4 enabling/disabling bit" "PDM_DN4_EN_0,PDM_DN4_EN_1"
bitfld.long 0x20 5. "PDM_DN3_EN,Audio downlink channel 3 enabling/disabling bit" "PDM_DN3_EN_0,PDM_DN3_EN_1"
newline
bitfld.long 0x20 4. "PDM_DN2_EN,Audio downlink channel 2 enabling/disabling bit" "PDM_DN2_EN_0,PDM_DN2_EN_1"
bitfld.long 0x20 3. "PDM_DN1_EN,Audio downlink channel 1 enabling/disabling bit" "PDM_DN1_EN_0,PDM_DN1_EN_1"
newline
bitfld.long 0x20 2. "PDM_UP3_EN,Audio uplink channel 3 enabling/disabling bit" "PDM_UP3_EN_0,PDM_UP3_EN_1"
bitfld.long 0x20 1. "PDM_UP2_EN,Audio uplink channel 2 enabling/disabling bit" "PDM_UP2_EN_0,PDM_UP2_EN_1"
newline
bitfld.long 0x20 0. "PDM_UP1_EN,Audio uplink channel 1 enabling/disabling bit" "PDM_UP1_EN_0,PDM_UP1_EN_1"
line.long 0x24 "MCPDM_DN_DATA,Downlink path data register"
line.long 0x28 "MCPDM_UP_DATA,Uplink path data register"
line.long 0x2C "MCPDM_FIFO_CTRL_DN,FIFO downlink control register"
bitfld.long 0x2C 0.--3. "DN_TRESH,FIFO downlink threshold value" "DN_TRESH_0,DN_TRESH_1,DN_TRESH_2,DN_TRESH_3,DN_TRESH_4,DN_TRESH_5,DN_TRESH_6,DN_TRESH_7,DN_TRESH_8,DN_TRESH_9,DN_TRESH_10,DN_TRESH_11,DN_TRESH_12,DN_TRESH_13,DN_TRESH_14,DN_TRESH_15"
line.long 0x30 "MCPDM_FIFO_CTRL_UP,FIFO uplink control register"
bitfld.long 0x30 0.--3. "UP_TRESH,FIFO uplink threshold value" "UP_TRESH_0,UP_TRESH_1,UP_TRESH_2,UP_TRESH_3,UP_TRESH_4,UP_TRESH_5,UP_TRESH_6,UP_TRESH_7,UP_TRESH_8,UP_TRESH_9,UP_TRESH_10,UP_TRESH_11,UP_TRESH_12,UP_TRESH_13,UP_TRESH_14,UP_TRESH_15"
line.long 0x34 "MCPDM_DN_OFFSET,"
bitfld.long 0x34 9.--13. "DN_OFST_RX2,Offset value for the audio downlink channel 2" "DN_OFST_RX2_0,DN_OFST_RX2_1,DN_OFST_RX2_2,DN_OFST_RX2_3,DN_OFST_RX2_4,DN_OFST_RX2_5,DN_OFST_RX2_6,DN_OFST_RX2_7,DN_OFST_RX2_8,DN_OFST_RX2_9,DN_OFST_RX2_10,DN_OFST_RX2_11,DN_OFST_RX2_12,DN_OFST_RX2_13,DN_OFST_RX2_14,DN_OFST_RX2_15,DN_OFST_RX2_16,DN_OFST_RX2_17,DN_OFST_RX2_18,DN_OFST_RX2_19,DN_OFST_RX2_20,DN_OFST_RX2_21,DN_OFST_RX2_22,DN_OFST_RX2_23,DN_OFST_RX2_24,DN_OFST_RX2_25,DN_OFST_RX2_26,DN_OFST_RX2_27,DN_OFST_RX2_28,DN_OFST_RX2_29,DN_OFST_RX2_30,DN_OFST_RX2_31"
bitfld.long 0x34 8. "DN_OFST_RX2_EN,Offset cancellation feature enabling/disabling bit for the audio downlink channel 2" "DN_OFST_RX2_EN_0,DN_OFST_RX2_EN_1"
newline
bitfld.long 0x34 1.--5. "DN_OFST_RX1,Offset value for the audio downlink channel 1" "DN_OFST_RX1_0,DN_OFST_RX1_1,DN_OFST_RX1_2,DN_OFST_RX1_3,DN_OFST_RX1_4,DN_OFST_RX1_5,DN_OFST_RX1_6,DN_OFST_RX1_7,DN_OFST_RX1_8,DN_OFST_RX1_9,DN_OFST_RX1_10,DN_OFST_RX1_11,DN_OFST_RX1_12,DN_OFST_RX1_13,DN_OFST_RX1_14,DN_OFST_RX1_15,DN_OFST_RX1_16,DN_OFST_RX1_17,DN_OFST_RX1_18,DN_OFST_RX1_19,DN_OFST_RX1_20,DN_OFST_RX1_21,DN_OFST_RX1_22,DN_OFST_RX1_23,DN_OFST_RX1_24,DN_OFST_RX1_25,DN_OFST_RX1_26,DN_OFST_RX1_27,DN_OFST_RX1_28,DN_OFST_RX1_29,DN_OFST_RX1_30,DN_OFST_RX1_31"
bitfld.long 0x34 0. "DN_OFST_RX1_EN,Offset cancellation feature enabling/disabling bit for the audio downlink channel 1" "DN_OFST_RX1_EN_0,DN_OFST_RX1_EN_1"
tree.end
tree.end
tree "Multichannel_Serial_Port_Interface"
repeat 2. (list 1. 2. )(list ansd:0x48098000 ansd:0x4809A000 )
tree "MCSPI$1"
base $2
tree "Channel_0"
group.long 0x12C++0x03
line.long 0x00 "MCSPI_CHxCONF_0,This register is dedicated to the configuration of the channel 0"
bitfld.long 0x00 29. "CLKG,Clock divider granularity This register defines the granularity of channel clock divider: power of 2 or one clock cycle granularity" "CLKG_0,CLKG_1"
bitfld.long 0x00 28. "FFER,FIFO enabled for receive: Only one channel can have this bit field set" "FFER_0,FFER_1"
bitfld.long 0x00 27. "FFEW,FIFO enabled for transmit: Only one channel can have this bit field set" "FFEW_0,FFEW_1"
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" "TCS0_0,TCS0_1,TCS0_2,TCS0_3"
bitfld.long 0x00 24. "SBPOL,Start-bit polarity" "SBPOL_0,SBPOL_1"
bitfld.long 0x00 23. "SBE,Start-bit enable for SPI transfer" "SBE_0,SBE_1"
bitfld.long 0x00 21.--22. "SPIENSLV,Channel 0 only and slave mode only: SPI slave select signal detection" "SPIENSLV_0,SPIENSLV_1,SPIENSLV_2,SPIENSLV_3"
newline
bitfld.long 0x00 20. "FORCE,Manual SPIEN assertion to keep SPIEN active between SPI words (single channel master mode only)" "FORCE_0,FORCE_1"
bitfld.long 0x00 19. "TURBO,Turbo mode" "TURBO_0,TURBO_1"
bitfld.long 0x00 18. "IS,Input Select" "IS_0,IS_1"
bitfld.long 0x00 17. "DPE1,Transmission enable for data line 1 (SPIDATAGZEN[1])" "DPE1_0,DPE1_1"
bitfld.long 0x00 16. "DPE0,Transmission Enable for data line 0 (SPIDATAGZEN[0])" "DPE0_0,DPE0_1"
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" "DMAR_0,DMAR_1"
bitfld.long 0x00 14. "DMAW,DMA write request" "DMAW_0,DMAW_1"
newline
bitfld.long 0x00 12.--13. "TRM,Transmit/receive modes" "TRM_0,TRM_1,TRM_2,TRM_3"
bitfld.long 0x00 7.--11. "WL,SPI word length" "WL_0,WL_1,WL_2,WL_3,WL_4,WL_5,WL_6,WL_7,WL_8,WL_9,WL_10,WL_11,WL_12,WL_13,WL_14,WL_15,WL_16,WL_17,WL_18,WL_19,WL_20,WL_21,WL_22,WL_23,WL_24,WL_25,WL_26,WL_27,WL_28,WL_29,WL_30,WL_31"
bitfld.long 0x00 6. "EPOL,SPIEN polarity" "EPOL_0,EPOL_1"
bitfld.long 0x00 2.--5. "CLKD,Frequency divider for SPICLK (only when the module is a Master SPI device)" "CLKD_0,CLKD_1,CLKD_2,CLKD_3,CLKD_4,CLKD_5,CLKD_6,CLKD_7,CLKD_8,CLKD_9,CLKD_10,CLKD_11,CLKD_12,CLKD_13,CLKD_14,CLKD_15"
bitfld.long 0x00 1. "POL,SPICLK polarity" "POL_0,POL_1"
bitfld.long 0x00 0. "PHA,SPICLK phase" "PHA_0,PHA_1"
group.long 0x134++0x03
line.long 0x00 "MCSPI_CHxCTRL_0,This register is dedicated to enable channel 0"
hexmask.long.byte 0x00 8.--15. 1. "EXTCLK,Clock ratio extension: This register 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)"
bitfld.long 0x00 0. "EN,Channel enable" "EN_0,EN_1"
rgroup.long 0x130++0x03
line.long 0x00 "MCSPI_CHxSTAT_0,This register provides status information about transmitter and receiver registers of channel 0"
bitfld.long 0x00 6. "RXFFF,Channel 'i' FIFO receive buffer full status" "RXFFF_0_r,RXFFF_1_r"
bitfld.long 0x00 5. "RXFFE,Channel 'i' FIFO receive buffer empty status" "RXFFE_0_r,RXFFE_1_r"
bitfld.long 0x00 4. "TXFFF,Channel 'i' FIFO transmit buffer full status" "TXFFF_0_r,TXFFF_1_r"
bitfld.long 0x00 3. "TXFFE,Channel 'i' FIFO transmit buffer empty status" "TXFFE_0_r,TXFFE_1_r"
bitfld.long 0x00 2. "EOT,Channel 'i' end of transfer status" "EOT_0_r,EOT_1_r"
bitfld.long 0x00 1. "TXS,Channel 'i' transmitter register status" "TXS_0_r,TXS_1_r"
bitfld.long 0x00 0. "RXS,Channel 'i' receiver register status" "RXS_0_r,RXS_1_r"
rgroup.long 0x13C++0x03
line.long 0x00 "MCSPI_RXx_0,This register contains a single SPI word received through the serial link. what ever SPI word length is"
group.long 0x138++0x03
line.long 0x00 "MCSPI_TXx_0,This register contains a single SPI word to transmit on the serial link. what ever SPI word length is"
tree.end
tree "Channel_1"
group.long 0x140++0x03
line.long 0x00 "MCSPI_CHxCONF_1,This register is dedicated to the configuration of the channel 0"
bitfld.long 0x00 29. "CLKG,Clock divider granularity This register defines the granularity of channel clock divider: power of 2 or one clock cycle granularity" "CLKG_0,CLKG_1"
bitfld.long 0x00 28. "FFER,FIFO enabled for receive: Only one channel can have this bit field set" "FFER_0,FFER_1"
bitfld.long 0x00 27. "FFEW,FIFO enabled for transmit: Only one channel can have this bit field set" "FFEW_0,FFEW_1"
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" "TCS0_0,TCS0_1,TCS0_2,TCS0_3"
bitfld.long 0x00 24. "SBPOL,Start-bit polarity" "SBPOL_0,SBPOL_1"
bitfld.long 0x00 23. "SBE,Start-bit enable for SPI transfer" "SBE_0,SBE_1"
bitfld.long 0x00 21.--22. "SPIENSLV,Channel 0 only and slave mode only: SPI slave select signal detection" "SPIENSLV_0,SPIENSLV_1,SPIENSLV_2,SPIENSLV_3"
newline
bitfld.long 0x00 20. "FORCE,Manual SPIEN assertion to keep SPIEN active between SPI words (single channel master mode only)" "FORCE_0,FORCE_1"
bitfld.long 0x00 19. "TURBO,Turbo mode" "TURBO_0,TURBO_1"
bitfld.long 0x00 18. "IS,Input Select" "IS_0,IS_1"
bitfld.long 0x00 17. "DPE1,Transmission enable for data line 1 (SPIDATAGZEN[1])" "DPE1_0,DPE1_1"
bitfld.long 0x00 16. "DPE0,Transmission Enable for data line 0 (SPIDATAGZEN[0])" "DPE0_0,DPE0_1"
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" "DMAR_0,DMAR_1"
bitfld.long 0x00 14. "DMAW,DMA write request" "DMAW_0,DMAW_1"
newline
bitfld.long 0x00 12.--13. "TRM,Transmit/receive modes" "TRM_0,TRM_1,TRM_2,TRM_3"
bitfld.long 0x00 7.--11. "WL,SPI word length" "WL_0,WL_1,WL_2,WL_3,WL_4,WL_5,WL_6,WL_7,WL_8,WL_9,WL_10,WL_11,WL_12,WL_13,WL_14,WL_15,WL_16,WL_17,WL_18,WL_19,WL_20,WL_21,WL_22,WL_23,WL_24,WL_25,WL_26,WL_27,WL_28,WL_29,WL_30,WL_31"
bitfld.long 0x00 6. "EPOL,SPIEN polarity" "EPOL_0,EPOL_1"
bitfld.long 0x00 2.--5. "CLKD,Frequency divider for SPICLK (only when the module is a Master SPI device)" "CLKD_0,CLKD_1,CLKD_2,CLKD_3,CLKD_4,CLKD_5,CLKD_6,CLKD_7,CLKD_8,CLKD_9,CLKD_10,CLKD_11,CLKD_12,CLKD_13,CLKD_14,CLKD_15"
bitfld.long 0x00 1. "POL,SPICLK polarity" "POL_0,POL_1"
bitfld.long 0x00 0. "PHA,SPICLK phase" "PHA_0,PHA_1"
group.long 0x148++0x03
line.long 0x00 "MCSPI_CHxCTRL_1,This register is dedicated to enable channel 0"
hexmask.long.byte 0x00 8.--15. 1. "EXTCLK,Clock ratio extension: This register 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)"
bitfld.long 0x00 0. "EN,Channel enable" "EN_0,EN_1"
rgroup.long 0x144++0x03
line.long 0x00 "MCSPI_CHxSTAT_1,This register provides status information about transmitter and receiver registers of channel 0"
bitfld.long 0x00 6. "RXFFF,Channel 'i' FIFO receive buffer full status" "RXFFF_0_r,RXFFF_1_r"
bitfld.long 0x00 5. "RXFFE,Channel 'i' FIFO receive buffer empty status" "RXFFE_0_r,RXFFE_1_r"
bitfld.long 0x00 4. "TXFFF,Channel 'i' FIFO transmit buffer full status" "TXFFF_0_r,TXFFF_1_r"
bitfld.long 0x00 3. "TXFFE,Channel 'i' FIFO transmit buffer empty status" "TXFFE_0_r,TXFFE_1_r"
bitfld.long 0x00 2. "EOT,Channel 'i' end of transfer status" "EOT_0_r,EOT_1_r"
bitfld.long 0x00 1. "TXS,Channel 'i' transmitter register status" "TXS_0_r,TXS_1_r"
bitfld.long 0x00 0. "RXS,Channel 'i' receiver register status" "RXS_0_r,RXS_1_r"
rgroup.long 0x150++0x03
line.long 0x00 "MCSPI_RXx_1,This register contains a single SPI word received through the serial link. what ever SPI word length is"
group.long 0x14C++0x03
line.long 0x00 "MCSPI_TXx_1,This register contains a single SPI word to transmit on the serial link. what ever SPI word length is"
tree.end
tree "Channel_2"
group.long 0x154++0x03
line.long 0x00 "MCSPI_CHxCONF_2,This register is dedicated to the configuration of the channel 0"
bitfld.long 0x00 29. "CLKG,Clock divider granularity This register defines the granularity of channel clock divider: power of 2 or one clock cycle granularity" "CLKG_0,CLKG_1"
bitfld.long 0x00 28. "FFER,FIFO enabled for receive: Only one channel can have this bit field set" "FFER_0,FFER_1"
bitfld.long 0x00 27. "FFEW,FIFO enabled for transmit: Only one channel can have this bit field set" "FFEW_0,FFEW_1"
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" "TCS0_0,TCS0_1,TCS0_2,TCS0_3"
bitfld.long 0x00 24. "SBPOL,Start-bit polarity" "SBPOL_0,SBPOL_1"
bitfld.long 0x00 23. "SBE,Start-bit enable for SPI transfer" "SBE_0,SBE_1"
bitfld.long 0x00 21.--22. "SPIENSLV,Channel 0 only and slave mode only: SPI slave select signal detection" "SPIENSLV_0,SPIENSLV_1,SPIENSLV_2,SPIENSLV_3"
newline
bitfld.long 0x00 20. "FORCE,Manual SPIEN assertion to keep SPIEN active between SPI words (single channel master mode only)" "FORCE_0,FORCE_1"
bitfld.long 0x00 19. "TURBO,Turbo mode" "TURBO_0,TURBO_1"
bitfld.long 0x00 18. "IS,Input Select" "IS_0,IS_1"
bitfld.long 0x00 17. "DPE1,Transmission enable for data line 1 (SPIDATAGZEN[1])" "DPE1_0,DPE1_1"
bitfld.long 0x00 16. "DPE0,Transmission Enable for data line 0 (SPIDATAGZEN[0])" "DPE0_0,DPE0_1"
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" "DMAR_0,DMAR_1"
bitfld.long 0x00 14. "DMAW,DMA write request" "DMAW_0,DMAW_1"
newline
bitfld.long 0x00 12.--13. "TRM,Transmit/receive modes" "TRM_0,TRM_1,TRM_2,TRM_3"
bitfld.long 0x00 7.--11. "WL,SPI word length" "WL_0,WL_1,WL_2,WL_3,WL_4,WL_5,WL_6,WL_7,WL_8,WL_9,WL_10,WL_11,WL_12,WL_13,WL_14,WL_15,WL_16,WL_17,WL_18,WL_19,WL_20,WL_21,WL_22,WL_23,WL_24,WL_25,WL_26,WL_27,WL_28,WL_29,WL_30,WL_31"
bitfld.long 0x00 6. "EPOL,SPIEN polarity" "EPOL_0,EPOL_1"
bitfld.long 0x00 2.--5. "CLKD,Frequency divider for SPICLK (only when the module is a Master SPI device)" "CLKD_0,CLKD_1,CLKD_2,CLKD_3,CLKD_4,CLKD_5,CLKD_6,CLKD_7,CLKD_8,CLKD_9,CLKD_10,CLKD_11,CLKD_12,CLKD_13,CLKD_14,CLKD_15"
bitfld.long 0x00 1. "POL,SPICLK polarity" "POL_0,POL_1"
bitfld.long 0x00 0. "PHA,SPICLK phase" "PHA_0,PHA_1"
group.long 0x15C++0x03
line.long 0x00 "MCSPI_CHxCTRL_2,This register is dedicated to enable channel 0"
hexmask.long.byte 0x00 8.--15. 1. "EXTCLK,Clock ratio extension: This register 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)"
bitfld.long 0x00 0. "EN,Channel enable" "EN_0,EN_1"
rgroup.long 0x158++0x03
line.long 0x00 "MCSPI_CHxSTAT_2,This register provides status information about transmitter and receiver registers of channel 0"
bitfld.long 0x00 6. "RXFFF,Channel 'i' FIFO receive buffer full status" "RXFFF_0_r,RXFFF_1_r"
bitfld.long 0x00 5. "RXFFE,Channel 'i' FIFO receive buffer empty status" "RXFFE_0_r,RXFFE_1_r"
bitfld.long 0x00 4. "TXFFF,Channel 'i' FIFO transmit buffer full status" "TXFFF_0_r,TXFFF_1_r"
bitfld.long 0x00 3. "TXFFE,Channel 'i' FIFO transmit buffer empty status" "TXFFE_0_r,TXFFE_1_r"
bitfld.long 0x00 2. "EOT,Channel 'i' end of transfer status" "EOT_0_r,EOT_1_r"
bitfld.long 0x00 1. "TXS,Channel 'i' transmitter register status" "TXS_0_r,TXS_1_r"
bitfld.long 0x00 0. "RXS,Channel 'i' receiver register status" "RXS_0_r,RXS_1_r"
rgroup.long 0x164++0x03
line.long 0x00 "MCSPI_RXx_2,This register contains a single SPI word received through the serial link. what ever SPI word length is"
group.long 0x160++0x03
line.long 0x00 "MCSPI_TXx_2,This register contains a single SPI word to transmit on the serial link. what ever SPI word length is"
tree.end
tree "Channel_3"
group.long 0x168++0x03
line.long 0x00 "MCSPI_CHxCONF_3,This register is dedicated to the configuration of the channel 0"
bitfld.long 0x00 29. "CLKG,Clock divider granularity This register defines the granularity of channel clock divider: power of 2 or one clock cycle granularity" "CLKG_0,CLKG_1"
bitfld.long 0x00 28. "FFER,FIFO enabled for receive: Only one channel can have this bit field set" "FFER_0,FFER_1"
bitfld.long 0x00 27. "FFEW,FIFO enabled for transmit: Only one channel can have this bit field set" "FFEW_0,FFEW_1"
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" "TCS0_0,TCS0_1,TCS0_2,TCS0_3"
bitfld.long 0x00 24. "SBPOL,Start-bit polarity" "SBPOL_0,SBPOL_1"
bitfld.long 0x00 23. "SBE,Start-bit enable for SPI transfer" "SBE_0,SBE_1"
bitfld.long 0x00 21.--22. "SPIENSLV,Channel 0 only and slave mode only: SPI slave select signal detection" "SPIENSLV_0,SPIENSLV_1,SPIENSLV_2,SPIENSLV_3"
newline
bitfld.long 0x00 20. "FORCE,Manual SPIEN assertion to keep SPIEN active between SPI words (single channel master mode only)" "FORCE_0,FORCE_1"
bitfld.long 0x00 19. "TURBO,Turbo mode" "TURBO_0,TURBO_1"
bitfld.long 0x00 18. "IS,Input Select" "IS_0,IS_1"
bitfld.long 0x00 17. "DPE1,Transmission enable for data line 1 (SPIDATAGZEN[1])" "DPE1_0,DPE1_1"
bitfld.long 0x00 16. "DPE0,Transmission Enable for data line 0 (SPIDATAGZEN[0])" "DPE0_0,DPE0_1"
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" "DMAR_0,DMAR_1"
bitfld.long 0x00 14. "DMAW,DMA write request" "DMAW_0,DMAW_1"
newline
bitfld.long 0x00 12.--13. "TRM,Transmit/receive modes" "TRM_0,TRM_1,TRM_2,TRM_3"
bitfld.long 0x00 7.--11. "WL,SPI word length" "WL_0,WL_1,WL_2,WL_3,WL_4,WL_5,WL_6,WL_7,WL_8,WL_9,WL_10,WL_11,WL_12,WL_13,WL_14,WL_15,WL_16,WL_17,WL_18,WL_19,WL_20,WL_21,WL_22,WL_23,WL_24,WL_25,WL_26,WL_27,WL_28,WL_29,WL_30,WL_31"
bitfld.long 0x00 6. "EPOL,SPIEN polarity" "EPOL_0,EPOL_1"
bitfld.long 0x00 2.--5. "CLKD,Frequency divider for SPICLK (only when the module is a Master SPI device)" "CLKD_0,CLKD_1,CLKD_2,CLKD_3,CLKD_4,CLKD_5,CLKD_6,CLKD_7,CLKD_8,CLKD_9,CLKD_10,CLKD_11,CLKD_12,CLKD_13,CLKD_14,CLKD_15"
bitfld.long 0x00 1. "POL,SPICLK polarity" "POL_0,POL_1"
bitfld.long 0x00 0. "PHA,SPICLK phase" "PHA_0,PHA_1"
group.long 0x170++0x03
line.long 0x00 "MCSPI_CHxCTRL_3,This register is dedicated to enable channel 0"
hexmask.long.byte 0x00 8.--15. 1. "EXTCLK,Clock ratio extension: This register 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)"
bitfld.long 0x00 0. "EN,Channel enable" "EN_0,EN_1"
rgroup.long 0x16C++0x03
line.long 0x00 "MCSPI_CHxSTAT_3,This register provides status information about transmitter and receiver registers of channel 0"
bitfld.long 0x00 6. "RXFFF,Channel 'i' FIFO receive buffer full status" "RXFFF_0_r,RXFFF_1_r"
bitfld.long 0x00 5. "RXFFE,Channel 'i' FIFO receive buffer empty status" "RXFFE_0_r,RXFFE_1_r"
bitfld.long 0x00 4. "TXFFF,Channel 'i' FIFO transmit buffer full status" "TXFFF_0_r,TXFFF_1_r"
bitfld.long 0x00 3. "TXFFE,Channel 'i' FIFO transmit buffer empty status" "TXFFE_0_r,TXFFE_1_r"
bitfld.long 0x00 2. "EOT,Channel 'i' end of transfer status" "EOT_0_r,EOT_1_r"
bitfld.long 0x00 1. "TXS,Channel 'i' transmitter register status" "TXS_0_r,TXS_1_r"
bitfld.long 0x00 0. "RXS,Channel 'i' receiver register status" "RXS_0_r,RXS_1_r"
rgroup.long 0x178++0x03
line.long 0x00 "MCSPI_RXx_3,This register contains a single SPI word received through the serial link. what ever SPI word length is"
group.long 0x174++0x03
line.long 0x00 "MCSPI_TXx_3,This register contains a single SPI word to transmit on the serial link. what ever SPI word length is"
tree.end
rgroup.long 0x04++0x03
line.long 0x00 "MCSPI_HL_HWINFO,Information about the IP module's hardware configuration. that is. typically the module's HDL generics (if any)"
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" "Retention mode disabled,Retention mode enabled"
bitfld.long 0x00 1.--5. "FFNBYTE,FIFO number of byte generic parameter This register defines the value of FFNBYTE generic parameter only MSB bits from 8 down to 4 are taken into account" "?,FFNBYTE_1_r,FFNBYTE_2_r,?,FFNBYTE_4_r,?,?,?,FFNBYTE_8_r,?,?,?,?,?,?,?,FFNBYTE_16_r,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
bitfld.long 0x00 0. "USEFIFO,Use of a FIFO enable: This bit indicates if a FIFO is integrated within controller design with its management" "USEFIFO_0_r,USEFIFO_1_r"
rgroup.long 0x00++0x03
line.long 0x00 "MCSPI_HL_REV,IP Revision Identifier (X.Y.R) Used by software to track features. bugs. and compatibility"
group.long 0x10++0x03
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" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 1. "FREEEMU,Sensitivity to emulation (debug) suspend input signal" "FREEEMU_0,FREEEMU_1"
newline
bitfld.long 0x00 0. "SOFTRESET,Software reset" "SOFTRESET_0_r,SOFTRESET_1_w"
group.long 0x11C++0x03
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" "EOW_ENABLE_0,EOW_ENABLE_1"
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" "WKE_0,WKE_1"
bitfld.long 0x00 14. "RX3_FULL_ENABLE,Receiver register Full Interrupt Enable" "RX3_FULL_ENABLE_0,RX3_FULL_ENABLE_1"
newline
bitfld.long 0x00 13. "TX3_UNDERFLOW_ENABLE,Transmitter register Underflow Interrupt Enable" "TX3_UNDERFLOW_ENABLE_0,TX3_UNDERFLOW_ENABLE_1"
bitfld.long 0x00 12. "TX3_EMPTY_ENABLE,Transmitter register Empty Interrupt Enable" "TX3_EMPTY_ENABLE_0,TX3_EMPTY_ENABLE_1"
bitfld.long 0x00 10. "RX2_FULL_ENABLE,Receiver register Full Interrupt Enable" "RX2_FULL_ENABLE_0,RX2_FULL_ENABLE_1"
newline
bitfld.long 0x00 9. "TX2_UNDERFLOW_ENABLE,Transmitter register Underflow Interrupt Enable" "TX2_UNDERFLOW_ENABLE_0,TX2_UNDERFLOW_ENABLE_1"
bitfld.long 0x00 8. "TX2_EMPTY_ENABLE,Transmitter register Empty Interrupt Enable" "TX2_EMPTY_ENABLE_0,TX2_EMPTY_ENABLE_1"
bitfld.long 0x00 6. "RX1_FULL_ENABLE,Receiver register Full Interrupt Enable" "RX1_FULL_ENABLE_0,RX1_FULL_ENABLE_1"
newline
bitfld.long 0x00 5. "TX1_UNDERFLOW_ENABLE,Transmitter register Underflow Interrupt Enable" "TX1_UNDERFLOW_ENABLE_0,TX1_UNDERFLOW_ENABLE_1"
bitfld.long 0x00 4. "TX1_EMPTY_ENABLE,Transmitter register Empty Interrupt Enable" "TX1_EMPTY_ENABLE_0,TX1_EMPTY_ENABLE_1"
bitfld.long 0x00 3. "RX0_OVERFLOW_ENABLE,Receiver register Overflow Interrupt Enable" "RX0_OVERFLOW_ENABLE_0,RX0_OVERFLOW_ENABLE_1"
newline
bitfld.long 0x00 2. "RX0_FULL_ENABLE,Receiver register Full Interrupt Enable" "RX0_FULL_ENABLE_0,RX0_FULL_ENABLE_1"
bitfld.long 0x00 1. "TX0_UNDERFLOW_ENABLE,Transmitter register Underflow Interrupt Enable" "TX0_UNDERFLOW_ENABLE_0,TX0_UNDERFLOW_ENABLE_1"
bitfld.long 0x00 0. "TX0_EMPTY_ENABLE,Transmitter register Empty Interrupt Enable" "TX0_EMPTY_ENABLE_0,TX0_EMPTY_ENABLE_1"
group.long 0x118++0x03
line.long 0x00 "MCSPI_IRQSTATUS,The interrupt status regroups all the status of the module internal events that can generate an interrupt"
bitfld.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]" "EOW_0_r,EOW_1_w"
bitfld.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]" "WKS_0_w,WKS_1_r"
bitfld.long 0x00 14. "RX3_FULL,Receiver register is full or almost full" "RX3_FULL_0_w,RX3_FULL_1_r"
newline
bitfld.long 0x00 13. "TX3_UNDERFLOW,Transmitter register underflow" "TX3_UNDERFLOW_0_w,TX3_UNDERFLOW_1_r"
bitfld.long 0x00 12. "TX3_EMPTY,Transmitter register is empty or almost empty" "TX3_EMPTY_0_w,TX3_EMPTY_1_r"
bitfld.long 0x00 10. "RX2_FULL,Receiver register full or almost full" "RX2_FULL_0_w,RX2_FULL_1_r"
newline
bitfld.long 0x00 9. "TX2_UNDERFLOW,Transmitter register underflow" "TX2_UNDERFLOW_0_w,TX2_UNDERFLOW_1_r"
bitfld.long 0x00 8. "TX2_EMPTY,Transmitter register empty or almost empty" "TX2_EMPTY_0_w,TX2_EMPTY_1_r"
bitfld.long 0x00 6. "RX1_FULL,Receiver register full or almost full" "RX1_FULL_0_w,RX1_FULL_1_r"
newline
bitfld.long 0x00 5. "TX1_UNDERFLOW,Transmitter register underflow" "TX1_UNDERFLOW_0_w,TX1_UNDERFLOW_1_r"
bitfld.long 0x00 4. "TX1_EMPTY,Transmitter register empty or almost empty" "TX1_EMPTY_0_w,TX1_EMPTY_1_r"
bitfld.long 0x00 3. "RX0_OVERFLOW,Receiver register overflow (slave mode only)" "RX0_OVERFLOW_0_w,RX0_OVERFLOW_1_r"
newline
bitfld.long 0x00 2. "RX0_FULL,Receiver register full or almost full" "RX0_FULL_0_w,RX0_FULL_1_r"
bitfld.long 0x00 1. "TX0_UNDERFLOW,Transmitter register underflow" "TX0_UNDERFLOW_0_w,TX0_UNDERFLOW_1_r"
bitfld.long 0x00 0. "TX0_EMPTY,Transmitter register empty or almost empty" "TX0_EMPTY_0_w,TX0_EMPTY_1_r"
group.long 0x128++0x03
line.long 0x00 "MCSPI_MODULCTRL,This register is dedicated to the configuration of the serial port interface"
bitfld.long 0x00 8. "FDAA,FIFO DMA address 256-bit aligned This register is used when a FIFO is managed by the module and DMA connected to the controller provides only 256-bit aligned address" "FDAA_0,FDAA_1"
bitfld.long 0x00 7. "MOA,Multiple word OCP access: This register can only be used when a channel is enabled using a FIFO" "MOA_0,MOA_1"
bitfld.long 0x00 4.--6. "INITDLY,Initial SPI delay for first transfer: This register is an option only available in SINGLE master mode" "INITDLY_0,INITDLY_1,INITDLY_2,INITDLY_3,INITDLY_4,?,?,?"
newline
bitfld.long 0x00 3. "SYSTEM_TEST,Enables the system test mode" "SYSTEM_TEST_0,SYSTEM_TEST_1"
bitfld.long 0x00 2. "MS,Master/slave" "MS_0,MS_1"
bitfld.long 0x00 1. "PIN34,Pin mode selection: This register is used to configure the SPI pin mode in master or slave mode" "PIN34_0,PIN34_1"
newline
bitfld.long 0x00 0. "SINGLE,Single channel/Multi Channel (master mode only)" "SINGLE_0,SINGLE_1"
rgroup.long 0x100++0x03
line.long 0x00 "MCSPI_REVISION,This register contains the revision number"
group.long 0x110++0x07
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" "CLOCKACTIVITY_0,CLOCKACTIVITY_1,CLOCKACTIVITY_2,CLOCKACTIVITY_3"
bitfld.long 0x00 3.--4. "SIDLEMODE,Power management" "SIDLEMODE_0,SIDLEMODE_1,SIDLEMODE_2,SIDLEMODE_3"
bitfld.long 0x00 2. "ENAWAKEUP,Wake-up feature control" "ENAWAKEUP_0,ENAWAKEUP_1"
newline
bitfld.long 0x00 1. "SOFTRESET,Software reset" "SOFTRESET_0,SOFTRESET_1"
bitfld.long 0x00 0. "AUTOIDLE,Internal OCP clock-gating strategy" "AUTOIDLE_0,AUTOIDLE_1"
line.long 0x04 "MCSPI_SYSSTATUS,This register provides status information about the module excluding the interrupt status information"
bitfld.long 0x04 0. "RESETDONE,Internal reset monitoring" "RESETDONE_0_r,RESETDONE_1_r"
group.long 0x124++0x03
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" "SSB_0,SSB_1"
bitfld.long 0x00 10. "SPIENDIR,Set the direction of the SPIEN[3:0] lines and SPICLK line" "SPIENDIR_0,SPIENDIR_1"
bitfld.long 0x00 9. "SPIDATDIR1,Set the direction of the SPIDAT[1]" "SPIDATDIR1_0,SPIDATDIR1_1"
newline
bitfld.long 0x00 8. "SPIDATDIR0,Set the direction of the SPIDAT[0]" "SPIDATDIR0_0,SPIDATDIR0_1"
bitfld.long 0x00 7. "WAKD,SWAKEUP output (signal data value of internal signal to system)" "WAKD_0,WAKD_1"
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" "SPICLK_0,SPICLK_1"
newline
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 register" "SPIDAT_1_0,SPIDAT_1_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 register" "SPIDAT_0_0,SPIDAT_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 register" "SPIEN_3_0,SPIEN_3_1"
newline
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 register" "SPIEN_2_0,SPIEN_2_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 register" "SPIEN_1_0,SPIEN_1_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 register" "SPIEN_0_0,SPIEN_0_1"
group.long 0x120++0x03
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" "WKEN_0,WKEN_1"
group.long 0x17C++0x03
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"
hexmask.long.byte 0x00 8.--15. 1. "AFL,Buffer almost full This register holds the programmable almost full level value used to determine almost full buffer condition"
hexmask.long.byte 0x00 0.--7. 1. "AEL,Buffer almost empty"
tree.end
repeat.end
repeat 2. (list 3. 4. )(list ansd:0x480B8000 ansd:0x480BA000 )
tree "MCSPI$1"
base $2
rgroup.long 0x00++0x07
line.long 0x00 "MCSPI_HL_REV,IP Revision Identifier (X.Y.R) Used by software to track features. bugs. and compatibility"
line.long 0x04 "MCSPI_HL_HWINFO,Information about the IP module's hardware configuration. that is. typically the module's HDL generics (if any)"
hexmask.long 0x04 7.--31. 1. "RSVD,Reserved These bits are initialized to 0 and writes to them are ignored"
bitfld.long 0x04 6. "RETMODE,Retention Mode generic parameter" "Retention mode disabled,Retention mode enabled"
bitfld.long 0x04 1.--5. "FFNBYTE,FIFO number of byte generic parameter This register defines the value of FFNBYTE generic parameter only MSB bits from 8 down to 4 are taken into account" "?,FFNBYTE_1_r,FFNBYTE_2_r,?,FFNBYTE_4_r,?,?,?,FFNBYTE_8_r,?,?,?,?,?,?,?,FFNBYTE_16_r,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
bitfld.long 0x04 0. "USEFIFO,Use of a FIFO enable: This bit indicates if a FIFO is integrated within controller design with its management" "USEFIFO_0_r,USEFIFO_1_r"
group.long 0x10++0x03
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" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 1. "FREEEMU,Sensitivity to emulation (debug) suspend input signal" "FREEEMU_0,FREEEMU_1"
newline
bitfld.long 0x00 0. "SOFTRESET,Software reset" "SOFTRESET_0_r,SOFTRESET_1_w"
rgroup.long 0x100++0x03
line.long 0x00 "MCSPI_REVISION,This register contains the revision number"
group.long 0x110++0x2F
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" "CLOCKACTIVITY_0,CLOCKACTIVITY_1,CLOCKACTIVITY_2,CLOCKACTIVITY_3"
bitfld.long 0x00 3.--4. "SIDLEMODE,Power management" "SIDLEMODE_0,SIDLEMODE_1,SIDLEMODE_2,SIDLEMODE_3"
bitfld.long 0x00 2. "ENAWAKEUP,Wake-up feature control" "ENAWAKEUP_0,ENAWAKEUP_1"
newline
bitfld.long 0x00 1. "SOFTRESET,Software reset" "SOFTRESET_0,SOFTRESET_1"
bitfld.long 0x00 0. "AUTOIDLE,Internal OCP clock-gating strategy" "AUTOIDLE_0,AUTOIDLE_1"
line.long 0x04 "MCSPI_SYSSTATUS,This register provides status information about the module excluding the interrupt status information"
bitfld.long 0x04 0. "RESETDONE,Internal reset monitoring" "RESETDONE_0_r,RESETDONE_1_r"
line.long 0x08 "MCSPI_IRQSTATUS,The interrupt status regroups all the status of the module internal events that can generate an interrupt"
bitfld.long 0x08 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]" "EOW_0_r,EOW_1_w"
bitfld.long 0x08 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]" "WKS_0_w,WKS_1_r"
bitfld.long 0x08 14. "RX3_FULL,Receiver register is full or almost full" "RX3_FULL_0_w,RX3_FULL_1_r"
newline
bitfld.long 0x08 13. "TX3_UNDERFLOW,Transmitter register underflow" "TX3_UNDERFLOW_0_w,TX3_UNDERFLOW_1_r"
bitfld.long 0x08 12. "TX3_EMPTY,Transmitter register is empty or almost empty" "TX3_EMPTY_0_w,TX3_EMPTY_1_r"
bitfld.long 0x08 10. "RX2_FULL,Receiver register full or almost full" "RX2_FULL_0_w,RX2_FULL_1_r"
newline
bitfld.long 0x08 9. "TX2_UNDERFLOW,Transmitter register underflow" "TX2_UNDERFLOW_0_w,TX2_UNDERFLOW_1_r"
bitfld.long 0x08 8. "TX2_EMPTY,Transmitter register empty or almost empty" "TX2_EMPTY_0_w,TX2_EMPTY_1_r"
bitfld.long 0x08 6. "RX1_FULL,Receiver register full or almost full" "RX1_FULL_0_w,RX1_FULL_1_r"
newline
bitfld.long 0x08 5. "TX1_UNDERFLOW,Transmitter register underflow" "TX1_UNDERFLOW_0_w,TX1_UNDERFLOW_1_r"
bitfld.long 0x08 4. "TX1_EMPTY,Transmitter register empty or almost empty" "TX1_EMPTY_0_w,TX1_EMPTY_1_r"
bitfld.long 0x08 3. "RX0_OVERFLOW,Receiver register overflow (slave mode only)" "RX0_OVERFLOW_0_w,RX0_OVERFLOW_1_r"
newline
bitfld.long 0x08 2. "RX0_FULL,Receiver register full or almost full" "RX0_FULL_0_w,RX0_FULL_1_r"
bitfld.long 0x08 1. "TX0_UNDERFLOW,Transmitter register underflow" "TX0_UNDERFLOW_0_w,TX0_UNDERFLOW_1_r"
bitfld.long 0x08 0. "TX0_EMPTY,Transmitter register empty or almost empty" "TX0_EMPTY_0_w,TX0_EMPTY_1_r"
line.long 0x0C "MCSPI_IRQENABLE,This register allows enabling/disabling of the module internal sources of interrupt. on an event-by-event basis"
bitfld.long 0x0C 17. "EOW_ENABLE,End of Word count Interrupt Enable" "EOW_ENABLE_0,EOW_ENABLE_1"
bitfld.long 0x0C 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" "WKE_0,WKE_1"
bitfld.long 0x0C 14. "RX3_FULL_ENABLE,Receiver register Full Interrupt Enable" "RX3_FULL_ENABLE_0,RX3_FULL_ENABLE_1"
newline
bitfld.long 0x0C 13. "TX3_UNDERFLOW_ENABLE,Transmitter register Underflow Interrupt Enable" "TX3_UNDERFLOW_ENABLE_0,TX3_UNDERFLOW_ENABLE_1"
bitfld.long 0x0C 12. "TX3_EMPTY_ENABLE,Transmitter register Empty Interrupt Enable" "TX3_EMPTY_ENABLE_0,TX3_EMPTY_ENABLE_1"
bitfld.long 0x0C 10. "RX2_FULL_ENABLE,Receiver register Full Interrupt Enable" "RX2_FULL_ENABLE_0,RX2_FULL_ENABLE_1"
newline
bitfld.long 0x0C 9. "TX2_UNDERFLOW_ENABLE,Transmitter register Underflow Interrupt Enable" "TX2_UNDERFLOW_ENABLE_0,TX2_UNDERFLOW_ENABLE_1"
bitfld.long 0x0C 8. "TX2_EMPTY_ENABLE,Transmitter register Empty Interrupt Enable" "TX2_EMPTY_ENABLE_0,TX2_EMPTY_ENABLE_1"
bitfld.long 0x0C 6. "RX1_FULL_ENABLE,Receiver register Full Interrupt Enable" "RX1_FULL_ENABLE_0,RX1_FULL_ENABLE_1"
newline
bitfld.long 0x0C 5. "TX1_UNDERFLOW_ENABLE,Transmitter register Underflow Interrupt Enable" "TX1_UNDERFLOW_ENABLE_0,TX1_UNDERFLOW_ENABLE_1"
bitfld.long 0x0C 4. "TX1_EMPTY_ENABLE,Transmitter register Empty Interrupt Enable" "TX1_EMPTY_ENABLE_0,TX1_EMPTY_ENABLE_1"
bitfld.long 0x0C 3. "RX0_OVERFLOW_ENABLE,Receiver register Overflow Interrupt Enable" "RX0_OVERFLOW_ENABLE_0,RX0_OVERFLOW_ENABLE_1"
newline
bitfld.long 0x0C 2. "RX0_FULL_ENABLE,Receiver register Full Interrupt Enable" "RX0_FULL_ENABLE_0,RX0_FULL_ENABLE_1"
bitfld.long 0x0C 1. "TX0_UNDERFLOW_ENABLE,Transmitter register Underflow Interrupt Enable" "TX0_UNDERFLOW_ENABLE_0,TX0_UNDERFLOW_ENABLE_1"
bitfld.long 0x0C 0. "TX0_EMPTY_ENABLE,Transmitter register Empty Interrupt Enable" "TX0_EMPTY_ENABLE_0,TX0_EMPTY_ENABLE_1"
line.long 0x10 "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 0x10 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" "WKEN_0,WKEN_1"
line.long 0x14 "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 0x14 11. "SSB,Set status bit" "SSB_0,SSB_1"
bitfld.long 0x14 10. "SPIENDIR,Set the direction of the SPIEN[3:0] lines and SPICLK line" "SPIENDIR_0,SPIENDIR_1"
bitfld.long 0x14 9. "SPIDATDIR1,Set the direction of the SPIDAT[1]" "SPIDATDIR1_0,SPIDATDIR1_1"
newline
bitfld.long 0x14 8. "SPIDATDIR0,Set the direction of the SPIDAT[0]" "SPIDATDIR0_0,SPIDATDIR0_1"
bitfld.long 0x14 7. "WAKD,SWAKEUP output (signal data value of internal signal to system)" "WAKD_0,WAKD_1"
bitfld.long 0x14 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" "SPICLK_0,SPICLK_1"
newline
bitfld.long 0x14 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 register" "SPIDAT_1_0,SPIDAT_1_1"
bitfld.long 0x14 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 register" "SPIDAT_0_0,SPIDAT_0_1"
bitfld.long 0x14 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 register" "SPIEN_3_0,SPIEN_3_1"
newline
bitfld.long 0x14 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 register" "SPIEN_2_0,SPIEN_2_1"
bitfld.long 0x14 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 register" "SPIEN_1_0,SPIEN_1_1"
bitfld.long 0x14 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 register" "SPIEN_0_0,SPIEN_0_1"
line.long 0x18 "MCSPI_MODULCTRL,This register is dedicated to the configuration of the serial port interface"
bitfld.long 0x18 8. "FDAA,FIFO DMA address 256-bit aligned This register is used when a FIFO is managed by the module and DMA connected to the controller provides only 256-bit aligned address" "FDAA_0,FDAA_1"
bitfld.long 0x18 7. "MOA,Multiple word OCP access: This register can only be used when a channel is enabled using a FIFO" "MOA_0,MOA_1"
bitfld.long 0x18 4.--6. "INITDLY,Initial SPI delay for first transfer: This register is an option only available in SINGLE master mode" "INITDLY_0,INITDLY_1,INITDLY_2,INITDLY_3,INITDLY_4,?,?,?"
newline
bitfld.long 0x18 3. "SYSTEM_TEST,Enables the system test mode" "SYSTEM_TEST_0,SYSTEM_TEST_1"
bitfld.long 0x18 2. "MS,Master/slave" "MS_0,MS_1"
bitfld.long 0x18 1. "PIN34,Pin mode selection: This register is used to configure the SPI pin mode in master or slave mode" "PIN34_0,PIN34_1"
newline
bitfld.long 0x18 0. "SINGLE,Single channel/Multi Channel (master mode only)" "SINGLE_0,SINGLE_1"
line.long 0x1C "MCSPI_CHxCONF,This register is dedicated to the configuration of the channel 0"
bitfld.long 0x1C 29. "CLKG,Clock divider granularity This register defines the granularity of channel clock divider: power of 2 or one clock cycle granularity" "CLKG_0,CLKG_1"
bitfld.long 0x1C 28. "FFER,FIFO enabled for receive: Only one channel can have this bit field set" "FFER_0,FFER_1"
bitfld.long 0x1C 27. "FFEW,FIFO enabled for transmit: Only one channel can have this bit field set" "FFEW_0,FFEW_1"
newline
bitfld.long 0x1C 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" "TCS0_0,TCS0_1,TCS0_2,TCS0_3"
bitfld.long 0x1C 24. "SBPOL,Start-bit polarity" "SBPOL_0,SBPOL_1"
bitfld.long 0x1C 23. "SBE,Start-bit enable for SPI transfer" "SBE_0,SBE_1"
newline
bitfld.long 0x1C 21.--22. "SPIENSLV,Channel 0 only and slave mode only: SPI slave select signal detection" "SPIENSLV_0,SPIENSLV_1,SPIENSLV_2,SPIENSLV_3"
bitfld.long 0x1C 20. "FORCE,Manual SPIEN assertion to keep SPIEN active between SPI words (single channel master mode only)" "FORCE_0,FORCE_1"
bitfld.long 0x1C 19. "TURBO,Turbo mode" "TURBO_0,TURBO_1"
newline
bitfld.long 0x1C 18. "IS,Input Select" "IS_0,IS_1"
bitfld.long 0x1C 17. "DPE1,Transmission enable for data line 1 (SPIDATAGZEN[1])" "DPE1_0,DPE1_1"
bitfld.long 0x1C 16. "DPE0,Transmission Enable for data line 0 (SPIDATAGZEN[0])" "DPE0_0,DPE0_1"
newline
bitfld.long 0x1C 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" "DMAR_0,DMAR_1"
bitfld.long 0x1C 14. "DMAW,DMA write request" "DMAW_0,DMAW_1"
bitfld.long 0x1C 12.--13. "TRM,Transmit/receive modes" "TRM_0,TRM_1,TRM_2,TRM_3"
newline
bitfld.long 0x1C 7.--11. "WL,SPI word length" "WL_0,WL_1,WL_2,WL_3,WL_4,WL_5,WL_6,WL_7,WL_8,WL_9,WL_10,WL_11,WL_12,WL_13,WL_14,WL_15,WL_16,WL_17,WL_18,WL_19,WL_20,WL_21,WL_22,WL_23,WL_24,WL_25,WL_26,WL_27,WL_28,WL_29,WL_30,WL_31"
bitfld.long 0x1C 6. "EPOL,SPIEN polarity" "EPOL_0,EPOL_1"
bitfld.long 0x1C 2.--5. "CLKD,Frequency divider for SPICLK (only when the module is a Master SPI device)" "CLKD_0,CLKD_1,CLKD_2,CLKD_3,CLKD_4,CLKD_5,CLKD_6,CLKD_7,CLKD_8,CLKD_9,CLKD_10,CLKD_11,CLKD_12,CLKD_13,CLKD_14,CLKD_15"
newline
bitfld.long 0x1C 1. "POL,SPICLK polarity" "POL_0,POL_1"
bitfld.long 0x1C 0. "PHA,SPICLK phase" "PHA_0,PHA_1"
line.long 0x20 "MCSPI_CHxSTAT,This register provides status information about transmitter and receiver registers of channel 0"
bitfld.long 0x20 6. "RXFFF,Channel 'i' FIFO receive buffer full status" "RXFFF_0_r,RXFFF_1_r"
bitfld.long 0x20 5. "RXFFE,Channel 'i' FIFO receive buffer empty status" "RXFFE_0_r,RXFFE_1_r"
bitfld.long 0x20 4. "TXFFF,Channel 'i' FIFO transmit buffer full status" "TXFFF_0_r,TXFFF_1_r"
newline
bitfld.long 0x20 3. "TXFFE,Channel 'i' FIFO transmit buffer empty status" "TXFFE_0_r,TXFFE_1_r"
bitfld.long 0x20 2. "EOT,Channel 'i' end of transfer status" "EOT_0_r,EOT_1_r"
bitfld.long 0x20 1. "TXS,Channel 'i' transmitter register status" "TXS_0_r,TXS_1_r"
newline
bitfld.long 0x20 0. "RXS,Channel 'i' receiver register status" "RXS_0_r,RXS_1_r"
line.long 0x24 "MCSPI_CHxCTRL,This register is dedicated to enable channel 0"
hexmask.long.byte 0x24 8.--15. 1. "EXTCLK,Clock ratio extension: This register 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)"
bitfld.long 0x24 0. "EN,Channel enable" "EN_0,EN_1"
line.long 0x28 "MCSPI_TXx,This register contains a single SPI word to transmit on the serial link. what ever SPI word length is"
line.long 0x2C "MCSPI_RXx,This register contains a single SPI word received through the serial link. what ever SPI word length is"
group.long 0x17C++0x03
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"
hexmask.long.byte 0x00 8.--15. 1. "AFL,Buffer almost full This register holds the programmable almost full level value used to determine almost full buffer condition"
hexmask.long.byte 0x00 0.--7. 1. "AEL,Buffer almost empty"
tree.end
repeat.end
tree.end
tree "Multimaster_High_Speed_I2C_Controller"
repeat 4. (list 3. 1. 2. 4. )(list ansd:0x48060000 ansd:0x48070000 ansd:0x48072000 ansd:0x48350000 )
tree "I2C$1"
base $2
rgroup.long 0x00++0x07
line.long 0x00 "I2C_REVNB_LO,IP Revision Identifier (X.Y.R) Used by software to track features. bugs. and compatibility"
line.long 0x04 "I2C_REVNB_HI,IP Revision Identifier (X.Y.R) Used by software to track features. bugs. and compatibility"
group.word 0x10++0x01
line.word 0x00 "I2C_SYSC,System Configuration register"
bitfld.word 0x00 8.--9. "CLKACTIVITY,Clock Activity selection bits" "CLKACTIVITY_0,CLKACTIVITY_1,CLKACTIVITY_2,CLKACTIVITY_3"
bitfld.word 0x00 3.--4. "IDLEMODE,Idle Mode selection bits" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.word 0x00 2. "ENAWAKEUP,Enable Wakeup control bit" "ENAWAKEUP_0,ENAWAKEUP_1"
newline
bitfld.word 0x00 1. "SRST,SoftReset bit" "SRST_0,SRST_1"
bitfld.word 0x00 0. "AUTOIDLE,Autoidle bit" "AUTOIDLE_0,AUTOIDLE_1"
group.word 0x24++0x01
line.word 0x00 "I2C_IRQSTATUS_RAW,Per-event raw interrupt status vector"
bitfld.word 0x00 14. "XDR,Transmit draining IRQ status" "XDR_0,XDR_1"
bitfld.word 0x00 13. "RDR,Receive draining IRQ status" "RDR_0,RDR_1"
rbitfld.word 0x00 12. "BB,Bus busy status.Writing into this bit has no effect" "BB_0_r,BB_1_r"
newline
bitfld.word 0x00 11. "ROVR,Receive overrun status.Writing into this bit has no effect" "ROVR_0_r,ROVR_1_r"
bitfld.word 0x00 10. "XUDF,Transmit underflow status.Writing into this bit has no effect" "XUDF_0_r,XUDF_1_r"
bitfld.word 0x00 9. "AAS,Address recognized as slave IRQ status" "AAS_0,AAS_1"
newline
bitfld.word 0x00 8. "BF,Bus Free IRQ status" "BF_0,BF_1"
bitfld.word 0x00 7. "AERR,Access Error IRQ status" "AERR_0,AERR_1"
bitfld.word 0x00 6. "STC,Start Condition IRQ status" "STC_0,STC_1"
newline
bitfld.word 0x00 5. "GC,General call IRQ status" "GC_0,GC_1"
bitfld.word 0x00 4. "XRDY,Transmit data ready IRQ status" "XRDY_0,XRDY_1"
bitfld.word 0x00 3. "RRDY,Receive data ready IRQ status" "RRDY_0,RRDY_1"
newline
bitfld.word 0x00 2. "ARDY,Register access ready IRQ status" "ARDY_0,ARDY_1"
bitfld.word 0x00 1. "NACK,No acknowledgement IRQ status" "NACK_0,NACK_1"
bitfld.word 0x00 0. "AL,Arbitration lost IRQ status" "AL_0,AL_1"
group.word 0x28++0x01
line.word 0x00 "I2C_IRQSTATUS,Per-event enabled interrupt status vector"
bitfld.word 0x00 14. "XDR,Transmit draining IRQ enabled status" "XDR_0,XDR_1"
bitfld.word 0x00 13. "RDR,Receive draining IRQ enabled status" "RDR_0,RDR_1"
rbitfld.word 0x00 12. "BB,Bus busy enabled status.Writing into this bit has no effect" "BB_0_r,BB_1_r"
newline
bitfld.word 0x00 11. "ROVR,Receive overrun enabled status.Writing into this bit has no effect" "ROVR_0_r,ROVR_1_r"
bitfld.word 0x00 10. "XUDF,Transmit underflow enabled status.Writing into this bit has no effect" "XUDF_0_r,XUDF_1_r"
bitfld.word 0x00 9. "AAS,Address recognized as slave IRQ enabled status" "AAS_0,AAS_1"
newline
bitfld.word 0x00 8. "BF,Bus Free IRQ enabled status" "BF_0,BF_1"
bitfld.word 0x00 7. "AERR,Access Error IRQ enabled status" "AERR_0,AERR_1"
bitfld.word 0x00 6. "STC,Start Condition IRQ enabled status" "STC_0,STC_1"
newline
bitfld.word 0x00 5. "GC,General call IRQ enabled status" "GC_0,GC_1"
bitfld.word 0x00 4. "XRDY,Transmit data ready IRQ enabled status" "XRDY_0,XRDY_1"
bitfld.word 0x00 3. "RRDY,Receive data ready IRQ enabled status" "RRDY_0,RRDY_1"
newline
bitfld.word 0x00 2. "ARDY,Register access ready IRQ enabled status" "ARDY_0,ARDY_1"
bitfld.word 0x00 1. "NACK,No acknowledgement IRQ enabled status" "NACK_0,NACK_1"
bitfld.word 0x00 0. "AL,Arbitration lost IRQ enabled status" "AL_0,AL_1"
group.word 0x2C++0x01
line.word 0x00 "I2C_IRQENABLE_SET,Per-event interrupt enable bit vector"
bitfld.word 0x00 14. "XDR_IE,Transmit Draining interrupt enable set" "XDR_IE_0,XDR_IE_1"
bitfld.word 0x00 13. "RDR_IE,Receive Draining interrupt enable set" "RDR_IE_0,RDR_IE_1"
bitfld.word 0x00 11. "ROVR,Receive overrun enable set" "ROVR_0,ROVR_1"
newline
bitfld.word 0x00 10. "XUDF,Transmit underflow enable set" "XUDF_0,XUDF_1"
bitfld.word 0x00 9. "ASS_IE,Addressed as Slave interrupt enable set" "ASS_IE_0,ASS_IE_1"
bitfld.word 0x00 8. "BF_IE,Bus Free interrupt enable set" "BF_IE_0,BF_IE_1"
newline
bitfld.word 0x00 7. "AERR_IE,Access Error interrupt enable set" "AERR_IE_0,AERR_IE_1"
bitfld.word 0x00 6. "STC_IE,Start Condition interrupt enable set" "STC_IE_0,STC_IE_1"
bitfld.word 0x00 5. "GC_IE,General call Interrupt enable set" "GC_IE_0,GC_IE_1"
newline
bitfld.word 0x00 4. "XRDY_IE,Transmit data ready interrupt enable set" "XRDY_IE_0,XRDY_IE_1"
bitfld.word 0x00 3. "RRDY_IE,Receive data ready interrupt enable set" "RRDY_IE_0,RRDY_IE_1"
bitfld.word 0x00 2. "ARDY_IE,Register access ready interrupt enable set" "ARDY_IE_0,ARDY_IE_1"
newline
bitfld.word 0x00 1. "NACK_IE,No acknowledgement interrupt enable set" "NACK_IE_0,NACK_IE_1"
bitfld.word 0x00 0. "AL_IE,Arbitration lost interrupt enable set" "AL_IE_0,AL_IE_1"
group.word 0x30++0x01
line.word 0x00 "I2C_IRQENABLE_CLR,Per-event interrupt clear bit vector"
bitfld.word 0x00 14. "XDR_IE,Transmit Draining interrupt enable clear" "XDR_IE_0,XDR_IE_1"
bitfld.word 0x00 13. "RDR_IE,Receive Draining interrupt enable clear" "RDR_IE_0,RDR_IE_1"
bitfld.word 0x00 11. "ROVR,Receive overrun enable clear" "ROVR_0,ROVR_1"
newline
bitfld.word 0x00 10. "XUDF,Transmit underflow enable clear" "XUDF_0,XUDF_1"
bitfld.word 0x00 9. "ASS_IE,Addressed as Slave interrupt enable clear" "ASS_IE_0,ASS_IE_1"
bitfld.word 0x00 8. "BF_IE,Bus Free interrupt enable clear" "BF_IE_0,BF_IE_1"
newline
bitfld.word 0x00 7. "AERR_IE,Access Error interrupt enable clear" "AERR_IE_0,AERR_IE_1"
bitfld.word 0x00 6. "STC_IE,Start Condition interrupt enable clear" "STC_IE_0,STC_IE_1"
bitfld.word 0x00 5. "GC_IE,General call Interrupt enable clear" "GC_IE_0,GC_IE_1"
newline
bitfld.word 0x00 4. "XRDY_IE,Transmit data ready interrupt enable clear" "XRDY_IE_0,XRDY_IE_1"
bitfld.word 0x00 3. "RRDY_IE,Receive data ready interrupt enable clear" "RRDY_IE_0,RRDY_IE_1"
bitfld.word 0x00 2. "ARDY_IE,Register access ready interrupt enable clear" "ARDY_IE_0,ARDY_IE_1"
newline
bitfld.word 0x00 1. "NACK_IE,No acknowledgement interrupt enable clear" "NACK_IE_0,NACK_IE_1"
bitfld.word 0x00 0. "AL_IE,Arbitration lost interrupt enable clear" "AL_IE_0,AL_IE_1"
group.word 0x34++0x01
line.word 0x00 "I2C_WE,I2C wakeup enable vector"
bitfld.word 0x00 14. "XDR,Transmit Draining wakeup set" "XDR_0,XDR_1"
bitfld.word 0x00 13. "RDR,Receive Draining wakeup set" "RDR_0,RDR_1"
bitfld.word 0x00 11. "ROVR,Receive overrun wakeup set" "ROVR_0,ROVR_1"
newline
bitfld.word 0x00 10. "XUDF,Transmit underflow wakeup set" "XUDF_0,XUDF_1"
bitfld.word 0x00 9. "AAS,Address as slave IRQ wakeup set" "AAS_0,AAS_1"
bitfld.word 0x00 8. "BF,Bus Free IRQ wakeup set" "BF_0,BF_1"
newline
bitfld.word 0x00 6. "STC,Start Condition IRQ wakeup set" "STC_0,STC_1"
bitfld.word 0x00 5. "GC,General call IRQ wakeup set" "GC_0,GC_1"
bitfld.word 0x00 3. "DRDY,Receive/Transmit data ready IRQ wakeup set" "DRDY_0,DRDY_1"
newline
bitfld.word 0x00 2. "ARDY,Register access ready IRQ wakeup set" "ARDY_0,ARDY_1"
bitfld.word 0x00 1. "NACK,No acknowledgment IRQ wakeup set" "NACK_0,NACK_1"
bitfld.word 0x00 0. "AL,Arbitration lost IRQ wakeup set" "AL_0,AL_1"
group.word 0x38++0x01
line.word 0x00 "I2C_DMARXENABLE_SET,Per-event DMA RX enable set"
bitfld.word 0x00 0. "DMARX_ENABLE_SET,Receive DMA channel enable set" "DMARX_ENABLE_SET_0,DMARX_ENABLE_SET_1"
group.word 0x3C++0x01
line.word 0x00 "I2C_DMATXENABLE_SET,Per-event DMA TX enable set"
bitfld.word 0x00 0. "DMATX_ENABLE_SET,Transmit DMA channel enable set" "DMATX_ENABLE_SET_0,DMATX_ENABLE_SET_1"
group.word 0x40++0x01
line.word 0x00 "I2C_DMARXENABLE_CLR,Per-event DMA RX enable clear"
bitfld.word 0x00 0. "DMARX_ENABLE_CLEAR,Receive DMA channel enable clear" "DMARX_ENABLE_CLEAR_0,DMARX_ENABLE_CLEAR_1"
group.word 0x44++0x01
line.word 0x00 "I2C_DMATXENABLE_CLR,Per-event DMA TX enable clear"
bitfld.word 0x00 0. "DMATX_ENABLE_CLEAR,Transmit DMA channel enable clear" "DMATX_ENABLE_CLEAR_0,DMATX_ENABLE_CLEAR_1"
group.word 0x48++0x01
line.word 0x00 "I2C_DMARXWAKE_EN,Per-event DMA RX wakeup enable"
bitfld.word 0x00 14. "XDR,Transmit Draining wakeup set" "XDR_0,XDR_1"
bitfld.word 0x00 13. "RDR,Receive Draining wakeup set" "RDR_0,RDR_1"
bitfld.word 0x00 11. "ROVR,Receive overrun wakeup set" "ROVR_0,ROVR_1"
newline
bitfld.word 0x00 10. "XUDF,Transmit underflow wakeup set" "XUDF_0,XUDF_1"
bitfld.word 0x00 9. "AAS,Address as slave IRQ wakeup set" "AAS_0,AAS_1"
bitfld.word 0x00 8. "BF,Bus Free IRQ wakeup set" "BF_0,BF_1"
newline
bitfld.word 0x00 6. "STC,Start Condition IRQ wakeup set" "STC_0,STC_1"
bitfld.word 0x00 5. "GC,General call IRQ wakeup set" "GC_0,GC_1"
bitfld.word 0x00 3. "DRDY,Receive/Transmit data ready IRQ wakeup set" "DRDY_0,DRDY_1"
newline
bitfld.word 0x00 2. "ARDY,Register access ready IRQ wakeup set" "ARDY_0,ARDY_1"
bitfld.word 0x00 1. "NACK,No acknowledgment IRQ wakeup set" "NACK_0,NACK_1"
bitfld.word 0x00 0. "AL,Arbitration lost IRQ wakeup set" "AL_0,AL_1"
group.word 0x4C++0x01
line.word 0x00 "I2C_DMATXWAKE_EN,Per-event DMA TX wakeup enable"
bitfld.word 0x00 14. "XDR,Transmit Draining wakeup set" "XDR_0,XDR_1"
bitfld.word 0x00 13. "RDR,Receive Draining wakeup set" "RDR_0,RDR_1"
bitfld.word 0x00 11. "ROVR,Receive overrun wakeup set" "ROVR_0,ROVR_1"
newline
bitfld.word 0x00 10. "XUDF,Transmit underflow wakeup set" "XUDF_0,XUDF_1"
bitfld.word 0x00 9. "AAS,Address as slave IRQ wakeup set" "AAS_0,AAS_1"
bitfld.word 0x00 8. "BF,Bus Free IRQ wakeup set" "BF_0,BF_1"
newline
bitfld.word 0x00 6. "STC,Start Condition IRQ wakeup set" "STC_0,STC_1"
bitfld.word 0x00 5. "GC,General call IRQ wakeup set" "GC_0,GC_1"
bitfld.word 0x00 3. "DRDY,Receive/Transmit data ready IRQ wakeup set" "DRDY_0,DRDY_1"
newline
bitfld.word 0x00 2. "ARDY,Register access ready IRQ wakeup set" "ARDY_0,ARDY_1"
bitfld.word 0x00 1. "NACK,No acknowledgment IRQ wakeup set" "NACK_0,NACK_1"
bitfld.word 0x00 0. "AL,Arbitration lost IRQ wakeup set" "AL_0,AL_1"
group.word 0x84++0x01
line.word 0x00 "I2C_IE,I2C interrupt enable vector (legacy)"
bitfld.word 0x00 14. "XDR_IE,Transmit Draining interrupt enable" "XDR_IE_0,XDR_IE_1"
bitfld.word 0x00 13. "RDR_IE,Receive Draining interrupt enable" "RDR_IE_0,RDR_IE_1"
bitfld.word 0x00 11. "ROVR,Receive overrun enable set" "ROVR_0,ROVR_1"
newline
bitfld.word 0x00 10. "XUDF,Transmit underflow enable set" "XUDF_0,XUDF_1"
bitfld.word 0x00 9. "ASS_IE,Addressed as Slave interrupt enable" "ASS_IE_0,ASS_IE_1"
bitfld.word 0x00 8. "BF_IE,Bus Free interrupt enable" "BF_IE_0,BF_IE_1"
newline
bitfld.word 0x00 7. "AERR_IE,Access Error interrupt enable" "AERR_IE_0,AERR_IE_1"
bitfld.word 0x00 6. "STC_IE,Start Condition interrupt enable" "STC_IE_0,STC_IE_1"
bitfld.word 0x00 5. "GC_IE,General call Interrupt enable" "GC_IE_0,GC_IE_1"
newline
bitfld.word 0x00 4. "XRDY_IE,Transmit data ready interrupt enable" "XRDY_IE_0,XRDY_IE_1"
bitfld.word 0x00 3. "RRDY_IE,Receive data ready interrupt enable" "RRDY_IE_0,RRDY_IE_1"
bitfld.word 0x00 2. "ARDY_IE,Register access ready interrupt enable" "ARDY_IE_0,ARDY_IE_1"
newline
bitfld.word 0x00 1. "NACK_IE,No acknowledgement interrupt enable" "NACK_IE_0,NACK_IE_1"
bitfld.word 0x00 0. "AL_IE,Arbitration lost interrupt enable" "AL_IE_0,AL_IE_1"
group.word 0x88++0x01
line.word 0x00 "I2C_STAT,I2C interrupt status vector (legacy)"
bitfld.word 0x00 14. "XDR,Transmit draining IRQ status" "XDR_0,XDR_1"
bitfld.word 0x00 13. "RDR,Receive draining IRQ status" "RDR_0,RDR_1"
rbitfld.word 0x00 12. "BB,Bus busy status.Writing into this bit has no effect" "BB_0_r,BB_1_r"
newline
bitfld.word 0x00 11. "ROVR,Receive overrun status.Writing into this bit has no effect" "ROVR_0_r,ROVR_1_r"
bitfld.word 0x00 10. "XUDF,Transmit underflow status.Writing into this bit has no effect" "XUDF_0_r,XUDF_1_r"
bitfld.word 0x00 9. "AAS,Address recognized as slave IRQ status" "AAS_0,AAS_1"
newline
bitfld.word 0x00 8. "BF,Bus Free IRQ status" "BF_0,BF_1"
bitfld.word 0x00 7. "AERR,Access Error IRQ status" "AERR_0,AERR_1"
bitfld.word 0x00 6. "STC,Start Condition IRQ status" "STC_0,STC_1"
newline
bitfld.word 0x00 5. "GC,General call IRQ status" "GC_0,GC_1"
bitfld.word 0x00 4. "XRDY,Transmit data ready IRQ status" "XRDY_0,XRDY_1"
bitfld.word 0x00 3. "RRDY,Receive data ready IRQ status" "RRDY_0,RRDY_1"
newline
bitfld.word 0x00 2. "ARDY,Register access ready IRQ status" "ARDY_0,ARDY_1"
bitfld.word 0x00 1. "NACK,No acknowledgement IRQ status" "NACK_0,NACK_1"
bitfld.word 0x00 0. "AL,Arbitration lost IRQ status" "AL_0,AL_1"
group.word 0x90++0x01
line.word 0x00 "I2C_SYSS,System Status register"
bitfld.word 0x00 0. "RDONE,Reset done bit" "RDONE_0_r,RDONE_1_r"
group.word 0x94++0x01
line.word 0x00 "I2C_BUF,Buffer Configuration register"
bitfld.word 0x00 15. "RDMA_EN,Receive DMA channel enable" "RDMA_EN_0,RDMA_EN_1"
bitfld.word 0x00 14. "RXFIFO_CLR,Receive FIFO clear" "RXFIFO_CLR_0,RXFIFO_CLR_1"
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"
newline
bitfld.word 0x00 7. "XDMA_EN,Transmit DMA channel enable" "XDMA_EN_0,XDMA_EN_1"
bitfld.word 0x00 6. "TXFIFO_CLR,Transmit FIFO clear" "TXFIFO_CLR_0,TXFIFO_CLR_1"
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++0x01
line.word 0x00 "I2C_CNT,Data counter register"
group.word 0x9C++0x01
line.word 0x00 "I2C_DATA,Data access register"
hexmask.word.byte 0x00 0.--7. 1. "DATA,Transmit/Receive data FIFO endpoint"
group.word 0xA4++0x01
line.word 0x00 "I2C_CON,I2C configuration register"
bitfld.word 0x00 15. "I2C_EN,I2C module enable" "I2C_EN_0,I2C_EN_1"
bitfld.word 0x00 12.--13. "OPMODE,Operation mode selection" "OPMODE_0,OPMODE_1,OPMODE_2,OPMODE_3"
bitfld.word 0x00 11. "STB,Start byte mode (master mode only)" "STB_0,STB_1"
newline
bitfld.word 0x00 10. "MST,Master/slave mode" "MST_0,MST_1"
bitfld.word 0x00 9. "TRX,Transmitter/Receiver mode (master mode only)" "TRX_0,TRX_1"
bitfld.word 0x00 8. "XSA,Expand Slave address" "XSA_0,XSA_1"
newline
bitfld.word 0x00 7. "XOA0,Expand Own address 0" "XOA0_0,XOA0_1"
bitfld.word 0x00 6. "XOA1,Expand Own address 1" "XOA1_0,XOA1_1"
bitfld.word 0x00 5. "XOA2,Expand Own address 2" "XOA2_0,XOA2_1"
newline
bitfld.word 0x00 4. "XOA3,Expand Own address 3" "XOA3_0,XOA3_1"
bitfld.word 0x00 1. "STP,Stop condition (master mode only)" "STP_0,STP_1"
bitfld.word 0x00 0. "STT,Start condition (master mode only)" "STT_0,STT_1"
group.word 0xA8++0x01
line.word 0x00 "I2C_OA,Own address register"
bitfld.word 0x00 13.--15. "MCODE,Master Code" "MCODE_0,MCODE_1,MCODE_2,MCODE_3,MCODE_4,MCODE_5,MCODE_6,MCODE_7"
hexmask.word 0x00 0.--9. 1. "OA,Own address"
group.word 0xAC++0x01
line.word 0x00 "I2C_SA,Slave address register"
hexmask.word 0x00 0.--9. 1. "SA,Slave address"
group.word 0xB0++0x01
line.word 0x00 "I2C_PSC,I2C Clock Prescaler Register"
abitfld.word 0x00 0.--7. "PSC,Fast/Standard mode prescale sampling clock divider value" "0x00=Divide by 1,0x01=Divide by 2,0xFF=Divide by 256"
group.word 0xB4++0x01
line.word 0x00 "I2C_SCLL,I2C SCL Low Time Register"
hexmask.word.byte 0x00 8.--15. 1. "HSSCLL,High Speed mode SCL low time"
hexmask.word.byte 0x00 0.--7. 1. "SCLL,Fast/Standard mode SCL low time"
group.word 0xB8++0x01
line.word 0x00 "I2C_SCLH,I2C SCL High Time Register"
hexmask.word.byte 0x00 8.--15. 1. "HSSCLH,High Speed mode SCL high time"
hexmask.word.byte 0x00 0.--7. 1. "SCLH,Fast/Standard mode SCL high time"
group.word 0xBC++0x01
line.word 0x00 "I2C_SYSTEST,I2C System Test Register"
bitfld.word 0x00 15. "ST_EN,System test enable" "ST_EN_0,ST_EN_1"
bitfld.word 0x00 14. "FREE,Free running mode (on breakpoint)" "FREE_0,FREE_1"
bitfld.word 0x00 12.--13. "TMODE,Test mode select" "TMODE_0,TMODE_1,TMODE_2,TMODE_3"
newline
bitfld.word 0x00 11. "SSB,Set status bits from 0 to 14" "SSB_0,SSB_1"
rbitfld.word 0x00 8. "SCL_I_FUNC,SCL line input value (functional mode)" "SCL_I_FUNC_0_r,SCL_I_FUNC_1_r"
rbitfld.word 0x00 7. "SCL_O_FUNC,SCL line output value (functional mode)" "SCL_O_FUNC_0_r,SCL_O_FUNC_1_r"
newline
rbitfld.word 0x00 6. "SDA_I_FUNC,SDA line input value (functional mode)" "SDA_I_FUNC_0_r,SDA_I_FUNC_1_r"
rbitfld.word 0x00 5. "SDA_O_FUNC,SDA line output value (functional mode)" "SDA_O_FUNC_0_r,SDA_O_FUNC_1_r"
bitfld.word 0x00 4. "SCCB_E_O,SCCB_E line sense output value" "SCCB_E_O_0,SCCB_E_O_1"
newline
rbitfld.word 0x00 3. "SCL_I,SCL line sense input value" "SCL_I_0_r,SCL_I_1_r"
bitfld.word 0x00 2. "SCL_O,SCL line drive output value" "SCL_O_0,SCL_O_1"
rbitfld.word 0x00 1. "SDA_I,SDA line sense input value" "SDA_I_0_r,SDA_I_1_r"
newline
bitfld.word 0x00 0. "SDA_O,SDA line drive output value" "SDA_O_0,SDA_O_1"
rgroup.word 0xC0++0x01
line.word 0x00 "I2C_BUFSTAT,I2C Buffer Status Register"
bitfld.word 0x00 14.--15. "FIFODEPTH,Internal FIFO buffers depth" "0,1,2,3"
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++0x01
line.word 0x00 "I2C_OA1,I2C Own Address 1 Register"
hexmask.word 0x00 0.--9. 1. "OA1,Own address 1"
group.word 0xC8++0x01
line.word 0x00 "I2C_OA2,I2C Own Address 2 Register"
hexmask.word 0x00 0.--9. 1. "OA2,Own address 2"
group.word 0xCC++0x01
line.word 0x00 "I2C_OA3,I2C Own Address 3 Register"
hexmask.word 0x00 0.--9. 1. "OA3,Own address 3"
rgroup.word 0xD0++0x01
line.word 0x00 "I2C_ACTOA,I2C Active Own Address Register"
bitfld.word 0x00 3. "OA3_ACT,Own Address 3 active" "OA3_ACT_0_r,OA3_ACT_1_r"
bitfld.word 0x00 2. "OA2_ACT,Own Address 2 active" "OA2_ACT_0_r,OA2_ACT_1_r"
bitfld.word 0x00 1. "OA1_ACT,Own Address 1 active" "OA1_ACT_0_r,OA1_ACT_1_r"
newline
bitfld.word 0x00 0. "OA0_ACT,Own Address 0 active" "OA0_ACT_0_r,OA0_ACT_1_r"
group.word 0xD4++0x01
line.word 0x00 "I2C_SBLOCK,I2C Clock Blocking Enable Register"
bitfld.word 0x00 3. "OA3_EN,Enable I2C Clock Blocking for Own Address 3" "OA3_EN_0,OA3_EN_1"
bitfld.word 0x00 2. "OA2_EN,Enable I2C Clock Blocking for Own Address 2" "OA2_EN_0,OA2_EN_1"
bitfld.word 0x00 1. "OA1_EN,Enable I2C Clock Blocking for Own Address 1" "OA1_EN_0,OA1_EN_1"
newline
bitfld.word 0x00 0. "OA0_EN,Enable I2C Clock Blocking for Own Address 0" "OA0_EN_0,OA0_EN_1"
tree.end
repeat.end
tree.end
tree "PRCM"
tree "ABE_CM1"
base ansd:0x4A004500
group.long 0x00++0x03
line.long 0x00 "CM1_ABE_CLKSTCTRL,This register enables the ABE domain power state transition"
rbitfld.long 0x00 13. "CLKACTIVITY_ABE_24M_FCLK,This field indicates the state of the ABE_24M_FCLK clock in the domain" "CLKACTIVITY_ABE_24M_FCLK_0_r,CLKACTIVITY_ABE_24M_FCLK_1_r"
rbitfld.long 0x00 12. "CLKACTIVITY_ABE_ALWON_32K_CLK,This field indicates the state of the ABE_ALWON_32K_CLK clock in the domain" "CLKACTIVITY_ABE_ALWON_32K_CLK_0_r,CLKACTIVITY_ABE_ALWON_32K_CLK_1_r"
newline
rbitfld.long 0x00 11. "CLKACTIVITY_ABE_SYSCLK,This field indicates the state of the ABE_SYSCLK clock in the domain" "CLKACTIVITY_ABE_SYSCLK_0_r,CLKACTIVITY_ABE_SYSCLK_1_r"
rbitfld.long 0x00 10. "CLKACTIVITY_24M_FCLK,This field indicates the state of the 24M_FCLK clock in the domain" "CLKACTIVITY_24M_FCLK_0_r,CLKACTIVITY_24M_FCLK_1_r"
newline
rbitfld.long 0x00 9. "CLKACTIVITY_ABE_ICLK2,This field indicates the state of the ABE_ICLK2 interface clock in the domain" "CLKACTIVITY_ABE_ICLK2_0_r,CLKACTIVITY_ABE_ICLK2_1_r"
rbitfld.long 0x00 8. "CLKACTIVITY_DPLL_ABE_X2_CLK,This field indicates the state of the DPLL_ABE_X2_CLK clock in the domain" "CLKACTIVITY_DPLL_ABE_X2_CLK_0_r,CLKACTIVITY_DPLL_ABE_X2_CLK_1_r"
newline
bitfld.long 0x00 0.--1. "CLKTRCTRL,Controls the clock state transition of the ABE clock domain" "CLKTRCTRL_0,CLKTRCTRL_1,CLKTRCTRL_2,CLKTRCTRL_3"
group.long 0x20++0x03
line.long 0x00 "CM1_ABE_L4ABE_CLKCTRL,This register manages the L4ABE clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "?,MODULEMODE_1_r,?,?"
group.long 0x28++0x03
line.long 0x00 "CM1_ABE_AESS_CLKCTRL,This register manages the AESS clocks"
bitfld.long 0x00 24. "CLKSEL_AESS_FCLK,Selects the ratio of AESS_FCLK to ABE_CLK" "CLKSEL_AESS_FCLK_0,CLKSEL_AESS_FCLK_1"
rbitfld.long 0x00 18. "STBYST,Module standby status" "STBYST_0_r,STBYST_1_r"
newline
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x30++0x03
line.long 0x00 "CM1_ABE_PDM_CLKCTRL,This register manages the PDM clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x38++0x03
line.long 0x00 "CM1_ABE_DMIC_CLKCTRL,This register manages the DMIC clocks"
bitfld.long 0x00 26.--27. "CLKSEL_INTERNAL_SOURCE,Selects the internal clock to be used as the functional clock in case CLKSEL_SOURCE selects the internal clock source as the functional clock source" "CLKSEL_INTERNAL_SOURCE_0,CLKSEL_INTERNAL_SOURCE_1,CLKSEL_INTERNAL_SOURCE_2,CLKSEL_INTERNAL_SOURCE_3"
bitfld.long 0x00 24.--25. "CLKSEL_SOURCE,Selects the source of the functional clock between internal source CLKS pad and Audio SLIMBUS_CLK pad" "CLKSEL_SOURCE_0,CLKSEL_SOURCE_1,CLKSEL_SOURCE_2,CLKSEL_SOURCE_3"
newline
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x40++0x03
line.long 0x00 "CM1_ABE_MCASP_CLKCTRL,This register manages the MCASP clocks"
bitfld.long 0x00 26.--27. "CLKSEL_INTERNAL_SOURCE,Selects the internal clock to be used as the functional clock in case CLKSEL_SOURCE selects the internal clock source as the functional clock source" "CLKSEL_INTERNAL_SOURCE_0,CLKSEL_INTERNAL_SOURCE_1,CLKSEL_INTERNAL_SOURCE_2,CLKSEL_INTERNAL_SOURCE_3"
bitfld.long 0x00 24.--25. "CLKSEL_SOURCE,Selects the source of the functional clock between internal source CLKS pad and Audio SLIMBUS_CLK pad" "CLKSEL_SOURCE_0,CLKSEL_SOURCE_1,CLKSEL_SOURCE_2,CLKSEL_SOURCE_3"
newline
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x48++0x03
line.long 0x00 "CM1_ABE_MCBSP1_CLKCTRL,This register manages the MCBSP1 clocks"
bitfld.long 0x00 26.--27. "CLKSEL_INTERNAL_SOURCE,Selects the internal clock to be used as the functional clock in case CLKSEL_SOURCE selects the internal clock source as the functional clock source" "CLKSEL_INTERNAL_SOURCE_0,CLKSEL_INTERNAL_SOURCE_1,CLKSEL_INTERNAL_SOURCE_2,CLKSEL_INTERNAL_SOURCE_3"
bitfld.long 0x00 24.--25. "CLKSEL_SOURCE,Selects the source of the functional clock between internal source CLKS pad and Audio SLIMBUS_CLK pad" "CLKSEL_SOURCE_0,CLKSEL_SOURCE_1,CLKSEL_SOURCE_2,CLKSEL_SOURCE_3"
newline
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x50++0x03
line.long 0x00 "CM1_ABE_MCBSP2_CLKCTRL,This register manages the MCBSP2 clocks"
bitfld.long 0x00 26.--27. "CLKSEL_INTERNAL_SOURCE,Selects the internal clock to be used as the functional clock in case CLKSEL_SOURCE selects the internal clock source as the functional clock source" "CLKSEL_INTERNAL_SOURCE_0,CLKSEL_INTERNAL_SOURCE_1,CLKSEL_INTERNAL_SOURCE_2,CLKSEL_INTERNAL_SOURCE_3"
bitfld.long 0x00 24.--25. "CLKSEL_SOURCE,Selects the source of the functional clock between internal source CLKS pad and Audio SLIMBUS_CLK pad" "CLKSEL_SOURCE_0,CLKSEL_SOURCE_1,CLKSEL_SOURCE_2,CLKSEL_SOURCE_3"
newline
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x58++0x03
line.long 0x00 "CM1_ABE_MCBSP3_CLKCTRL,This register manages the MCBSP3 clocks"
bitfld.long 0x00 26.--27. "CLKSEL_INTERNAL_SOURCE,Selects the internal clock to be used as the functional clock in case CLKSEL_SOURCE selects the internal clock source as the functional clock source" "CLKSEL_INTERNAL_SOURCE_0,CLKSEL_INTERNAL_SOURCE_1,CLKSEL_INTERNAL_SOURCE_2,CLKSEL_INTERNAL_SOURCE_3"
bitfld.long 0x00 24.--25. "CLKSEL_SOURCE,Selects the source of the functional clock between internal source CLKS pad and Audio SLIMBUS_CLK pad" "CLKSEL_SOURCE_0,CLKSEL_SOURCE_1,CLKSEL_SOURCE_2,CLKSEL_SOURCE_3"
newline
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x60++0x03
line.long 0x00 "CM1_ABE_SLIMBUS_CLKCTRL,This register manages the SLIMBUS clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 11. "OPTFCLKEN_SLIMBUS_CLK,Optional functional clock control" "OPTFCLKEN_SLIMBUS_CLK_0,OPTFCLKEN_SLIMBUS_CLK_1"
newline
bitfld.long 0x00 10. "OPTFCLKEN_FCLK2,Optional functional clock control" "OPTFCLKEN_FCLK2_0,OPTFCLKEN_FCLK2_1"
bitfld.long 0x00 9. "OPTFCLKEN_FCLK1,Optional functional clock control" "OPTFCLKEN_FCLK1_0,OPTFCLKEN_FCLK1_1"
newline
bitfld.long 0x00 8. "OPTFCLKEN_FCLK0,Optional functional clock control" "OPTFCLKEN_FCLK0_0,OPTFCLKEN_FCLK0_1"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x68++0x03
line.long 0x00 "CM1_ABE_GPTIMER5_CLKCTRL,This register manages the TIMER5 clocks"
bitfld.long 0x00 24. "CLKSEL,Selects between ABE_SYSCLK and ABE_ALWON_32K_CLK as the timer functional clock" "CLKSEL_0,CLKSEL_1"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
newline
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x70++0x03
line.long 0x00 "CM1_ABE_GPTIMER6_CLKCTRL,This register manages the TIMER6 clocks"
bitfld.long 0x00 24. "CLKSEL,Selects between ABE_SYSCLK and ABE_ALWON_32K_CLK as the timer functional clock" "CLKSEL_0,CLKSEL_1"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
newline
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x78++0x03
line.long 0x00 "CM1_ABE_GPTIMER7_CLKCTRL,This register manages the TIMER7 clocks"
bitfld.long 0x00 24. "CLKSEL,Selects between ABE_SYSCLK and ABE_ALWON_32K_CLK as the timer functional clock" "CLKSEL_0,CLKSEL_1"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
newline
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x80++0x03
line.long 0x00 "CM1_ABE_GPTIMER8_CLKCTRL,This register manages the TIMER8 clocks"
bitfld.long 0x00 24. "CLKSEL,Selects between ABE_SYSCLK and ABE_ALWON_32K_CLK as the timer functional clock" "CLKSEL_0,CLKSEL_1"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
newline
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x88++0x03
line.long 0x00 "CM1_ABE_WDTIMER3_CLKCTRL,This register manages the WDT3 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
tree.end
tree "ABE_PRM"
base ansd:0x4A306500
group.long 0x00++0x07
line.long 0x00 "PM_ABE_PWRSTCTRL,This register controls the ABE domain power state to reach upon a domain sleep transition"
bitfld.long 0x00 20.--21. "PERIPHMEM_ONSTATE,PERIPHMEM memory state when domain is ON" "?,?,?,PERIPHMEM_ONSTATE_3_r"
bitfld.long 0x00 16.--17. "AESSMEM_ONSTATE,AESSMEM memory state when domain is ON" "?,?,?,AESSMEM_ONSTATE_3_r"
newline
rbitfld.long 0x00 10. "PERIPHMEM_RETSTATE,PERIPHMEM memory state when domain is RETENTION" "PERIPHMEM_RETSTATE_0_r,?"
bitfld.long 0x00 8. "AESSMEM_RETSTATE,AESSMEM memory state when domain is RETENTION" "?,AESSMEM_RETSTATE_1_r"
newline
bitfld.long 0x00 4. "LOWPOWERSTATECHANGE,Power state change request when domain has already performed a sleep transition" "LOWPOWERSTATECHANGE_0,LOWPOWERSTATECHANGE_1"
rbitfld.long 0x00 2. "LOGICRETSTATE,Logic state when power domain is RETENTION" "LOGICRETSTATE_0_r,?"
newline
bitfld.long 0x00 0.--1. "POWERSTATE,Power state control" "POWERSTATE_0,POWERSTATE_1,POWERSTATE_2,POWERSTATE_3"
line.long 0x04 "PM_ABE_PWRSTST,This register provides a status on the ABE domain current power domain state"
bitfld.long 0x04 24.--25. "LASTPOWERSTATEENTERED,Last low power state entered" "LASTPOWERSTATEENTERED_0_r,LASTPOWERSTATEENTERED_1_r,LASTPOWERSTATEENTERED_2_r,LASTPOWERSTATEENTERED_3_r"
rbitfld.long 0x04 20. "INTRANSITION,Domain transition status" "INTRANSITION_0_r,INTRANSITION_1_r"
newline
rbitfld.long 0x04 8.--9. "PERIPHMEM_STATEST,PERIPHMEM memory state status" "PERIPHMEM_STATEST_0_r,PERIPHMEM_STATEST_1_r,PERIPHMEM_STATEST_2_r,PERIPHMEM_STATEST_3_r"
rbitfld.long 0x04 4.--5. "AESSMEM_STATEST,AESSMEM memory state status" "AESSMEM_STATEST_0_r,AESSMEM_STATEST_1_r,AESSMEM_STATEST_2_r,AESSMEM_STATEST_3_r"
newline
rbitfld.long 0x04 2. "LOGICSTATEST,Logic state status" "LOGICSTATEST_0_r,LOGICSTATEST_1_r"
rbitfld.long 0x04 0.--1. "POWERSTATEST,Current power state status" "POWERSTATEST_0_r,POWERSTATEST_1_r,POWERSTATEST_2_r,POWERSTATEST_3_r"
group.long 0x2C++0x63
line.long 0x00 "RM_ABE_AESS_CONTEXT,This register contains dedicated AESS context statuses"
bitfld.long 0x00 8. "LOSTMEM_AESSMEM,Specify if memory-based context in AESSMEM memory bank has been lost due to a previous power transition or other reset source" "LOSTMEM_AESSMEM_0,LOSTMEM_AESSMEM_1"
bitfld.long 0x00 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
line.long 0x04 "PM_ABE_PDM_WKDEP,This register controls wakeup dependency based on PDM service requests"
bitfld.long 0x04 7. "WKUPDEP_PDM_DMA_SDMA,Wakeup dependency from PDM module (softwareakeup_dma signal) towards SDMA + L3_2 + L3_1 domains" "WKUPDEP_PDM_DMA_SDMA_0,WKUPDEP_PDM_DMA_SDMA_1"
bitfld.long 0x04 6. "WKUPDEP_PDM_DMA_DSP,Wakeup dependency from PDM module (softwareakeup_dma signal) towards DSP domain" "WKUPDEP_PDM_DMA_DSP_0,WKUPDEP_PDM_DMA_DSP_1"
newline
bitfld.long 0x04 2. "WKUPDEP_PDM_IRQ_DSP,Wakeup dependency from PDM module (softwareakeup_irq signal) towards DSP domain" "WKUPDEP_PDM_IRQ_DSP_0,WKUPDEP_PDM_IRQ_DSP_1"
bitfld.long 0x04 0. "WKUPDEP_PDM_IRQ_MPU,Wakeup dependency from PDM module (softwareakeup_irq signal) towards MPU domain" "WKUPDEP_PDM_IRQ_MPU_0,WKUPDEP_PDM_IRQ_MPU_1"
line.long 0x08 "RM_ABE_PDM_CONTEXT,This register contains dedicated PDM context statuses"
bitfld.long 0x08 8. "LOSTMEM_PERIHPMEM,Specify if memory-based context in PERIHPMEM memory bank has been lost due to a previous power transition or other reset source" "LOSTMEM_PERIHPMEM_0,LOSTMEM_PERIHPMEM_1"
bitfld.long 0x08 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
line.long 0x0C "PM_ABE_DMIC_WKDEP,This register controls wakeup dependency based on DMIC service requests"
bitfld.long 0x0C 7. "WKUPDEP_DMIC_DMA_SDMA,Wakeup dependency from DMIC module (softwareakeup_dma signal) towards SDMA + L3_2 + L3_1 domains" "WKUPDEP_DMIC_DMA_SDMA_0,WKUPDEP_DMIC_DMA_SDMA_1"
bitfld.long 0x0C 6. "WKUPDEP_DMIC_DMA_DSP,Wakeup dependency from DMIC module (softwareakeup_dma signal) towards DSP domain" "WKUPDEP_DMIC_DMA_DSP_0,WKUPDEP_DMIC_DMA_DSP_1"
newline
bitfld.long 0x0C 2. "WKUPDEP_DMIC_IRQ_DSP,Wakeup dependency from DMIC module (softwareakeup_irq signal) towards DSP domain" "WKUPDEP_DMIC_IRQ_DSP_0,WKUPDEP_DMIC_IRQ_DSP_1"
bitfld.long 0x0C 0. "WKUPDEP_DMIC_IRQ_MPU,Wakeup dependency from DMIC module (softwareakeup_irq signal) towards MPU domain" "WKUPDEP_DMIC_IRQ_MPU_0,WKUPDEP_DMIC_IRQ_MPU_1"
line.long 0x10 "RM_ABE_DMIC_CONTEXT,This register contains dedicated DMIC context statuses"
bitfld.long 0x10 8. "LOSTMEM_PERIHPMEM,Specify if memory-based context in PERIHPMEM memory bank has been lost due to a previous power transition or other reset source" "LOSTMEM_PERIHPMEM_0,LOSTMEM_PERIHPMEM_1"
bitfld.long 0x10 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
line.long 0x14 "PM_ABE_MCASP_WKDEP,This register controls wakeup dependency based on MCASP service requests"
bitfld.long 0x14 7. "WKUPDEP_MCASP1_DMA_SDMA,Wakeup dependency from MCASP1 module (softwareakeup_dma signal) towards SDMA + L3_2 + L3_1 domains" "WKUPDEP_MCASP1_DMA_SDMA_0,WKUPDEP_MCASP1_DMA_SDMA_1"
bitfld.long 0x14 6. "WKUPDEP_MCASP1_DMA_DSP,Wakeup dependency from MCASP1 module (softwareakeup_dma signal) towards DSP domain" "WKUPDEP_MCASP1_DMA_DSP_0,WKUPDEP_MCASP1_DMA_DSP_1"
newline
bitfld.long 0x14 2. "WKUPDEP_MCASP1_IRQ_DSP,Wakeup dependency from MCASP1 module (softwareakeup_irq signal) towards DSP domain" "WKUPDEP_MCASP1_IRQ_DSP_0,WKUPDEP_MCASP1_IRQ_DSP_1"
bitfld.long 0x14 0. "WKUPDEP_MCASP1_IRQ_MPU,Wakeup dependency from MCASP1 module (softwareakeup_irq signal) towards MPU domain" "WKUPDEP_MCASP1_IRQ_MPU_0,WKUPDEP_MCASP1_IRQ_MPU_1"
line.long 0x18 "RM_ABE_MCASP_CONTEXT,This register contains dedicated MCASP context statuses"
bitfld.long 0x18 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
line.long 0x1C "PM_ABE_MCBSP1_WKDEP,This register controls wakeup dependency based on MCBSP1 service requests"
bitfld.long 0x1C 3. "WKUPDEP_MCBSP1_SDMA,Wakeup dependency from MCBSP1 module (softwareakeup signal) towards SDMA + L3_2 + L3_1 domains" "WKUPDEP_MCBSP1_SDMA_0,WKUPDEP_MCBSP1_SDMA_1"
bitfld.long 0x1C 2. "WKUPDEP_MCBSP1_DSP,Wakeup dependency from MCBSP1 module (softwareakeup signal) towards DSP domain" "WKUPDEP_MCBSP1_DSP_0,WKUPDEP_MCBSP1_DSP_1"
newline
bitfld.long 0x1C 0. "WKUPDEP_MCBSP1_MPU,Wakeup dependency from MCBSP1 module (softwareakeup signal) towards MPU domain" "WKUPDEP_MCBSP1_MPU_0,WKUPDEP_MCBSP1_MPU_1"
line.long 0x20 "RM_ABE_MCBSP1_CONTEXT,This register contains dedicated MCBSP1 context statuses"
bitfld.long 0x20 8. "LOSTMEM_PERIHPMEM,Specify if memory-based context in PERIHPMEM memory bank has been lost due to a previous power transition or other reset source" "LOSTMEM_PERIHPMEM_0,LOSTMEM_PERIHPMEM_1"
bitfld.long 0x20 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
line.long 0x24 "PM_ABE_MCBSP2_WKDEP,This register controls wakeup dependency based on MCBSP2 service requests"
bitfld.long 0x24 3. "WKUPDEP_MCBSP2_SDMA,Wakeup dependency from MCBSP2 module (softwareakeup signal) towards SDMA + L3_2 + L3_1 domains" "WKUPDEP_MCBSP2_SDMA_0,WKUPDEP_MCBSP2_SDMA_1"
bitfld.long 0x24 2. "WKUPDEP_MCBSP2_DSP,Wakeup dependency from MCBSP2 module (softwareakeup signal) towards DSP domain" "WKUPDEP_MCBSP2_DSP_0,WKUPDEP_MCBSP2_DSP_1"
newline
bitfld.long 0x24 0. "WKUPDEP_MCBSP2_MPU,Wakeup dependency from MCBSP2 module (softwareakeup signal) towards MPU domain" "WKUPDEP_MCBSP2_MPU_0,WKUPDEP_MCBSP2_MPU_1"
line.long 0x28 "RM_ABE_MCBSP2_CONTEXT,This register contains dedicated MCBSP2 context statuses"
bitfld.long 0x28 8. "LOSTMEM_PERIHPMEM,Specify if memory-based context in PERIHPMEM memory bank has been lost due to a previous power transition or other reset source" "LOSTMEM_PERIHPMEM_0,LOSTMEM_PERIHPMEM_1"
bitfld.long 0x28 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
line.long 0x2C "PM_ABE_MCBSP3_WKDEP,This register controls wakeup dependency based on MCBSP3 service requests"
bitfld.long 0x2C 3. "WKUPDEP_MCBSP3_SDMA,Wakeup dependency from MCBSP3 module (softwareakeup signal) towards SDMA + L3_2 + L3_1 domains" "WKUPDEP_MCBSP3_SDMA_0,WKUPDEP_MCBSP3_SDMA_1"
bitfld.long 0x2C 2. "WKUPDEP_MCBSP3_DSP,Wakeup dependency from MCBSP3 module (softwareakeup signal) towards DSP domain" "WKUPDEP_MCBSP3_DSP_0,WKUPDEP_MCBSP3_DSP_1"
newline
bitfld.long 0x2C 0. "WKUPDEP_MCBSP3_MPU,Wakeup dependency from MCBSP3 module (softwareakeup signal) towards MPU domain" "WKUPDEP_MCBSP3_MPU_0,WKUPDEP_MCBSP3_MPU_1"
line.long 0x30 "RM_ABE_MCBSP3_CONTEXT,This register contains dedicated MCBSP3 context statuses"
bitfld.long 0x30 8. "LOSTMEM_PERIHPMEM,Specify if memory-based context in PERIHPMEM memory bank has been lost due to a previous power transition or other reset source" "LOSTMEM_PERIHPMEM_0,LOSTMEM_PERIHPMEM_1"
bitfld.long 0x30 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
line.long 0x34 "PM_ABE_SLIMBUS_WKDEP,This register controls wakeup dependency based on SLIMBUS service requests"
bitfld.long 0x34 7. "WKUPDEP_SLIMBUS1_DMA_SDMA,Wakeup dependency from SLIMBUS1 module (softwareakeup_dma signal) towards SDMA + L3_2 + L3_1 domains" "WKUPDEP_SLIMBUS1_DMA_SDMA_0,WKUPDEP_SLIMBUS1_DMA_SDMA_1"
bitfld.long 0x34 6. "WKUPDEP_SLIMBUS1_DMA_DSP,Wakeup dependency from SLIMBUS1 module (softwareakeup_dma signal) towards DSP domain" "WKUPDEP_SLIMBUS1_DMA_DSP_0,WKUPDEP_SLIMBUS1_DMA_DSP_1"
newline
bitfld.long 0x34 2. "WKUPDEP_SLIMBUS1_IRQ_DSP,Wakeup dependency from SLIMBUS1 module (softwareakeup_irq signal) towards DSP domain" "WKUPDEP_SLIMBUS1_IRQ_DSP_0,WKUPDEP_SLIMBUS1_IRQ_DSP_1"
bitfld.long 0x34 0. "WKUPDEP_SLIMBUS1_IRQ_MPU,Wakeup dependency from SLIMBUS1 module (softwareakeup_irq signal) towards MPU domain" "WKUPDEP_SLIMBUS1_IRQ_MPU_0,WKUPDEP_SLIMBUS1_IRQ_MPU_1"
line.long 0x38 "RM_ABE_SLIMBUS_CONTEXT,This register contains dedicated SLIMBUS context statuses"
bitfld.long 0x38 8. "LOSTMEM_PERIHPMEM,Specify if memory-based context in PERIHPMEM memory bank has been lost due to a previous power transition or other reset source" "LOSTMEM_PERIHPMEM_0,LOSTMEM_PERIHPMEM_1"
bitfld.long 0x38 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
line.long 0x3C "PM_ABE_GPTIMER5_WKDEP,This register controls wakeup dependency based on TIMER5 service requests"
bitfld.long 0x3C 2. "WKUPDEP_TIMER5_DSP,Wakeup dependency from TIMER5 module (softwareakeup signal) towards DSP domain" "WKUPDEP_TIMER5_DSP_0,WKUPDEP_TIMER5_DSP_1"
bitfld.long 0x3C 0. "WKUPDEP_TIMER5_MPU,Wakeup dependency from TIMER5 module (softwareakeup signal) towards MPU domain" "WKUPDEP_TIMER5_MPU_0,WKUPDEP_TIMER5_MPU_1"
line.long 0x40 "RM_ABE_GPTIMER5_CONTEXT,This register contains dedicated TIMER5 context statuses"
bitfld.long 0x40 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
line.long 0x44 "PM_ABE_GPTIMER6_WKDEP,This register controls wakeup dependency based on TIMER6 service requests"
bitfld.long 0x44 2. "WKUPDEP_TIMER6_DSP,Wakeup dependency from TIMER6 module (softwareakeup signal) towards DSP domain" "WKUPDEP_TIMER6_DSP_0,WKUPDEP_TIMER6_DSP_1"
bitfld.long 0x44 0. "WKUPDEP_TIMER6_MPU,Wakeup dependency from TIMER6 module (softwareakeup signal) towards MPU domain" "WKUPDEP_TIMER6_MPU_0,WKUPDEP_TIMER6_MPU_1"
line.long 0x48 "RM_ABE_GPTIMER6_CONTEXT,This register contains dedicated TIMER6 context statuses"
bitfld.long 0x48 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
line.long 0x4C "PM_ABE_GPTIMER7_WKDEP,This register controls wakeup dependency based on TIMER7 service requests"
bitfld.long 0x4C 2. "WKUPDEP_TIMER7_DSP,Wakeup dependency from TIMER7 module (softwareakeup signal) towards DSP domain" "WKUPDEP_TIMER7_DSP_0,WKUPDEP_TIMER7_DSP_1"
bitfld.long 0x4C 0. "WKUPDEP_TIMER7_MPU,Wakeup dependency from TIMER7 module (softwareakeup signal) towards MPU domain" "WKUPDEP_TIMER7_MPU_0,WKUPDEP_TIMER7_MPU_1"
line.long 0x50 "RM_ABE_GPTIMER7_CONTEXT,This register contains dedicated TIMER7 context statuses"
bitfld.long 0x50 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
line.long 0x54 "PM_ABE_GPTIMER8_WKDEP,This register controls wakeup dependency based on TIMER8 service requests"
bitfld.long 0x54 2. "WKUPDEP_TIMER8_DSP,Wakeup dependency from TIMER8 module (softwareakeup signal) towards DSP domain" "WKUPDEP_TIMER8_DSP_0,WKUPDEP_TIMER8_DSP_1"
bitfld.long 0x54 0. "WKUPDEP_TIMER8_MPU,Wakeup dependency from TIMER8 module (softwareakeup signal) towards MPU domain" "WKUPDEP_TIMER8_MPU_0,WKUPDEP_TIMER8_MPU_1"
line.long 0x58 "RM_ABE_GPTIMER8_CONTEXT,This register contains dedicated TIMER8 context statuses"
bitfld.long 0x58 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
line.long 0x5C "PM_ABE_WDTIMER3_WKDEP,This register controls wakeup dependency based on WDT3 service requests"
bitfld.long 0x5C 0. "WKUPDEP_WDT3_MPU,Wakeup dependency from WDT3 module (softwareakeup signal) towards MPU domain" "?,WKUPDEP_WDT3_MPU_1_r"
line.long 0x60 "RM_ABE_WDTIMER3_CONTEXT,This register contains dedicated WDT3 context statuses"
bitfld.long 0x60 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
tree.end
tree "ALWAYS_ON_CM2"
base ansd:0x4A008600
group.long 0x00++0x03
line.long 0x00 "CM_ALWON_CLKSTCTRL,This register enables the domain power state transition"
rbitfld.long 0x00 12. "CLKACTIVITY_CORE_ALWON_32K_GFCLK,This field indicates the state of the CORE_ALWON_32K_GFCLK clock in the domain" "CLKACTIVITY_CORE_ALWON_32K_GFCLK_0_r,CLKACTIVITY_CORE_ALWON_32K_GFCLK_1_r"
newline
rbitfld.long 0x00 11. "CLKACTIVITY_SR_CORE_SYSCLK,This field indicates the state of the SR_CORE_SYSCLK clock input of the domain" "CLKACTIVITY_SR_CORE_SYSCLK_0_r,CLKACTIVITY_SR_CORE_SYSCLK_1_r"
newline
rbitfld.long 0x00 10. "CLKACTIVITY_SR_IVA_SYSCLK,This field indicates the state of the SR_IVA_SYSCLK clock input of the domain" "CLKACTIVITY_SR_IVA_SYSCLK_0_r,CLKACTIVITY_SR_IVA_SYSCLK_1_r"
newline
rbitfld.long 0x00 9. "CLKACTIVITY_SR_MPU_SYSCLK,This field indicates the state of the SR_MPU_SYSCLK clock input of the domain" "CLKACTIVITY_SR_MPU_SYSCLK_0_r,CLKACTIVITY_SR_MPU_SYSCLK_1_r"
newline
rbitfld.long 0x00 8. "CLKACTIVITY_L4_AO_ICLK,This field indicates the state of the L4_AO_ICLK clock of the domain" "CLKACTIVITY_L4_AO_ICLK_0_r,CLKACTIVITY_L4_AO_ICLK_1_r"
newline
bitfld.long 0x00 0.--1. "CLKTRCTRL,Controls the clock state transition of the ALWONCORE clock domain" "CLKTRCTRL_0,CLKTRCTRL_1_r,CLKTRCTRL_2,CLKTRCTRL_3"
group.long 0x28++0x03
line.long 0x00 "CM_ALWON_SR_MPU_CLKCTRL,This register manages the SR_MPU clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
newline
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x30++0x03
line.long 0x00 "CM_ALWON_SR_IVA_CLKCTRL,This register manages the SR_IVA clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
newline
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x38++0x03
line.long 0x00 "CM_ALWON_SR_CORE_CLKCTRL,This register manages the SR_CORE clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
newline
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x40++0x03
line.long 0x00 "CM_ALWON_USBPHY_CLKCTRL,This register manages the USB PHY 32KHz clock"
bitfld.long 0x00 8. "OPTFCLKEN_CLK32K,Optional functional clock control" "OPTFCLKEN_CLK32K_0,OPTFCLKEN_CLK32K_1"
tree.end
tree "ALWAYS_ON_PRM"
base ansd:0x4A306600
group.long 0x28++0x17
line.long 0x00 "PM_ALWON_SR_MPU_WKDEP,This register controls wakeup dependency based on SR_MPU service requests"
bitfld.long 0x00 0. "WKUPDEP_SR_MPU_MPU,Wakeup dependency from SR_MPU module (softwareakeup signal) towards MPU + L3_1 + L4_CFG domains" "?,WKUPDEP_SR_MPU_MPU_1_r"
line.long 0x04 "RM_ALWON_SR_MPU_CONTEXT,This register contains dedicated SR_MPU context statuses"
bitfld.long 0x04 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
line.long 0x08 "PM_ALWON_SR_IVA_WKDEP,This register controls wakeup dependency based on SR_IVA service requests"
bitfld.long 0x08 1. "WKUPDEP_SR_IVA_MPU_M3,Wakeup dependency from SR_IVA module (softwareakeup signal) towards MPU_A3 + L3_2 + L3_1 + L4_CFG domains" "WKUPDEP_SR_IVA_MPU_M3_0,WKUPDEP_SR_IVA_MPU_M3_1"
bitfld.long 0x08 0. "WKUPDEP_SR_IVA_MPU,Wakeup dependency from SR_IVA module (softwareakeup signal) towards MPU + L3_1 + L4_CFG domains" "WKUPDEP_SR_IVA_MPU_0,WKUPDEP_SR_IVA_MPU_1"
line.long 0x0C "RM_ALWON_SR_IVA_CONTEXT,This register contains dedicated SR_IVA context statuses"
bitfld.long 0x0C 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
line.long 0x10 "PM_ALWON_SR_CORE_WKDEP,This register controls wakeup dependency based on SR_CORE service requests"
bitfld.long 0x10 1. "WKUPDEP_SR_CORE_MPU_M3,Wakeup dependency from SR_CORE module (softwareakeup signal) towards MPU_A3 + L3_2 + L3_1 + L4_CFG domains" "WKUPDEP_SR_CORE_MPU_M3_0,WKUPDEP_SR_CORE_MPU_M3_1"
bitfld.long 0x10 0. "WKUPDEP_SR_CORE_MPU,Wakeup dependency from SR_CORE module (softwareakeup signal) towards MPU + L3_1 + L4_CFG domains" "WKUPDEP_SR_CORE_MPU_0,WKUPDEP_SR_CORE_MPU_1"
line.long 0x14 "RM_ALWON_SR_CORE_CONTEXT,This register contains dedicated SR_CORE context statuses"
bitfld.long 0x14 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
tree.end
tree "CAM_CM2"
base ansd:0x4A009000
group.long 0x00++0x0B
line.long 0x00 "CM_CAM_CLKSTCTRL,This register enables the domain power state transition"
rbitfld.long 0x00 10. "CLKACTIVITY_FDIF_FCLK,This field indicates the state of the FDIF_FCLK clock input of the domain" "CLKACTIVITY_FDIF_FCLK_0_r,CLKACTIVITY_FDIF_FCLK_1_r"
rbitfld.long 0x00 9. "CLKACTIVITY_CAM_PHY_CTRL_CLK,This field indicates the state of the CAM_PHY_CTRL_CLK clock input of the domain" "CLKACTIVITY_CAM_PHY_CTRL_CLK_0_r,CLKACTIVITY_CAM_PHY_CTRL_CLK_1_r"
newline
rbitfld.long 0x00 8. "CLKACTIVITY_ISS_CLK,This field indicates the state of the ISS_CLK clock input of the domain" "CLKACTIVITY_ISS_CLK_0_r,CLKACTIVITY_ISS_CLK_1_r"
bitfld.long 0x00 0.--1. "CLKTRCTRL,Controls the clock state transition of the CAM clock domain" "CLKTRCTRL_0,CLKTRCTRL_1,CLKTRCTRL_2,CLKTRCTRL_3"
line.long 0x04 "CM_CAM_STATICDEP,This register controls the static domain depedencies from CAM domain towards 'target' domains"
bitfld.long 0x04 6. "L3_2_STATDEP,Static dependency towards L3_2 clock domain" "?,L3_2_STATDEP_1_r"
bitfld.long 0x04 5. "L3_1_STATDEP,Static dependency towards L3_1 clock domain" "L3_1_STATDEP_0,L3_1_STATDEP_1"
newline
bitfld.long 0x04 4. "MEMIF_STATDEP,Static dependency towards MEMIF clock domain" "MEMIF_STATDEP_0,MEMIF_STATDEP_1"
bitfld.long 0x04 2. "IVAHD_STATDEP,Static dependency towards IVAHD clock domain" "IVAHD_STATDEP_0,IVAHD_STATDEP_1"
line.long 0x08 "CM_CAM_DYNAMICDEP,This register controls the dynamic domain depedencies from CAM domain towards 'target' domains"
bitfld.long 0x08 6. "L3_2_DYNDEP,Dynamic dependency towards L3_2 clock domain" "L3_2_DYNDEP_0_r,?"
group.long 0x20++0x03
line.long 0x00 "CM_CAM_ISS_CLKCTRL,This register manages the ISS clocks"
rbitfld.long 0x00 18. "STBYST,Module standby status" "STBYST_0_r,STBYST_1_r"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
newline
bitfld.long 0x00 8. "OPTFCLKEN_CTRLCLK,Optional functional clock control for CAM_PHY_CTRL_GCLK 96Mhz clock" "OPTFCLKEN_CTRLCLK_0,OPTFCLKEN_CTRLCLK_1"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x28++0x03
line.long 0x00 "CM_CAM_FDIF_CLKCTRL,This register manages the FDIF clocks"
bitfld.long 0x00 24.--25. "CLKSEL_FCLK,Select the ration of FDIF_FCLK to FUNC_128M_CLK" "CLKSEL_FCLK_0,CLKSEL_FCLK_1,CLKSEL_FCLK_2,CLKSEL_FCLK_3"
rbitfld.long 0x00 18. "STBYST,Module standby status" "STBYST_0_r,STBYST_1_r"
newline
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
tree.end
tree "CAM_PRM"
base ansd:0x4A307000
group.long 0x00++0x07
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. "CAM_MEM_ONSTATE,CAM_MEM memory state when domain is ON" "?,?,?,CAM_MEM_ONSTATE_3_r"
bitfld.long 0x00 4. "LOWPOWERSTATECHANGE,Power state change request when domain has already performed a sleep transition" "LOWPOWERSTATECHANGE_0,LOWPOWERSTATECHANGE_1"
newline
bitfld.long 0x00 0.--1. "POWERSTATE,Power state control" "POWERSTATE_0,POWERSTATE_1_r,POWERSTATE_2,POWERSTATE_3"
line.long 0x04 "PM_CAM_PWRSTST,This register provides a status on the current CAM power domain state"
bitfld.long 0x04 24.--25. "LASTPOWERSTATEENTERED,Last low power state entered" "LASTPOWERSTATEENTERED_0_r,LASTPOWERSTATEENTERED_1_r,LASTPOWERSTATEENTERED_2_r,LASTPOWERSTATEENTERED_3_r"
rbitfld.long 0x04 20. "INTRANSITION,Domain transition status" "INTRANSITION_0_r,INTRANSITION_1_r"
newline
rbitfld.long 0x04 4.--5. "CAM_MEM_STATEST,CAM_MEM memory state status" "CAM_MEM_STATEST_0_r,CAM_MEM_STATEST_1_r,CAM_MEM_STATEST_2_r,CAM_MEM_STATEST_3_r"
rbitfld.long 0x04 2. "LOGICSTATEST,Logic state status" "LOGICSTATEST_0_r,LOGICSTATEST_1_r"
newline
rbitfld.long 0x04 0.--1. "POWERSTATEST,Current power state status" "POWERSTATEST_0_r,POWERSTATEST_1_r,POWERSTATEST_2_r,POWERSTATEST_3_r"
group.long 0x24++0x03
line.long 0x00 "RM_CAM_ISS_CONTEXT,This register contains dedicated ISS context statuses"
bitfld.long 0x00 8. "LOSTMEM_CAM_MEM,Specify if memory-based context in CAM_MEM memory bank has been lost due to a previous power transition or other reset source" "LOSTMEM_CAM_MEM_0,LOSTMEM_CAM_MEM_1"
bitfld.long 0x00 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
group.long 0x2C++0x03
line.long 0x00 "RM_CAM_FDIF_CONTEXT,This register contains dedicated FDIF context statuses"
bitfld.long 0x00 8. "LOSTMEM_CAM_MEM,Specify if memory-based context in CAM_MEM memory bank has been lost due to a previous power transition or other reset source" "LOSTMEM_CAM_MEM_0,LOSTMEM_CAM_MEM_1"
bitfld.long 0x00 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
tree.end
tree "CKGEN_CM1"
base ansd:0x4A004100
group.long 0x00++0x03
line.long 0x00 "CM_CLKSEL_CORE,CORE module clock selection"
bitfld.long 0x00 8. "CLKSEL_L4,Selects L4 interconnect clock (L4_clk)" "CLKSEL_L4_0,CLKSEL_L4_1"
newline
bitfld.long 0x00 4. "CLKSEL_L3,Selects L3 interconnect clock (L3_clk)" "CLKSEL_L3_0,CLKSEL_L3_1"
newline
bitfld.long 0x00 0. "CLKSEL_CORE,Selects CORE_CLK configuration" "CLKSEL_CORE_0,CLKSEL_CORE_1"
group.long 0x08++0x03
line.long 0x00 "CM_CLKSEL_ABE,ABE module clock selection"
bitfld.long 0x00 10. "SLIMBUS_CLK_GATE,Gating control for SLIMBUS_CLK clock tree in ABE" "SLIMBUS_CLK_GATE_0,SLIMBUS_CLK_GATE_1"
newline
bitfld.long 0x00 8. "PAD_CLKS_GATE,Gating control for PAD_CLKS clock tree in ABE" "PAD_CLKS_GATE_0,PAD_CLKS_GATE_1"
newline
bitfld.long 0x00 0.--1. "CLKSEL_OPP,Selects the OPP divider ABE domain" "CLKSEL_OPP_0,CLKSEL_OPP_1,CLKSEL_OPP_2,CLKSEL_OPP_3"
group.long 0x10++0x03
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" "DLL_OVERRIDE_0,DLL_OVERRIDE_1"
group.long 0x20++0x33
line.long 0x00 "CM_CLKMODE_DPLL_CORE,This register allows controlling the DPLL modes"
bitfld.long 0x00 14. "DPLL_SSC_DOWNSPREAD,Control if only low frequency spread is required" "DPLL_SSC_DOWNSPREAD_0,DPLL_SSC_DOWNSPREAD_1"
newline
rbitfld.long 0x00 13. "DPLL_SSC_ACK,Acknowledgement from the DPLL regarding start and stop of Spread Spectrum Clocking feature" "DPLL_SSC_ACK_0_r,DPLL_SSC_ACK_1_r"
newline
bitfld.long 0x00 12. "DPLL_SSC_EN,Enable or disable Spread Spectrum Clocking" "DPLL_SSC_EN_0,DPLL_SSC_EN_1"
newline
rbitfld.long 0x00 11. "DPLL_REGM4XEN,Enable the REGM4XEN mode of the DPLL" "DPLL_REGM4XEN_0_r,?"
newline
bitfld.long 0x00 10. "DPLL_LPMODE_EN,Set the DPLL in low-power mode" "DPLL_LPMODE_EN_0,DPLL_LPMODE_EN_1"
newline
bitfld.long 0x00 8. "DPLL_DRIFTGUARD_EN,This bit allows to enable or disable the automatic recalibration feature of the DPLL" "DPLL_DRIFTGUARD_EN_0,DPLL_DRIFTGUARD_EN_1"
newline
bitfld.long 0x00 0.--2. "DPLL_EN,DPLL control" "DPLL_EN_0,DPLL_EN_1,DPLL_EN_2,DPLL_EN_3,DPLL_EN_4,DPLL_EN_5,DPLL_EN_6,DPLL_EN_7"
line.long 0x04 "CM_IDLEST_DPLL_CORE,This register allows monitoring DPLL activity"
bitfld.long 0x04 8. "ST_MN_BYPASS,DPLL MN_BYPASS status" "ST_MN_BYPASS_0_r,ST_MN_BYPASS_1_r"
newline
bitfld.long 0x04 0. "ST_DPLL_CLK,DPLL lock status" "ST_DPLL_CLK_0_r,ST_DPLL_CLK_1_r"
line.long 0x08 "CM_AUTOIDLE_DPLL_CORE,This register provides automatic control over the DPLL activity"
bitfld.long 0x08 0.--2. "AUTO_DPLL_MODE,DPLL automatic control" "AUTO_DPLL_MODE_0,AUTO_DPLL_MODE_1,AUTO_DPLL_MODE_2,AUTO_DPLL_MODE_3,AUTO_DPLL_MODE_4,AUTO_DPLL_MODE_5,AUTO_DPLL_MODE_6,AUTO_DPLL_MODE_7"
line.long 0x0C "CM_CLKSEL_DPLL_CORE,This register provides controls over the DPLL"
bitfld.long 0x0C 23. "DPLL_BYP_CLKSEL,Allows control of the BYPASS clock of the PLL and the associated HSDIVIDER" "CLKINP is selected as the BYPASS clock for..,CLKINPULOW is selected as the BYPASS clock for.."
newline
bitfld.long 0x0C 20. "DPLL_CLKOUTHIF_CLKSEL,Selects the source of the DPLL CLKOUTHIF clock" "DPLL_CLKOUTHIF_CLKSEL_0,DPLL_CLKOUTHIF_CLKSEL_1"
newline
hexmask.long.word 0x0C 8.--18. 1. "DPLL_MULT,DPLL multiplier factor (2 to 2047)"
newline
hexmask.long.byte 0x0C 0.--6. 1. "DPLL_DIV,DPLL divider factor (0 to 127) (equal to input N of DPLL; actual division factor is N+1)"
line.long 0x10 "CM_DIV_M2_DPLL_CORE,This register provides controls over the M2 divider of the DPLL"
rbitfld.long 0x10 9. "ST_DPLL_CLKOUT,DPLL CLKOUT status" "ST_DPLL_CLKOUT_0_r,ST_DPLL_CLKOUT_1_r"
newline
bitfld.long 0x10 8. "DPLL_CLKOUT_GATE_CTRL,Control gating of DPLL CLKOUT" "DPLL_CLKOUT_GATE_CTRL_0,DPLL_CLKOUT_GATE_CTRL_1"
newline
rbitfld.long 0x10 5. "DPLL_CLKOUT_DIVCHACK,Toggle on this status bit after changing DPLL_CLKOUT_DIV indicates that the change in divider value has taken effect" "DPLL_CLKOUT_DIVCHACK_0,DPLL_CLKOUT_DIVCHACK_1"
newline
bitfld.long 0x10 0.--4. "DPLL_CLKOUT_DIV,DPLL post-divider factor M2 for internal clock generation (1 to 31); Divide value from 1 to 31" "DPLL_CLKOUT_DIV_0,DPLL_CLKOUT_DIV_1,DPLL_CLKOUT_DIV_2,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
line.long 0x14 "CM_DIV_M3_DPLL_CORE,This register provides controls over the M3 divider of the DPLL"
rbitfld.long 0x14 9. "ST_DPLL_CLKOUTHIF,DPLL CLKOUTHIF status" "ST_DPLL_CLKOUTHIF_0_r,ST_DPLL_CLKOUTHIF_1_r"
newline
bitfld.long 0x14 8. "DPLL_CLKOUTHIF_GATE_CTRL,Control gating of DPLL CLKOUTHIF" "DPLL_CLKOUTHIF_GATE_CTRL_0,DPLL_CLKOUTHIF_GATE_CTRL_1"
newline
rbitfld.long 0x14 5. "DPLL_CLKOUTHIF_DIVCHACK,Toggle on this status bit after changing DPLL_CLKOUTHIF_DIV indicates that the change in divider value has taken effect" "DPLL_CLKOUTHIF_DIVCHACK_0,DPLL_CLKOUTHIF_DIVCHACK_1"
newline
bitfld.long 0x14 0.--4. "DPLL_CLKOUTHIF_DIV,DPLL post-divider factor M3 for internal clock generation (1 to 31)" "DPLL_CLKOUTHIF_DIV_0,?,?,?,?,DPLL_CLKOUTHIF_DIV_5,?,?,DPLL_CLKOUTHIF_DIV_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
line.long 0x18 "CM_DIV_M4_DPLL_CORE,This register provides controls over the CLKOUT1 o/p of the HSDIVIDER"
bitfld.long 0x18 12. "HSDIVIDER_CLKOUT1_PWDN,Direct power down control for HSDIVIDER M4 divider and CLKOUT1 output" "HSDIVIDER_CLKOUT1_PWDN_0,HSDIVIDER_CLKOUT1_PWDN_1"
newline
rbitfld.long 0x18 9. "ST_HSDIVIDER_CLKOUT1,HSDIVIDER CLKOUT1 status" "ST_HSDIVIDER_CLKOUT1_0_r,ST_HSDIVIDER_CLKOUT1_1_r"
newline
bitfld.long 0x18 8. "HSDIVIDER_CLKOUT1_GATE_CTRL,Control gating of HSDIVIDER CLKOUT1" "HSDIVIDER_CLKOUT1_GATE_CTRL_0,HSDIVIDER_CLKOUT1_GATE_CTRL_1"
newline
rbitfld.long 0x18 5. "HSDIVIDER_CLKOUT1_DIVCHACK,Toggle on this status bit after changing HSDIVIDER_CLKOUT1_DIV indicates that the change in divider value has taken effect" "HSDIVIDER_CLKOUT1_DIVCHACK_0,HSDIVIDER_CLKOUT1_DIVCHACK_1"
newline
bitfld.long 0x18 0.--4. "HSDIVIDER_CLKOUT1_DIV,DPLL M4 post-divider factor (1 to 31)" "HSDIVIDER_CLKOUT1_DIV_0,?,?,?,?,?,?,?,HSDIVIDER_CLKOUT1_DIV_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
line.long 0x1C "CM_DIV_M5_DPLL_CORE,This register provides controls over the CLKOUT2 o/p of the HSDIVIDER"
bitfld.long 0x1C 12. "HSDIVIDER_CLKOUT2_PWDN,Direct power down control for HSDIVIDER M5 divider and CLKOUT2 output" "HSDIVIDER_CLKOUT2_PWDN_0,HSDIVIDER_CLKOUT2_PWDN_1"
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rbitfld.long 0x1C 9. "ST_HSDIVIDER_CLKOUT2,HSDIVIDER CLKOUT2 status" "ST_HSDIVIDER_CLKOUT2_0_r,ST_HSDIVIDER_CLKOUT2_1_r"
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bitfld.long 0x1C 8. "HSDIVIDER_CLKOUT2_GATE_CTRL,Control gating of HSDIVIDER CLKOUT2" "HSDIVIDER_CLKOUT2_GATE_CTRL_0,HSDIVIDER_CLKOUT2_GATE_CTRL_1"
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rbitfld.long 0x1C 5. "HSDIVIDER_CLKOUT2_DIVCHACK,Toggle on this status bit after changing HSDIVIDER_CLKOUT2_DIV indicates that the change in divider value has taken effect" "HSDIVIDER_CLKOUT2_DIVCHACK_0,HSDIVIDER_CLKOUT2_DIVCHACK_1"
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bitfld.long 0x1C 0.--4. "HSDIVIDER_CLKOUT2_DIV,DPLL M5 post-divider factor (1 to" "HSDIVIDER_CLKOUT2_DIV_0,?,?,?,HSDIVIDER_CLKOUT2_DIV_4,?,?,?,HSDIVIDER_CLKOUT2_DIV_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
line.long 0x20 "CM_DIV_M6_DPLL_CORE,This register provides controls over the CLKOUT3 o/p of the HSDIVIDER"
bitfld.long 0x20 12. "HSDIVIDER_CLKOUT3_PWDN,Direct power down control for HSDIVIDER M6 divider and CLKOUT3 output" "HSDIVIDER_CLKOUT3_PWDN_0,HSDIVIDER_CLKOUT3_PWDN_1"
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rbitfld.long 0x20 9. "ST_HSDIVIDER_CLKOUT3,HSDIVIDER CLKOUT3 status" "ST_HSDIVIDER_CLKOUT3_0_r,ST_HSDIVIDER_CLKOUT3_1_r"
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bitfld.long 0x20 8. "HSDIVIDER_CLKOUT3_GATE_CTRL,Control gating of HSDIVIDER CLKOUT3" "HSDIVIDER_CLKOUT3_GATE_CTRL_0,HSDIVIDER_CLKOUT3_GATE_CTRL_1"
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rbitfld.long 0x20 5. "HSDIVIDER_CLKOUT3_DIVCHACK,Toggle on this status bit after changing HSDIVIDER_CLKOUT3_DIV indicates that the change in divider value has taken effect" "HSDIVIDER_CLKOUT3_DIVCHACK_0,HSDIVIDER_CLKOUT3_DIVCHACK_1"
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bitfld.long 0x20 0.--4. "HSDIVIDER_CLKOUT3_DIV,DPLL M6 post-divider factor (1 to" "HSDIVIDER_CLKOUT3_DIV_0,?,?,?,?,?,HSDIVIDER_CLKOUT3_DIV_6,?,HSDIVIDER_CLKOUT3_DIV_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
line.long 0x24 "CM_DIV_M7_DPLL_CORE,This register provides controls over the CLKOUT4 o/p of the HSDIVIDER"
bitfld.long 0x24 12. "HSDIVIDER_CLKOUT4_PWDN,Direct power down control for HSDIVIDER M7 divider and CLKOUT4 output" "HSDIVIDER_CLKOUT4_PWDN_0,HSDIVIDER_CLKOUT4_PWDN_1"
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rbitfld.long 0x24 9. "ST_HSDIVIDER_CLKOUT4,HSDIVIDER CLKOUT4 status" "ST_HSDIVIDER_CLKOUT4_0_r,ST_HSDIVIDER_CLKOUT4_1_r"
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bitfld.long 0x24 8. "HSDIVIDER_CLKOUT4_GATE_CTRL,Control gating of HSDIVIDER CLKOUT4" "HSDIVIDER_CLKOUT4_GATE_CTRL_0,HSDIVIDER_CLKOUT4_GATE_CTRL_1"
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rbitfld.long 0x24 5. "HSDIVIDER_CLKOUT4_DIVCHACK,Toggle on this status bit after changing HSDIVIDER_CLKOUT4_DIV indicates that the change in divider value has taken effect" "HSDIVIDER_CLKOUT4_DIVCHACK_0,HSDIVIDER_CLKOUT4_DIVCHACK_1"
newline
bitfld.long 0x24 0.--4. "HSDIVIDER_CLKOUT4_DIV,DPLL M7 post-divider factor (1 to" "HSDIVIDER_CLKOUT4_DIV_0,?,?,?,?,?,HSDIVIDER_CLKOUT4_DIV_6,?,HSDIVIDER_CLKOUT4_DIV_8,?,?,?,HSDIVIDER_CLKOUT4_DIV_12,?,?,?,HSDIVIDER_CLKOUT4_DIV_16,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
line.long 0x28 "CM_SSC_DELTAMSTEP_DPLL_CORE,Control the DeltaMStep parameter for Spread Spectrum Clocking"
hexmask.long.tbyte 0x28 0.--19. 1. "DELTAMSTEP,DeltaMStep is split into fractional and integer part"
line.long 0x2C "CM_SSC_MODFREQDIV_DPLL_CORE,Control the Modulation Frequency (Fm) for Spread Spectrum"
bitfld.long 0x2C 8.--10. "MODFREQDIV_EXPONENT,Set the Exponent component of MODFREQDIV factor" "MODFREQDIV_EXPONENT_0,MODFREQDIV_EXPONENT_1,MODFREQDIV_EXPONENT_2,MODFREQDIV_EXPONENT_3,MODFREQDIV_EXPONENT_4,MODFREQDIV_EXPONENT_5,MODFREQDIV_EXPONENT_6,MODFREQDIV_EXPONENT_7"
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hexmask.long.byte 0x2C 0.--6. 1. "MODFREQDIV_MANTISSA,Set the Mantissa component of MODFREQDIV factor"
line.long 0x30 "CM_EMU_OVERRIDE_DPLL_CORE,This register provides emulation override controls over the CORE DPLL"
bitfld.long 0x30 19. "OVERRIDE_ENABLE,This bit allows to enable or disable the emulation override controls" "OVERRIDE_ENABLE_0,OVERRIDE_ENABLE_1"
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hexmask.long.word 0x30 8.--18. 1. "CORE_DPLL_EMU_MULT,DPLL multiplier factor (2 to 2047)"
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hexmask.long.byte 0x30 0.--6. 1. "CORE_DPLL_EMU_DIV,CORE DPLL override divider factor (0 to 127) (equal to input N of DPLL; actual division factor is N+1)"
group.long 0x60++0x13
line.long 0x00 "CM_CLKMODE_DPLL_MPU,This register allows controlling the DPLL modes"
bitfld.long 0x00 14. "DPLL_SSC_DOWNSPREAD,Control if only low frequency spread is required" "DPLL_SSC_DOWNSPREAD_0,DPLL_SSC_DOWNSPREAD_1"
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rbitfld.long 0x00 13. "DPLL_SSC_ACK,Acknowledgement from the DPLL regarding start and stop of Spread Spectrum Clocking feature" "DPLL_SSC_ACK_0_r,DPLL_SSC_ACK_1_r"
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bitfld.long 0x00 12. "DPLL_SSC_EN,Enable or disable Spread Spectrum Clocking" "DPLL_SSC_EN_0,DPLL_SSC_EN_1"
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rbitfld.long 0x00 11. "DPLL_REGM4XEN,Enable the REGM4XEN mode of the DPLL" "DPLL_REGM4XEN_0_r,?"
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bitfld.long 0x00 10. "DPLL_LPMODE_EN,Set the DPLL in low-power mode" "DPLL_LPMODE_EN_0,DPLL_LPMODE_EN_1"
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bitfld.long 0x00 8. "DPLL_DRIFTGUARD_EN,This bit allows to enable or disable the automatic recalibration feature of the DPLL" "DPLL_DRIFTGUARD_EN_0,DPLL_DRIFTGUARD_EN_1"
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bitfld.long 0x00 0.--2. "DPLL_EN,DPLL control" "DPLL_EN_0,DPLL_EN_1,DPLL_EN_2,DPLL_EN_3,DPLL_EN_4,DPLL_EN_5,DPLL_EN_6,DPLL_EN_7"
line.long 0x04 "CM_IDLEST_DPLL_MPU,This register allows monitoring DPLL activity"
bitfld.long 0x04 8. "ST_MN_BYPASS,DPLL MN_BYPASS status" "ST_MN_BYPASS_0_r,ST_MN_BYPASS_1_r"
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bitfld.long 0x04 0. "ST_DPLL_CLK,DPLL lock status" "ST_DPLL_CLK_0_r,ST_DPLL_CLK_1_r"
line.long 0x08 "CM_AUTOIDLE_DPLL_MPU,This register provides automatic control over the DPLL activity"
bitfld.long 0x08 0.--2. "AUTO_DPLL_MODE,DPLL automatic control;" "AUTO_DPLL_MODE_0,AUTO_DPLL_MODE_1,AUTO_DPLL_MODE_2,AUTO_DPLL_MODE_3,AUTO_DPLL_MODE_4,AUTO_DPLL_MODE_5,AUTO_DPLL_MODE_6,AUTO_DPLL_MODE_7"
line.long 0x0C "CM_CLKSEL_DPLL_MPU,This register provides controls over the DPLL"
hexmask.long.byte 0x0C 24.--31. 1. "DCC_COUNT_MAX,The value 'NbCycles' set in this field determines the duration of the clock ramp step during which the output frequency is Fdpll/(2*M2)"
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bitfld.long 0x0C 23. "DPLL_BYP_CLKSEL,Only CLKINPULOW bypass clock supported for this PLL" "DPLL_BYP_CLKSEL_0,DPLL_BYP_CLKSEL_1"
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bitfld.long 0x0C 22. "DCC_EN,Enable or disable duty cycle correction" "DCC_EN_0,DCC_EN_1"
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hexmask.long.word 0x0C 8.--18. 1. "DPLL_MULT,DPLL multiplier factor (2 to 2047)"
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hexmask.long.byte 0x0C 0.--6. 1. "DPLL_DIV,DPLL divider factor (0 to 127) (equal to input N of DPLL; actual division factor is N+1)"
line.long 0x10 "CM_DIV_M2_DPLL_MPU,This register provides controls over the M2 divider of the DPLL"
rbitfld.long 0x10 9. "ST_DPLL_CLKOUT,DPLL CLKOUT status" "ST_DPLL_CLKOUT_0_r,ST_DPLL_CLKOUT_1_r"
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bitfld.long 0x10 8. "DPLL_CLKOUT_GATE_CTRL,Control gating of DPLL CLKOUT" "DPLL_CLKOUT_GATE_CTRL_0,DPLL_CLKOUT_GATE_CTRL_1"
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rbitfld.long 0x10 5. "DPLL_CLKOUT_DIVCHACK,Toggle on this status bit after changing DPLL_CLKOUT_DIV indicates that the change in divider value has taken effect" "DPLL_CLKOUT_DIVCHACK_0,DPLL_CLKOUT_DIVCHACK_1"
newline
bitfld.long 0x10 0.--4. "DPLL_CLKOUT_DIV,DPLL post-divider factor M2 for internal clock generation (1 to 31);Divide value from 1 to" "DPLL_CLKOUT_DIV_0,DPLL_CLKOUT_DIV_1,DPLL_CLKOUT_DIV_2,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
group.long 0x88++0x07
line.long 0x00 "CM_SSC_DELTAMSTEP_DPLL_MPU,Control the DeltaMStep parameter for Spread Spectrum Clocking"
hexmask.long.tbyte 0x00 0.--19. 1. "DELTAMSTEP,DeltaMStep is split into fractional and integer part"
line.long 0x04 "CM_SSC_MODFREQDIV_DPLL_MPU,Control the Modulation Frequency (Fm) for Spread Spectrum"
bitfld.long 0x04 8.--10. "MODFREQDIV_EXPONENT,Set the Exponent component of MODFREQDIV factor" "MODFREQDIV_EXPONENT_0,MODFREQDIV_EXPONENT_1,MODFREQDIV_EXPONENT_2,MODFREQDIV_EXPONENT_3,MODFREQDIV_EXPONENT_4,MODFREQDIV_EXPONENT_5,MODFREQDIV_EXPONENT_6,MODFREQDIV_EXPONENT_7"
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hexmask.long.byte 0x04 0.--6. 1. "MODFREQDIV_MANTISSA,Set the Mantissa component of MODFREQDIV factor"
group.long 0x9C++0x13
line.long 0x00 "CM_BYPCLK_DPLL_MPU,Control MPU PLL BYPASS clock"
bitfld.long 0x00 0.--1. "CLKSEL,Select the DPLL MPU bypass clock" "CLKSEL_0,CLKSEL_1,CLKSEL_2,CLKSEL_3"
line.long 0x04 "CM_CLKMODE_DPLL_IVA,This register allows controlling the DPLL modes"
bitfld.long 0x04 14. "DPLL_SSC_DOWNSPREAD,Control if only low frequency spread is required" "DPLL_SSC_DOWNSPREAD_0,DPLL_SSC_DOWNSPREAD_1"
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rbitfld.long 0x04 13. "DPLL_SSC_ACK,Acknowledgement from the DPLL regarding start and stop of Spread Spectrum Clocking feature" "DPLL_SSC_ACK_0_r,DPLL_SSC_ACK_1_r"
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bitfld.long 0x04 12. "DPLL_SSC_EN,Enable or disable Spread Spectrum Clocking" "DPLL_SSC_EN_0,DPLL_SSC_EN_1"
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rbitfld.long 0x04 11. "DPLL_REGM4XEN,Enable the REGM4XEN mode of the DPLL" "DPLL_REGM4XEN_0_r,?"
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bitfld.long 0x04 10. "DPLL_LPMODE_EN,Set the DPLL in low-power mode" "DPLL_LPMODE_EN_0,DPLL_LPMODE_EN_1"
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bitfld.long 0x04 8. "DPLL_DRIFTGUARD_EN,This bit allows to enable or disable the automatic recalibration feature of the DPLL" "DPLL_DRIFTGUARD_EN_0,DPLL_DRIFTGUARD_EN_1"
newline
bitfld.long 0x04 0.--2. "DPLL_EN,DPLL control" "DPLL_EN_0,DPLL_EN_1,DPLL_EN_2,DPLL_EN_3,DPLL_EN_4,DPLL_EN_5,DPLL_EN_6,DPLL_EN_7"
line.long 0x08 "CM_IDLEST_DPLL_IVA,This register allows monitoring DPLL activity"
bitfld.long 0x08 8. "ST_MN_BYPASS,DPLL MN_BYPASS status" "ST_MN_BYPASS_0_r,ST_MN_BYPASS_1_r"
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bitfld.long 0x08 0. "ST_DPLL_CLK,DPLL lock status" "ST_DPLL_CLK_0_r,ST_DPLL_CLK_1_r"
line.long 0x0C "CM_AUTOIDLE_DPLL_IVA,This register provides automatic control over the DPLL activity"
bitfld.long 0x0C 0.--2. "AUTO_DPLL_MODE,DPLL automatic control;" "AUTO_DPLL_MODE_0,AUTO_DPLL_MODE_1,AUTO_DPLL_MODE_2,AUTO_DPLL_MODE_3,AUTO_DPLL_MODE_4,AUTO_DPLL_MODE_5,AUTO_DPLL_MODE_6,AUTO_DPLL_MODE_7"
line.long 0x10 "CM_CLKSEL_DPLL_IVA,This register provides controls over the DPLL"
bitfld.long 0x10 23. "DPLL_BYP_CLKSEL,Allows control of the BYPASS clock of the PLL and the associated HSDIVIDER" "CLKINP is selected as the BYPASS clock for..,CLKINPULOW is selected as the BYPASS clock for.."
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hexmask.long.word 0x10 8.--18. 1. "DPLL_MULT,DPLL multiplier factor (2 to 2047)"
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hexmask.long.byte 0x10 0.--6. 1. "DPLL_DIV,DPLL divider factor (0 to 127) (equal to input N of DPLL; actual division factor is N+1)"
group.long 0xB8++0x07
line.long 0x00 "CM_DIV_M4_DPLL_IVA,This register provides controls over the CLKOUT1 o/p of the HSDIVIDER"
bitfld.long 0x00 12. "HSDIVIDER_CLKOUT1_PWDN,Direct power down control for HSDIVIDER M4 divider and CLKOUT1 output" "HSDIVIDER_CLKOUT1_PWDN_0,HSDIVIDER_CLKOUT1_PWDN_1"
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rbitfld.long 0x00 9. "ST_HSDIVIDER_CLKOUT1,HSDIVIDER CLKOUT1 status" "ST_HSDIVIDER_CLKOUT1_0_r,ST_HSDIVIDER_CLKOUT1_1_r"
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bitfld.long 0x00 8. "HSDIVIDER_CLKOUT1_GATE_CTRL,Control gating of HSDIVIDER CLKOUT1" "HSDIVIDER_CLKOUT1_GATE_CTRL_0,HSDIVIDER_CLKOUT1_GATE_CTRL_1"
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rbitfld.long 0x00 5. "HSDIVIDER_CLKOUT1_DIVCHACK,Toggle on this status bit after changing HSDIVIDER_CLKOUT1_DIV indicates that the change in divider value has taken effect" "HSDIVIDER_CLKOUT1_DIVCHACK_0,HSDIVIDER_CLKOUT1_DIVCHACK_1"
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bitfld.long 0x00 0.--4. "HSDIVIDER_CLKOUT1_DIV,DPLL M4 post-divider factor (1 to" "HSDIVIDER_CLKOUT1_DIV_0,?,HSDIVIDER_CLKOUT1_DIV_2,?,HSDIVIDER_CLKOUT1_DIV_4,?,?,?,HSDIVIDER_CLKOUT1_DIV_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
line.long 0x04 "CM_DIV_M5_DPLL_IVA,This register provides controls over the CLKOUT2 o/p of the HSDIVIDER"
bitfld.long 0x04 12. "HSDIVIDER_CLKOUT2_PWDN,Direct power down control for HSDIVIDER M5 divider and CLKOUT2 output" "HSDIVIDER_CLKOUT2_PWDN_0,HSDIVIDER_CLKOUT2_PWDN_1"
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rbitfld.long 0x04 9. "ST_HSDIVIDER_CLKOUT2,HSDIVIDER CLKOUT2 status" "ST_HSDIVIDER_CLKOUT2_0_r,ST_HSDIVIDER_CLKOUT2_1_r"
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bitfld.long 0x04 8. "HSDIVIDER_CLKOUT2_GATE_CTRL,Control gating of HSDIVIDER CLKOUT2" "HSDIVIDER_CLKOUT2_GATE_CTRL_0,HSDIVIDER_CLKOUT2_GATE_CTRL_1"
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rbitfld.long 0x04 5. "HSDIVIDER_CLKOUT2_DIVCHACK,Toggle on this status bit after changing HSDIVIDER_CLKOUT2_DIV indicates that the change in divider value has taken effect" "HSDIVIDER_CLKOUT2_DIVCHACK_0,HSDIVIDER_CLKOUT2_DIVCHACK_1"
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bitfld.long 0x04 0.--4. "HSDIVIDER_CLKOUT2_DIV,DPLL M5 post-divider factor (1 to" "HSDIVIDER_CLKOUT2_DIV_0,?,HSDIVIDER_CLKOUT2_DIV_2,HSDIVIDER_CLKOUT2_DIV_3,?,?,?,HSDIVIDER_CLKOUT2_DIV_7,?,?,?,?,?,?,HSDIVIDER_CLKOUT2_DIV_14,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
group.long 0xC8++0x07
line.long 0x00 "CM_SSC_DELTAMSTEP_DPLL_IVA,Control the DeltaMStep parameter for Spread Spectrum Clocking"
hexmask.long.tbyte 0x00 0.--19. 1. "DELTAMSTEP,DeltaMStep is split into fractional and integer part"
line.long 0x04 "CM_SSC_MODFREQDIV_DPLL_IVA,Control the Modulation Frequency (Fm) for Spread Spectrum"
bitfld.long 0x04 8.--10. "MODFREQDIV_EXPONENT,Set the Exponent component of MODFREQDIV factor" "MODFREQDIV_EXPONENT_0,MODFREQDIV_EXPONENT_1,MODFREQDIV_EXPONENT_2,MODFREQDIV_EXPONENT_3,MODFREQDIV_EXPONENT_4,MODFREQDIV_EXPONENT_5,MODFREQDIV_EXPONENT_6,MODFREQDIV_EXPONENT_7"
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hexmask.long.byte 0x04 0.--6. 1. "MODFREQDIV_MANTISSA,Set the Mantissa component of MODFREQDIV factor"
group.long 0xDC++0x1B
line.long 0x00 "CM_BYPCLK_DPLL_IVA,Control IVA PLL BYPASS clock"
bitfld.long 0x00 0.--1. "CLKSEL,Select the DPLL IVA bypass clock" "CLKSEL_0,CLKSEL_1,CLKSEL_2,CLKSEL_3"
line.long 0x04 "CM_CLKMODE_DPLL_ABE,This register allows controlling the DPLL modes"
bitfld.long 0x04 14. "DPLL_SSC_DOWNSPREAD,Control if only low frequency spread is required" "DPLL_SSC_DOWNSPREAD_0,DPLL_SSC_DOWNSPREAD_1"
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rbitfld.long 0x04 13. "DPLL_SSC_ACK,Acknowledgement from the DPLL regarding start and stop of Spread Spectrum Clocking feature" "DPLL_SSC_ACK_0_r,DPLL_SSC_ACK_1_r"
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bitfld.long 0x04 12. "DPLL_SSC_EN,Enable or disable Spread Spectrum Clocking" "DPLL_SSC_EN_0,DPLL_SSC_EN_1"
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bitfld.long 0x04 11. "DPLL_REGM4XEN,Enable the REGM4XEN mode of the DPLL" "DPLL_REGM4XEN_0_r,?"
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bitfld.long 0x04 10. "DPLL_LPMODE_EN,Set the DPLL in low-power mode" "DPLL_LPMODE_EN_0,DPLL_LPMODE_EN_1"
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bitfld.long 0x04 8. "DPLL_DRIFTGUARD_EN,This bit allows to enable or disable the automatic recalibration feature of the DPLL" "DPLL_DRIFTGUARD_EN_0,DPLL_DRIFTGUARD_EN_1"
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bitfld.long 0x04 0.--2. "DPLL_EN,DPLL control" "DPLL_EN_0,DPLL_EN_1,DPLL_EN_2,DPLL_EN_3,DPLL_EN_4,DPLL_EN_5,DPLL_EN_6,DPLL_EN_7"
line.long 0x08 "CM_IDLEST_DPLL_ABE,This register allows monitoring DPLL activity"
bitfld.long 0x08 8. "ST_MN_BYPASS,DPLL MN_BYPASS status" "ST_MN_BYPASS_0_r,ST_MN_BYPASS_1_r"
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bitfld.long 0x08 0. "ST_DPLL_CLK,DPLL lock status" "ST_DPLL_CLK_0_r,ST_DPLL_CLK_1_r"
line.long 0x0C "CM_AUTOIDLE_DPLL_ABE,This register provides automatic control over the DPLL activity"
bitfld.long 0x0C 0.--2. "AUTO_DPLL_MODE,DPLL automatic control;" "AUTO_DPLL_MODE_0,AUTO_DPLL_MODE_1,AUTO_DPLL_MODE_2,AUTO_DPLL_MODE_3,AUTO_DPLL_MODE_4,AUTO_DPLL_MODE_5,AUTO_DPLL_MODE_6,AUTO_DPLL_MODE_7"
line.long 0x10 "CM_CLKSEL_DPLL_ABE,This register provides controls over the DPLL"
bitfld.long 0x10 23. "DPLL_BYP_CLKSEL,Only CLKINPULOW bypass clock supported for this PLL" "DPLL_BYP_CLKSEL_0,DPLL_BYP_CLKSEL_1"
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hexmask.long.word 0x10 8.--18. 1. "DPLL_MULT,DPLL multiplier factor (2 to 2047)"
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hexmask.long.byte 0x10 0.--6. 1. "DPLL_DIV,DPLL divider factor (0 to 127) (equal to input N of DPLL; actual division factor is N+1)"
line.long 0x14 "CM_DIV_M2_DPLL_ABE,This register provides controls over the M2 divider of the DPLL"
rbitfld.long 0x14 11. "ST_DPLL_CLKOUTX2,DPLL CLKOUTX2 status" "ST_DPLL_CLKOUTX2_0_r,ST_DPLL_CLKOUTX2_1_r"
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bitfld.long 0x14 10. "DPLL_CLKOUTX2_GATE_CTRL,Control gating of DPLL CLKOUTX2" "DPLL_CLKOUTX2_GATE_CTRL_0,DPLL_CLKOUTX2_GATE_CTRL_1"
newline
rbitfld.long 0x14 9. "ST_DPLL_CLKOUT,DPLL CLKOUT status" "ST_DPLL_CLKOUT_0_r,ST_DPLL_CLKOUT_1_r"
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bitfld.long 0x14 8. "DPLL_CLKOUT_GATE_CTRL,Control gating of DPLL CLKOUT" "DPLL_CLKOUT_GATE_CTRL_0,DPLL_CLKOUT_GATE_CTRL_1"
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rbitfld.long 0x14 5. "DPLL_CLKOUT_DIVCHACK,Toggle on this status bit after changing DPLL_CLKOUT_DIV indicates that the change in divider value has taken effect" "DPLL_CLKOUT_DIVCHACK_0,DPLL_CLKOUT_DIVCHACK_1"
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bitfld.long 0x14 0.--4. "DPLL_CLKOUT_DIV,DPLL post-divider factor M2 for internal clock generation (1 to 31)" "DPLL_CLKOUT_DIV_0,DPLL_CLKOUT_DIV_1,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
line.long 0x18 "CM_DIV_M3_DPLL_ABE,This register provides controls over the M3 divider of the DPLL"
rbitfld.long 0x18 9. "ST_DPLL_CLKOUTHIF,DPLL CLKOUTHIF status" "ST_DPLL_CLKOUTHIF_0_r,ST_DPLL_CLKOUTHIF_1_r"
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bitfld.long 0x18 8. "DPLL_CLKOUTHIF_GATE_CTRL,Control gating of DPLL CLKOUTHIF" "DPLL_CLKOUTHIF_GATE_CTRL_0,DPLL_CLKOUTHIF_GATE_CTRL_1"
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rbitfld.long 0x18 5. "DPLL_CLKOUTHIF_DIVCHACK,Toggle on this status bit after changing DPLL_CLKOUTHIF_DIV indicates that the change in divider value has taken effect" "DPLL_CLKOUTHIF_DIVCHACK_0,DPLL_CLKOUTHIF_DIVCHACK_1"
newline
bitfld.long 0x18 0.--4. "DPLL_CLKOUTHIF_DIV,DPLL post-divider factor M3 for internal clock generation (1 to 31)" "DPLL_CLKOUTHIF_DIV_0,DPLL_CLKOUTHIF_DIV_1,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
group.long 0x108++0x07
line.long 0x00 "CM_SSC_DELTAMSTEP_DPLL_ABE,Control the DeltaMStep parameter for Spread Spectrum Clocking"
hexmask.long.tbyte 0x00 0.--19. 1. "DELTAMSTEP,DeltaMStep is split into fractional and integer part"
line.long 0x04 "CM_SSC_MODFREQDIV_DPLL_ABE,Control the Modulation Frequency (Fm) for Spread Spectrum"
bitfld.long 0x04 8.--10. "MODFREQDIV_EXPONENT,Set the Exponent component of MODFREQDIV factor" "MODFREQDIV_EXPONENT_0,MODFREQDIV_EXPONENT_1,MODFREQDIV_EXPONENT_2,MODFREQDIV_EXPONENT_3,MODFREQDIV_EXPONENT_4,MODFREQDIV_EXPONENT_5,MODFREQDIV_EXPONENT_6,MODFREQDIV_EXPONENT_7"
newline
hexmask.long.byte 0x04 0.--6. 1. "MODFREQDIV_MANTISSA,Set the Mantissa component of MODFREQDIV factor"
group.long 0x160++0x07
line.long 0x00 "CM_SHADOW_FREQ_CONFIG1,Shadow register to program new DPLL configuration affecting EMIF and GPMC (L3 clock) functional frequency during DVFS"
bitfld.long 0x00 11.--15. "DPLL_CORE_M2_DIV,Shadow register forCM_DIV_M2_DPLL_CORE.DPLL_CLKOUT_DIV" "DPLL_CORE_M2_DIV_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
bitfld.long 0x00 8.--10. "DPLL_CORE_DPLL_EN,Shadow register forCM_CLKMODE_DPLL_CORE.DPLL_EN" "DPLL_CORE_DPLL_EN_0,DPLL_CORE_DPLL_EN_1,DPLL_CORE_DPLL_EN_2,DPLL_CORE_DPLL_EN_3,DPLL_CORE_DPLL_EN_4,DPLL_CORE_DPLL_EN_5,DPLL_CORE_DPLL_EN_6,DPLL_CORE_DPLL_EN_7"
newline
bitfld.long 0x00 3. "DLL_RESET,Specify if DLL should be reset or not during the frequency change hardware sequence" "DLL_RESET_0,DLL_RESET_1"
newline
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" "DLL_OVERRIDE_0,DLL_OVERRIDE_1"
newline
bitfld.long 0x00 0. "FREQ_UPDATE,Writing 1 indicates that a new configuration is available" "FREQ_UPDATE_0,FREQ_UPDATE_1"
line.long 0x04 "CM_SHADOW_FREQ_CONFIG2,Shadow register to program new DPLL configuration affecting GPMC (L3 clock) functional frequency during DVFS"
bitfld.long 0x04 3.--7. "DPLL_CORE_M5_DIV,Shadow register forCM_DIV_M5_DPLL_CORE.HSDIVIDER_CLKOUT2_DIV" "DPLL_CORE_M5_DIV_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
bitfld.long 0x04 2. "CLKSEL_L3,Shadow register forCM_CLKSEL_CORE.CLKSEL_L3" "CLKSEL_L3_0,CLKSEL_L3_1"
newline
bitfld.long 0x04 1. "CLKSEL_CORE,Shadow register forCM_CLKSEL_CORE.CLKSEL_CORE" "CLKSEL_CORE_0,CLKSEL_CORE_1"
newline
bitfld.long 0x04 0. "GPMC_FREQ_UPDATE,Controls whether or not GPMC has to be put automatically into idle during the frequency change operation" "GPMC_FREQ_UPDATE_0,GPMC_FREQ_UPDATE_1"
group.long 0x170++0x03
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 0x180++0x03
line.long 0x00 "CM_RESTORE_ST,Automatic restore status"
bitfld.long 0x00 2. "PHASE2B_COMPLETED,Indicates if restore phase 2b is completed" "0,1"
newline
bitfld.long 0x00 1. "PHASE2A_COMPLETED,Indicates if restore phase 2a is completed" "0,1"
newline
bitfld.long 0x00 0. "PHASE1_COMPLETED,Indicates if restore phase 1 is completed" "0,1"
tree.end
tree "CKGEN_PRM"
base ansd:0x4A306100
group.long 0x00++0x03
line.long 0x00 "CM_ABE_DSS_SYS_CLKSEL,Select the SYS CLK for ABE and DSS subsystems"
bitfld.long 0x00 0. "CLKSEL,Selects the divider value" "CLKSEL_0,CLKSEL_1"
group.long 0x08++0x0B
line.long 0x00 "CM_L4_WKUP_CLKSEL,Control the functional clock source of L4_WKUP. PRM and Smart Reflex functional clock"
bitfld.long 0x00 0. "CLKSEL,Select the clock source for L4WKUP_ICLK and for ABE_DPLL_BYPASS_CLK clocks" "CLKSEL_0,CLKSEL_1"
line.long 0x04 "CM_ABE_PLL_REF_CLKSEL,Control the source of the reference clock for DPLL_ABE"
bitfld.long 0x04 0. "CLKSEL,Select the source for the DPLL_ABE reference clock" "CLKSEL_0,CLKSEL_1"
line.long 0x08 "CM_SYS_CLKSEL,Software sets the SYS_CLK configuration corresponding to the frequency of SYS_CLK"
bitfld.long 0x08 0.--2. "SYS_CLKSEL,System clock input selection" "SYS_CLKSEL_0,SYS_CLKSEL_1,SYS_CLKSEL_2,SYS_CLKSEL_3,SYS_CLKSEL_4,SYS_CLKSEL_5,SYS_CLKSEL_6,SYS_CLKSEL_7"
tree.end
tree "CORE_CM2"
base ansd:0x4A008700
group.long 0x00++0x03
line.long 0x00 "CM_L3_1_CLKSTCTRL,This register enables the domain power state transition"
rbitfld.long 0x00 8. "CLKACTIVITY_L3_1_ICLK,This field indicates the state of the L3_1_ICLK clock in the domain" "CLKACTIVITY_L3_1_ICLK_0_r,CLKACTIVITY_L3_1_ICLK_1_r"
bitfld.long 0x00 0.--1. "CLKTRCTRL,Controls the clock state transition of the L3_1 clock domain" "CLKTRCTRL_0,CLKTRCTRL_1_r,CLKTRCTRL_2_r,CLKTRCTRL_3"
group.long 0x08++0x03
line.long 0x00 "CM_L3_1_DYNAMICDEP,This register controls the dynamic domain depedencies from L3_1 domain towards 'target' domains"
bitfld.long 0x00 24.--27. "WINDOWSIZE,Size of sliding window used to monitor INTRCONN interface activity for determination of auto-sleep feature" "WINDOWSIZE_0,WINDOWSIZE_1,WINDOWSIZE_2,WINDOWSIZE_3,WINDOWSIZE_4,WINDOWSIZE_5,WINDOWSIZE_6,WINDOWSIZE_7,WINDOWSIZE_8,WINDOWSIZE_9,WINDOWSIZE_10,WINDOWSIZE_11,WINDOWSIZE_12,WINDOWSIZE_13,WINDOWSIZE_14,WINDOWSIZE_15"
bitfld.long 0x00 12. "L4CFG_DYNDEP,Dynamic dependency towards L4CFG clock domain" "?,L4CFG_DYNDEP_1_r"
newline
bitfld.long 0x00 6. "L3_2_DYNDEP,Dynamic dependency towards L3_2 clock domain" "?,L3_2_DYNDEP_1_r"
bitfld.long 0x00 4. "MEMIF_DYNDEP,Dynamic dependency towards MEMIF clock domain" "?,MEMIF_DYNDEP_1_r"
newline
bitfld.long 0x00 3. "ABE_DYNDEP,Dynamic dependency towards ABE clock domain" "?,ABE_DYNDEP_1_r"
group.long 0x20++0x03
line.long 0x00 "CM_L3_1_L3_1_CLKCTRL,This register manages the L3_1 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "?,MODULEMODE_1_r,?,?"
group.long 0x100++0x03
line.long 0x00 "CM_L3_2_CLKSTCTRL,This register enables the domain power state transition"
rbitfld.long 0x00 8. "CLKACTIVITY_L3_2_ICLK,This field indicates the state of the L3_2_ICLK clock in the domain" "CLKACTIVITY_L3_2_ICLK_0_r,CLKACTIVITY_L3_2_ICLK_1_r"
bitfld.long 0x00 0.--1. "CLKTRCTRL,Controls the clock state transition of the L3_2 clock domain" "CLKTRCTRL_0,CLKTRCTRL_1_r,CLKTRCTRL_2_r,CLKTRCTRL_3"
group.long 0x108++0x03
line.long 0x00 "CM_L3_2_DYNAMICDEP,This register controls the dynamic domain dependencies from L3_2 domain towards 'target' domains"
bitfld.long 0x00 24.--27. "WINDOWSIZE,Size of sliding window used to monitor INTRCONN interface activity for determination of auto-sleep feature" "WINDOWSIZE_0,WINDOWSIZE_1,WINDOWSIZE_2,WINDOWSIZE_3,WINDOWSIZE_4,WINDOWSIZE_5,WINDOWSIZE_6,WINDOWSIZE_7,WINDOWSIZE_8,WINDOWSIZE_9,WINDOWSIZE_10,WINDOWSIZE_11,WINDOWSIZE_12,WINDOWSIZE_13,WINDOWSIZE_14,WINDOWSIZE_15"
rbitfld.long 0x00 14. "L4SEC_DYNDEP,Dynamic dependency towards L4SEC clock domain" "?,L4SEC_DYNDEP_1_r"
newline
bitfld.long 0x00 13. "L4PER_DYNDEP,Dynamic dependency towards L4PER clock domain" "?,L4PER_DYNDEP_1_r"
bitfld.long 0x00 10. "SGX_DYNDEP,Dynamic dependency towards SGX clock domain" "?,SGX_DYNDEP_1_r"
newline
rbitfld.long 0x00 9. "CAM_DYNDEP,Dynamic dependency towards ISS clock domain" "CAM_DYNDEP_0_r,?"
bitfld.long 0x00 8. "DSS_DYNDEP,Dynamic dependency towards DSS clock domain" "?,DSS_DYNDEP_1_r"
newline
bitfld.long 0x00 7. "L3_INIT_DYNDEP,Dynamic dependency towards L3INIT clock domain" "?,L3_INIT_DYNDEP_1_r"
bitfld.long 0x00 5. "L3_1_DYNDEP,Dynamic dependency towards L3_1 clock domain" "?,L3_1_DYNDEP_1_r"
newline
bitfld.long 0x00 2. "IVAHD_DYNDEP,Dynamic dependency towards IVAHD clock domain" "?,IVAHD_DYNDEP_1_r"
bitfld.long 0x00 0. "MPU_M3_DYNDEP,Dynamic dependency towards CORTEXM3 clock domain" "?,MPU_M3_DYNDEP_1_r"
group.long 0x120++0x03
line.long 0x00 "CM_L3_2_L3_2_CLKCTRL,This register manages the L3_2 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "?,MODULEMODE_1_r,?,?"
group.long 0x128++0x03
line.long 0x00 "CM_L3_2_GPMC_CLKCTRL,This register manages the GPMC clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1,MODULEMODE_2_r,MODULEMODE_3_r"
group.long 0x130++0x03
line.long 0x00 "CM_L3_2_OCMC_RAM_CLKCTRL,This register manages the OCMC_RAM clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "?,MODULEMODE_1_r,?,?"
group.long 0x200++0x0B
line.long 0x00 "CM_MPU_M3_CLKSTCTRL,This register enables the domain power state transition"
rbitfld.long 0x00 8. "CLKACTIVITY_MPU_M3_CLK,This field indicates the state of the MPU_M3_CLK clock in the domain" "CLKACTIVITY_MPU_M3_CLK_0_r,CLKACTIVITY_MPU_M3_CLK_1_r"
bitfld.long 0x00 0.--1. "CLKTRCTRL,Controls the clock state transition of the MPU_A3 clock domain" "CLKTRCTRL_0,CLKTRCTRL_1,CLKTRCTRL_2,CLKTRCTRL_3"
line.long 0x04 "CM_MPU_M3_STATICDEP,This register controls the static domain dependencies from MPU_M3 domain towards 'target' domains"
rbitfld.long 0x04 16. "ALWONCORE_STATDEP,Static dependency towards ALWONCORE clock domain" "ALWONCORE_STATDEP_0_r,?"
bitfld.long 0x04 15. "L4WKUP_STATDEP,Static dependency towards L4WKUP clock domain" "L4WKUP_STATDEP_0,L4WKUP_STATDEP_1"
newline
bitfld.long 0x04 14. "L4SEC_STATDEP,Static dependency towards L4SEC clock domain" "L4SEC_STATDEP_0,L4SEC_STATDEP_1"
bitfld.long 0x04 13. "L4PER_STATDEP,Static dependency towards L4PER clock domain" "L4PER_STATDEP_0,L4PER_STATDEP_1"
newline
bitfld.long 0x04 12. "L4CFG_STATDEP,Static dependency towards L4CFG clock domain" "L4CFG_STATDEP_0,L4CFG_STATDEP_1"
rbitfld.long 0x04 11. "SDMA_STATDEP,Static dependency towards SDMA clock domain" "SDMA_STATDEP_0_r,?"
newline
bitfld.long 0x04 10. "SGX_STATDEP,Static dependency towards SGX clock domain" "SGX_STATDEP_0,SGX_STATDEP_1"
rbitfld.long 0x04 9. "ISS_STATDEP,Static dependency towards ISS clock domain" "ISS_STATDEP_0_r,?"
newline
bitfld.long 0x04 8. "DSS_STATDEP,Static dependency towards DSS clock domain" "DSS_STATDEP_0,DSS_STATDEP_1"
bitfld.long 0x04 7. "L3INIT_STATDEP,Static dependency towards L3INIT clock domain" "L3INIT_STATDEP_0,L3INIT_STATDEP_1"
newline
bitfld.long 0x04 6. "L3_2_STATDEP,Static dependency towards L3_2 clock domain" "L3_2_STATDEP_0,L3_2_STATDEP_1"
bitfld.long 0x04 5. "L3_1_STATDEP,Static dependency towards L3_1 clock domain" "L3_1_STATDEP_0,L3_1_STATDEP_1"
newline
bitfld.long 0x04 4. "MEMIF_STATDEP,Static dependency towards MEMIF clock domain" "MEMIF_STATDEP_0,MEMIF_STATDEP_1"
bitfld.long 0x04 3. "ABE_STATDEP,Static dependency towards ABE clock domain" "ABE_STATDEP_0,ABE_STATDEP_1"
newline
bitfld.long 0x04 2. "IVAHD_STATDEP,Static dependency towards IVAHD clock domain" "IVAHD_STATDEP_0,IVAHD_STATDEP_1"
bitfld.long 0x04 1. "DSP_STATDEP,Static dependency towards DSP clock domain" "DSP_STATDEP_0,DSP_STATDEP_1"
line.long 0x08 "CM_MPU_M3_DYNAMICDEP,This register controls the dynamic domain depedencies from MPU_A3 domain towards 'target' domains"
bitfld.long 0x08 24.--27. "WINDOWSIZE,Size of sliding window used to monitor INTRCONN interface activity for determination of auto-sleep feature" "WINDOWSIZE_0,WINDOWSIZE_1,WINDOWSIZE_2,WINDOWSIZE_3,WINDOWSIZE_4,WINDOWSIZE_5,WINDOWSIZE_6,WINDOWSIZE_7,WINDOWSIZE_8,WINDOWSIZE_9,WINDOWSIZE_10,WINDOWSIZE_11,WINDOWSIZE_12,WINDOWSIZE_13,WINDOWSIZE_14,WINDOWSIZE_15"
rbitfld.long 0x08 9. "CAM_DYNDEP,Dynamic dependency towards ISS clock domain" "CAM_DYNDEP_0_r,?"
newline
bitfld.long 0x08 6. "L3_2_DYNDEP,Dynamic dependency towards L3_2 clock domain" "?,L3_2_DYNDEP_1_r"
group.long 0x220++0x03
line.long 0x00 "CM_MPU_M3_MPU_M3_CLKCTRL,This register manages the MPU_A3 clocks"
rbitfld.long 0x00 18. "STBYST,Module standby status" "STBYST_0_r,STBYST_1_r"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
newline
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1,MODULEMODE_2_r,MODULEMODE_3_r"
group.long 0x300++0x0B
line.long 0x00 "CM_SDMA_CLKSTCTRL,This register enables the domain power state transition"
rbitfld.long 0x00 8. "CLKACTIVITY_DMA_L3_ICLK,This field indicates the state of the DMA_L3_ICLK clock in the domain" "CLKACTIVITY_DMA_L3_ICLK_0_r,CLKACTIVITY_DMA_L3_ICLK_1_r"
bitfld.long 0x00 0.--1. "CLKTRCTRL,Controls the clock state transition of the SDMA clock domain" "CLKTRCTRL_0,CLKTRCTRL_1_r,CLKTRCTRL_2,CLKTRCTRL_3"
line.long 0x04 "CM_SDMA_STATICDEP,This register controls the static domain dependencies from SDMA domain towards 'target' domains"
bitfld.long 0x04 15. "L4WKUP_STATDEP,Static dependency towards L4WKUP clock domain" "L4WKUP_STATDEP_0,L4WKUP_STATDEP_1"
bitfld.long 0x04 14. "L4SEC_STATDEP,Static dependency towards L4SEC clock domain" "L4SEC_STATDEP_0,L4SEC_STATDEP_1"
newline
bitfld.long 0x04 13. "L4PER_STATDEP,Static dependency towards L4PER clock domain" "L4PER_STATDEP_0,L4PER_STATDEP_1"
bitfld.long 0x04 12. "L4CFG_STATDEP,Static dependency towards L4CFG clock domain" "L4CFG_STATDEP_0,L4CFG_STATDEP_1"
newline
rbitfld.long 0x04 9. "ISS_STATDEP,Static dependency towards ISS clock domain" "ISS_STATDEP_0_r,?"
bitfld.long 0x04 8. "DSS_STATDEP,Static dependency towards DSS clock domain" "DSS_STATDEP_0,DSS_STATDEP_1"
newline
bitfld.long 0x04 7. "L3INIT_STATDEP,Static dependency towards L3INIT clock domain" "L3INIT_STATDEP_0,L3INIT_STATDEP_1"
bitfld.long 0x04 6. "L3_2_STATDEP,Static dependency towards L3_2 clock domain" "?,L3_2_STATDEP_1_r"
newline
bitfld.long 0x04 5. "L3_1_STATDEP,Static dependency towards L3_1 clock domain" "L3_1_STATDEP_0,L3_1_STATDEP_1"
bitfld.long 0x04 4. "MEMIF_STATDEP,Static dependency towards MEMIF clock domain" "MEMIF_STATDEP_0,MEMIF_STATDEP_1"
newline
bitfld.long 0x04 3. "ABE_STATDEP,Static dependency towards ABE clock domain" "ABE_STATDEP_0,ABE_STATDEP_1"
bitfld.long 0x04 2. "IVAHD_STATDEP,Static dependency towards IVAHD clock domain" "IVAHD_STATDEP_0,IVAHD_STATDEP_1"
newline
bitfld.long 0x04 0. "MPU_M3_STATDEP,Static dependency towards MPU_A3 clock domain" "MPU_M3_STATDEP_0,MPU_M3_STATDEP_1"
line.long 0x08 "CM_SDMA_DYNAMICDEP,This register controls the dynamic domain depedencies from SDMA domain towards 'target' domains"
bitfld.long 0x08 6. "L3_2_DYNDEP,Dynamic dependency towards L3_2 clock domain" "L3_2_DYNDEP_0_r,?"
group.long 0x320++0x03
line.long 0x00 "CM_SDMA_SDMA_CLKCTRL,This register manages the SDMA clocks"
rbitfld.long 0x00 18. "STBYST,Module standby status" "STBYST_0_r,STBYST_1_r"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
newline
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "?,MODULEMODE_1_r,?,?"
group.long 0x400++0x03
line.long 0x00 "CM_MEMIF_CLKSTCTRL,This register enables the domain power state transition"
rbitfld.long 0x00 10. "CLKACTIVITY_PHY_ROOT_CLK,This field indicates the state of the PHY_ROOT_CLK clock in the domain" "CLKACTIVITY_PHY_ROOT_CLK_0_r,CLKACTIVITY_PHY_ROOT_CLK_1_r"
rbitfld.long 0x00 9. "CLKACTIVITY_DLL_CLK,This field indicates the state of the DLL_CLK clock in the domain" "CLKACTIVITY_DLL_CLK_0_r,CLKACTIVITY_DLL_CLK_1_r"
newline
rbitfld.long 0x00 8. "CLKACTIVITY_L3_EMIF_ICLK,This field indicates the state of the L3_EMIF_ICLK clock in the domain" "CLKACTIVITY_L3_EMIF_ICLK_0_r,CLKACTIVITY_L3_EMIF_ICLK_1_r"
bitfld.long 0x00 0.--1. "CLKTRCTRL,Controls the clock state transition of the MEMIF clock domain" "CLKTRCTRL_0,CLKTRCTRL_1_r,CLKTRCTRL_2,CLKTRCTRL_3"
group.long 0x420++0x03
line.long 0x00 "CM_MEMIF_DMM_CLKCTRL,This register manages the DMM clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "?,MODULEMODE_1_r,?,?"
group.long 0x428++0x03
line.long 0x00 "CM_MEMIF_EMIF_FW_CLKCTRL,This register manages the EMIF_FW clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "?,MODULEMODE_1_r,?,?"
group.long 0x430++0x03
line.long 0x00 "CM_MEMIF_EMIF_1_CLKCTRL,This register manages the EMIF_1 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1,MODULEMODE_2_r,MODULEMODE_3_r"
group.long 0x438++0x03
line.long 0x00 "CM_MEMIF_EMIF_2_CLKCTRL,This register manages the EMIF_2 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1,MODULEMODE_2_r,MODULEMODE_3_r"
group.long 0x440++0x03
line.long 0x00 "CM_MEMIF_DLL_CLKCTRL,This register manages the DLL clock"
bitfld.long 0x00 8. "OPTFCLKEN_DLL_CLK,Optional functional clock control" "OPTFCLKEN_DLL_CLK_0,OPTFCLKEN_DLL_CLK_1"
group.long 0x500++0x0B
line.long 0x00 "CM_C2C_CLKSTCTRL,This register enables the domain power state transition"
rbitfld.long 0x00 10. "CLKACTIVITY_L3X2_C2C_ICLK,This field indicates the state of the C2C_L3X2_ICLK clock in the domain" "CLKACTIVITY_L3X2_C2C_ICLK_0_r,CLKACTIVITY_L3X2_C2C_ICLK_1_r"
rbitfld.long 0x00 9. "CLKACTIVITY_L4_C2C_ICLK,This field indicates the state of the L4_C2C_ICLK clock in the domain" "CLKACTIVITY_L4_C2C_ICLK_0_r,CLKACTIVITY_L4_C2C_ICLK_1_r"
newline
rbitfld.long 0x00 8. "CLKACTIVITY_L3_C2C_ICLK,This field indicates the state of the L3_C2C_ICLK clock in the domain" "CLKACTIVITY_L3_C2C_ICLK_0_r,CLKACTIVITY_L3_C2C_ICLK_1_r"
bitfld.long 0x00 0.--1. "CLKTRCTRL,Controls the clock state transition of the C2C clock domain" "CLKTRCTRL_0,CLKTRCTRL_1_r,CLKTRCTRL_2,CLKTRCTRL_3"
line.long 0x04 "CM_C2C_STATICDEP,This register controls the static domain depedencies from C2C domain towards 'target' domains"
bitfld.long 0x04 13. "L4PER_STATDEP,Static dependency towards L4PER clock domain" "L4PER_STATDEP_0,L4PER_STATDEP_1"
bitfld.long 0x04 12. "L4CFG_STATDEP,Static dependency towards L4CFG clock domain" "L4CFG_STATDEP_0,L4CFG_STATDEP_1"
newline
bitfld.long 0x04 7. "L3INIT_STATDEP,Static dependency towards L3INIT clock domain" "L3INIT_STATDEP_0,L3INIT_STATDEP_1"
bitfld.long 0x04 6. "L3_2_STATDEP,Static dependency towards L3_2 clock domain" "L3_2_STATDEP_0,L3_2_STATDEP_1"
newline
bitfld.long 0x04 5. "L3_1_STATDEP,Static dependency towards L3_1 clock domain" "L3_1_STATDEP_0,L3_1_STATDEP_1"
bitfld.long 0x04 4. "MEMIF_STATDEP,Static dependency towards MEMIF clock domain" "MEMIF_STATDEP_0,MEMIF_STATDEP_1"
newline
bitfld.long 0x04 3. "ABE_STATDEP,Static dependency towards ABE clock domain" "ABE_STATDEP_0,ABE_STATDEP_1"
bitfld.long 0x04 2. "IVAHD_STATDEP,Static dependency towards IVAHD clock domain" "IVAHD_STATDEP_0,IVAHD_STATDEP_1"
line.long 0x08 "CM_C2C_DYNAMICDEP,This register controls the dynamic domain depedencies from C2C domain towards 'target' domains"
bitfld.long 0x08 24.--27. "WINDOWSIZE,Size of sliding window used to monitor INTRCONN interface activity for determination of auto-sleep feature" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x08 6. "L3_2_DYNDEP,Dynamic dependency towards L3_2 clock domain" "?,L3_2_DYNDEP_1_r"
newline
bitfld.long 0x08 4. "MEMIF_DYNDEP,Dynamic dependency towards MEMIF clock domain" "?,MEMIF_DYNDEP_1_r"
group.long 0x520++0x03
line.long 0x00 "CM_C2C_C2C_CLKCTRL,This register manages the C2C clocks"
rbitfld.long 0x00 18. "STBYST,C2C module standby status" "STBYST_0_r,STBYST_1_r"
rbitfld.long 0x00 16.--17. "IDLEST,C2C interface idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,?"
newline
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "?,MODULEMODE_1_r,?,?"
group.long 0x530++0x03
line.long 0x00 "CM_C2C_C2C_FW_CLKCTRL,This register manages the C2C_FW clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "?,MODULEMODE_1_r,?,?"
group.long 0x600++0x03
line.long 0x00 "CM_L4CFG_CLKSTCTRL,This register enables the domain power state transition"
rbitfld.long 0x00 9. "CLKACTIVITY_CORE_TS_FCLK,This field indicates the state of the CORE_TS_FCLK clock in the domain" "CLKACTIVITY_CORE_TS_FCLK_0_r,CLKACTIVITY_CORE_TS_FCLK_1_r"
rbitfld.long 0x00 8. "CLKACTIVITY_CFG_L4_ICLK,This field indicates the state of the CFG_L4_ICLK clock in the domain" "CLKACTIVITY_CFG_L4_ICLK_0_r,CLKACTIVITY_CFG_L4_ICLK_1_r"
newline
bitfld.long 0x00 0.--1. "CLKTRCTRL,Controls the clock state transition of the L4CFG clock domain" "CLKTRCTRL_0,CLKTRCTRL_1_r,CLKTRCTRL_2_r,CLKTRCTRL_3"
group.long 0x608++0x03
line.long 0x00 "CM_L4CFG_DYNAMICDEP,This register controls the dynamic domain depedencies from L4_CFG domain towards 'target' domains"
bitfld.long 0x00 24.--27. "WINDOWSIZE,Size of sliding window used to monitor INTRCONN interface activity for determination of auto-sleep feature" "WINDOWSIZE_0,WINDOWSIZE_1,WINDOWSIZE_2,WINDOWSIZE_3,WINDOWSIZE_4,WINDOWSIZE_5,WINDOWSIZE_6,WINDOWSIZE_7,WINDOWSIZE_8,WINDOWSIZE_9,WINDOWSIZE_10,WINDOWSIZE_11,WINDOWSIZE_12,WINDOWSIZE_13,WINDOWSIZE_14,WINDOWSIZE_15"
bitfld.long 0x00 19. "MPU_DYNDEP,Dynamic dependency towards MPU clock domain" "?,MPU_DYNDEP_1_r"
newline
bitfld.long 0x00 18. "C2C_DYNDEP,Dynamic dependency towards C2C clock domain" "?,C2C_DYNDEP_1_r"
bitfld.long 0x00 16. "ALWONCORE_DYNDEP,Dynamic dependency towards ALWONCORE clock domain" "?,ALWONCORE_DYNDEP_1_r"
newline
bitfld.long 0x00 15. "L4WKUP_DYNDEP,Dynamic dependency towards L4WKUP clock domain" "?,L4WKUP_DYNDEP_1_r"
bitfld.long 0x00 11. "SDMA_DYNDEP,Dynamic dependency towards SDMA clock domain" "?,SDMA_DYNDEP_1_r"
newline
rbitfld.long 0x00 9. "CAM_DYNDEP,Dynamic dependency towards ISS clock domain" "CAM_DYNDEP_0_r,?"
bitfld.long 0x00 8. "DSS_DYNDEP,Dynamic dependency towards DSS clock domain" "?,DSS_DYNDEP_1_r"
newline
bitfld.long 0x00 7. "L3_INIT_DYNDEP,Dynamic dependency towards L3INIT clock domain" "?,L3_INIT_DYNDEP_1_r"
bitfld.long 0x00 6. "L3_2_DYNDEP,Dynamic dependency towards L3_2 clock domain" "?,L3_2_DYNDEP_1_r"
newline
bitfld.long 0x00 5. "L3_1_DYNDEP,Dynamic dependency towards L3_1 clock domain" "?,L3_1_DYNDEP_1_r"
bitfld.long 0x00 4. "MEMIF_DYNDEP,Dynamic dependency towards MEMIF clock domain" "?,MEMIF_DYNDEP_1_r"
newline
bitfld.long 0x00 1. "DSP_DYNDEP,Dynamic dependency towards DSP clock domain" "?,DSP_DYNDEP_1_r"
group.long 0x620++0x03
line.long 0x00 "CM_L4CFG_L4_CFG_CLKCTRL,This register manages the L4_CFG clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "?,MODULEMODE_1_r,?,?"
group.long 0x628++0x03
line.long 0x00 "CM_L4CFG_SPINLOCK_CLKCTRL,This register manages the HW_SEM clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "?,MODULEMODE_1_r,?,?"
group.long 0x630++0x03
line.long 0x00 "CM_L4CFG_MAILBOX_CLKCTRL,This register manages the MAILBOX clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "?,MODULEMODE_1_r,?,?"
group.long 0x638++0x03
line.long 0x00 "CM_L4CFG_SAR_ROM_CLKCTRL,This register manages the SAR_ROM clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "?,MODULEMODE_1_r,?,?"
group.long 0x700++0x03
line.long 0x00 "CM_L3INSTR_CLKSTCTRL,This register enables the domain power state transition"
rbitfld.long 0x00 8. "CLKACTIVITY_L3_INSTR_ICLK,This field indicates the state of the L3_INSTR_GICLK clock in the domain" "CLKACTIVITY_L3_INSTR_ICLK_0_r,CLKACTIVITY_L3_INSTR_ICLK_1_r"
bitfld.long 0x00 0.--1. "CLKTRCTRL,Controls the clock state transition of the L3INSTR clock domain" "?,?,?,CLKTRCTRL_3_r"
group.long 0x720++0x03
line.long 0x00 "CM_L3INSTR_L3_3_CLKCTRL,This register manages the L3_3 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1,MODULEMODE_2_r,MODULEMODE_3_r"
group.long 0x728++0x03
line.long 0x00 "CM_L3INSTR_L3_INSTR_CLKCTRL,This register manages the L3 INSTRUMENTATION clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1,MODULEMODE_2_r,MODULEMODE_3_r"
group.long 0x740++0x03
line.long 0x00 "CM_L3INSTR_OCP_WP1_CLKCTRL,This register manages the OCP_WP1 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1,MODULEMODE_2_r,MODULEMODE_3_r"
tree.end
tree "CORE_PRM"
base ansd:0x4A306700
group.long 0x00++0x07
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. "INTRCONN_NRET_BANK_ONSTATE,INTRCONN_WP bank and DMM bank2 state when domain is ON" "?,?,?,INTRCONN_NRET_BANK_ONSTATE_3_r"
bitfld.long 0x00 22.--23. "MPU_M3_UNICACHE_ONSTATE,MPU_A3 UNICACHE bank state when domain is ON" "?,?,?,MPU_M3_UNICACHE_ONSTATE_3_r"
newline
bitfld.long 0x00 20.--21. "MPU_M3_L2RAM_ONSTATE,MPU_A3 L2 bank state when domain is ON" "?,?,?,MPU_M3_L2RAM_ONSTATE_3_r"
bitfld.long 0x00 18.--19. "CORE_OCMRAM_ONSTATE,OCMRAM bank state when domain is ON" "?,?,?,CORE_OCMRAM_ONSTATE_3_r"
newline
bitfld.long 0x00 16.--17. "CORE_OTHER_BANK_ONSTATE,DMA/ICR bank and DMM bank1 state when domain is ON" "?,?,?,CORE_OTHER_BANK_ONSTATE_3_r"
rbitfld.long 0x00 12. "INTRCONN_NRET_BANK_RETSTATE,INTRCONN_WP bank and DMM bank2 state when domain is RETENTION" "INTRCONN_NRET_BANK_RETSTATE_0_r,?"
newline
bitfld.long 0x00 11. "MPU_M3_UNICACHE_RETSTATE,MPU_A3 UNICACHE bank state when domain is RETENTION" "MPU_M3_UNICACHE_RETSTATE_0,MPU_M3_UNICACHE_RETSTATE_1"
bitfld.long 0x00 10. "MPU_M3_L2RAM_RETSTATE,MPU_A3 L2 bank state when domain is RETENTION" "MPU_M3_L2RAM_RETSTATE_0,MPU_M3_L2RAM_RETSTATE_1"
newline
bitfld.long 0x00 9. "CORE_OCMRAM_RETSTATE,OCMRAM bank state when domain is RETENTION" "?,CORE_OCMRAM_RETSTATE_1_r"
bitfld.long 0x00 8. "CORE_OTHER_BANK_RETSTATE,DMA/ICR bank and DMM bank1 state when domain is RETENTION" "?,CORE_OTHER_BANK_RETSTATE_1_r"
newline
bitfld.long 0x00 4. "LOWPOWERSTATECHANGE,Power state change request when domain has already performed a sleep transition" "LOWPOWERSTATECHANGE_0,LOWPOWERSTATECHANGE_1"
bitfld.long 0x00 2. "LOGICRETSTATE,Logic state when power domain is RETENTION" "LOGICRETSTATE_0,LOGICRETSTATE_1"
newline
bitfld.long 0x00 0.--1. "POWERSTATE,Power state control" "POWERSTATE_0_r,POWERSTATE_1,POWERSTATE_2,POWERSTATE_3"
line.long 0x04 "PM_CORE_PWRSTST,This register provides a status on the current CORE power domain state"
bitfld.long 0x04 24.--25. "LASTPOWERSTATEENTERED,Last low power state entered" "LASTPOWERSTATEENTERED_0_r,LASTPOWERSTATEENTERED_1_r,LASTPOWERSTATEENTERED_2_r,LASTPOWERSTATEENTERED_3_r"
rbitfld.long 0x04 20. "INTRANSITION,Domain transition status" "INTRANSITION_0_r,INTRANSITION_1_r"
newline
rbitfld.long 0x04 12.--13. "INTRCONN_NRET_BANK_STATEST,INTRCONN_WP bank and DMM bank2 state status" "INTRCONN_NRET_BANK_STATEST_0_r,INTRCONN_NRET_BANK_STATEST_1_r,INTRCONN_NRET_BANK_STATEST_2_r,INTRCONN_NRET_BANK_STATEST_3_r"
rbitfld.long 0x04 10.--11. "MPU_M3_UNICACHE_STATEST,MPU_A3 UNICACHE bank state status" "MPU_M3_UNICACHE_STATEST_0_r,MPU_M3_UNICACHE_STATEST_1_r,MPU_M3_UNICACHE_STATEST_2_r,MPU_M3_UNICACHE_STATEST_3_r"
newline
rbitfld.long 0x04 8.--9. "MPU_M3_L2RAM_STATEST,MPU_A3 L2 bank state status" "MPU_M3_L2RAM_STATEST_0_r,MPU_M3_L2RAM_STATEST_1_r,MPU_M3_L2RAM_STATEST_2_r,MPU_M3_L2RAM_STATEST_3_r"
rbitfld.long 0x04 6.--7. "CORE_OCMRAM_STATEST,OCMRAM bank state status" "CORE_OCMRAM_STATEST_0_r,CORE_OCMRAM_STATEST_1_r,CORE_OCMRAM_STATEST_2_r,CORE_OCMRAM_STATEST_3_r"
newline
rbitfld.long 0x04 4.--5. "CORE_OTHER_BANK_STATEST,DMA/ICR bank and DMM bank1 state status" "CORE_OTHER_BANK_STATEST_0_r,CORE_OTHER_BANK_STATEST_1_r,CORE_OTHER_BANK_STATEST_2_r,CORE_OTHER_BANK_STATEST_3_r"
rbitfld.long 0x04 2. "LOGICSTATEST,Logic state status" "LOGICSTATEST_0_r,LOGICSTATEST_1_r"
newline
rbitfld.long 0x04 0.--1. "POWERSTATEST,Current power state status" "POWERSTATEST_0_r,POWERSTATEST_1_r,POWERSTATEST_2_r,POWERSTATEST_3_r"
group.long 0x24++0x03
line.long 0x00 "RM_L3_1_L3_1_CONTEXT,This register contains dedicated L3_1 context statuses"
bitfld.long 0x00 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
bitfld.long 0x00 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
group.long 0x124++0x03
line.long 0x00 "RM_L3_2_L3_2_CONTEXT,This register contains dedicated L3_2 context statuses"
bitfld.long 0x00 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
bitfld.long 0x00 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
group.long 0x12C++0x03
line.long 0x00 "RM_L3_2_GPMC_CONTEXT,This register contains dedicated GPMC context statuses"
bitfld.long 0x00 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
group.long 0x134++0x03
line.long 0x00 "RM_L3_2_OCMC_RAM_CONTEXT,This register contains dedicated OCMC_RAM context statuses"
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)" "LOSTMEM_CORE_OCMRAM_0,LOSTMEM_CORE_OCMRAM_1"
bitfld.long 0x00 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
group.long 0x210++0x07
line.long 0x00 "RM_MPU_M3_RSTCTRL,This register controls the release of the MPU_A3 sub-system resets"
bitfld.long 0x00 2. "RST3,MPU_A3 MMU and CACHE interface reset control" "RST3_0,RST3_1"
bitfld.long 0x00 1. "RST2,MPU_A3 Cortex M3 CPU2 reset control" "RST2_0,RST2_1"
newline
bitfld.long 0x00 0. "RST1,MPU_A3 Cortex M3 CPU1 reset control" "RST1_0,RST1_1"
line.long 0x04 "RM_MPU_M3_RSTST,This register logs the different reset sources of the MPU_A3 SS"
bitfld.long 0x04 6. "ICECRUSHER_RST2ST,Cortex M3 CPU2 has been reset due to MPU_A3 ICECRUSHER2 reset source" "ICECRUSHER_RST2ST_0,ICECRUSHER_RST2ST_1"
bitfld.long 0x04 5. "ICECRUSHER_RST1ST,Cortex M3 CPU1 has been reset due to MPU_A3 ICECRUSHER1 reset source" "ICECRUSHER_RST1ST_0,ICECRUSHER_RST1ST_1"
newline
bitfld.long 0x04 4. "EMULATION_RST2ST,Cortex M3 CPU2 has been reset due to emulation reset source e.g" "EMULATION_RST2ST_0,EMULATION_RST2ST_1"
bitfld.long 0x04 3. "EMULATION_RST1ST,Cortex M3 CPU1 has been reset due to emulation reset source e.g" "EMULATION_RST1ST_0,EMULATION_RST1ST_1"
newline
bitfld.long 0x04 2. "RST3ST,MPU_A3 MMU and CACHE interface software reset status" "RST3ST_0,RST3ST_1"
bitfld.long 0x04 1. "RST2ST,MPU_A3 Cortex-M3 CPU2 software reset status" "RST2ST_0,RST2ST_1"
newline
bitfld.long 0x04 0. "RST1ST,MPU_A3 Cortex-M3 CPU1 software reset status" "RST1ST_0,RST1ST_1"
group.long 0x224++0x03
line.long 0x00 "RM_MPU_M3_MPU_M3_CONTEXT,This register contains dedicated MPU_A3 context statuses"
bitfld.long 0x00 9. "LOSTMEM_MPU_M3_L2RAM,Specify if memory-based context in MPU_A3_L2RAM memory bank has been lost due to a previous power transition or other reset source" "LOSTMEM_MPU_M3_L2RAM_0,LOSTMEM_MPU_M3_L2RAM_1"
bitfld.long 0x00 8. "LOSTMEM_MPU_M3_UNICACHE,Specify if memory-based context in MPU_A3_UNICACHE memory bank has been lost due to a previous power transition or other reset source" "LOSTMEM_MPU_M3_UNICACHE_0,LOSTMEM_MPU_M3_UNICACHE_1"
newline
bitfld.long 0x00 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
bitfld.long 0x00 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
group.long 0x324++0x03
line.long 0x00 "RM_SDMA_SDMA_CONTEXT,This register contains dedicated SDMA context statuses"
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" "LOSTMEM_CORE_OTHER_BANK_0,LOSTMEM_CORE_OTHER_BANK_1"
bitfld.long 0x00 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
group.long 0x424++0x03
line.long 0x00 "RM_MEMIF_DMM_CONTEXT,This register contains dedicated DMM context statuses"
bitfld.long 0x00 9. "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" "LOSTMEM_CORE_NRET_BANK_0,LOSTMEM_CORE_NRET_BANK_1"
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" "LOSTMEM_CORE_OTHER_BANK_0,LOSTMEM_CORE_OTHER_BANK_1"
newline
bitfld.long 0x00 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
bitfld.long 0x00 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
group.long 0x42C++0x03
line.long 0x00 "RM_MEMIF_EMIF_FW_CONTEXT,This register contains dedicated EMIF_FW context statuses"
bitfld.long 0x00 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
bitfld.long 0x00 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
group.long 0x434++0x03
line.long 0x00 "RM_MEMIF_EMIF_1_CONTEXT,This register contains dedicated EMIF_1 context statuses"
bitfld.long 0x00 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
bitfld.long 0x00 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
group.long 0x43C++0x03
line.long 0x00 "RM_MEMIF_EMIF_2_CONTEXT,This register contains dedicated EMIF_2 context statuses"
bitfld.long 0x00 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
bitfld.long 0x00 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
group.long 0x444++0x03
line.long 0x00 "RM_MEMIF_DLL_CONTEXT,This register contains dedicated DLL context statuses"
bitfld.long 0x00 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
group.long 0x524++0x03
line.long 0x00 "RM_C2C_C2C_CONTEXT,This register contains dedicated C2C context statuses"
bitfld.long 0x00 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
bitfld.long 0x00 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
group.long 0x534++0x03
line.long 0x00 "RM_C2C_C2C_FW_CONTEXT,This register contains dedicated C2C_FW context statuses"
bitfld.long 0x00 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
bitfld.long 0x00 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
group.long 0x624++0x03
line.long 0x00 "RM_L4CFG_L4_CFG_CONTEXT,This register contains dedicated L4_CFG context statuses"
bitfld.long 0x00 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
bitfld.long 0x00 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
group.long 0x62C++0x03
line.long 0x00 "RM_L4CFG_SPINLOCK_CONTEXT,This register contains dedicated HW_SEM context statuses"
bitfld.long 0x00 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
group.long 0x634++0x03
line.long 0x00 "RM_L4CFG_MAILBOX_CONTEXT,This register contains dedicated MAILBOX context statuses"
bitfld.long 0x00 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
group.long 0x63C++0x03
line.long 0x00 "RM_L4CFG_SAR_ROM_CONTEXT,This register contains dedicated SAR_ROM context statuses"
bitfld.long 0x00 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
group.long 0x724++0x03
line.long 0x00 "RM_L3INSTR_L3_3_CONTEXT,This register contains dedicated L3_3 context statuses"
bitfld.long 0x00 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
bitfld.long 0x00 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
group.long 0x72C++0x03
line.long 0x00 "RM_L3INSTR_L3_INSTR_CONTEXT,This register contains dedicated L3_INSTR context statuses"
bitfld.long 0x00 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
group.long 0x744++0x03
line.long 0x00 "RM_L3INSTR_OCP_WP1_CONTEXT,This register contains dedicated OCP_WP1 context statuses"
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" "LOSTMEM_CORE_NRET_BANK_0,LOSTMEM_CORE_NRET_BANK_1"
bitfld.long 0x00 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
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bitfld.long 0x00 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
tree.end
tree "DEVICE_PRM"
base ansd:0x4A307B00
group.long 0x00++0xF3
line.long 0x00 "PRM_RSTCTRL,Global software cold and warm reset control"
bitfld.long 0x00 1. "RST_GLOBAL_COLD_software,Global COLD software reset control" "RST_GLOBAL_COLD_software_0,RST_GLOBAL_COLD_software_1"
bitfld.long 0x00 0. "RST_GLOBAL_WARM_software,Global WARM software reset control" "RST_GLOBAL_WARM_software_0,RST_GLOBAL_WARM_software_1"
line.long 0x04 "PRM_RSTST,This register logs the global reset sources"
bitfld.long 0x04 10. "C2C_RST,C2C warm reset event" "C2C_RST_0,C2C_RST_1"
bitfld.long 0x04 9. "ICEPICK_RST,IcePick reset event" "ICEPICK_RST_0,ICEPICK_RST_1"
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bitfld.long 0x04 8. "VDD_CORE_VOLT_MGR_RST,VDD_CORE voltage manager reset event This is a source of global WARM reset" "VDD_CORE_VOLT_MGR_RST_0,VDD_CORE_VOLT_MGR_RST_1"
bitfld.long 0x04 7. "VDD_IVA_VOLT_MGR_RST,VDD_IVA voltage manager reset event This is a source of global WARM reset" "VDD_IVA_VOLT_MGR_RST_0,VDD_IVA_VOLT_MGR_RST_1"
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bitfld.long 0x04 6. "VDD_MPU_VOLT_MGR_RST,VDD_MPU voltage manager reset event This is a source of global WARM reset" "VDD_MPU_VOLT_MGR_RST_0,VDD_MPU_VOLT_MGR_RST_1"
bitfld.long 0x04 5. "EXTERNAL_WARM_RST,External warm reset event" "EXTERNAL_WARM_RST_0,EXTERNAL_WARM_RST_1"
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bitfld.long 0x04 3. "MPU_WDT_RST,MPU Watchdog timer reset event" "MPU_WDT_RST_0,MPU_WDT_RST_1"
bitfld.long 0x04 1. "GLOBAL_WARM_SW_RST,Global warm software reset event" "GLOBAL_WARM_SW_RST_0,GLOBAL_WARM_SW_RST_1"
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bitfld.long 0x04 0. "GLOBAL_COLD_RST,Power-on (cold) reset event" "GLOBAL_COLD_RST_0,GLOBAL_COLD_RST_1"
line.long 0x08 "PRM_RSTTIME,Reset duration control"
bitfld.long 0x08 10.--14. "RSTTIME2,(Power domain) reset duration 2 (number of RM.SYSCLK clock cycles)" "RSTTIME2_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
hexmask.long.word 0x08 0.--9. 1. "RSTTIME1,(Global) reset duration 1 (number of Func_32k.clk clock cycles)"
line.long 0x0C "PRM_CLKREQCTRL,This register allows controlling the CLKREQ signal towards SCRM"
bitfld.long 0x0C 0.--2. "CLKREQ_COND,Control upon which condition CLKREQ signal is de-asserted" "CLKREQ_COND_0,CLKREQ_COND_1,CLKREQ_COND_2,CLKREQ_COND_3,CLKREQ_COND_4,CLKREQ_COND_5_r,CLKREQ_COND_6_r,CLKREQ_COND_7_r"
line.long 0x10 "PRM_VOLTCTRL,This register provides voltage domain management controls"
bitfld.long 0x10 14. "VDD_IVA_I2C_DISABLE,This bit allows disabling I2C interface with powerIC for IVA voltage (for debug purpose only)" "VDD_IVA_I2C_DISABLE_0,VDD_IVA_I2C_DISABLE_1"
bitfld.long 0x10 13. "VDD_MPU_I2C_DISABLE,This bit allows disabling I2C interface with powerIC for MPU voltage (for debug purpose only)" "VDD_MPU_I2C_DISABLE_0,VDD_MPU_I2C_DISABLE_1"
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bitfld.long 0x10 12. "VDD_CORE_I2C_DISABLE,This bit allows disabling I2C interface with powerIC for CORE voltage (for debug purpose only)" "VDD_CORE_I2C_DISABLE_0,VDD_CORE_I2C_DISABLE_1"
bitfld.long 0x10 9. "VDD_IVA_PRESENCE,This bit control the presence of IVA voltage in device" "VDD_IVA_PRESENCE_0,VDD_IVA_PRESENCE_1"
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bitfld.long 0x10 8. "VDD_MPU_PRESENCE,This bit control the presence of MPU voltage in device" "VDD_MPU_PRESENCE_0,VDD_MPU_PRESENCE_1"
bitfld.long 0x10 4.--5. "AUTO_CTRL_VDD_IVA_L,This bit field specifies the state to which the hardware can automatically transition the VDD_IVA_L voltage domain" "AUTO_CTRL_VDD_IVA_L_0,AUTO_CTRL_VDD_IVA_L_1,AUTO_CTRL_VDD_IVA_L_2,AUTO_CTRL_VDD_IVA_L_3_r"
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bitfld.long 0x10 2.--3. "AUTO_CTRL_VDD_MPU_L,This bit field specifies the state to which the hardware can automatically transition the VDD_MPU_L voltage domain" "AUTO_CTRL_VDD_MPU_L_0,AUTO_CTRL_VDD_MPU_L_1,AUTO_CTRL_VDD_MPU_L_2,AUTO_CTRL_VDD_MPU_L_3_r"
bitfld.long 0x10 0.--1. "AUTO_CTRL_VDD_CORE_L,This bit field specifies the state to which the hardware can automatically transition the VDD_CORE_L voltage domain" "AUTO_CTRL_VDD_CORE_L_0,AUTO_CTRL_VDD_CORE_L_1,AUTO_CTRL_VDD_CORE_L_2,AUTO_CTRL_VDD_CORE_L_3_r"
line.long 0x14 "PRM_PWRREQCTRL,This register allows controlling the signal towards power IC"
bitfld.long 0x14 0.--1. "PWRREQ_COND,Control upon which condition from MPU IVA and CORE voltage domainsPWRREQ is de-asserted" "PWRREQ_COND_0,PWRREQ_COND_1,PWRREQ_COND_2,PWRREQ_COND_3"
line.long 0x18 "PRM_PSCON_COUNT,This register allows controlling 2 parameters for power state controller"
hexmask.long.byte 0x18 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"
hexmask.long.byte 0x18 0.--7. 1. "PCHARGE_TIME,Number of system clock cycles for the SRAM precharge duration"
line.long 0x1C "PRM_IO_COUNT,This register allows controlling LPDDR2 I/O isolation removal setup"
hexmask.long.byte 0x1C 0.--7. 1. "ISO_2_ON_TIME,Determines the setup time of the LPDDR2 IOs going out of isolation"
line.long 0x20 "PRM_IO_PMCTRL,This register allows overriding ISOCLK signal towards I/O pad ring"
bitfld.long 0x20 16. "GLOBAL_WUEN,Global I/O wakeup enable" "GLOBAL_WUEN_0,GLOBAL_WUEN_1"
rbitfld.long 0x20 9. "WUCLK_STATUS,Gives value of WUCLKOUT signal coming back from I/O pad ring" "WUCLK_STATUS_0,WUCLK_STATUS_1"
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bitfld.long 0x20 8. "WUCLK_CTRL,Direct control on WUCLKIN signal to I/O pad ring" "WUCLK_CTRL_0,WUCLK_CTRL_1"
rbitfld.long 0x20 5. "IOON_STATUS,Gives the functional status of the I/O ring" "IOON_STATUS_0_r,IOON_STATUS_1_r"
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bitfld.long 0x20 4. "ISOOVR_EXTEND,Control non-EMIF I/O isolation extension upon a device wakeup from OFF mode" "ISOOVR_EXTEND_0,ISOOVR_EXTEND_1"
rbitfld.long 0x20 1. "ISOCLK_STATUS,Gives value of ISOCLKOUT signal coming back from I/O pad ring" "ISOCLK_STATUS_0,ISOCLK_STATUS_1"
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bitfld.long 0x20 0. "ISOCLK_OVERRIDE,Override control on ISOCLKIN signal to I/O pad ring" "ISOCLK_OVERRIDE_0,ISOCLK_OVERRIDE_1"
line.long 0x24 "PRM_VOLTSETUP_WARMRESET,This register provides bit fields for specifying voltage ramp-up and ramp-down times for PRM managed external regulators"
bitfld.long 0x24 8.--9. "STABLE_PRESCAL,Determines prescaler for stabilization duration counting" "STABLE_PRESCAL_0,STABLE_PRESCAL_1,STABLE_PRESCAL_2,STABLE_PRESCAL_3"
bitfld.long 0x24 0.--5. "STABLE_COUNT,Determines the stabilization duration of all VDD_xxx_L regulators upon a global warm reset assertion" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
line.long 0x28 "PRM_VOLTSETUP_CORE_OFF,This register provides bit fields for specifying voltage ramp-up and ramp-down times for PRM managed external regulators"
bitfld.long 0x28 24.--25. "RAMP_DOWN_PRESCAL,Determines prescaler for ramp-down duration counting" "RAMP_DOWN_PRESCAL_0,RAMP_DOWN_PRESCAL_1,RAMP_DOWN_PRESCAL_2,RAMP_DOWN_PRESCAL_3"
bitfld.long 0x28 16.--21. "RAMP_DOWN_COUNT,Determines the ramp-down duration of VDD_CORE_L regulators" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
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bitfld.long 0x28 8.--9. "RAMP_UP_PRESCAL,Determines prescaler for ramp-up duration counting" "RAMP_UP_PRESCAL_0,RAMP_UP_PRESCAL_1,RAMP_UP_PRESCAL_2,RAMP_UP_PRESCAL_3"
bitfld.long 0x28 0.--5. "RAMP_UP_COUNT,Determines the ramp-up duration of VDD_CORE_L regulators" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
line.long 0x2C "PRM_VOLTSETUP_MPU_OFF,This register provides bit fields for specifying voltage ramp-up and ramp-down times for PRM managed external regulators"
bitfld.long 0x2C 24.--25. "RAMP_DOWN_PRESCAL,Determines prescaler for ramp-down duration counting" "RAMP_DOWN_PRESCAL_0,RAMP_DOWN_PRESCAL_1,RAMP_DOWN_PRESCAL_2,RAMP_DOWN_PRESCAL_3"
bitfld.long 0x2C 16.--21. "RAMP_DOWN_COUNT,Determines the ramp-down duration of VDD_MPU_L regulators" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
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bitfld.long 0x2C 8.--9. "RAMP_UP_PRESCAL,Determines prescaler for ramp-up duration counting" "RAMP_UP_PRESCAL_0,RAMP_UP_PRESCAL_1,RAMP_UP_PRESCAL_2,RAMP_UP_PRESCAL_3"
bitfld.long 0x2C 0.--5. "RAMP_UP_COUNT,Determines the ramp-up duration of VDD_MPU_L regulators" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
line.long 0x30 "PRM_VOLTSETUP_IVA_OFF,This register provides bit fields for specifying voltage ramp-up and ramp-down times for PRM managed external regulators"
bitfld.long 0x30 24.--25. "RAMP_DOWN_PRESCAL,Determines prescaler for ramp-down duration counting" "RAMP_DOWN_PRESCAL_0,RAMP_DOWN_PRESCAL_1,RAMP_DOWN_PRESCAL_2,RAMP_DOWN_PRESCAL_3"
bitfld.long 0x30 16.--21. "RAMP_DOWN_COUNT,Determines the ramp-down duration of VDD_IVA_L regulators" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
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bitfld.long 0x30 8.--9. "RAMP_UP_PRESCAL,Determines prescaler for ramp-up duration counting" "RAMP_UP_PRESCAL_0,RAMP_UP_PRESCAL_1,RAMP_UP_PRESCAL_2,RAMP_UP_PRESCAL_3"
bitfld.long 0x30 0.--5. "RAMP_UP_COUNT,Determines the ramp-up duration of VDD_IVA_L regulators" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
line.long 0x34 "PRM_VOLTSETUP_CORE_RET_SLEEP,This register provides bit fields for specifying voltage ramp-up and ramp-down times for PRM managed external regulators"
bitfld.long 0x34 24.--25. "RAMP_DOWN_PRESCAL,Determines prescaler for ramp-down duration counting" "RAMP_DOWN_PRESCAL_0,RAMP_DOWN_PRESCAL_1,RAMP_DOWN_PRESCAL_2,RAMP_DOWN_PRESCAL_3"
bitfld.long 0x34 16.--21. "RAMP_DOWN_COUNT,Determines the ramp-down duration of VDD_CORE_L regulators" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
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bitfld.long 0x34 8.--9. "RAMP_UP_PRESCAL,Determines prescaler for ramp-up duration counting" "RAMP_UP_PRESCAL_0,RAMP_UP_PRESCAL_1,RAMP_UP_PRESCAL_2,RAMP_UP_PRESCAL_3"
bitfld.long 0x34 0.--5. "RAMP_UP_COUNT,Determines the ramp-up duration of VDD_CORE_L regulators" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
line.long 0x38 "PRM_VOLTSETUP_MPU_RET_SLEEP,This register provides bit fields for specifying voltage ramp-up and ramp-down times for PRM managed external regulators"
bitfld.long 0x38 24.--25. "RAMP_DOWN_PRESCAL,Determines prescaler for ramp-down duration counting" "RAMP_DOWN_PRESCAL_0,RAMP_DOWN_PRESCAL_1,RAMP_DOWN_PRESCAL_2,RAMP_DOWN_PRESCAL_3"
bitfld.long 0x38 16.--21. "RAMP_DOWN_COUNT,Determines the ramp-down duration of VDD_MPU_L regulators" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x38 8.--9. "RAMP_UP_PRESCAL,Determines prescaler for ramp-up duration counting" "RAMP_UP_PRESCAL_0,RAMP_UP_PRESCAL_1,RAMP_UP_PRESCAL_2,RAMP_UP_PRESCAL_3"
bitfld.long 0x38 0.--5. "RAMP_UP_COUNT,Determines the ramp-up duration of VDD_MPU_L regulators" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
line.long 0x3C "PRM_VOLTSETUP_IVA_RET_SLEEP,This register provides bit fields for specifying voltage ramp-up and ramp-down times for PRM managed external regulators"
bitfld.long 0x3C 24.--25. "RAMP_DOWN_PRESCAL,Determines prescaler for ramp-down duration counting" "RAMP_DOWN_PRESCAL_0,RAMP_DOWN_PRESCAL_1,RAMP_DOWN_PRESCAL_2,RAMP_DOWN_PRESCAL_3"
bitfld.long 0x3C 16.--21. "RAMP_DOWN_COUNT,Determines the ramp-down duration of VDD_IVA_L regulators" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
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bitfld.long 0x3C 8.--9. "RAMP_UP_PRESCAL,Determines prescaler for ramp-up duration counting" "RAMP_UP_PRESCAL_0,RAMP_UP_PRESCAL_1,RAMP_UP_PRESCAL_2,RAMP_UP_PRESCAL_3"
bitfld.long 0x3C 0.--5. "RAMP_UP_COUNT,Determines the ramp-up duration of VDD_IVA_L regulators" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
line.long 0x40 "PRM_VP_CORE_CONFIG,This register allows the configuration of the Voltage Processor dedicated to CORE Voltage Domain (VDD_CORE_L)"
hexmask.long.byte 0x40 24.--31. 1. "ERROROFFSET,Offset value in the Error to Voltage converter (two's complement number)"
hexmask.long.byte 0x40 16.--23. 1. "ERRORGAIN,Gain value in the Error to Voltage converter (two's complement number)"
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hexmask.long.byte 0x40 8.--15. 1. "INITVOLTAGE,Set the initial voltage level of the SMPS"
bitfld.long 0x40 3. "TIMEOUTEN,Enable or disable the timeout capability of the Voltage Controller State Machine" "TIMEOUTEN_0,TIMEOUTEN_1"
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bitfld.long 0x40 2. "INITVDD,Initializes the voltage in the Voltage Processor" "INITVDD_0,INITVDD_1"
bitfld.long 0x40 1. "FORCEUPDATE,Forces an update of the SMPS" "FORCEUPDATE_0,FORCEUPDATE_1"
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bitfld.long 0x40 0. "VPENABLE,Enables or disables the Voltage Processor updates on SR_SInterruptz" "VPENABLE_0,VPENABLE_1"
line.long 0x44 "PRM_VP_CORE_STATUS,This register reflects the idle state of the Voltage Processor dedicated to the CORE Voltage Domain (VDD_CORE_L. This register is read only and automatically updated"
bitfld.long 0x44 0. "VPINIDLE,CORE Voltage Processor idle status" "VPINIDLE_0_r,VPINIDLE_1_r"
line.long 0x48 "PRM_VP_CORE_VLIMITTO,This register allows the configuration of the voltage limits and timeout values of the Voltage Processor dedicated to the CORE Voltage Domain (VDD_CORE_L)"
hexmask.long.byte 0x48 24.--31. 1. "VDDMAX,Defines the maximum voltage supply level"
hexmask.long.byte 0x48 16.--23. 1. "VDDMIN,Defines the minimum voltage supply level"
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hexmask.long.word 0x48 0.--15. 1. "TIMEOUT,Defines Voltage Controller maximum wait time for responses measured in sysclk cycles"
line.long 0x4C "PRM_VP_CORE_VOLTAGE,This register indicates the current value of the SMPS voltage for the Voltage Processor dedicated to the CORE Voltage Domain (VDD_CORE_L)"
hexmask.long.tbyte 0x4C 8.--31. 1. "FORCEUPDATEWAIT,The time voltage processor needs to wait for SMPS to be settled after receiving SMPS acknowledge"
hexmask.long.byte 0x4C 0.--7. 1. "VPVOLTAGE,Indicates the current SMPS programmed voltage"
line.long 0x50 "PRM_VP_CORE_VSTEPMAX,This register allows the programming of the maximum voltage step and waiting time of the Voltage Processor dedicated to CORE Voltage Domain (VDD_CORE_L)"
hexmask.long.word 0x50 8.--23. 1. "SMPsoftwareAITTIMEMAX,Slew rate for positive voltage step (in number of cycles per step)"
hexmask.long.byte 0x50 0.--7. 1. "VSTEPMAX,Maximum voltage step"
line.long 0x54 "PRM_VP_CORE_VSTEPMIN,This register allows the programming of the minimum voltage step and waiting time of the Voltage Processor dedicated to the CORE Voltage Domain (VDD_CORE_L)"
hexmask.long.word 0x54 8.--23. 1. "SMPsoftwareAITTIMEMIN,Slew rate for negative voltage step (in number of cycles per step)"
hexmask.long.byte 0x54 0.--7. 1. "VSTEPMIN,Minimum voltage step"
line.long 0x58 "PRM_VP_MPU_CONFIG,This register allows the configuration of the Voltage Processor dedicated to MPU Voltage Domain (VDD_MPU_L)"
hexmask.long.byte 0x58 24.--31. 1. "ERROROFFSET,Offset value in the Error to Voltage converter (two's complement number)"
hexmask.long.byte 0x58 16.--23. 1. "ERRORGAIN,Gain value in the Error to Voltage converter (two's complement number)"
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hexmask.long.byte 0x58 8.--15. 1. "INITVOLTAGE,Set the initial voltage level of the SMPS"
bitfld.long 0x58 3. "TIMEOUTEN,Enable or disable the timeout capability of the Voltage Controller State Machine" "TIMEOUTEN_0,TIMEOUTEN_1"
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bitfld.long 0x58 2. "INITVDD,Initializes the voltage in the Voltage Processor" "INITVDD_0,INITVDD_1"
bitfld.long 0x58 1. "FORCEUPDATE,Forces an update of the SMPS" "FORCEUPDATE_0,FORCEUPDATE_1"
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bitfld.long 0x58 0. "VPENABLE,Enables or disables the Voltage Processor updates on SR_SInterruptz" "VPENABLE_0,VPENABLE_1"
line.long 0x5C "PRM_VP_MPU_STATUS,This register reflects the idle state of the Voltage Processor dedicated to the MPU Voltage Domain (VDD_MPU_L. This register is read only and automatically updated"
bitfld.long 0x5C 0. "VPINIDLE,Voltage Processor 1 idle status" "VPINIDLE_0_r,VPINIDLE_1_r"
line.long 0x60 "PRM_VP_MPU_VLIMITTO,This register allows the configuration of the voltage limits and timeout values of the Voltage Processor dedicated to the MPU Voltage Domain (VDD_MPU_L)"
hexmask.long.byte 0x60 24.--31. 1. "VDDMAX,Defines the maximum voltage supply level"
hexmask.long.byte 0x60 16.--23. 1. "VDDMIN,Defines the minimum voltage supply level"
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hexmask.long.word 0x60 0.--15. 1. "TIMEOUT,Defines Voltage Controller maximum wait time for responses measured in sysclk cycles"
line.long 0x64 "PRM_VP_MPU_VOLTAGE,This register indicates the current value of the SMPS voltage for the Voltage Processor dedicated to the MPU Voltage Domain (VDD_MPU_L)"
hexmask.long.tbyte 0x64 8.--31. 1. "FORCEUPDATEWAIT,The time voltage processor needs to wait for SMPS to be settled after receiving SMPS acknowledge"
hexmask.long.byte 0x64 0.--7. 1. "VPVOLTAGE,Indicates the current SMPS programmed voltage"
line.long 0x68 "PRM_VP_MPU_VSTEPMAX,This register allows the programming of the maximum voltage step and waiting time of the Voltage Processor dedicated to MPU Voltage Domain (VDD_MPU_L)"
hexmask.long.word 0x68 8.--23. 1. "SMPsoftwareAITTIMEMAX,Slew rate for positive voltage step (in number of cycles per step)"
hexmask.long.byte 0x68 0.--7. 1. "VSTEPMAX,Maximum voltage step"
line.long 0x6C "PRM_VP_MPU_VSTEPMIN,This register allows the programming of the minimum voltage step and waiting time of the Voltage Processor dedicated to the MPU Voltage Domain (VDD_MPU_L)"
hexmask.long.word 0x6C 8.--23. 1. "SMPsoftwareAITTIMEMIN,Slew rate for negative voltage step (in number of cycles per step)"
hexmask.long.byte 0x6C 0.--7. 1. "VSTEPMIN,Minimum voltage step"
line.long 0x70 "PRM_VP_IVA_CONFIG,This register allows the configuration of the Voltage Processor dedicated to IVAVoltage Domain (VDD_IVA_L)"
hexmask.long.byte 0x70 24.--31. 1. "ERROROFFSET,Offset value in the Error to Voltage converter (two's complement number)"
hexmask.long.byte 0x70 16.--23. 1. "ERRORGAIN,Gain value in the Error to Voltage converter (two's complement number)"
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hexmask.long.byte 0x70 8.--15. 1. "INITVOLTAGE,Set the initial voltage level of the SMPS"
bitfld.long 0x70 3. "TIMEOUTEN,Enable or disable the timeout capability of the Voltage Controller State Machine" "TIMEOUTEN_0,TIMEOUTEN_1"
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bitfld.long 0x70 2. "INITVDD,Initializes the voltage in the Voltage Processor" "INITVDD_0,INITVDD_1"
bitfld.long 0x70 1. "FORCEUPDATE,Forces an update of the SMPS" "FORCEUPDATE_0,FORCEUPDATE_1"
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bitfld.long 0x70 0. "VPENABLE,Enables or disables the Voltage Processor updates on SR_SInterruptz" "VPENABLE_0,VPENABLE_1"
line.long 0x74 "PRM_VP_IVA_STATUS,This register reflects the idle state of the Voltage Processor dedicated to the MPU Voltage Domain (VDD_IVA_L. This register is read only and automatically updated"
bitfld.long 0x74 0. "VPINIDLE,Voltage Processor 1 idle status" "VPINIDLE_0_r,VPINIDLE_1_r"
line.long 0x78 "PRM_VP_IVA_VLIMITTO,This register allows the configuration of the voltage limits and timeout values of the Voltage Processor dedicated to the IVA Voltage Domain (VDD_IVA_L)"
hexmask.long.byte 0x78 24.--31. 1. "VDDMAX,Defines the maximum voltage supply level"
hexmask.long.byte 0x78 16.--23. 1. "VDDMIN,Defines the minimum voltage supply level"
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hexmask.long.word 0x78 0.--15. 1. "TIMEOUT,Defines Voltage Controller maximum wait time for responses measured in sysclk cycles"
line.long 0x7C "PRM_VP_IVA_VOLTAGE,This register indicates the current value of the SMPS voltage for the Voltage Processor dedicated to the IVA Voltage Domain (VDD_IVA_L)"
hexmask.long.tbyte 0x7C 8.--31. 1. "FORCEUPDATEWAIT,The time voltage processor needs to wait for SMPS to be settled after receiving SMPS acknowledge"
hexmask.long.byte 0x7C 0.--7. 1. "VPVOLTAGE,Indicates the current SMPS programmed voltage"
line.long 0x80 "PRM_VP_IVA_VSTEPMAX,This register allows the programming of the maximum voltage step and waiting time of the Voltage Processor dedicated to IVA Voltage Domain (VDD_IVA_L)"
hexmask.long.word 0x80 8.--23. 1. "SMPsoftwareAITTIMEMAX,Slew rate for positive voltage step (in number of cycles per step)"
hexmask.long.byte 0x80 0.--7. 1. "VSTEPMAX,Maximum voltage step"
line.long 0x84 "PRM_VP_IVA_VSTEPMIN,This register allows the programming of the minimum voltage step and waiting time of the Voltage Processor dedicated to the IVA Voltage Domain (VDD_IVA_L)"
hexmask.long.word 0x84 8.--23. 1. "SMPsoftwareAITTIMEMIN,Slew rate for negative voltage step (in number of cycles per step)"
hexmask.long.byte 0x84 0.--7. 1. "VSTEPMIN,Minimum voltage step"
line.long 0x88 "PRM_VC_SMPS_SA,This register allows the setting of the I2C slave address of the Power IC device"
hexmask.long.byte 0x88 16.--22. 1. "SA_VDD_MPU_L,Set the I2C slave address value for the third (if any) Power IC device"
hexmask.long.byte 0x88 8.--14. 1. "SA_VDD_IVA_L,Set the I2C slave address value for the second (if any) Power IC device"
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hexmask.long.byte 0x88 0.--6. 1. "SA_VDD_CORE_L,Set the I2C slave address value for the first Power IC device"
line.long 0x8C "PRM_VC_VAL_SMPS_RA_VOL,This register allows the setting of the voltage configuration register address for the VDD channels"
hexmask.long.byte 0x8C 16.--23. 1. "VOLRA_VDD_MPU_L,Voltage configuration register address value for VDD_MPU_L channel"
hexmask.long.byte 0x8C 8.--15. 1. "VOLRA_VDD_IVA_L,Voltage configuration register address value for VDD_IVA_L channel (if VDD_IVA_L source is placed in same chip as VDD_MPU_L source and have different voltage configuration register)"
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hexmask.long.byte 0x8C 0.--7. 1. "VOLRA_VDD_CORE_L,Voltage configuration register address value for the VDD_CORE_L channel (if VDD_CORE_L source is placed in same chip as VDD_MPU_L source and has different voltage configuration register)"
line.long 0x90 "PRM_VC_VAL_SMPS_RA_CMD,Command (ON/ON-Low-Power/Retention/OFF) configuration register address values for the VDD channels (if used SMPS chips have different command configuration register than voltage configuration register) [warm reset insensitive]"
hexmask.long.byte 0x90 16.--23. 1. "CMDRA_VDD_MPU_L,Command (ON/ON-Low-Power /Retention/OFF) configuration register address value for VDD_MPU_L channel"
hexmask.long.byte 0x90 8.--15. 1. "CMDRA_VDD_IVA_L,Command (ON/ON-Low-Power /Retention/OFF) configuration register address value for VDD_IVA_L channel (if VDD_IVA_L source has different command configuration register than voltage VDD_MPU_L)"
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hexmask.long.byte 0x90 0.--7. 1. "CMDRA_VDD_CORE_L,Command (ON/ON-Low-Power /Retention/OFF) configuration register address value for VDD_CORE_L channel (if VDD_CORE_L source has different command configuration register than voltage VDD_MPU_L)"
line.long 0x94 "PRM_VC_VAL_CMD_VDD_CORE_L,This register allows the setting of the ON/ON-Low-Power/Retention/OFF command values for VDD_CORE_L channel"
hexmask.long.byte 0x94 24.--31. 1. "ON,Set the ON command value"
hexmask.long.byte 0x94 16.--23. 1. "ONLP,Set the ON-Low-Power command value"
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hexmask.long.byte 0x94 8.--15. 1. "RET,Set the RET command value"
hexmask.long.byte 0x94 0.--7. 1. "OFF,Set the OFF command value"
line.long 0x98 "PRM_VC_VAL_CMD_VDD_MPU_L,This register allows the setting of the ON/ON-Low-Power/Retention/OFF command values for VDD_MPU_L channel"
hexmask.long.byte 0x98 24.--31. 1. "ON,Set the ON command value"
hexmask.long.byte 0x98 16.--23. 1. "ONLP,Set the ON-Low-Power command value"
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hexmask.long.byte 0x98 8.--15. 1. "RET,Set the RET command value"
hexmask.long.byte 0x98 0.--7. 1. "OFF,Set the OFF command value"
line.long 0x9C "PRM_VC_VAL_CMD_VDD_IVA_L,This register allows the setting of the ON/ON-Low-Power/Retention/OFF command values for VDD_IVA_L channel"
hexmask.long.byte 0x9C 24.--31. 1. "ON,Set the ON command value"
hexmask.long.byte 0x9C 16.--23. 1. "ONLP,Set the ON-Low-Power command value"
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hexmask.long.byte 0x9C 8.--15. 1. "RET,Set the RET command value"
hexmask.long.byte 0x9C 0.--7. 1. "OFF,Set the OFF command value"
line.long 0xA0 "PRM_VC_VAL_BYPASS,Bypass data values register used for bypass command channel to send other configuration information (other then voltage configuration parameters) for SMPS chips which have no other configuration interface then this I2C interface"
bitfld.long 0xA0 24. "VALID,This bit validates the bypass command" "VALID_0_r,VALID_1"
hexmask.long.byte 0xA0 16.--23. 1. "DATA,Data to send to the Power IC device"
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hexmask.long.byte 0xA0 8.--15. 1. "REGADDR,Set the address of Power IC device register to configure"
hexmask.long.byte 0xA0 0.--6. 1. "SLAVEADDR,Set the I2C slave address value"
line.long 0xA4 "PRM_VC_CFG_CHANNEL,This register allows the configuration pointers for both VDD channels"
bitfld.long 0xA4 20. "RACEN_VDD_MPU_L,Enable bit for usage of RAC_VDD_MPU_L" "RACEN_VDD_MPU_L_0,RACEN_VDD_MPU_L_1"
bitfld.long 0xA4 19. "RAC_VDD_MPU_L,Command (ON/ON-Low-Power/Retention/OFF) configuration register address pointer for VDD_MPU_L channel" "RAC_VDD_MPU_L_0,RAC_VDD_MPU_L_1"
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bitfld.long 0xA4 18. "RAV_VDD_MPU_L,Voltage configuration register address pointer for VDD_MPU_L channel" "RAV_VDD_MPU_L_0,RAV_VDD_MPU_L_1"
bitfld.long 0xA4 17. "CMD_VDD_MPU_L,Command values (ON/ON-Low-Power/Retention/OFF voltage values) set selection for VDD_MPU_L channel" "CMD_VDD_MPU_L_0,CMD_VDD_MPU_L_1"
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bitfld.long 0xA4 16. "SA_VDD_MPU_L,Slave address pointer for VDD_MPU_L channel" "SA_VDD_MPU_L_0,SA_VDD_MPU_L_1"
bitfld.long 0xA4 12. "CMD_VDD_IVA_L,Command values (ON/ON-Low-Power/Retention/OFF voltage values) set selection for VDD_IVA_L" "CMD_VDD_IVA_L_0,CMD_VDD_IVA_L_1"
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bitfld.long 0xA4 11. "RACEN_VDD_IVA_L,Enable bit for usage of RAC_VDD_IVA_L" "RACEN_VDD_IVA_L_0,RACEN_VDD_IVA_L_1"
bitfld.long 0xA4 10. "RAC_VDD_IVA_L,Command (ON/ON-Low-Power/Retention/OFF) configuration register address pointer for VDD_IVA_L" "RAC_VDD_IVA_L_0,RAC_VDD_IVA_L_1"
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bitfld.long 0xA4 9. "RAV_VDD_IVA_L,Voltage configuration register address pointer for VDD_IVA_L channel" "RAV_VDD_IVA_L_0,RAV_VDD_IVA_L_1"
bitfld.long 0xA4 8. "SA_VDD_IVA_L,Slave address pointer for VDD_IVA_L channel" "SA_VDD_IVA_L_0,SA_VDD_IVA_L_1"
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bitfld.long 0xA4 4. "CMD_VDD_CORE_L,Command values (ON/ON-Low-Power/Retention/OFF voltage values) set selection for VDD_CORE_L channel" "CMD_VDD_CORE_L_0,CMD_VDD_CORE_L_1"
bitfld.long 0xA4 3. "RACEN_VDD_CORE_L,Enable bit for usage of RAC_VDD_CORE_L" "RACEN_VDD_CORE_L_0,RACEN_VDD_CORE_L_1"
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bitfld.long 0xA4 2. "RAC_VDD_CORE_L,Command (ON/ON-Low-Power/Retention/OFF) configuration register address pointer for VDD_CORE_L channel" "RAC_VDD_CORE_L_0,RAC_VDD_CORE_L_1"
bitfld.long 0xA4 1. "RAV_VDD_CORE_L,Voltage configuration register address pointer for VDD_CORE_L channel" "RAV_VDD_CORE_L_0,RAV_VDD_CORE_L_1"
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bitfld.long 0xA4 0. "SA_VDD_CORE_L,Slave address pointer for VDD_CORE_L channel" "SA_VDD_CORE_L_0,SA_VDD_CORE_L_1"
line.long 0xA8 "PRM_VC_CFG_I2C_MODE,I2C configuration register"
bitfld.long 0xA8 6. "DFILTEREN,This field enables double filter procedure for IC input lines" "DFILTEREN_0,DFILTEREN_1"
bitfld.long 0xA8 4. "SRMODEEN,Enables the IC repeated start operation mode" "SRMODEEN_0,SRMODEEN_1"
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bitfld.long 0xA8 3. "HSMODEEN,Enables IC bus high-speed mode" "HSMODEEN_0,HSMODEEN_1"
bitfld.long 0xA8 0.--2. "HSMCODE,Master code value for IC high-speed preamble transmission" "HSMCODE_0,HSMCODE_1,HSMCODE_2,HSMCODE_3,HSMCODE_4,HSMCODE_5,HSMCODE_6,HSMCODE_7"
line.long 0xAC "PRM_VC_CFG_I2C_CLK,I2C Interface clock configuration parameters"
hexmask.long.byte 0xAC 24.--31. 1. "HSSCLL,Number of the system clock cycles necessary to count the low period of the I2C clock signal when the I2C interface runs in high-speed mode of operation"
hexmask.long.byte 0xAC 16.--23. 1. "HSSCLH,Number of the system clock cycles necessary to count the high period of the I2C clock signal when the I2C interface runs in high-speed mode of operation"
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hexmask.long.byte 0xAC 8.--15. 1. "SCLL,Number of the system clock cycles necessary to count the low period of the I2C clock signal when the I2C interface runs in fast mode of operation"
hexmask.long.byte 0xAC 0.--7. 1. "SCLH,Number of the system clock cycles necessary to count the high period of the I2C clock signal when the I2C interface runs in fast mode of operation"
line.long 0xB0 "PRM_SRAM_COUNT,Common setup for SRAM LDO transition counters"
hexmask.long.byte 0xB0 24.--31. 1. "STARTUP_COUNT,Determines the start-up duration of SRAM and ABB LDO"
hexmask.long.byte 0xB0 16.--23. 1. "SLPCNT_VALUE,Delay between retention/off assertion of last SRAM bank and SRAMALLRET signal to LDO is driven high"
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hexmask.long.byte 0xB0 8.--15. 1. "VSETUPCNT_VALUE,SRAM LDO rampup time from retention to active mode"
bitfld.long 0xB0 0.--5. "PCHARGECNT_VALUE,Delay between de-assertion of standby_rta_ret_on and standby_rta_ret_good" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
line.long 0xB4 "PRM_SRAM_WKUP_SETUP,Setup of memory in WKUP voltage domain"
bitfld.long 0xB4 0. "DISABLE_RTA_EXPORT,Control for HD memory RTA feature" "DISABLE_RTA_EXPORT_0,DISABLE_RTA_EXPORT_1"
line.long 0xB8 "PRM_LDO_SRAM_CORE_SETUP,Setup of the SRAM LDO for CORE voltage domain"
bitfld.long 0xB8 8. "AIPOFF,Override on AIPOFF input of SRAM LDO" "AIPOFF_0,AIPOFF_1"
bitfld.long 0xB8 7. "ENFUNC5,ENFUNC5 input of SRAM LDO" "ENFUNC5_0,ENFUNC5_1"
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bitfld.long 0xB8 6. "ENFUNC4,ENFUNC4 input of SRAM LDO" "ENFUNC4_0,ENFUNC4_1"
bitfld.long 0xB8 5. "ENFUNC3_EXPORT,ENFUNC3 input of SRAM LDO" "ENFUNC3_EXPORT_0,ENFUNC3_EXPORT_1"
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bitfld.long 0xB8 4. "ENFUNC2_EXPORT,ENFUNC2 input of SRAM LDO" "ENFUNC2_EXPORT_0,ENFUNC2_EXPORT_1"
bitfld.long 0xB8 3. "ENFUNC1_EXPORT,ENFUNC1 input of SRAM LDO" "ENFUNC1_EXPORT_0,ENFUNC1_EXPORT_1"
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bitfld.long 0xB8 2. "ABBOFF_SLEEP_EXPORT,Determines whether SRAMNWA is supplied by VDDS or VDDAR during deep-sleep" "ABBOFF_SLEEP_EXPORT_0,ABBOFF_SLEEP_EXPORT_1"
bitfld.long 0xB8 1. "ABBOFF_ACT_EXPORT,Determines whether SRAMNWA is supplied by VDDS or VDDAR during active mode" "ABBOFF_ACT_EXPORT_0,ABBOFF_ACT_EXPORT_1"
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bitfld.long 0xB8 0. "DISABLE_RTA_EXPORT,Control for HD memory RTA feature" "DISABLE_RTA_EXPORT_0,DISABLE_RTA_EXPORT_1"
line.long 0xBC "PRM_LDO_SRAM_CORE_CTRL,Control and status of the SRAM LDO for CORE voltage domain"
rbitfld.long 0xBC 9. "SRAM_IN_TRANSITION,Status indicating SRAM LDO state machine state" "SRAM_IN_TRANSITION_0_r,SRAM_IN_TRANSITION_1_r"
rbitfld.long 0xBC 8. "SRAMLDO_STATUS,SRAMLDO status" "SRAMLDO_STATUS_0_r,SRAMLDO_STATUS_1_r"
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bitfld.long 0xBC 0. "RETMODE_ENABLE,Control if the SRAM LDO retention mode is used or not" "RETMODE_ENABLE_0,RETMODE_ENABLE_1"
line.long 0xC0 "PRM_LDO_SRAM_MPU_SETUP,Setup of the SRAM LDO for MPU voltage domain"
bitfld.long 0xC0 8. "AIPOFF,Override on AIPOFF input of SRAM LDO" "AIPOFF_0,AIPOFF_1"
bitfld.long 0xC0 7. "ENFUNC5,ENFUNC5 input of SRAM LDO" "ENFUNC5_0,ENFUNC5_1"
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bitfld.long 0xC0 6. "ENFUNC4,ENFUNC4 input of SRAM LDO" "ENFUNC4_0,ENFUNC4_1"
bitfld.long 0xC0 5. "ENFUNC3_EXPORT,ENFUNC3 input of SRAM LDO" "ENFUNC3_EXPORT_0,ENFUNC3_EXPORT_1"
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bitfld.long 0xC0 4. "ENFUNC2_EXPORT,ENFUNC2 input of SRAM LDO" "ENFUNC2_EXPORT_0,ENFUNC2_EXPORT_1"
bitfld.long 0xC0 3. "ENFUNC1_EXPORT,ENFUNC1 input of SRAM LDO" "ENFUNC1_EXPORT_0,ENFUNC1_EXPORT_1"
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bitfld.long 0xC0 2. "ABBOFF_SLEEP_EXPORT,Determines whether SRAMNWA is supplied by VDDS or VDDAR during deep-sleep" "ABBOFF_SLEEP_EXPORT_0,ABBOFF_SLEEP_EXPORT_1"
bitfld.long 0xC0 1. "ABBOFF_ACT_EXPORT,Determines whether SRAMNWA is supplied by VDDS or VDDAR during active mode" "ABBOFF_ACT_EXPORT_0,ABBOFF_ACT_EXPORT_1"
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bitfld.long 0xC0 0. "DISABLE_RTA_EXPORT,Control for HD memory RTA feature" "DISABLE_RTA_EXPORT_0,DISABLE_RTA_EXPORT_1"
line.long 0xC4 "PRM_LDO_SRAM_MPU_CTRL,Control and status of the SRAM LDO for MPU voltage domain"
rbitfld.long 0xC4 9. "SRAM_IN_TRANSITION,Status indicating SRAM LDO state machine state" "SRAM_IN_TRANSITION_0_r,SRAM_IN_TRANSITION_1_r"
rbitfld.long 0xC4 8. "SRAMLDO_STATUS,SRAMLDO status" "SRAMLDO_STATUS_0_r,SRAMLDO_STATUS_1_r"
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bitfld.long 0xC4 0. "RETMODE_ENABLE,Control if the SRAM LDO retention mode is used or not" "RETMODE_ENABLE_0,RETMODE_ENABLE_1"
line.long 0xC8 "PRM_LDO_SRAM_IVA_SETUP,Setup of the SRAM LDO for IVA voltage domain"
bitfld.long 0xC8 8. "AIPOFF,Override on AIPOFF input of SRAM LDO" "AIPOFF_0,AIPOFF_1"
bitfld.long 0xC8 7. "ENFUNC5,ENFUNC5 input of SRAM LDO" "ENFUNC5_0,ENFUNC5_1"
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bitfld.long 0xC8 6. "ENFUNC4,ENFUNC4 input of SRAM LDO" "ENFUNC4_0,ENFUNC4_1"
bitfld.long 0xC8 5. "ENFUNC3_EXPORT,ENFUNC3 input of SRAM LDO" "ENFUNC3_EXPORT_0,ENFUNC3_EXPORT_1"
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bitfld.long 0xC8 4. "ENFUNC2_EXPORT,ENFUNC2 input of SRAM LDO" "ENFUNC2_EXPORT_0,ENFUNC2_EXPORT_1"
bitfld.long 0xC8 3. "ENFUNC1_EXPORT,ENFUNC1 input of SRAM LDO" "ENFUNC1_EXPORT_0,ENFUNC1_EXPORT_1"
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bitfld.long 0xC8 2. "ABBOFF_SLEEP_EXPORT,Determines whether SRAMNWA is supplied by VDDS or VDDAR during deep-sleep" "ABBOFF_SLEEP_EXPORT_0,ABBOFF_SLEEP_EXPORT_1"
bitfld.long 0xC8 1. "ABBOFF_ACT_EXPORT,Determines whether SRAMNWA is supplied by VDDS or VDDAR during active mode" "ABBOFF_ACT_EXPORT_0,ABBOFF_ACT_EXPORT_1"
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bitfld.long 0xC8 0. "DISABLE_RTA_EXPORT,Control for HD memory RTA feature" "DISABLE_RTA_EXPORT_0,DISABLE_RTA_EXPORT_1"
line.long 0xCC "PRM_LDO_SRAM_IVA_CTRL,Control and status of the SRAM LDO for IVA voltage domain"
rbitfld.long 0xCC 9. "SRAM_IN_TRANSITION,Status indicating SRAM LDO state machine state" "SRAM_IN_TRANSITION_0_r,SRAM_IN_TRANSITION_1_r"
rbitfld.long 0xCC 8. "SRAMLDO_STATUS,SRAMLDO status" "SRAMLDO_STATUS_0_r,SRAMLDO_STATUS_1_r"
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bitfld.long 0xCC 0. "RETMODE_ENABLE,Control if the SRAM LDO retention mode is used or not" "RETMODE_ENABLE_0,RETMODE_ENABLE_1"
line.long 0xD0 "PRM_LDO_ABB_MPU_SETUP,Selects the MPU_ABB LDO mode"
hexmask.long.byte 0xD0 8.--15. 1. "SR2_WTCNT_VALUE,LDO settling time for active-mode OPP change"
bitfld.long 0xD0 2. "ACTIVE_FBB_SEL,Defines ABB LDO mode when voltage is in slow fast OPP" "ACTIVE_FBB_SEL_0,ACTIVE_FBB_SEL_1"
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bitfld.long 0xD0 1. "ACTIVE_RBB_SEL,Defines ABB LDO mode when MPU voltage is in OPP_TURBO" "ACTIVE_RBB_SEL_0,ACTIVE_RBB_SEL_1"
bitfld.long 0xD0 0. "SR2EN,Enable ABB power management" "SR2EN_0,SR2EN_1"
line.long 0xD4 "PRM_LDO_ABB_MPU_CTRL,Control and Status of ABB on MPU voltage domain"
rbitfld.long 0xD4 6. "SR2_IN_TRANSITION,Indicates VBBLDO_CON is or is not in transition state" "SR2_IN_TRANSITION_0_r,SR2_IN_TRANSITION_1_r"
rbitfld.long 0xD4 3.--4. "SR2_STATUS,Indicate ABB LDO current operation status" "SR2_STATUS_0_r,SR2_STATUS_1_r,SR2_STATUS_2_r,SR2_STATUS_3_r"
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bitfld.long 0xD4 2. "OPP_CHANGE,When OPP_CHANGE is set to 1 VBBLDO_CON samples OPP_SEL and ACTIVE_FBB_SEL/ACTIVE_RBB_SEL upon detecting rising edge" "0,1"
bitfld.long 0xD4 0.--1. "OPP_SEL,Selects the OPP at which the MPU voltage domain is operating" "OPP_SEL_0,OPP_SEL_1,OPP_SEL_2,OPP_SEL_3"
line.long 0xD8 "PRM_LDO_ABB_IVA_SETUP,Selects the IVA_ABB LDO mode"
hexmask.long.byte 0xD8 8.--15. 1. "SR2_WTCNT_VALUE,LDO settling time for active-mode OPP change"
bitfld.long 0xD8 2. "ACTIVE_FBB_SEL,Defines ABB LDO mode when voltage is in slow fast OPP" "ACTIVE_FBB_SEL_0,ACTIVE_FBB_SEL_1"
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bitfld.long 0xD8 1. "ACTIVE_RBB_SEL,Defines ABB LDO mode when IVA voltage is in OPP_TURBO" "ACTIVE_RBB_SEL_0,ACTIVE_RBB_SEL_1"
bitfld.long 0xD8 0. "SR2EN,Enable ABB power management" "SR2EN_0,SR2EN_1"
line.long 0xDC "PRM_LDO_ABB_IVA_CTRL,Control and Status of ABB on IVA voltage domain"
rbitfld.long 0xDC 6. "SR2_IN_TRANSITION,Indicates VBBLDO_CON is or is not in transition state" "SR2_IN_TRANSITION_0_r,SR2_IN_TRANSITION_1_r"
rbitfld.long 0xDC 3.--4. "SR2_STATUS,Indicate ABB LDO current operation status" "SR2_STATUS_0_r,SR2_STATUS_1_r,SR2_STATUS_2_r,SR2_STATUS_3_r"
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bitfld.long 0xDC 2. "OPP_CHANGE,When OPP_CHANGE is set to 1 VBBLDO_CON samples OPP_SEL and ACTIVE_FBB_SEL/ACTIVE_RBB_SEL upon detecting rising edge" "0,1"
bitfld.long 0xDC 0.--1. "OPP_SEL,Selects the OPP at which the IVA voltage domain is operating (Fast OPP Nominal OPP or Slow OPP)" "OPP_SEL_0,OPP_SEL_1,OPP_SEL_2,OPP_SEL_3"
line.long 0xE0 "PRM_LDO_BANDGAP_SETUP,Control of the bandgap"
hexmask.long.byte 0xE0 0.--7. 1. "STARTUP_COUNT,Determines the start-up duration of BANDGAP"
line.long 0xE4 "PRM_DEVICE_OFF_CTRL,This register is used to control device OFF transition"
bitfld.long 0xE4 9. "EMIF2_OFFWKUP_DISABLE,Controls the EMIF2_DEVICE_OFFWKUP_CORESRTACTST notifier sent to EMIF2 upon a device wakeup from off mode" "EMIF2_OFFWKUP_DISABLE_0,EMIF2_OFFWKUP_DISABLE_1"
bitfld.long 0xE4 8. "EMIF1_OFFWKUP_DISABLE,Controls the EMIF1_DEVICE_OFFWKUP_CORESRTACTST notifier sent to EMIF1 upon a device wakeup from off mode" "EMIF1_OFFWKUP_DISABLE_0,EMIF1_OFFWKUP_DISABLE_1"
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bitfld.long 0xE4 0. "DEVICE_OFF_ENABLE,Controls transition to device OFF mode" "DEVICE_OFF_ENABLE_0,DEVICE_OFF_ENABLE_1"
line.long 0xE8 "PRM_PHASE1_CNDP,This register stores the start descriptor address of automatic restore phase1"
line.long 0xEC "PRM_PHASE2A_CNDP,This register stores the start descriptor address of automatic restore phase2A"
line.long 0xF0 "PRM_PHASE2B_CNDP,This register stores the start descriptor address of automatic restore phase2B"
group.long 0xF8++0x03
line.long 0x00 "PRM_VC_ERRST,This debug register logs the error status coming from Voltage Controller"
bitfld.long 0x00 26. "BYPS_TIMEOUT_ERR,Bypass command frame is finished but is not acknowledged by the slave or (I2C multimaster) arbitration lost" "BYPS_TIMEOUT_ERR_0,BYPS_TIMEOUT_ERR_1"
bitfld.long 0x00 25. "BYPS_RA_ERR,Wrong register address error for bypass command" "BYPS_RA_ERR_0,BYPS_RA_ERR_1"
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bitfld.long 0x00 24. "BYPS_SA_ERR,Wrong slave address error for bypass command" "BYPS_SA_ERR_0,BYPS_SA_ERR_1"
bitfld.long 0x00 21. "VFSM_TIMEOUT_ERR_MPU,MPU voltage FSM command frame is finished but is not acknowledged by the slave or (I2C multimaster) arbitration lost" "VFSM_TIMEOUT_ERR_MPU_0,VFSM_TIMEOUT_ERR_MPU_1"
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bitfld.long 0x00 20. "VFSM_RA_ERR_MPU,Wrong register address error for MPU voltage FSM" "VFSM_RA_ERR_MPU_0,VFSM_RA_ERR_MPU_1"
bitfld.long 0x00 19. "VFSM_SA_ERR_MPU,Wrong slave address error for MPU voltage FSM" "VFSM_SA_ERR_MPU_0,VFSM_SA_ERR_MPU_1"
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bitfld.long 0x00 18. "SMPS_TIMEOUT_ERR_MPU,MPU voltage processor command frame is finished but is not acknowledged by the slave or (I2C multimaster) arbitration lost" "SMPS_TIMEOUT_ERR_MPU_0,SMPS_TIMEOUT_ERR_MPU_1"
bitfld.long 0x00 17. "SMPS_RA_ERR_MPU,Wrong register address error for MPU voltage processor" "SMPS_RA_ERR_MPU_0,SMPS_RA_ERR_MPU_1"
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bitfld.long 0x00 16. "SMPS_SA_ERR_MPU,Wrong slave address error for MPU voltage processor" "SMPS_SA_ERR_MPU_0,SMPS_SA_ERR_MPU_1"
bitfld.long 0x00 13. "VFSM_TIMEOUT_ERR_IVA,IVA voltage FSM command frame is finished but is not acknowledged by the slave or (I2C multimaster) arbitration lost" "VFSM_TIMEOUT_ERR_IVA_0,VFSM_TIMEOUT_ERR_IVA_1"
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bitfld.long 0x00 12. "VFSM_RA_ERR_IVA,Wrong register address error for IVA voltage FSM" "VFSM_RA_ERR_IVA_0,VFSM_RA_ERR_IVA_1"
bitfld.long 0x00 11. "VFSM_SA_ERR_IVA,Wrong slave address error for IVA voltage FSM" "VFSM_SA_ERR_IVA_0,VFSM_SA_ERR_IVA_1"
newline
bitfld.long 0x00 10. "SMPS_TIMEOUT_ERR_IVA,IVA voltage processor command frame is finished but is not acknowledged by the slave or (I2C multimaster) arbitration lost" "SMPS_TIMEOUT_ERR_IVA_0,SMPS_TIMEOUT_ERR_IVA_1"
bitfld.long 0x00 9. "SMPS_RA_ERR_IVA,Wrong register address error for IVA voltage processor" "SMPS_RA_ERR_IVA_0,SMPS_RA_ERR_IVA_1"
newline
bitfld.long 0x00 8. "SMPS_SA_ERR_IVA,Wrong slave address error for IVA voltage processor" "SMPS_SA_ERR_IVA_0,SMPS_SA_ERR_IVA_1"
bitfld.long 0x00 5. "VFSM_TIMEOUT_ERR_CORE,CORE voltage FSM command frame is finished but is not acknowledged by the slave or (I2C multimaster) arbitration lost" "VFSM_TIMEOUT_ERR_CORE_0,VFSM_TIMEOUT_ERR_CORE_1"
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bitfld.long 0x00 4. "VFSM_RA_ERR_CORE,Wrong register address error for CORE voltage FSM" "VFSM_RA_ERR_CORE_0,VFSM_RA_ERR_CORE_1"
bitfld.long 0x00 3. "VFSM_SA_ERR_CORE,Wrong slave address error for CORE voltage FSM" "VFSM_SA_ERR_CORE_0,VFSM_SA_ERR_CORE_1"
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bitfld.long 0x00 2. "SMPS_TIMEOUT_ERR_CORE,CORE voltage processor command frame is finished but is not acknowledged by the slave or (I2C multimaster) arbitration lost" "SMPS_TIMEOUT_ERR_CORE_0,SMPS_TIMEOUT_ERR_CORE_1"
bitfld.long 0x00 1. "SMPS_RA_ERR_CORE,Wrong register address error for CORE voltage processor" "SMPS_RA_ERR_CORE_0,SMPS_RA_ERR_CORE_1"
newline
bitfld.long 0x00 0. "SMPS_SA_ERR_CORE,Wrong slave address error for CORE voltage processor" "SMPS_SA_ERR_CORE_0,SMPS_SA_ERR_CORE_1"
tree.end
tree "DSP_CM1"
base ansd:0x4A004400
group.long 0x00++0x0B
line.long 0x00 "CM_DSP_CLKSTCTRL,This register enables the DSP domain power state transition"
rbitfld.long 0x00 8. "CLKACTIVITY_DSP_ROOT_CLK,This field indicates the state of the DSP_ROOT_CLK clock in the domain" "CLKACTIVITY_DSP_ROOT_CLK_0_r,CLKACTIVITY_DSP_ROOT_CLK_1_r"
bitfld.long 0x00 0.--1. "CLKTRCTRL,Controls the clock state transition of the DSP clock domain" "CLKTRCTRL_0,CLKTRCTRL_1,CLKTRCTRL_2,CLKTRCTRL_3"
line.long 0x04 "CM_DSP_STATICDEP,This register controls the static domain depedencies from DSP domain towards 'target' domains"
rbitfld.long 0x04 16. "ALWONCORE_STATDEP,Static dependency towards ALWONCORE clock domain" "ALWONCORE_STATDEP_0_r,?"
bitfld.long 0x04 15. "L4WKUP_STATDEP,Static dependency towards L4WKUP clock domain" "L4WKUP_STATDEP_0,L4WKUP_STATDEP_1"
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bitfld.long 0x04 13. "L4PER_STATDEP,Static dependency towards L4PER clock domain" "L4PER_STATDEP_0,L4PER_STATDEP_1"
bitfld.long 0x04 12. "L4CFG_STATDEP,Static dependency towards L4CFG clock domain" "L4CFG_STATDEP_0,L4CFG_STATDEP_1"
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rbitfld.long 0x04 9. "ISS_STATDEP,Static dependency towards ISS clock domain" "ISS_STATDEP_0_r,?"
bitfld.long 0x04 7. "L3INIT_STATDEP,Static dependency towards L3INIT clock domain" "L3INIT_STATDEP_0,L3INIT_STATDEP_1"
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bitfld.long 0x04 6. "L3_2_STATDEP,Static dependency towards L3_2 clock domain" "L3_2_STATDEP_0,L3_2_STATDEP_1"
bitfld.long 0x04 5. "L3_1_STATDEP,Static dependency towards L3_1 clock domain" "L3_1_STATDEP_0,L3_1_STATDEP_1"
newline
bitfld.long 0x04 4. "MEMIF_STATDEP,Static dependency towards MEMIF clock domain" "MEMIF_STATDEP_0,MEMIF_STATDEP_1"
bitfld.long 0x04 3. "ABE_STATDEP,Static dependency towards ABE clock domain" "ABE_STATDEP_0,ABE_STATDEP_1"
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bitfld.long 0x04 2. "IVAHD_STATDEP,Static dependency towards IVAHD clock domain" "IVAHD_STATDEP_0,IVAHD_STATDEP_1"
line.long 0x08 "CM_DSP_DYNAMICDEP,This register controls the dynamic domain depedencies from DSP domain towards 'target' domains"
bitfld.long 0x08 24.--27. "WINDOWSIZE,Size of sliding window used to monitor INTRCONN interface activity for determination of auto-sleep feature" "WINDOWSIZE_0,WINDOWSIZE_1,WINDOWSIZE_2,WINDOWSIZE_3,WINDOWSIZE_4,WINDOWSIZE_5,WINDOWSIZE_6,WINDOWSIZE_7,WINDOWSIZE_8,WINDOWSIZE_9,WINDOWSIZE_10,WINDOWSIZE_11,WINDOWSIZE_12,WINDOWSIZE_13,WINDOWSIZE_14,WINDOWSIZE_15"
bitfld.long 0x08 5. "L3_1_DYNDEP,Dynamic dependency towards L3_1 clock domain" "?,L3_1_DYNDEP_1_r"
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bitfld.long 0x08 3. "ABE_DYNDEP,Dynamic dependency towards ABE clock domain" "?,ABE_DYNDEP_1_r"
bitfld.long 0x08 2. "IVAHD_DYNDEP,Dynamic dependency towards IVAHD clock domain" "?,IVAHD_DYNDEP_1_r"
group.long 0x20++0x03
line.long 0x00 "CM_DSP_DSP_CLKCTRL,This register manages the DSP clocks"
rbitfld.long 0x00 18. "STBYST,Module standby status" "STBYST_0_r,STBYST_1_r"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
newline
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1,MODULEMODE_2_r,MODULEMODE_3_r"
tree.end
tree "DSP_PRM"
base ansd:0x4A306400
group.long 0x00++0x07
line.long 0x00 "PM_DSP_PWRSTCTRL,This register controls the DSP power state to reach upon a domain sleep transition"
bitfld.long 0x00 20.--21. "DSP_EDMA_ONSTATE,DSP_EDMA state when domain is ON" "?,?,?,DSP_EDMA_ONSTATE_3_r"
bitfld.long 0x00 18.--19. "DSP_L2_ONSTATE,DSP_L2 state when domain is ON" "?,?,?,DSP_L2_ONSTATE_3_r"
newline
bitfld.long 0x00 16.--17. "DSP_L1_ONSTATE,DSP_L1 state when domain is ON" "?,?,?,DSP_L1_ONSTATE_3_r"
bitfld.long 0x00 10. "DSP_EDMA_RETSTATE,DSP_EDMA state when domain is RETENTION" "?,DSP_EDMA_RETSTATE_1_r"
newline
bitfld.long 0x00 9. "DSP_L2_RETSTATE,DSP_L2 state when domain is RETENTION" "DSP_L2_RETSTATE_0,DSP_L2_RETSTATE_1"
bitfld.long 0x00 8. "DSP_L1_RETSTATE,DSP_L2 state when domain is RETENTION" "DSP_L1_RETSTATE_0,DSP_L1_RETSTATE_1"
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bitfld.long 0x00 4. "LOWPOWERSTATECHANGE,Power state change request when domain has already performed a sleep transition" "LOWPOWERSTATECHANGE_0,LOWPOWERSTATECHANGE_1"
bitfld.long 0x00 2. "LOGICRETSTATE,Logic state when power domain is RETENTION" "LOGICRETSTATE_0,LOGICRETSTATE_1"
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bitfld.long 0x00 0.--1. "POWERSTATE,Power state control" "POWERSTATE_0,POWERSTATE_1,POWERSTATE_2,POWERSTATE_3"
line.long 0x04 "PM_DSP_PWRSTST,This register provides a status on the DSP domain current power state"
bitfld.long 0x04 24.--25. "LASTPOWERSTATEENTERED,Last low power state entered" "LASTPOWERSTATEENTERED_0_r,LASTPOWERSTATEENTERED_1_r,LASTPOWERSTATEENTERED_2_r,LASTPOWERSTATEENTERED_3_r"
rbitfld.long 0x04 20. "INTRANSITION,Domain transition status" "INTRANSITION_0_r,INTRANSITION_1_r"
newline
rbitfld.long 0x04 8.--9. "DSP_EDMA_STATEST,DSP_EDMA memory state status" "DSP_EDMA_STATEST_0_r,DSP_EDMA_STATEST_1_r,DSP_EDMA_STATEST_2_r,DSP_EDMA_STATEST_3_r"
rbitfld.long 0x04 6.--7. "DSP_L2_STATEST,DSP_L2 memory state status" "DSP_L2_STATEST_0_r,DSP_L2_STATEST_1_r,DSP_L2_STATEST_2_r,DSP_L2_STATEST_3_r"
newline
rbitfld.long 0x04 4.--5. "DSP_L1_STATEST,DSP_L1 memory state status" "DSP_L1_STATEST_0_r,DSP_L1_STATEST_1_r,DSP_L1_STATEST_2_r,DSP_L1_STATEST_3_r"
rbitfld.long 0x04 2. "LOGICSTATEST,Logic state status" "LOGICSTATEST_0_r,LOGICSTATEST_1_r"
newline
rbitfld.long 0x04 0.--1. "POWERSTATEST,Current power state status" "POWERSTATEST_0_r,POWERSTATEST_1_r,POWERSTATEST_2_r,POWERSTATEST_3_r"
group.long 0x10++0x07
line.long 0x00 "RM_DSP_RSTCTRL,This register controls the release of the DSP sub-system resets"
bitfld.long 0x00 1. "RST2,DSP - MMU cache and slave interface reset control" "RST2_0,RST2_1"
bitfld.long 0x00 0. "RST1,DSP - DSP reset control" "RST1_0,RST1_1"
line.long 0x04 "RM_DSP_RSTST,This register logs the different reset sources of the DSP domain"
bitfld.long 0x04 3. "DSP_DSP_EMU_REQ_RSTST,DSP DSP processor has been reset due to DSP emulation reset request driven from DSPSS" "DSP_DSP_EMU_REQ_RSTST_0,DSP_DSP_EMU_REQ_RSTST_1"
bitfld.long 0x04 2. "DSPSS_EMU_RSTST,DSP domain has been reset due to emulation reset source e.g" "DSPSS_EMU_RSTST_0,DSPSS_EMU_RSTST_1"
newline
bitfld.long 0x04 1. "RST2ST,DSP MMU cache and slave interface software reset status" "RST2ST_0,RST2ST_1"
bitfld.long 0x04 0. "RST1ST,DSP DSP software reset" "RST1ST_0,RST1ST_1"
group.long 0x24++0x03
line.long 0x00 "RM_DSP_DSP_CONTEXT,This register contains dedicated DSP context statuses"
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" "LOSTMEM_DSP_EDMA_0,LOSTMEM_DSP_EDMA_1"
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" "LOSTMEM_DSP_L2_0,LOSTMEM_DSP_L2_1"
newline
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" "LOSTMEM_DSP_L1_0,LOSTMEM_DSP_L1_1"
bitfld.long 0x00 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
newline
bitfld.long 0x00 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
tree.end
tree "DSS_CM2"
base ansd:0x4A009100
group.long 0x00++0x0B
line.long 0x00 "CM_DSS_CLKSTCTRL,This register enables the DSS domain power state transition"
rbitfld.long 0x00 11. "CLKACTIVITY_HDMI_PHY_48M_FCLK,This field indicates the state of the HDMI_PHY_48MHz_FCLK clock in the domain" "CLKACTIVITY_HDMI_PHY_48M_FCLK_0_r,CLKACTIVITY_HDMI_PHY_48M_FCLK_1_r"
rbitfld.long 0x00 10. "CLKACTIVITY_DSS_ALWON_SYS_CLK,This field indicates the state of the DSS_ALWON_SYS_CLK clock in the domain" "CLKACTIVITY_DSS_ALWON_SYS_CLK_0_r,CLKACTIVITY_DSS_ALWON_SYS_CLK_1_r"
newline
rbitfld.long 0x00 9. "CLKACTIVITY_DSS_FCLK,This field indicates the state of the DSS_FCLK clock in the domain" "CLKACTIVITY_DSS_FCLK_0_r,CLKACTIVITY_DSS_FCLK_1_r"
rbitfld.long 0x00 8. "CLKACTIVITY_DSS_L3_ICLK,This field indicates the state of the DSS_L3_ICLK (and DSS_L4_ICLK) clock in the domain" "CLKACTIVITY_DSS_L3_ICLK_0_r,CLKACTIVITY_DSS_L3_ICLK_1_r"
newline
bitfld.long 0x00 0.--1. "CLKTRCTRL,Controls the clock state transition of the DSS clock domain" "CLKTRCTRL_0,CLKTRCTRL_1,CLKTRCTRL_2,CLKTRCTRL_3"
line.long 0x04 "CM_DSS_STATICDEP,This register controls the static domain depedencies from DSS domain towards 'target' domains"
bitfld.long 0x04 6. "L3_2_STATDEP,Static dependency towards L3_2 clock domain" "L3_2_STATDEP_0,L3_2_STATDEP_1"
bitfld.long 0x04 5. "L3_1_STATDEP,Static dependency towards L3_1 clock domain" "?,L3_1_STATDEP_1_r"
newline
bitfld.long 0x04 4. "MEMIF_STATDEP,Static dependency towards MEMIF clock domain" "MEMIF_STATDEP_0,MEMIF_STATDEP_1"
bitfld.long 0x04 2. "IVAHD_STATDEP,Static dependency towards IVAHD clock domain" "IVAHD_STATDEP_0,IVAHD_STATDEP_1"
line.long 0x08 "CM_DSS_DYNAMICDEP,This register controls the dynamic domain depedencies from DSS domain towards 'target' domains"
bitfld.long 0x08 5. "L3_1_DYNDEP,Dynamic dependency towards L3_1 domain" "L3_1_DYNDEP_0_r,?"
group.long 0x20++0x03
line.long 0x00 "CM_DSS_DSS_CLKCTRL,This register manages the DSS clocks"
rbitfld.long 0x00 18. "STBYST,Module standby status" "STBYST_0_r,STBYST_1_r"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
newline
bitfld.long 0x00 11. "OPTFCLKEN_TV_FCLK,Optional functional clock control" "OPTFCLKEN_TV_FCLK_0,OPTFCLKEN_TV_FCLK_1"
bitfld.long 0x00 10. "OPTFCLKEN_SYS_CLK,Optional functional clock control" "OPTFCLKEN_SYS_CLK_0,OPTFCLKEN_SYS_CLK_1"
newline
bitfld.long 0x00 9. "OPTFCLKEN_48MHZ_CLK,Optional functional clock control" "OPTFCLKEN_48MHZ_CLK_0,OPTFCLKEN_48MHZ_CLK_1"
bitfld.long 0x00 8. "OPTFCLKEN_DSSCLK,Optional functional clock control" "OPTFCLKEN_DSSCLK_0,OPTFCLKEN_DSSCLK_1"
newline
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
tree.end
tree "DSS_PRM"
base ansd:0x4A307100
group.long 0x00++0x07
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" "?,?,?,DSS_MEM_ONSTATE_3_r"
rbitfld.long 0x00 8. "DSS_MEM_RETSTATE,DSS_MEM state when domain is RETENTION" "DSS_MEM_RETSTATE_0_r,?"
newline
bitfld.long 0x00 4. "LOWPOWERSTATECHANGE,Power state change request when domain has already performed a sleep transition" "LOWPOWERSTATECHANGE_0,LOWPOWERSTATECHANGE_1"
rbitfld.long 0x00 2. "LOGICRETSTATE,Logic state when power domain is RETENTION" "LOGICRETSTATE_0_r,?"
newline
bitfld.long 0x00 0.--1. "POWERSTATE,Power state control" "POWERSTATE_0,POWERSTATE_1,POWERSTATE_2,POWERSTATE_3"
line.long 0x04 "PM_DSS_PWRSTST,This register provides a status on the current DSS power domain state"
bitfld.long 0x04 24.--25. "LASTPOWERSTATEENTERED,Last low power state entered" "LASTPOWERSTATEENTERED_0_r,LASTPOWERSTATEENTERED_1_r,LASTPOWERSTATEENTERED_2_r,LASTPOWERSTATEENTERED_3_r"
rbitfld.long 0x04 20. "INTRANSITION,Domain transition status" "INTRANSITION_0_r,INTRANSITION_1_r"
newline
rbitfld.long 0x04 4.--5. "DSS_MEM_STATEST,DSS_MEM state status" "DSS_MEM_STATEST_0_r,DSS_MEM_STATEST_1_r,DSS_MEM_STATEST_2_r,DSS_MEM_STATEST_3_r"
rbitfld.long 0x04 2. "LOGICSTATEST,Logic state status" "LOGICSTATEST_0_r,LOGICSTATEST_1_r"
newline
rbitfld.long 0x04 0.--1. "POWERSTATEST,Current power state status" "POWERSTATEST_0_r,POWERSTATEST_1_r,POWERSTATEST_2_r,POWERSTATEST_3_r"
group.long 0x20++0x07
line.long 0x00 "PM_DSS_DSS_WKDEP,This register controls wakeup dependency based on DSS service requests"
bitfld.long 0x00 19. "WKUPDEP_HDMIDMA_SDMA,Wakeup dependency from HDMI module (SWakeup_HDMI_dma signal) towards SDMA + L3_2 domains" "?,WKUPDEP_HDMIDMA_SDMA_1_r"
bitfld.long 0x00 14. "WKUPDEP_HDMIIRQ_DSP,Wakeup dependency from HDMI module (softwareakeup_HDMI_irq signal) towards DSP + L3_1 + L3_2 domains" "WKUPDEP_HDMIIRQ_DSP_0,WKUPDEP_HDMIIRQ_DSP_1"
newline
bitfld.long 0x00 13. "WKUPDEP_HDMIIRQ_MPU_M3,Wakeup dependency from HDMI module (softwareakeup_HDMI_irq signal) towards MPU_A3 + L3_2 domains" "WKUPDEP_HDMIIRQ_MPU_M3_0,WKUPDEP_HDMIIRQ_MPU_M3_1"
bitfld.long 0x00 12. "WKUPDEP_HDMIIRQ_MPU,Wakeup dependency from HDMI module (softwareakeup_HDMI_irq signal) towards MPU + L3_1 + L3_2 domains" "WKUPDEP_HDMIIRQ_MPU_0,WKUPDEP_HDMIIRQ_MPU_1"
newline
bitfld.long 0x00 11. "WKUPDEP_DSI2_SDMA,Wakeup dependency from DSI2 module (softwareakeup_DSI2 signal) towards SDMA + L3_2 domains" "WKUPDEP_DSI2_SDMA_0,WKUPDEP_DSI2_SDMA_1"
bitfld.long 0x00 10. "WKUPDEP_DSI2_DSP,Wakeup dependency from DSI2 module (softwareakeup_DSI2 signal) towards DSP + L3_1 + L3_2 domains" "WKUPDEP_DSI2_DSP_0,WKUPDEP_DSI2_DSP_1"
newline
bitfld.long 0x00 9. "WKUPDEP_DSI2_MPU_M3,Wakeup dependency from DSI2 module (softwareakeup_DSI2 signal) towards MPU_A3 + L3_2 domains" "WKUPDEP_DSI2_MPU_M3_0,WKUPDEP_DSI2_MPU_M3_1"
bitfld.long 0x00 8. "WKUPDEP_DSI2_MPU,Wakeup dependency from DSI2 module (softwareakeup_DSI2 signal) towards MPU + L3_1 + L3_2 domains" "WKUPDEP_DSI2_MPU_0,WKUPDEP_DSI2_MPU_1"
newline
bitfld.long 0x00 7. "WKUPDEP_DSI1_SDMA,Wakeup dependency from DSI1 module (softwareakeup_DSI1 signal) towards SDMA + L3_2 domains" "WKUPDEP_DSI1_SDMA_0,WKUPDEP_DSI1_SDMA_1"
bitfld.long 0x00 6. "WKUPDEP_DSI1_DSP,Wakeup dependency from DSI1 module (softwareakeup_DSI1 signal) towards DSP + L3_1 + L3_2 domains" "WKUPDEP_DSI1_DSP_0,WKUPDEP_DSI1_DSP_1"
newline
bitfld.long 0x00 5. "WKUPDEP_DSI1_MPU_M3,Wakeup dependency from DSI1 module (softwareakeup_DSI1 signal) towards MPU_A3 + L3_2 domains" "WKUPDEP_DSI1_MPU_M3_0,WKUPDEP_DSI1_MPU_M3_1"
bitfld.long 0x00 4. "WKUPDEP_DSI1_MPU,Wakeup dependency from DSI1 module (softwareakeup_DSI1 signal) towards MPU + L3_1 + L3_2 domains" "WKUPDEP_DSI1_MPU_0,WKUPDEP_DSI1_MPU_1"
newline
bitfld.long 0x00 3. "WKUPDEP_DISPC_SDMA,Wakeup dependency from DISPC module (softwareakeup_DISPC signal) towards SDMA + L3_2 domains" "WKUPDEP_DISPC_SDMA_0,WKUPDEP_DISPC_SDMA_1"
bitfld.long 0x00 2. "WKUPDEP_DISPC_DSP,Wakeup dependency from DISPC module (softwareakeup_DISPC signal) towards DSP + L3_1 + L3_2 domains" "WKUPDEP_DISPC_DSP_0,WKUPDEP_DISPC_DSP_1"
newline
bitfld.long 0x00 1. "WKUPDEP_DISPC_MPU_M3,Wakeup dependency from DISPC module (softwareakeup_DISPC signal) towards MPU_A3 + L3_2 domains" "WKUPDEP_DISPC_MPU_M3_0,WKUPDEP_DISPC_MPU_M3_1"
bitfld.long 0x00 0. "WKUPDEP_DISPC_MPU,Wakeup dependency from DISPC module (softwareakeup_DISPC signal) towards MPU + L3_1 + L3_2 domains" "WKUPDEP_DISPC_MPU_0,WKUPDEP_DISPC_MPU_1"
line.long 0x04 "RM_DSS_DSS_CONTEXT,This register contains dedicated DSS context statuses"
bitfld.long 0x04 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" "LOSTMEM_DSS_MEM_0,LOSTMEM_DSS_MEM_1"
bitfld.long 0x04 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
newline
bitfld.long 0x04 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
tree.end
tree "EMU_CM"
base ansd:0x4A307A00
group.long 0x00++0x03
line.long 0x00 "CM_EMU_CLKSTCTRL,This register enables the EMU domain power state transition"
rbitfld.long 0x00 9. "CLKACTIVITY_CORE_DPLL_EMU_CLK,This field indicates the state of the CORE_DPLL_EMU_CLK clock in the domain" "CLKACTIVITY_CORE_DPLL_EMU_CLK_0_r,CLKACTIVITY_CORE_DPLL_EMU_CLK_1_r"
rbitfld.long 0x00 8. "CLKACTIVITY_EMU_SYS_CLK,This field indicates the state of the EMU_SYS_CLK clock in the domain" "CLKACTIVITY_EMU_SYS_CLK_0_r,CLKACTIVITY_EMU_SYS_CLK_1_r"
newline
bitfld.long 0x00 0.--1. "CLKTRCTRL,Controls the clock state transition of the EMU clock domain" "CLKTRCTRL_0_r,CLKTRCTRL_1_r,CLKTRCTRL_2,CLKTRCTRL_3"
group.long 0x08++0x03
line.long 0x00 "CM_EMU_DYNAMICDEP,This register controls the dynamic domain depedencies from EMU domain towards 'target' domains"
bitfld.long 0x00 24.--27. "WINDOWSIZE,Size of sliding window used to monitor INTRCONN interface activity for determination of auto-sleep feature" "WINDOWSIZE_0,WINDOWSIZE_1,WINDOWSIZE_2,WINDOWSIZE_3,WINDOWSIZE_4,WINDOWSIZE_5,WINDOWSIZE_6,WINDOWSIZE_7,WINDOWSIZE_8,WINDOWSIZE_9,WINDOWSIZE_10,WINDOWSIZE_11,WINDOWSIZE_12,WINDOWSIZE_13,WINDOWSIZE_14,WINDOWSIZE_15"
bitfld.long 0x00 6. "L3_2_DYNDEP,Dynamic dependency towards L3_2 clock domain" "?,L3_2_DYNDEP_1_r"
group.long 0x20++0x03
line.long 0x00 "CM_EMU_DEBUGSS_CLKCTRL,This register manages the DEBUGSS clocks"
bitfld.long 0x00 27.--29. "CLKSEL_PMD_STM_CLK,Selection of STM clock division" "CLKSEL_PMD_STM_CLK_0_r,CLKSEL_PMD_STM_CLK_1,CLKSEL_PMD_STM_CLK_2,CLKSEL_PMD_STM_CLK_3_r,CLKSEL_PMD_STM_CLK_4,CLKSEL_PMD_STM_CLK_5_r,CLKSEL_PMD_STM_CLK_6_r,CLKSEL_PMD_STM_CLK_7_r"
bitfld.long 0x00 24.--26. "CLKSEL_PMD_TRACE_CLK,Selection of TRACE clock division" "CLKSEL_PMD_TRACE_CLK_0_r,CLKSEL_PMD_TRACE_CLK_1,CLKSEL_PMD_TRACE_CLK_2,CLKSEL_PMD_TRACE_CLK_3_r,CLKSEL_PMD_TRACE_CLK_4,CLKSEL_PMD_TRACE_CLK_5_r,CLKSEL_PMD_TRACE_CLK_6_r,CLKSEL_PMD_TRACE_CLK_7_r"
newline
bitfld.long 0x00 22.--23. "PMD_TRACE_MUX_CTRL,Selection of TRACE source clock" "PMD_TRACE_MUX_CTRL_0,PMD_TRACE_MUX_CTRL_1,PMD_TRACE_MUX_CTRL_2_r,PMD_TRACE_MUX_CTRL_3_r"
bitfld.long 0x00 20.--21. "PMD_STM_MUX_CTRL,Selection of STM source clock" "PMD_STM_MUX_CTRL_0,PMD_STM_MUX_CTRL_1,PMD_STM_MUX_CTRL_2_r,PMD_STM_MUX_CTRL_3_r"
newline
rbitfld.long 0x00 18. "STBYST,Module standby status" "STBYST_0_r,STBYST_1_r"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
newline
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "?,MODULEMODE_1_r,?,?"
tree.end
tree "EMU_PRM"
base ansd:0x4A307900
group.long 0x00++0x07
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" "?,?,?,EMU_BANK_ONSTATE_3_r"
rbitfld.long 0x00 0.--1. "POWERSTATE,Power state control" "POWERSTATE_0_r,?,?,?"
line.long 0x04 "PM_EMU_PWRSTST,This register provides a status on the EMU domain current power state"
bitfld.long 0x04 24.--25. "LASTPOWERSTATEENTERED,Last low power state entered" "LASTPOWERSTATEENTERED_0_r,LASTPOWERSTATEENTERED_1_r,LASTPOWERSTATEENTERED_2_r,LASTPOWERSTATEENTERED_3_r"
rbitfld.long 0x04 20. "INTRANSITION,Domain transition status" "INTRANSITION_0_r,INTRANSITION_1_r"
newline
rbitfld.long 0x04 4.--5. "EMU_BANK_STATEST,EMU memory bank state status" "EMU_BANK_STATEST_0_r,EMU_BANK_STATEST_1_r,EMU_BANK_STATEST_2_r,EMU_BANK_STATEST_3_r"
rbitfld.long 0x04 2. "LOGICSTATEST,Logic state status" "LOGICSTATEST_0_r,LOGICSTATEST_1_r"
newline
rbitfld.long 0x04 0.--1. "POWERSTATEST,Current power state status" "POWERSTATEST_0_r,?,?,POWERSTATEST_3_r"
group.long 0x24++0x03
line.long 0x00 "RM_EMU_DEBUGSS_CONTEXT,This register contains dedicated DEBUGSS context statuses"
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" "LOSTMEM_EMU_BANK_0,LOSTMEM_EMU_BANK_1"
bitfld.long 0x00 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
tree.end
tree "INSTR_PRM"
base ansd:0x4A307F00
rgroup.long 0x00++0x03
line.long 0x00 "PMI_IDENTICATION,PM profiling identification register"
group.long 0x10++0x07
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" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 0. "SOFTRESET,Software reset" "SOFTRESET_0,SOFTRESET_1"
line.long 0x04 "PMI_STATUS,PM profiling status register"
bitfld.long 0x04 8. "FIFOEMPTY,PM Profiling buffer empty" "FIFOEMPTY_0,FIFOEMPTY_1"
group.long 0x24++0x0F
line.long 0x00 "PMI_CONFIGURATION,PM profiling configuration register"
bitfld.long 0x00 30.--31. "CLAIM_3,Ownership" "CLAIM_3_0,CLAIM_3_1,CLAIM_3_2,CLAIM_3_3"
bitfld.long 0x00 29. "CLAIM_2,Debugger override qualifier" "CLAIM_2_0,CLAIM_2_1"
rbitfld.long 0x00 28. "CLAIM_1,Current owner" "CLAIM_1_0,CLAIM_1_1"
newline
bitfld.long 0x00 7. "EVT_CAPT_EN,When HIGH the PM events capture is enabled" "EVT_CAPT_EN_0,EVT_CAPT_EN_1"
line.long 0x04 "PMI_CLASS_FILTERING,PM profiling class filtering register"
bitfld.long 0x04 3. "SNAP_CAPT_EN_03,Snapshot capture enable - Class-ID = 0x03" "SNAP_CAPT_EN_03_0,SNAP_CAPT_EN_03_1"
bitfld.long 0x04 2. "SNAP_CAPT_EN_02,Snapshot capture enable - Class-ID = 0x02" "SNAP_CAPT_EN_02_0,SNAP_CAPT_EN_02_1"
bitfld.long 0x04 1. "SNAP_CAPT_EN_01,Snapshot capture enable - Class-ID = 0x01" "SNAP_CAPT_EN_01_0,SNAP_CAPT_EN_01_1"
newline
bitfld.long 0x04 0. "SNAP_CAPT_EN_00,Snapshot capture enable - Class-ID = 0x00" "SNAP_CAPT_EN_00_0,SNAP_CAPT_EN_00_1"
line.long 0x08 "PMI_TRIGGERING,PM profiling triggering control register"
bitfld.long 0x08 1. "TRIG_STOP_EN,Enable stop capturing PM events from external trigger detection" "TRIG_STOP_EN_0,TRIG_STOP_EN_1"
bitfld.long 0x08 0. "TRIG_START_EN,Enable start capturing PM events from external trigger detection" "TRIG_START_EN_0,TRIG_START_EN_1"
line.long 0x0C "PMI_SAMPLING,PM profiling sampling window register"
bitfld.long 0x0C 16.--19. "FCLK_DIV_FACOR,FunClk divide factor ranging from 1 to 16" "FCLK_DIV_FACOR_0,FCLK_DIV_FACOR_1,FCLK_DIV_FACOR_2,FCLK_DIV_FACOR_3,FCLK_DIV_FACOR_4,FCLK_DIV_FACOR_5,FCLK_DIV_FACOR_6,FCLK_DIV_FACOR_7,FCLK_DIV_FACOR_8,FCLK_DIV_FACOR_9,FCLK_DIV_FACOR_10,FCLK_DIV_FACOR_11,FCLK_DIV_FACOR_12,FCLK_DIV_FACOR_13,FCLK_DIV_FACOR_14,FCLK_DIV_FACOR_15"
hexmask.long.byte 0x0C 0.--7. 1. "SAMP_WIND_SIZE,PM events sampling window size"
tree.end
repeat 2. (list 1. 2. )(list ansd:0x4A004000 ansd:0x4A008000 )
tree "INTRCONN_SOCKET_CM$1"
base $2
rgroup.long 0x00++0x03
line.long 0x00 "REVISION_CM1,This register contains the IP revision code for the CM1 part of the PRCM"
group.long 0x40++0x03
line.long 0x00 "CM_CM1_PROFILING_CLKCTRL,This register manages the CM1_PROFILING clock"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1,MODULEMODE_2_r,MODULEMODE_3_r"
group.long 0xF0++0x03
line.long 0x00 "CM1_DEBUG_CFG,This register is used to configure the CM1's 32-bit debug output"
hexmask.long.byte 0x00 24.--30. 1. "SEL3,Internal signal block select for debug word byte-3"
hexmask.long.byte 0x00 16.--22. 1. "SEL2,Internal signal block select for debug word byte-2"
hexmask.long.byte 0x00 8.--14. 1. "SEL1,Internal signal block select for debug word byte-1"
hexmask.long.byte 0x00 0.--6. 1. "SEL0,Internal signal block select for debug word byte-0"
tree.end
repeat.end
tree "INTRCONN_SOCKET_PRM"
base ansd:0x4A306000
rgroup.long 0x00++0x03
line.long 0x00 "REVISION_PRM,This register contains the IP revision code for the PRM part of the PRCM"
group.long 0x10++0x13
line.long 0x00 "PRM_IRQSTATUS_MPU_A9,This register provides status on MPU interrupt events"
bitfld.long 0x00 31. "ABB_IVA_DONE_ST,IVA ABB mode change done" "ABB_IVA_DONE_ST_0,ABB_IVA_DONE_ST_1"
bitfld.long 0x00 30. "VC_IVA_VPACK_ST,Voltage Controller IVA voltage processor command acknowledge status" "VC_IVA_VPACK_ST_0,VC_IVA_VPACK_ST_1"
newline
bitfld.long 0x00 29. "VP_IVA_TRANXDONE_ST,Voltage Processor IVA transaction completion status" "VP_IVA_TRANXDONE_ST_0,VP_IVA_TRANXDONE_ST_1"
bitfld.long 0x00 28. "VP_IVA_EQVALUE_ST,Voltage Processor IVA voltage value change event" "VP_IVA_EQVALUE_ST_0,VP_IVA_EQVALUE_ST_1"
newline
bitfld.long 0x00 27. "VP_IVA_NOSMPSACK_ST,Voltage Processor IVA timeout event status" "VP_IVA_NOSMPSACK_ST_0,VP_IVA_NOSMPSACK_ST_1"
bitfld.long 0x00 26. "VP_IVA_MAXVDD_ST,Voltage Processor IVA voltage higher limit event status" "VP_IVA_MAXVDD_ST_0,VP_IVA_MAXVDD_ST_1"
newline
bitfld.long 0x00 25. "VP_IVA_MINVDD_ST,Voltage Processor IVA voltage lower limit event status" "VP_IVA_MINVDD_ST_0,VP_IVA_MINVDD_ST_1"
bitfld.long 0x00 24. "VP_IVA_OPPCHANGEDONE_ST,Voltage Processor IVA OPP change done status including ABB mode change done if applicable (OPP_CHANGE bit cleared in PRM_LDO_ABB_IVA_CRTL)" "VP_IVA_OPPCHANGEDONE_ST_0,VP_IVA_OPPCHANGEDONE_ST_1"
newline
bitfld.long 0x00 22. "VC_CORE_VPACK_ST,Voltage Controller CORE voltage processor command acknowledge status" "VC_CORE_VPACK_ST_0,VC_CORE_VPACK_ST_1"
bitfld.long 0x00 21. "VP_CORE_TRANXDONE_ST,Voltage Processor CORE transaction completion status" "VP_CORE_TRANXDONE_ST_0,VP_CORE_TRANXDONE_ST_1"
newline
bitfld.long 0x00 20. "VP_CORE_EQVALUE_ST,Voltage Processor CORE voltage value change event" "VP_CORE_EQVALUE_ST_0,VP_CORE_EQVALUE_ST_1"
bitfld.long 0x00 19. "VP_CORE_NOSMPSACK_ST,Voltage Processor CORE timeout event status" "VP_CORE_NOSMPSACK_ST_0,VP_CORE_NOSMPSACK_ST_1"
newline
bitfld.long 0x00 18. "VP_CORE_MAXVDD_ST,Voltage Processor CORE voltage higher limit event status" "VP_CORE_MAXVDD_ST_0,VP_CORE_MAXVDD_ST_1"
bitfld.long 0x00 17. "VP_CORE_MINVDD_ST,Voltage Processor CORE voltage lower limit event status" "VP_CORE_MINVDD_ST_0,VP_CORE_MINVDD_ST_1"
newline
bitfld.long 0x00 16. "VP_CORE_OPPCHANGEDONE_ST,Voltage Processor CORE OPP change done status" "VP_CORE_OPPCHANGEDONE_ST_0,VP_CORE_OPPCHANGEDONE_ST_1"
rbitfld.long 0x00 15. "Reserved," "0,1"
newline
bitfld.long 0x00 14. "VC_BYPASSACK_ST,Voltage Controller bypass command acknowledge status" "VC_BYPASSACK_ST_0,VC_BYPASSACK_ST_1"
bitfld.long 0x00 13. "VC_TOERR_ST,Voltage Controller timeout error event status" "VC_TOERR_ST_0,VC_TOERR_ST_1"
newline
bitfld.long 0x00 12. "VC_RAERR_ST,Voltage Controller register address acknowledge error event status" "VC_RAERR_ST_0,VC_RAERR_ST_1"
bitfld.long 0x00 11. "VC_SAERR_ST,Voltage Controller slave address acknowledge error event status" "VC_SAERR_ST_0,VC_SAERR_ST_1"
newline
bitfld.long 0x00 9. "IO_ST,I/O pad event interrupt status" "IO_ST_0,IO_ST_1"
bitfld.long 0x00 8. "TRANSITION_ST,Software supervised transition completed event interrupt status (any domain)" "TRANSITION_ST_0,TRANSITION_ST_1"
newline
bitfld.long 0x00 4. "DPLL_ABE_RECAL_ST,ABE DPLL recalibration interrupt status" "DPLL_ABE_RECAL_ST_0,DPLL_ABE_RECAL_ST_1"
bitfld.long 0x00 3. "DPLL_PER_RECAL_ST,PER DPLL recalibration interrupt status" "DPLL_PER_RECAL_ST_0,DPLL_PER_RECAL_ST_1"
newline
bitfld.long 0x00 2. "DPLL_IVA_RECAL_ST,IVA DPLL recalibration interrupt status" "DPLL_IVA_RECAL_ST_0,DPLL_IVA_RECAL_ST_1"
bitfld.long 0x00 1. "DPLL_MPU_RECAL_ST,MPU DPLL recalibration interrupt status" "DPLL_MPU_RECAL_ST_0,DPLL_MPU_RECAL_ST_1"
newline
bitfld.long 0x00 0. "DPLL_CORE_RECAL_ST,CORE DPLL recalibration interrupt status" "DPLL_CORE_RECAL_ST_0,DPLL_CORE_RECAL_ST_1"
line.long 0x04 "PRM_IRQSTATUS_MPU_A9_2,This register provides status on MPU interrupt events"
bitfld.long 0x04 7. "ABB_MPU_DONE_ST,MPU ABB mode change done" "ABB_MPU_DONE_ST_0,ABB_MPU_DONE_ST_1"
bitfld.long 0x04 6. "VC_MPU_VPACK_ST,Voltage Controller MPU voltage processor command acknowledge status" "VC_MPU_VPACK_ST_0,VC_MPU_VPACK_ST_1"
newline
bitfld.long 0x04 5. "VP_MPU_TRANXDONE_ST,Voltage Processor MPU transaction completion status" "VP_MPU_TRANXDONE_ST_0,VP_MPU_TRANXDONE_ST_1"
bitfld.long 0x04 4. "VP_MPU_EQVALUE_ST,Voltage Processor MPU voltage value change event" "VP_MPU_EQVALUE_ST_0,VP_MPU_EQVALUE_ST_1"
newline
bitfld.long 0x04 3. "VP_MPU_NOSMPSACK_ST,Voltage Processor MPU timeout event status" "VP_MPU_NOSMPSACK_ST_0,VP_MPU_NOSMPSACK_ST_1"
bitfld.long 0x04 2. "VP_MPU_MAXVDD_ST,Voltage Processor MPU voltage higher limit event status" "VP_MPU_MAXVDD_ST_0,VP_MPU_MAXVDD_ST_1"
newline
bitfld.long 0x04 1. "VP_MPU_MINVDD_ST,Voltage Processor MPU voltage lower limit event status" "VP_MPU_MINVDD_ST_0,VP_MPU_MINVDD_ST_1"
bitfld.long 0x04 0. "VP_MPU_OPPCHANGEDONE_ST,Voltage Processor MPU OPP change done status including ABB mode change done if applicable (OPP_CHANGE bit cleared in PRM_LDO_ABB_MPU_CRTL)" "VP_MPU_OPPCHANGEDONE_ST_0,VP_MPU_OPPCHANGEDONE_ST_1"
line.long 0x08 "PRM_IRQENABLE_MPU_A9,This register is used to enable or disable MPU interrupt activation upon presence of corresponding bit"
bitfld.long 0x08 31. "ABB_IVA_DONE_EN,IIVA ABB mode change done enable" "ABB_IVA_DONE_EN_0,ABB_IVA_DONE_EN_1"
bitfld.long 0x08 30. "VC_IVA_VPACK_EN,Voltage Controller IVA voltage processor command acknowledge enable" "VC_IVA_VPACK_EN_0,VC_IVA_VPACK_EN_1"
newline
bitfld.long 0x08 29. "VP_IVA_TRANXDONE_EN,Voltage Processor IVA transaction completion enable" "VP_IVA_TRANXDONE_EN_0,VP_IVA_TRANXDONE_EN_1"
bitfld.long 0x08 28. "VP_IVA_EQVALUE_EN,Voltage Processor IVA voltage value change event enable" "VP_IVA_EQVALUE_EN_0,VP_IVA_EQVALUE_EN_1"
newline
bitfld.long 0x08 27. "VP_IVA_NOSMPSACK_EN,Voltage Processor IVA timeout event enable" "VP_IVA_NOSMPSACK_EN_0,VP_IVA_NOSMPSACK_EN_1"
bitfld.long 0x08 26. "VP_IVA_MAXVDD_EN,Voltage Processor IVA voltage higher limit event enable" "VP_IVA_MAXVDD_EN_0,VP_IVA_MAXVDD_EN_1"
newline
bitfld.long 0x08 25. "VP_IVA_MINVDD_EN,Voltage Processor IVA voltage lower limit event enable" "VP_IVA_MINVDD_EN_0,VP_IVA_MINVDD_EN_1"
bitfld.long 0x08 24. "VP_IVA_OPPCHANGEDONE_EN,Voltage Processor IVA OPP change done enable" "VP_IVA_OPPCHANGEDONE_EN_0,VP_IVA_OPPCHANGEDONE_EN_1"
newline
bitfld.long 0x08 22. "VC_CORE_VPACK_EN,Voltage Controller CORE voltage processor command acknowledge enable" "VC_CORE_VPACK_EN_0,VC_CORE_VPACK_EN_1"
bitfld.long 0x08 21. "VP_CORE_TRANXDONE_EN,Voltage Processor CORE transaction completion enable" "VP_CORE_TRANXDONE_EN_0,VP_CORE_TRANXDONE_EN_1"
newline
bitfld.long 0x08 20. "VP_CORE_EQVALUE_EN,Voltage Processor CORE voltage value change event enable" "VP_CORE_EQVALUE_EN_0,VP_CORE_EQVALUE_EN_1"
bitfld.long 0x08 19. "VP_CORE_NOSMPSACK_EN,Voltage Processor CORE timeout event enable" "VP_CORE_NOSMPSACK_EN_0,VP_CORE_NOSMPSACK_EN_1"
newline
bitfld.long 0x08 18. "VP_CORE_MAXVDD_EN,Voltage Processor CORE voltage higher limit event enable" "VP_CORE_MAXVDD_EN_0,VP_CORE_MAXVDD_EN_1"
bitfld.long 0x08 17. "VP_CORE_MINVDD_EN,Voltage Processor CORE voltage lower limit event enable" "VP_CORE_MINVDD_EN_0,VP_CORE_MINVDD_EN_1"
newline
bitfld.long 0x08 16. "VP_CORE_OPPCHANGEDONE_EN,Voltage Processor CORE OPP change done enable" "VP_CORE_OPPCHANGEDONE_EN_0,VP_CORE_OPPCHANGEDONE_EN_1"
bitfld.long 0x08 14. "VC_BYPASSACK_EN,Voltage Controller bypass command acknowledge enable" "VC_BYPASSACK_EN_0,VC_BYPASSACK_EN_1"
newline
bitfld.long 0x08 13. "VC_TOERR_EN,Voltage Controller timeout error event enable" "VC_TOERR_EN_0,VC_TOERR_EN_1"
bitfld.long 0x08 12. "VC_RAERR_EN,Voltage Controller register address acknowledge error event enable" "VC_RAERR_EN_0,VC_RAERR_EN_1"
newline
bitfld.long 0x08 11. "VC_SAERR_EN,Voltage Controller slave address acknowledge error event enable" "VC_SAERR_EN_0,VC_SAERR_EN_1"
bitfld.long 0x08 9. "IO_EN,I/O pad event interrupt enable" "IO_EN_0,IO_EN_1"
newline
bitfld.long 0x08 8. "TRANSITION_EN,Software supervised transition completed event interrupt enable (any domain)" "TRANSITION_EN_0,TRANSITION_EN_1"
bitfld.long 0x08 4. "DPLL_ABE_RECAL_EN,ABE DPLL recalibration interrupt enable" "DPLL_ABE_RECAL_EN_0,DPLL_ABE_RECAL_EN_1"
newline
bitfld.long 0x08 3. "DPLL_PER_RECAL_EN,PER DPLL recalibration interrupt enable" "DPLL_PER_RECAL_EN_0,DPLL_PER_RECAL_EN_1"
bitfld.long 0x08 2. "DPLL_IVA_RECAL_EN,IVA DPLL recalibration interrupt enable" "DPLL_IVA_RECAL_EN_0,DPLL_IVA_RECAL_EN_1"
newline
bitfld.long 0x08 1. "DPLL_MPU_RECAL_EN,MPU DPLL recalibration interrupt enable" "DPLL_MPU_RECAL_EN_0,DPLL_MPU_RECAL_EN_1"
bitfld.long 0x08 0. "DPLL_CORE_RECAL_EN,CORE DPLL recalibration interrupt enable" "DPLL_CORE_RECAL_EN_0,DPLL_CORE_RECAL_EN_1"
line.long 0x0C "PRM_IRQENABLE_MPU_A9_2,This register is used to enable or disable MPU interrupt activation upon presence of corresponding bit"
bitfld.long 0x0C 7. "ABB_MPU_DONE_EN,MPU ABB mode change done enable" "ABB_MPU_DONE_EN_0,ABB_MPU_DONE_EN_1"
bitfld.long 0x0C 6. "VC_MPU_VPACK_EB,Voltage Controller MPU voltage processor command acknowledge enable" "VC_MPU_VPACK_EB_0,VC_MPU_VPACK_EB_1"
newline
bitfld.long 0x0C 5. "VP_MPU_TRANXDONE_EN,Voltage Processor MPU transaction completion enable" "VP_MPU_TRANXDONE_EN_0,VP_MPU_TRANXDONE_EN_1"
bitfld.long 0x0C 4. "VP_MPU_EQVALUE_EN,Voltage Processor MPU voltage value change event enable" "VP_MPU_EQVALUE_EN_0,VP_MPU_EQVALUE_EN_1"
newline
bitfld.long 0x0C 3. "VP_MPU_NOSMPSACK_EN,Voltage Processor MPU timeout event enable" "VP_MPU_NOSMPSACK_EN_0,VP_MPU_NOSMPSACK_EN_1"
bitfld.long 0x0C 2. "VP_MPU_MAXVDD_EN,Voltage Processor MPU voltage higher limit event enable" "VP_MPU_MAXVDD_EN_0,VP_MPU_MAXVDD_EN_1"
newline
bitfld.long 0x0C 1. "VP_MPU_MINVDD_EN,Voltage Processor MPU voltage lower limit event enable" "VP_MPU_MINVDD_EN_0,VP_MPU_MINVDD_EN_1"
bitfld.long 0x0C 0. "VP_MPU_OPPCHANGEDONE_EN,Voltage Processor MPU OPP change done enable" "VP_MPU_OPPCHANGEDONE_EN_0,VP_MPU_OPPCHANGEDONE_EN_1"
line.long 0x10 "PRM_IRQSTATUS_MPU_M3,This register provides status on MPU_A3 interrupt events"
bitfld.long 0x10 31. "ABB_IVA_DONE_ST,IVA ABB mode change done" "ABB_IVA_DONE_ST_0,ABB_IVA_DONE_ST_1"
bitfld.long 0x10 30. "VC_IVA_VPACK_ST,Voltage Controller IVA voltage processor command acknowledge status" "VC_IVA_VPACK_ST_0,VC_IVA_VPACK_ST_1"
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bitfld.long 0x10 29. "VP_IVA_TRANXDONE_ST,Voltage Processor IVA transaction completion status" "VP_IVA_TRANXDONE_ST_0,VP_IVA_TRANXDONE_ST_1"
bitfld.long 0x10 28. "VP_IVA_EQVALUE_ST,Voltage Processor IVA voltage value change event" "VP_IVA_EQVALUE_ST_0,VP_IVA_EQVALUE_ST_1"
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bitfld.long 0x10 27. "VP_IVA_NOSMPSACK_ST,Voltage Processor IVA timeout event status" "VP_IVA_NOSMPSACK_ST_0,VP_IVA_NOSMPSACK_ST_1"
bitfld.long 0x10 26. "VP_IVA_MAXVDD_ST,Voltage Processor IVA voltage higher limit event status" "VP_IVA_MAXVDD_ST_0,VP_IVA_MAXVDD_ST_1"
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bitfld.long 0x10 25. "VP_IVA_MINVDD_ST,Voltage Processor IVA voltage lower limit event status" "VP_IVA_MINVDD_ST_0,VP_IVA_MINVDD_ST_1"
bitfld.long 0x10 24. "VP_IVA_OPPCHANGEDONE_ST,Voltage Processor IVA OPP change done status including ABB mode change done if applicable (OPP_CHANGE bit cleared in PRM_LDO_ABB_IVA_CRTL)" "VP_IVA_OPPCHANGEDONE_ST_0,VP_IVA_OPPCHANGEDONE_ST_1"
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bitfld.long 0x10 22. "VC_CORE_VPACK_ST,Voltage Controller CORE voltage processor command acknowledge status" "VC_CORE_VPACK_ST_0,VC_CORE_VPACK_ST_1"
bitfld.long 0x10 21. "VP_CORE_TRANXDONE_ST,Voltage Processor CORE transaction completion status" "VP_CORE_TRANXDONE_ST_0,VP_CORE_TRANXDONE_ST_1"
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bitfld.long 0x10 20. "VP_CORE_EQVALUE_ST,Voltage Processor CORE voltage value change event" "VP_CORE_EQVALUE_ST_0,VP_CORE_EQVALUE_ST_1"
bitfld.long 0x10 19. "VP_CORE_NOSMPSACK_ST,Voltage Processor CORE timeout event status" "VP_CORE_NOSMPSACK_ST_0,VP_CORE_NOSMPSACK_ST_1"
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bitfld.long 0x10 18. "VP_CORE_MAXVDD_ST,Voltage Processor CORE voltage higher limit event status" "VP_CORE_MAXVDD_ST_0,VP_CORE_MAXVDD_ST_1"
bitfld.long 0x10 17. "VP_CORE_MINVDD_ST,Voltage Processor CORE voltage lower limit event status" "VP_CORE_MINVDD_ST_0,VP_CORE_MINVDD_ST_1"
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bitfld.long 0x10 16. "VP_CORE_OPPCHANGEDONE_ST,Voltage Processor CORE OPP change done status" "VP_CORE_OPPCHANGEDONE_ST_0,VP_CORE_OPPCHANGEDONE_ST_1"
bitfld.long 0x10 14. "VC_BYPASSACK_ST,Voltage Controller bypass command acknowledge status" "VC_BYPASSACK_ST_0,VC_BYPASSACK_ST_1"
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bitfld.long 0x10 13. "VC_TOERR_ST,Voltage Controller timeout error event status" "VC_TOERR_ST_0,VC_TOERR_ST_1"
bitfld.long 0x10 12. "VC_RAERR_ST,Voltage Controller register address acknowledge error event status" "VC_RAERR_ST_0,VC_RAERR_ST_1"
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bitfld.long 0x10 11. "VC_SAERR_ST,Voltage Controller slave address acknowledge error event status" "VC_SAERR_ST_0,VC_SAERR_ST_1"
bitfld.long 0x10 10. "FORCEWKUP_ST,CORTEXM3 domain software supervised wakeup transition completed event interrupt status" "FORCEWKUP_ST_0,FORCEWKUP_ST_1"
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bitfld.long 0x10 9. "IO_ST,I/O pad event interrupt status" "IO_ST_0,IO_ST_1"
bitfld.long 0x10 8. "TRANSITION_ST,Software supervised transition completed event interrupt status (any domain)" "TRANSITION_ST_0,TRANSITION_ST_1"
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bitfld.long 0x10 4. "DPLL_ABE_RECAL_ST,ABE DPLL recalibration interrupt status" "DPLL_ABE_RECAL_ST_0,DPLL_ABE_RECAL_ST_1"
bitfld.long 0x10 3. "DPLL_PER_RECAL_ST,PER DPLL recalibration interrupt status" "DPLL_PER_RECAL_ST_0,DPLL_PER_RECAL_ST_1"
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bitfld.long 0x10 2. "DPLL_IVA_RECAL_ST,IVA DPLL recalibration interrupt status" "DPLL_IVA_RECAL_ST_0,DPLL_IVA_RECAL_ST_1"
bitfld.long 0x10 0. "DPLL_CORE_RECAL_ST,CORE DPLL recalibration interrupt status" "DPLL_CORE_RECAL_ST_0,DPLL_CORE_RECAL_ST_1"
group.long 0x28++0x03
line.long 0x00 "PRM_IRQENABLE_MPU_M3,This register is used to enable or disable MPU_A3 interrupt activation upon presence of corresponding bit"
bitfld.long 0x00 31. "ABB_IVA_DONE_EN,IVA ABB mode change done enable" "ABB_IVA_DONE_EN_0,ABB_IVA_DONE_EN_1"
bitfld.long 0x00 30. "VC_IVA_VPACK_EN,Voltage Controller IVA voltage processor command acknowledge enable" "VC_IVA_VPACK_EN_0,VC_IVA_VPACK_EN_1"
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bitfld.long 0x00 29. "VP_IVA_TRANXDONE_EN,Voltage Processor IVA transaction completion enable" "VP_IVA_TRANXDONE_EN_0,VP_IVA_TRANXDONE_EN_1"
bitfld.long 0x00 28. "VP_IVA_EQVALUE_EN,Voltage Processor IVA voltage value change event enable" "VP_IVA_EQVALUE_EN_0,VP_IVA_EQVALUE_EN_1"
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bitfld.long 0x00 27. "VP_IVA_NOSMPSACK_EN,Voltage Processor IVA timeout event enable" "VP_IVA_NOSMPSACK_EN_0,VP_IVA_NOSMPSACK_EN_1"
bitfld.long 0x00 26. "VP_IVA_MAXVDD_EN,Voltage Processor IVA voltage higher limit event enable" "VP_IVA_MAXVDD_EN_0,VP_IVA_MAXVDD_EN_1"
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bitfld.long 0x00 25. "VP_IVA_MINVDD_EN,Voltage Processor IVA voltage lower limit event enable" "VP_IVA_MINVDD_EN_0,VP_IVA_MINVDD_EN_1"
bitfld.long 0x00 24. "VP_IVA_OPPCHANGEDONE_EN,Voltage Processor IVA OPP change done enable" "VP_IVA_OPPCHANGEDONE_EN_0,VP_IVA_OPPCHANGEDONE_EN_1"
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bitfld.long 0x00 22. "VC_CORE_VPACK_EN,Voltage Controller CORE voltage processor command acknowledge enable" "VC_CORE_VPACK_EN_0,VC_CORE_VPACK_EN_1"
bitfld.long 0x00 21. "VP_CORE_TRANXDONE_EN,Voltage Processor CORE transaction completion enable" "VP_CORE_TRANXDONE_EN_0,VP_CORE_TRANXDONE_EN_1"
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bitfld.long 0x00 20. "VP_CORE_EQVALUE_EN,Voltage Processor CORE voltage value change event enable" "VP_CORE_EQVALUE_EN_0,VP_CORE_EQVALUE_EN_1"
bitfld.long 0x00 19. "VP_CORE_NOSMPSACK_EN,Voltage Processor CORE timeout event enable" "VP_CORE_NOSMPSACK_EN_0,VP_CORE_NOSMPSACK_EN_1"
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bitfld.long 0x00 18. "VP_CORE_MAXVDD_EN,Voltage Processor CORE voltage higher limit event enable" "VP_CORE_MAXVDD_EN_0,VP_CORE_MAXVDD_EN_1"
bitfld.long 0x00 17. "VP_CORE_MINVDD_EN,Voltage Processor CORE voltage lower limit event enable" "VP_CORE_MINVDD_EN_0,VP_CORE_MINVDD_EN_1"
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bitfld.long 0x00 16. "VP_CORE_OPPCHANGEDONE_EN,Voltage Processor CORE OPP change done enable" "VP_CORE_OPPCHANGEDONE_EN_0,VP_CORE_OPPCHANGEDONE_EN_1"
bitfld.long 0x00 14. "VC_BYPASSACK_EN,Voltage Controller bypass command acknowledge enable" "VC_BYPASSACK_EN_0,VC_BYPASSACK_EN_1"
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bitfld.long 0x00 13. "VC_TOERR_EN,Voltage Controller timeout error event enable" "VC_TOERR_EN_0,VC_TOERR_EN_1"
bitfld.long 0x00 12. "VC_RAERR_EN,Voltage Controller register address acknowledge error event enable" "VC_RAERR_EN_0,VC_RAERR_EN_1"
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bitfld.long 0x00 11. "VC_SAERR_EN,Voltage Controller slave address acknowledge error event enable" "VC_SAERR_EN_0,VC_SAERR_EN_1"
bitfld.long 0x00 10. "FORCEWKUP_EN,CORTEXM3 domain software supervised wakeup transition completed event interrupt enable" "FORCEWKUP_EN_0,FORCEWKUP_EN_1"
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bitfld.long 0x00 9. "IO_EN,I/O pad event interrupt enable" "IO_EN_0,IO_EN_1"
bitfld.long 0x00 8. "TRANSITION_EN,Software supervised transition completed event interrupt enable (any domain)" "TRANSITION_EN_0,TRANSITION_EN_1"
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bitfld.long 0x00 4. "DPLL_ABE_RECAL_EN,ABEDPLL recalibration interrupt enable" "DPLL_ABE_RECAL_EN_0,DPLL_ABE_RECAL_EN_1"
bitfld.long 0x00 3. "DPLL_PER_RECAL_EN,PER DPLL recalibration interrupt enable" "DPLL_PER_RECAL_EN_0,DPLL_PER_RECAL_EN_1"
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bitfld.long 0x00 2. "DPLL_IVA_RECAL_EN,IVA DPLL recalibration interrupt enable" "DPLL_IVA_RECAL_EN_0,DPLL_IVA_RECAL_EN_1"
bitfld.long 0x00 0. "DPLL_CORE_RECAL_EN,CORE DPLL recalibration interrupt enable" "DPLL_CORE_RECAL_EN_0,DPLL_CORE_RECAL_EN_1"
group.long 0x30++0x03
line.long 0x00 "PRM_IRQSTATUS_DSP,This register provides status on DSP interrupt events"
bitfld.long 0x00 10. "FORCEWKUP_ST,DSP domain software supervised wakeup transition completed event interrupt status" "FORCEWKUP_ST_0,FORCEWKUP_ST_1"
bitfld.long 0x00 4. "DPLL_ABE_RECAL_ST,ABE DPLL recalibration interrupt status" "DPLL_ABE_RECAL_ST_0,DPLL_ABE_RECAL_ST_1"
newline
bitfld.long 0x00 2. "DPLL_IVA_RECAL_ST,IVA DPLL recalibration interrupt status" "DPLL_IVA_RECAL_ST_0,DPLL_IVA_RECAL_ST_1"
group.long 0x38++0x03
line.long 0x00 "PRM_IRQENABLE_DSP,This register is used to enable or disable DSP interrupt activation upon presence of corresponding bit"
bitfld.long 0x00 10. "FORCEWKUP_EN,DSP domain software supervised wakeup transition completed event interrupt enable" "FORCEWKUP_EN_0,FORCEWKUP_EN_1"
bitfld.long 0x00 4. "DPLL_ABE_RECAL_EN,ABEDPLL recalibration interrupt enable" "DPLL_ABE_RECAL_EN_0,DPLL_ABE_RECAL_EN_1"
newline
bitfld.long 0x00 2. "DPLL_IVA_RECAL_EN,IVA DPLL recalibration interrupt enable" "DPLL_IVA_RECAL_EN_0,DPLL_IVA_RECAL_EN_1"
group.long 0x40++0x03
line.long 0x00 "CM_PRM_PROFILING_CLKCTRL,This register manages the PRM_PROFILING clock"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1,MODULEMODE_2_r,MODULEMODE_3_r"
group.long 0xF0++0x03
line.long 0x00 "PRM_DEBUG_CFG,This register is used to configure the PRM's 32-bit debug output"
hexmask.long.byte 0x00 24.--30. 1. "SEL3,Internal signal block select for debug word byte-3"
hexmask.long.byte 0x00 16.--22. 1. "SEL2,Internal signal block select for debug word byte-2"
newline
hexmask.long.byte 0x00 8.--14. 1. "SEL1,Internal signal block select for debug word byte-1"
hexmask.long.byte 0x00 0.--6. 1. "SEL0,Internal signal block select for debug word byte-0"
tree.end
tree "IVAHD_CM2"
base ansd:0x4A008F00
group.long 0x00++0x0B
line.long 0x00 "CM_IVAHD_CLKSTCTRL,This register enables the IVAHD domain power state transition"
rbitfld.long 0x00 8. "CLKACTIVITY_IVAHD_CLK,This field indicates the state of the IVAHD_CLK clock input of the domain" "CLKACTIVITY_IVAHD_CLK_0_r,CLKACTIVITY_IVAHD_CLK_1_r"
bitfld.long 0x00 0.--1. "CLKTRCTRL,Controls the clock state transition of the IVAHD clock domain" "CLKTRCTRL_0,CLKTRCTRL_1,CLKTRCTRL_2,CLKTRCTRL_3"
line.long 0x04 "CM_IVAHD_STATICDEP,This register controls the static domain depedencies from IVAHD domain towards 'target' domains"
bitfld.long 0x04 6. "L3_2_STATDEP,Static dependency towards L3_2 clock domain" "?,L3_2_STATDEP_1_r"
bitfld.long 0x04 5. "L3_1_STATDEP,Static dependency towards L3_1 clock domain" "L3_1_STATDEP_0,L3_1_STATDEP_1"
bitfld.long 0x04 4. "MEMIF_STATDEP,Static dependency towards MEMIF clock domain" "MEMIF_STATDEP_0,MEMIF_STATDEP_1"
line.long 0x08 "CM_IVAHD_DYNAMICDEP,This register controls the dynamic domain depedencies from IVAHD domain towards 'target' domains"
bitfld.long 0x08 6. "L3_2_DYNDEP,Dynamic dependency towards L3_2 clock domain" "L3_2_DYNDEP_0_r,?"
group.long 0x20++0x03
line.long 0x00 "CM_IVAHD_IVAHD_CLKCTRL,This register manages the IVAHD clocks"
rbitfld.long 0x00 18. "STBYST,Module standby status" "STBYST_0_r,STBYST_1_r"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1,MODULEMODE_2_r,MODULEMODE_3_r"
group.long 0x28++0x03
line.long 0x00 "CM_IVAHD_SL2_CLKCTRL,This register manages the SL2 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1,MODULEMODE_2_r,MODULEMODE_3_r"
tree.end
tree "IVAHD_PRM"
base ansd:0x4A306F00
group.long 0x00++0x07
line.long 0x00 "PM_IVAHD_PWRSTCTRL,This register controls the IVAHD power state to reach upon a domain sleep transition"
bitfld.long 0x00 22.--23. "TCM2_MEM_ONSTATE,TCM2 memory state when domain is ON" "?,?,?,TCM2_MEM_ONSTATE_3_r"
bitfld.long 0x00 20.--21. "TCM1_MEM_ONSTATE,TCM1 memory state when domain is ON" "?,?,?,TCM1_MEM_ONSTATE_3_r"
newline
bitfld.long 0x00 18.--19. "SL2_MEM_ONSTATE,SL2 memory state when domain is ON" "?,?,?,SL2_MEM_ONSTATE_3_r"
bitfld.long 0x00 16.--17. "HWA_MEM_ONSTATE,HWA memory state when domain is ON" "?,?,?,HWA_MEM_ONSTATE_3_r"
newline
bitfld.long 0x00 11. "TCM2_MEM_RETSTATE,TCM2 memory state when domain is RETENTION" "TCM2_MEM_RETSTATE_0,TCM2_MEM_RETSTATE_1"
bitfld.long 0x00 10. "TCM1_MEM_RETSTATE,TCM1 memory state when domain is RETENTION" "TCM1_MEM_RETSTATE_0,TCM1_MEM_RETSTATE_1"
newline
bitfld.long 0x00 9. "SL2_MEM_RETSTATE,SL2 memory state when domain is RETENTION" "SL2_MEM_RETSTATE_0,SL2_MEM_RETSTATE_1"
rbitfld.long 0x00 8. "HWA_MEM_RETSTATE,HWA memory state when domain is RETENTION" "HWA_MEM_RETSTATE_0_r,?"
newline
bitfld.long 0x00 4. "LOWPOWERSTATECHANGE,Power state change request when domain has already performed a sleep transition" "LOWPOWERSTATECHANGE_0,LOWPOWERSTATECHANGE_1"
rbitfld.long 0x00 2. "LOGICRETSTATE,Logic state when power domain is RETENTION" "LOGICRETSTATE_0_r,?"
newline
bitfld.long 0x00 0.--1. "POWERSTATE,Power state control" "POWERSTATE_0,POWERSTATE_1,POWERSTATE_2,POWERSTATE_3"
line.long 0x04 "PM_IVAHD_PWRSTST,This register provides a status on the current IVAHD power domain state"
bitfld.long 0x04 24.--25. "LASTPOWERSTATEENTERED,Last low power state entered" "LASTPOWERSTATEENTERED_0_r,LASTPOWERSTATEENTERED_1_r,LASTPOWERSTATEENTERED_2_r,LASTPOWERSTATEENTERED_3_r"
rbitfld.long 0x04 20. "INTRANSITION,Domain transition status" "INTRANSITION_0_r,INTRANSITION_1_r"
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rbitfld.long 0x04 10.--11. "TCM2_MEM_STATEST,TCM2 memory state status" "TCM2_MEM_STATEST_0_r,TCM2_MEM_STATEST_1_r,TCM2_MEM_STATEST_2_r,TCM2_MEM_STATEST_3_r"
rbitfld.long 0x04 8.--9. "TCM1_MEM_STATEST,TCM1 memory state status" "TCM1_MEM_STATEST_0_r,TCM1_MEM_STATEST_1_r,TCM1_MEM_STATEST_2_r,TCM1_MEM_STATEST_3_r"
newline
rbitfld.long 0x04 6.--7. "SL2_MEM_STATEST,SL2 memory state status" "SL2_MEM_STATEST_0_r,SL2_MEM_STATEST_1_r,SL2_MEM_STATEST_2_r,SL2_MEM_STATEST_3_r"
rbitfld.long 0x04 4.--5. "HWA_MEM_STATEST,HWA memory state status" "HWA_MEM_STATEST_0_r,HWA_MEM_STATEST_1_r,HWA_MEM_STATEST_2_r,HWA_MEM_STATEST_3_r"
newline
rbitfld.long 0x04 2. "LOGICSTATEST,Logic state status" "LOGICSTATEST_0_r,LOGICSTATEST_1_r"
rbitfld.long 0x04 0.--1. "POWERSTATEST,Current power state status" "POWERSTATEST_0_r,POWERSTATEST_1_r,POWERSTATEST_2_r,POWERSTATEST_3_r"
group.long 0x10++0x07
line.long 0x00 "RM_IVAHD_RSTCTRL,This register controls the release of the IVAHD sub-system resets"
bitfld.long 0x00 2. "RST3,IVAHD logic and SL2 reset control" "RST3_0,RST3_1"
bitfld.long 0x00 1. "RST2,IVAHD Sequencer2 reset control" "RST2_0,RST2_1"
newline
bitfld.long 0x00 0. "RST1,IVAHD sequencer1 reset control" "RST1_0,RST1_1"
line.long 0x04 "RM_IVAHD_RSTST,This register logs the different reset sources of the IVAHD domain"
bitfld.long 0x04 6. "ICECRUSHER_SEQ2_RST2ST,Sequencer2 CPU has been reset due to IVAHD ICECRUSHER2 reset event" "ICECRUSHER_SEQ2_RST2ST_0,ICECRUSHER_SEQ2_RST2ST_1"
bitfld.long 0x04 5. "ICECRUSHER_SEQ1_RST1ST,Sequencer1 CPU has been reset due to IVAHD ICECRUSHER1 reset event" "ICECRUSHER_SEQ1_RST1ST_0,ICECRUSHER_SEQ1_RST1ST_1"
newline
bitfld.long 0x04 4. "EMULATION_SEQ2_RST2ST," "EMULATION_SEQ2_RST2ST_0,EMULATION_SEQ2_RST2ST_1"
bitfld.long 0x04 3. "EMULATION_SEQ1_RST1ST,Sequencer1 CPU has been reset due to emulation reset source e.g" "EMULATION_SEQ1_RST1ST_0,EMULATION_SEQ1_RST1ST_1"
newline
bitfld.long 0x04 2. "RST3ST,IVAHD logic and SL2 software reset" "RST3ST_0,RST3ST_1"
bitfld.long 0x04 1. "RST2ST,IVAHD Sequencer2 CPU software reset" "RST2ST_0,RST2ST_1"
newline
bitfld.long 0x04 0. "RST1ST,IVAHD Sequencer1 CPU software reset" "RST1ST_0,RST1ST_1"
group.long 0x24++0x03
line.long 0x00 "RM_IVAHD_IVAHD_CONTEXT,This register contains dedicated IVAHD context statuses"
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" "LOSTMEM_HWA_MEM_0,LOSTMEM_HWA_MEM_1"
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" "LOSTMEM_TCM2_MEM_0,LOSTMEM_TCM2_MEM_1"
newline
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" "LOSTMEM_TCM1_MEM_0,LOSTMEM_TCM1_MEM_1"
bitfld.long 0x00 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
group.long 0x2C++0x03
line.long 0x00 "RM_IVAHD_SL2_CONTEXT,This register contains dedicated SL2 context statuses"
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" "LOSTMEM_SL2_MEM_0,LOSTMEM_SL2_MEM_1"
bitfld.long 0x00 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
tree.end
tree "L3INIT_CM2"
base ansd:0x4A009300
group.long 0x00++0x0B
line.long 0x00 "CM_L3INIT_CLKSTCTRL,This register enables the domain power state transition"
rbitfld.long 0x00 29. "CLKACTIVITY_INIT_60M_P2_FCLK,This field indicates the state of the INIT_60M_P2_FCLK clock in the domain" "CLKACTIVITY_INIT_60M_P2_FCLK_0_r,CLKACTIVITY_INIT_60M_P2_FCLK_1_r"
newline
rbitfld.long 0x00 28. "CLKACTIVITY_INIT_60M_P1_FCLK,This field indicates the state of the INIT_60M_P1_FCLK clock in the domain" "CLKACTIVITY_INIT_60M_P1_FCLK_0_r,CLKACTIVITY_INIT_60M_P1_FCLK_1_r"
newline
rbitfld.long 0x00 27. "CLKACTIVITY_HSIC_P2_FCLK,This field indicates the state of the HSIC_P2_FCLK clock in the domain" "CLKACTIVITY_HSIC_P2_FCLK_0_r,CLKACTIVITY_HSIC_P2_FCLK_1_r"
newline
rbitfld.long 0x00 26. "CLKACTIVITY_HSIC_P1_FCLK,This field indicates the state of the HSIC_P1_FCLK clock in the domain" "CLKACTIVITY_HSIC_P1_FCLK_0_r,CLKACTIVITY_HSIC_P1_FCLK_1_r"
newline
rbitfld.long 0x00 25. "CLKACTIVITY_UTMI_ROOT_FCLK,This field indicates the state of the UTMI_ROOT_FCLK clock in the domain" "CLKACTIVITY_UTMI_ROOT_FCLK_0_r,CLKACTIVITY_UTMI_ROOT_FCLK_1_r"
newline
rbitfld.long 0x00 23. "CLKACTIVITY_TLL_CH1_FCLK,This field indicates the state of the TLL_CH1_FCLK clock in the domain" "CLKACTIVITY_TLL_CH1_FCLK_0_r,CLKACTIVITY_TLL_CH1_FCLK_1_r"
newline
rbitfld.long 0x00 22. "CLKACTIVITY_TLL_CH0_FCLK,This field indicates the state of the TLL_CH0_FCLK clock in the domain" "CLKACTIVITY_TLL_CH0_FCLK_0_r,CLKACTIVITY_TLL_CH0_FCLK_1_r"
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rbitfld.long 0x00 21. "CLKACTIVITY_HSIC_P2_480M_FCLK,This field indicates the state of the HSIC_P2_480M_FCLK clock in the domain" "CLKACTIVITY_HSIC_P2_480M_FCLK_0_r,CLKACTIVITY_HSIC_P2_480M_FCLK_1_r"
newline
rbitfld.long 0x00 20. "CLKACTIVITY_HSIC_P1_480M_FCLK,This field indicates the state of the HSIC_P1_480M_FCLK clock in the domain" "CLKACTIVITY_HSIC_P1_480M_FCLK_0_r,CLKACTIVITY_HSIC_P1_480M_FCLK_1_r"
newline
rbitfld.long 0x00 18. "CLKACTIVITY_INIT_HSMMC2_FCLK,This field indicates the state of the INIT_HSMMC2_FCLK clock in the domain" "CLKACTIVITY_INIT_HSMMC2_FCLK_0_r,CLKACTIVITY_INIT_HSMMC2_FCLK_1_r"
newline
rbitfld.long 0x00 17. "CLKACTIVITY_INIT_HSMMC1_FCLK,This field indicates the state of the INIT_HSMMC1_FCLK clock in the domain" "CLKACTIVITY_INIT_HSMMC1_FCLK_0_r,CLKACTIVITY_INIT_HSMMC1_FCLK_1_r"
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rbitfld.long 0x00 16. "CLKACTIVITY_INIT_HSI_FCLK,This field indicates the state of the INIT_HSI_FCLK clock in the domain" "CLKACTIVITY_INIT_HSI_FCLK_0_r,CLKACTIVITY_INIT_HSI_FCLK_1_r"
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rbitfld.long 0x00 15. "CLKACTIVITY_USB_DPLL_HS_CLK,This field indicates the state of the USB_DPLL_HS_CLK clock in the domain" "CLKACTIVITY_USB_DPLL_HS_CLK_0_r,CLKACTIVITY_USB_DPLL_HS_CLK_1_r"
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rbitfld.long 0x00 14. "CLKACTIVITY_USB_DPLL_CLK,This field indicates the state of the USB_DPLL_CLK clock in the domain" "CLKACTIVITY_USB_DPLL_CLK_0_r,CLKACTIVITY_USB_DPLL_CLK_1_r"
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rbitfld.long 0x00 13. "CLKACTIVITY_INIT_48MC_FCLK,This field indicates the state of the INIT_48MC_FCLK clock in the domain" "CLKACTIVITY_INIT_48MC_FCLK_0_r,CLKACTIVITY_INIT_48MC_FCLK_1_r"
newline
rbitfld.long 0x00 12. "CLKACTIVITY_INIT_48M_FCLK,This field indicates the state of the INIT_48M_FCLK clock in the domain" "CLKACTIVITY_INIT_48M_FCLK_0_r,CLKACTIVITY_INIT_48M_FCLK_1_r"
newline
rbitfld.long 0x00 9. "CLKACTIVITY_INIT_L4_ICLK,This field indicates the state of the L4_INIT_ICLK clock in the domain" "CLKACTIVITY_INIT_L4_ICLK_0_r,CLKACTIVITY_INIT_L4_ICLK_1_r"
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rbitfld.long 0x00 8. "CLKACTIVITY_INIT_L3_ICLK,This field indicates the state of the L3_INIT_ICLK clock in the domain" "CLKACTIVITY_INIT_L3_ICLK_0_r,CLKACTIVITY_INIT_L3_ICLK_1_r"
newline
bitfld.long 0x00 0.--1. "CLKTRCTRL,Controls the clock state transition of the L3INIT clock domain" "CLKTRCTRL_0,CLKTRCTRL_1,CLKTRCTRL_2,CLKTRCTRL_3"
line.long 0x04 "CM_L3INIT_STATICDEP,This register controls the static domain dependencies from L3INIT domain towards 'target' domains"
bitfld.long 0x04 15. "L4WKUP_STATDEP,Static dependency towards L4WKUP clock domain" "L4WKUP_STATDEP_0,L4WKUP_STATDEP_1"
newline
bitfld.long 0x04 14. "L4SEC_STATDEP,Static dependency towards L4SEC clock domain" "L4SEC_STATDEP_0,L4SEC_STATDEP_1"
newline
bitfld.long 0x04 13. "L4PER_STATDEP,Static dependency towards L4PER clock domain" "L4PER_STATDEP_0,L4PER_STATDEP_1"
newline
bitfld.long 0x04 12. "L4CFG_STATDEP,Static dependency towards L4CFG clock domain" "L4CFG_STATDEP_0,L4CFG_STATDEP_1"
newline
bitfld.long 0x04 6. "L3_2_STATDEP,Static dependency towards L3_2 clock domain" "?,L3_2_STATDEP_1_r"
newline
bitfld.long 0x04 5. "L3_1_STATDEP,Static dependency towards L3_1 clock domain" "?,L3_1_STATDEP_1_r"
newline
bitfld.long 0x04 4. "MEMIF_STATDEP,Static dependency towards MEMIF clock domain" "MEMIF_STATDEP_0,MEMIF_STATDEP_1"
newline
bitfld.long 0x04 3. "ABE_STATDEP,Static dependency towards ABE clock domain" "ABE_STATDEP_0,ABE_STATDEP_1"
newline
bitfld.long 0x04 2. "IVAHD_STATDEP,Static dependency towards IVAHD clock domain" "IVAHD_STATDEP_0,IVAHD_STATDEP_1"
line.long 0x08 "CM_L3INIT_DYNAMICDEP,This register controls the dynamic domain depedencies from L3INIT domain towards 'target' domains"
bitfld.long 0x08 6. "L3_2_DYNDEP,Dynamic dependency towards L3_2 clock domain" "L3_2_DYNDEP_0_r,?"
newline
bitfld.long 0x08 5. "L3_1_DYNDEP,Dynamic dependency towards L3_1 clock domain" "L3_1_DYNDEP_0_r,?"
group.long 0x28++0x03
line.long 0x00 "CM_L3INIT_HSMMC1_CLKCTRL,This register manages the MMC1 clocks"
bitfld.long 0x00 24. "CLKSEL,Selects the source of the functional clock" "CLKSEL_0,CLKSEL_1"
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rbitfld.long 0x00 18. "STBYST,Module standby status" "STBYST_0_r,STBYST_1_r"
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rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
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bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x30++0x03
line.long 0x00 "CM_L3INIT_HSMMC2_CLKCTRL,This register manages the MMC2 clocks"
bitfld.long 0x00 24. "CLKSEL,Selects the source of the functional clock" "CLKSEL_0,CLKSEL_1"
newline
rbitfld.long 0x00 18. "STBYST,Module standby status" "STBYST_0_r,STBYST_1_r"
newline
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
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bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x38++0x03
line.long 0x00 "CM_L3INIT_HSI_CLKCTRL,This register manages the HSI clocks"
bitfld.long 0x00 24.--25. "CLKSEL,Selects the functional clock source" "CLKSEL_0,CLKSEL_1,CLKSEL_2,CLKSEL_3"
newline
rbitfld.long 0x00 18. "STBYST,Module standby status" "STBYST_0_r,STBYST_1_r"
newline
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
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bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1,?,MODULEMODE_3_r"
group.long 0x58++0x03
line.long 0x00 "CM_L3INIT_HSUSBHOST_CLKCTRL,This register manages the USB_HOST_HS clocks"
bitfld.long 0x00 25. "CLKSEL_UTMI_P2,Selects the source of the functional clock for UTMI Port2 on USB Host" "CLKSEL_UTMI_P2_0,CLKSEL_UTMI_P2_1"
newline
bitfld.long 0x00 24. "CLKSEL_UTMI_P1,Selects the source of the functional clock for UTMI Por1 on USB Host" "CLKSEL_UTMI_P1_0,CLKSEL_UTMI_P1_1"
newline
rbitfld.long 0x00 18. "STBYST,Module standby status" "STBYST_0_r,STBYST_1_r"
newline
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
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bitfld.long 0x00 15. "OPTFCLKEN_FUNC48MCLK,USB-HOST optional clock control: FUNC48MCLK" "OPTFCLKEN_FUNC48MCLK_0,OPTFCLKEN_FUNC48MCLK_1"
newline
bitfld.long 0x00 14. "OPTFCLKEN_HSIC480M_P2_CLK,USB-HOST optional clock control: HSIC480M_P2_CLK" "OPTFCLKEN_HSIC480M_P2_CLK_0,OPTFCLKEN_HSIC480M_P2_CLK_1"
newline
bitfld.long 0x00 13. "OPTFCLKEN_HSIC480M_P1_CLK,USB-HOST optional clock control: HSIC480M_P1_CLK" "OPTFCLKEN_HSIC480M_P1_CLK_0,OPTFCLKEN_HSIC480M_P1_CLK_1"
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bitfld.long 0x00 12. "OPTFCLKEN_HSIC60M_P2_CLK,USB-HOST optional clock control: HSIC60M_P2_CLK" "OPTFCLKEN_HSIC60M_P2_CLK_0,OPTFCLKEN_HSIC60M_P2_CLK_1"
newline
bitfld.long 0x00 11. "OPTFCLKEN_HSIC60M_P1_CLK,USB-HOST optional clock control: HSIC60M_P1_CLK" "OPTFCLKEN_HSIC60M_P1_CLK_0,OPTFCLKEN_HSIC60M_P1_CLK_1"
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bitfld.long 0x00 10. "OPTFCLKEN_UTMI_P3_CLK,USB-HOST optional clock control: UTMI_P3_CLK" "OPTFCLKEN_UTMI_P3_CLK_0,OPTFCLKEN_UTMI_P3_CLK_1"
newline
bitfld.long 0x00 9. "OPTFCLKEN_UTMI_P2_CLK,USB-HOST optional clock control: UTMI_P2_CLK when CLKSEL_UTMI_P2 is" "OPTFCLKEN_UTMI_P2_CLK_0,OPTFCLKEN_UTMI_P2_CLK_1"
newline
bitfld.long 0x00 8. "OPTFCLKEN_UTMI_P1_CLK,USB-HOST optional clock control: UTMI_P1_CLK when CLKSEL_UTMI_P1 is" "OPTFCLKEN_UTMI_P1_CLK_0,OPTFCLKEN_UTMI_P1_CLK_1"
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bitfld.long 0x00 4. "SAR_MODE,SAR mode control for the module" "SAR_MODE_0,SAR_MODE_1"
newline
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x60++0x03
line.long 0x00 "CM_L3INIT_HSUSBOTG_CLKCTRL,This register manages the USB_OTG_HS clocks"
bitfld.long 0x00 24. "CLKSEL_60M,Selects the source of the 60MHz functional clock" "CLKSEL_60M_0,CLKSEL_60M_1"
newline
rbitfld.long 0x00 18. "STBYST,Module standby status" "STBYST_0_r,STBYST_1_r"
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rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
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bitfld.long 0x00 8. "OPTFCLKEN_XCLK,USB_OTG optional clock control: XCLK (60MHz clock)" "OPTFCLKEN_XCLK_0,OPTFCLKEN_XCLK_1"
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bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1,MODULEMODE_2_r,MODULEMODE_3_r"
group.long 0x68++0x03
line.long 0x00 "CM_L3INIT_HSUSBTLL_CLKCTRL,This register manages the USB_TLL clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
newline
bitfld.long 0x00 9. "OPTFCLKEN_USB_CH1_CLK,USB-HOST optional clock control: USB_CH1_CLK" "OPTFCLKEN_USB_CH1_CLK_0,OPTFCLKEN_USB_CH1_CLK_1"
newline
bitfld.long 0x00 8. "OPTFCLKEN_USB_CH0_CLK,USB-HOST optional clock control: USB_CH0_CLK" "OPTFCLKEN_USB_CH0_CLK_0,OPTFCLKEN_USB_CH0_CLK_1"
newline
bitfld.long 0x00 4. "SAR_MODE,SAR mode control for the module" "SAR_MODE_0,SAR_MODE_1"
newline
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1,MODULEMODE_2_r,MODULEMODE_3_r"
group.long 0xD0++0x03
line.long 0x00 "CM_L3INIT_FSUSB_CLKCTRL,This register manages the USB_HOST_FS clocks"
rbitfld.long 0x00 18. "STBYST,Module standby status" "STBYST_0_r,STBYST_1_r"
newline
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
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bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0xE0++0x03
line.long 0x00 "CM_L3INIT_USBPHY_CLKCTRL,This register manages the USBPHY clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
newline
bitfld.long 0x00 8. "OPTFCLKEN_PHY_48M,USBPHY optional clock control: PHY_48M" "OPTFCLKEN_PHY_48M_0,OPTFCLKEN_PHY_48M_1"
newline
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1,MODULEMODE_2_r,MODULEMODE_3_r"
tree.end
tree "L3INIT_PRM"
base ansd:0x4A307300
group.long 0x00++0x07
line.long 0x00 "PM_L3INIT_PWRSTCTRL,This register controls the L3INIT power state to reach upon a domain sleep transition"
bitfld.long 0x00 16.--17. "L3INIT_BANK1_ONSTATE,L3INIT BANK state when domain is ON" "?,?,?,L3INIT_BANK1_ONSTATE_3_r"
rbitfld.long 0x00 8. "L3INIT_BANK1_RETSTATE,L3INIT BANK1 state when domain is RETENTION" "L3INIT_BANK1_RETSTATE_0_r,?"
newline
bitfld.long 0x00 4. "LOWPOWERSTATECHANGE,Power state change request when domain has already performed a sleep transition" "LOWPOWERSTATECHANGE_0,LOWPOWERSTATECHANGE_1"
bitfld.long 0x00 2. "LOGICRETSTATE,Logic state when power domain is RETENTION" "LOGICRETSTATE_0,LOGICRETSTATE_1"
newline
bitfld.long 0x00 0.--1. "POWERSTATE,Power state control" "POWERSTATE_0,POWERSTATE_1,POWERSTATE_2,POWERSTATE_3"
line.long 0x04 "PM_L3INIT_PWRSTST,This register provides a status on the current L3INIT power domain state"
bitfld.long 0x04 24.--25. "LASTPOWERSTATEENTERED,Last low power state entered" "LASTPOWERSTATEENTERED_0_r,LASTPOWERSTATEENTERED_1_r,LASTPOWERSTATEENTERED_2_r,LASTPOWERSTATEENTERED_3_r"
rbitfld.long 0x04 20. "INTRANSITION,Domain transition status" "INTRANSITION_0_r,INTRANSITION_1_r"
newline
rbitfld.long 0x04 4.--5. "L3INIT_BANK1_STATEST,L3INIT BANK1 state status" "L3INIT_BANK1_STATEST_0_r,L3INIT_BANK1_STATEST_1_r,L3INIT_BANK1_STATEST_2_r,L3INIT_BANK1_STATEST_3_r"
rbitfld.long 0x04 2. "LOGICSTATEST,Logic state status" "LOGICSTATEST_0_r,LOGICSTATEST_1_r"
newline
rbitfld.long 0x04 0.--1. "POWERSTATEST,Current power state status" "POWERSTATEST_0_r,POWERSTATEST_1_r,POWERSTATEST_2_r,POWERSTATEST_3_r"
group.long 0x28++0x17
line.long 0x00 "PM_L3INIT_MMC1_WKDEP,This register controls wakeup dependency based on MMC1 service requests"
bitfld.long 0x00 3. "WKUPDEP_MMC1_SDMA,Wakeup dependency from MMC1 module (softwareakeup signal) towards SDMA + L3_2 + L4PER domains" "WKUPDEP_MMC1_SDMA_0,WKUPDEP_MMC1_SDMA_1"
bitfld.long 0x00 2. "WKUPDEP_MMC1_DSP,Wakeup dependency from MMC1 module (softwareakeup signal) towards DSP + L3_1 + L3_2 + L4_PER domains" "WKUPDEP_MMC1_DSP_0,WKUPDEP_MMC1_DSP_1"
newline
bitfld.long 0x00 1. "WKUPDEP_MMC1_MPU_M3,Wakeup dependency from MMC1 module (softwareakeup signal) towards MPU_A3 + L3_2 + L4_PER domains" "WKUPDEP_MMC1_MPU_M3_0,WKUPDEP_MMC1_MPU_M3_1"
bitfld.long 0x00 0. "WKUPDEP_MMC1_MPU,Wakeup dependency from MMC1 module (softwareakeup signal) towards MPU + L3_1 + L3_2 + L4_PER domains" "WKUPDEP_MMC1_MPU_0,WKUPDEP_MMC1_MPU_1"
line.long 0x04 "RM_L3INIT_MMC1_CONTEXT,This register contains dedicated MMC1 context statuses"
bitfld.long 0x04 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" "LOSTMEM_L3INIT_BANK1_0,LOSTMEM_L3INIT_BANK1_1"
bitfld.long 0x04 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
line.long 0x08 "PM_L3INIT_MMC2_WKDEP,This register controls wakeup dependency based on MMC2 service requests"
bitfld.long 0x08 3. "WKUPDEP_MMC2_SDMA,Wakeup dependency from MMC2 module (softwareakeup signal) towards SDMA + L3_2 + L4PER domains" "WKUPDEP_MMC2_SDMA_0,WKUPDEP_MMC2_SDMA_1"
bitfld.long 0x08 2. "WKUPDEP_MMC2_DSP,Wakeup dependency from MMC2 module (softwareakeup signal) towards DSP + L3_1 + L3_2 + L4_PER domains" "WKUPDEP_MMC2_DSP_0,WKUPDEP_MMC2_DSP_1"
newline
bitfld.long 0x08 1. "WKUPDEP_MMC2_MPU_M3,Wakeup dependency from MMC2 module (softwareakeup signal) towards MPU_A3 + L3_2 + L4_PER domains" "WKUPDEP_MMC2_MPU_M3_0,WKUPDEP_MMC2_MPU_M3_1"
bitfld.long 0x08 0. "WKUPDEP_MMC2_MPU,Wakeup dependency from MMC2 module (softwareakeup signal) towards MPU + L3_1 + L3_2 + L4_PER domains" "WKUPDEP_MMC2_MPU_0,WKUPDEP_MMC2_MPU_1"
line.long 0x0C "RM_L3INIT_MMC2_CONTEXT,This register contains dedicated MMC2 context statuses"
bitfld.long 0x0C 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" "LOSTMEM_L3INIT_BANK1_0,LOSTMEM_L3INIT_BANK1_1"
bitfld.long 0x0C 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
line.long 0x10 "PM_L3INIT_HSI_WKDEP,This register controls wakeup dependency based on HSI service requests"
bitfld.long 0x10 8. "WKUPDEP_WGM_HSI_WAKE_MPU,Wakeup dependency from modem HSI_WAKE signal towards MPU + L3_1 + L4_CFG domains" "WKUPDEP_WGM_HSI_WAKE_MPU_0,WKUPDEP_WGM_HSI_WAKE_MPU_1"
bitfld.long 0x10 6. "WKUPDEP_HSI_DSP_DSP,Wakeup dependency from HSI module (softwareakeup_DSP signal) towards DSP + L3_1 + L4_CFG domains" "?,WKUPDEP_HSI_DSP_DSP_1_r"
newline
bitfld.long 0x10 1. "WKUPDEP_HSI_MCU_MPU_M3,Wakeup dependency from HSI module (softwareakeup_MPU signal) towards MPU_A3 + L3_2 + L3_1 + L4_CFG domains" "WKUPDEP_HSI_MCU_MPU_M3_0,WKUPDEP_HSI_MCU_MPU_M3_1"
bitfld.long 0x10 0. "WKUPDEP_HSI_MCU_MPU,Wakeup dependency from HSI module (softwareakeup_MPU signal) towards MPU + L3_1 + L4_CFG domains" "WKUPDEP_HSI_MCU_MPU_0,WKUPDEP_HSI_MCU_MPU_1"
line.long 0x14 "RM_L3INIT_HSI_CONTEXT,This register contains dedicated HSI context statuses"
bitfld.long 0x14 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" "LOSTMEM_L3INIT_BANK1_0,LOSTMEM_L3INIT_BANK1_1"
bitfld.long 0x14 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
group.long 0x58++0x17
line.long 0x00 "PM_L3INIT_HSUSBHOST_WKDEP,This register controls wakeup dependency based on USB_HOST_HS service requests"
bitfld.long 0x00 1. "WKUPDEP_HSUSBHOST_MPU_M3,Wakeup dependency from USB_HOST_HS module (softwareakeup signal) towards MPU_A3 + L3_2 + L3_1 + L4_CFG domains" "WKUPDEP_HSUSBHOST_MPU_M3_0,WKUPDEP_HSUSBHOST_MPU_M3_1"
bitfld.long 0x00 0. "WKUPDEP_HSUSBHOST_MPU,Wakeup dependency from USB_HOST_HS module (softwareakeup signal) towards MPU + L3_1 + L4_CFG domains" "WKUPDEP_HSUSBHOST_MPU_0,WKUPDEP_HSUSBHOST_MPU_1"
line.long 0x04 "RM_L3INIT_HSUSBHOST_CONTEXT,This register contains dedicated USB_HOST context statuses"
bitfld.long 0x04 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
line.long 0x08 "PM_L3INIT_HSUSBOTG_WKDEP,This register controls wakeup dependency based on USB_OTG_HS service requests"
bitfld.long 0x08 1. "WKUPDEP_HSUSBOTG_MPU_M3,Wakeup dependency from USB_OTG_HS module (softwareakeup signal) towards MPU_A3 + L3_2 + L3_1 + L4_CFG domains" "WKUPDEP_HSUSBOTG_MPU_M3_0,WKUPDEP_HSUSBOTG_MPU_M3_1"
bitfld.long 0x08 0. "WKUPDEP_HSUSBOTG_MPU,Wakeup dependency from USB_OTG_HS module (softwareakeup signal) towards MPU + L3_1 + L4_CFG domains" "WKUPDEP_HSUSBOTG_MPU_0,WKUPDEP_HSUSBOTG_MPU_1"
line.long 0x0C "RM_L3INIT_HSUSBOTG_CONTEXT,This register contains dedicated USB_OTG_HS context statuses"
bitfld.long 0x0C 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" "LOSTMEM_L3INIT_BANK1_0,LOSTMEM_L3INIT_BANK1_1"
bitfld.long 0x0C 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
line.long 0x10 "PM_L3INIT_HSUSBTLL_WKDEP,This register controls wakeup dependency based on USB_TLL service requests"
bitfld.long 0x10 1. "WKUPDEP_HSUSBTLL_MPU_M3,Wakeup dependency from USB_TLL module (softwareakeup signal) towards MPU_A3 + L3_2 + L3_1 + L4_CFG domains" "WKUPDEP_HSUSBTLL_MPU_M3_0,WKUPDEP_HSUSBTLL_MPU_M3_1"
bitfld.long 0x10 0. "WKUPDEP_HSUSBTLL_MPU,Wakeup dependency from USB_TLL module (softwareakeup signal) towards MPU + L3_1 + L4_CFG domains" "WKUPDEP_HSUSBTLL_MPU_0,WKUPDEP_HSUSBTLL_MPU_1"
line.long 0x14 "RM_L3INIT_HSUSBTLL_CONTEXT,This register contains dedicated USB_TLL context statuses"
bitfld.long 0x14 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
group.long 0xD0++0x07
line.long 0x00 "PM_L3INIT_FSUSB_WKDEP,This register controls wakeup dependency based on USB_HOST_FS service requests"
bitfld.long 0x00 1. "WKUPDEP_FSUSB_MPU_M3,Wakeup dependency from USB_HOST_FS module (softwareakeup signal) towards MPU_A3 + L3_2 + L3_1 + L4_CFG domains" "WKUPDEP_FSUSB_MPU_M3_0,WKUPDEP_FSUSB_MPU_M3_1"
bitfld.long 0x00 0. "WKUPDEP_FSUSB_MPU,Wakeup dependency from USB_HOST_FS module (softwareakeup signal) towards MPU + L3_1 + L4_CFG domains" "WKUPDEP_FSUSB_MPU_0,WKUPDEP_FSUSB_MPU_1"
line.long 0x04 "RM_L3INIT_FSUSB_CONTEXT,This register contains dedicated USB_HOST_FS context statuses"
bitfld.long 0x04 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
group.long 0xE4++0x03
line.long 0x00 "RM_L3INIT_USBPHY_CONTEXT,This register contains dedicated USBPHY context statuses"
bitfld.long 0x00 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
tree.end
tree "L4PER_CM2"
base ansd:0x4A009400
group.long 0x00++0x03
line.long 0x00 "CM_L4PER_CLKSTCTRL,This register enables the domain power state transition"
rbitfld.long 0x00 25. "CLKACTIVITY_PER_ABE_24M_FCLK,This field indicates the state of the PER_ABE_24M_FCLK clock in the domain" "CLKACTIVITY_PER_ABE_24M_FCLK_0_r,CLKACTIVITY_PER_ABE_24M_FCLK_1_r"
rbitfld.long 0x00 22. "CLKACTIVITY_PER_MCBSP4_FCLK,This field indicates the state of the PER_MCBSP4_FCLK clock in the domain" "CLKACTIVITY_PER_MCBSP4_FCLK_0_r,CLKACTIVITY_PER_MCBSP4_FCLK_1_r"
newline
rbitfld.long 0x00 19. "CLKACTIVITY_PER_96M_FCLK,This field indicates the state of the PER_96M_FCLK clock in the domain" "CLKACTIVITY_PER_96M_FCLK_0_r,CLKACTIVITY_PER_96M_FCLK_1_r"
rbitfld.long 0x00 18. "CLKACTIVITY_PER_48M_FCLK,This field indicates the state of the PER_48M_FCLK clock in the domain" "CLKACTIVITY_PER_48M_FCLK_0_r,CLKACTIVITY_PER_48M_FCLK_1_r"
newline
rbitfld.long 0x00 17. "CLKACTIVITY_PER_32K_FCLK,This field indicates the state of the PER_32K_FCLK clock in the domain" "CLKACTIVITY_PER_32K_FCLK_0_r,CLKACTIVITY_PER_32K_FCLK_1_r"
rbitfld.long 0x00 16. "CLKACTIVITY_PER_24MC_FCLK,This field indicates the state of the PER_24MC_FCLK clock in the domain" "CLKACTIVITY_PER_24MC_FCLK_0_r,CLKACTIVITY_PER_24MC_FCLK_1_r"
newline
rbitfld.long 0x00 15. "CLKACTIVITY_12M_FCLK,This field indicates the state of the FUNC_12M_FCLK clock in the domain" "CLKACTIVITY_12M_FCLK_0_r,CLKACTIVITY_12M_FCLK_1_r"
rbitfld.long 0x00 14. "CLKACTIVITY_GPT9_FCLK,This field indicates the state of the DMT9_FCLK clock in the domain" "CLKACTIVITY_GPT9_FCLK_0_r,CLKACTIVITY_GPT9_FCLK_1_r"
newline
rbitfld.long 0x00 13. "CLKACTIVITY_GPT4_FCLK,This field indicates the state of the DMT4_FCLK clock in the domain" "CLKACTIVITY_GPT4_FCLK_0_r,CLKACTIVITY_GPT4_FCLK_1_r"
rbitfld.long 0x00 12. "CLKACTIVITY_GPT3_FCLK,This field indicates the state of the DMT3_FCLK clock in the domain" "CLKACTIVITY_GPT3_FCLK_0_r,CLKACTIVITY_GPT3_FCLK_1_r"
newline
rbitfld.long 0x00 11. "CLKACTIVITY_GPT2_FCLK,This field indicates the state of the DMT2_FCLK clock in the domain" "CLKACTIVITY_GPT2_FCLK_0_r,CLKACTIVITY_GPT2_FCLK_1_r"
rbitfld.long 0x00 10. "CLKACTIVITY_GPT11_FCLK,This field indicates the state of the DMT11_FCLK clock in the domain" "CLKACTIVITY_GPT11_FCLK_0_r,CLKACTIVITY_GPT11_FCLK_1_r"
newline
rbitfld.long 0x00 9. "CLKACTIVITY_GPT10_FCLK,This field indicates the state of the DMT10_FCLK clock in the domain" "CLKACTIVITY_GPT10_FCLK_0_r,CLKACTIVITY_GPT10_FCLK_1_r"
rbitfld.long 0x00 8. "CLKACTIVITY_L4_PER_ICLK,This field indicates the state of the L4_PER_GICLK clock in the domain" "CLKACTIVITY_L4_PER_ICLK_0_r,CLKACTIVITY_L4_PER_ICLK_1_r"
newline
bitfld.long 0x00 0.--1. "CLKTRCTRL,Controls the clock state transition of the L4PER clock domain" "CLKTRCTRL_0,CLKTRCTRL_1,CLKTRCTRL_2,CLKTRCTRL_3"
group.long 0x08++0x03
line.long 0x00 "CM_L4PER_DYNAMICDEP,This register controls the dynamic domain dependencies from L4PER domain towards 'target' domains"
bitfld.long 0x00 24.--27. "WINDOWSIZE,Size of sliding window used to monitor INTRCONN interface activity for determination of auto-sleep feature" "WINDOWSIZE_0,WINDOWSIZE_1,WINDOWSIZE_2,WINDOWSIZE_3,WINDOWSIZE_4,WINDOWSIZE_5,WINDOWSIZE_6,WINDOWSIZE_7,WINDOWSIZE_8,WINDOWSIZE_9,WINDOWSIZE_10,WINDOWSIZE_11,WINDOWSIZE_12,WINDOWSIZE_13,WINDOWSIZE_14,WINDOWSIZE_15"
rbitfld.long 0x00 14. "L4SEC_DYNDEP,Dynamic dependency towards L4SEC clock domain" "?,L4SEC_DYNDEP_1_r"
newline
bitfld.long 0x00 8. "DSS_DYNDEP,Dynamic dependency towards DSS clock domain" "?,DSS_DYNDEP_1_r"
bitfld.long 0x00 7. "L3_INIT_DYNDEP,Dynamic dependency towards L3INIT clock domain" "?,L3_INIT_DYNDEP_1_r"
group.long 0x28++0x03
line.long 0x00 "CM_L4PER_GPTIMER10_CLKCTRL,This register manages the DMTIMER10 clocks"
bitfld.long 0x00 24. "CLKSEL,Select the source of the functional clock" "CLKSEL_0,CLKSEL_1"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
newline
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x30++0x03
line.long 0x00 "CM_L4PER_GPTIMER11_CLKCTRL,This register manages the DMTIMER11 clocks"
bitfld.long 0x00 24. "CLKSEL,Select the source of the functional clock" "CLKSEL_0,CLKSEL_1"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
newline
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x38++0x03
line.long 0x00 "CM_L4PER_GPTIMER2_CLKCTRL,This register manages the DMTIMER2 clocks"
bitfld.long 0x00 24. "CLKSEL,Select the source of the functional clock" "CLKSEL_0,CLKSEL_1"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
newline
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x40++0x03
line.long 0x00 "CM_L4PER_GPTIMER3_CLKCTRL,This register manages the DMTIMER3 clocks"
bitfld.long 0x00 24. "CLKSEL,Select the source of the functional clock" "CLKSEL_0,CLKSEL_1"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
newline
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x48++0x03
line.long 0x00 "CM_L4PER_GPTIMER4_CLKCTRL,This register manages the DMTIMER4 clocks"
bitfld.long 0x00 24. "CLKSEL,Select the source of the functional clock" "CLKSEL_0,CLKSEL_1"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
newline
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x50++0x03
line.long 0x00 "CM_L4PER_GPTIMER9_CLKCTRL,This register manages the DMTIMER9 clocks"
bitfld.long 0x00 24. "CLKSEL,Select the source of the functional clock" "CLKSEL_0,CLKSEL_1"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
newline
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x58++0x03
line.long 0x00 "CM_L4PER_ELM_CLKCTRL,This register manages the ELM clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "?,MODULEMODE_1_r,?,?"
group.long 0x60++0x03
line.long 0x00 "CM_L4PER_GPIO2_CLKCTRL,This register manages the GPIO2 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 8. "OPTFCLKEN_DBCLK,Optional functional clock control" "OPTFCLKEN_DBCLK_0,OPTFCLKEN_DBCLK_1"
newline
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1,MODULEMODE_2_r,MODULEMODE_3_r"
group.long 0x68++0x03
line.long 0x00 "CM_L4PER_GPIO3_CLKCTRL,This register manages the GPIO3 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 8. "OPTFCLKEN_DBCLK,Optional functional clock control" "OPTFCLKEN_DBCLK_0,OPTFCLKEN_DBCLK_1"
newline
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1,MODULEMODE_2_r,MODULEMODE_3_r"
group.long 0x70++0x03
line.long 0x00 "CM_L4PER_GPIO4_CLKCTRL,This register manages the GPIO4 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 8. "OPTFCLKEN_DBCLK,Optional functional clock control" "OPTFCLKEN_DBCLK_0,OPTFCLKEN_DBCLK_1"
newline
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1,MODULEMODE_2_r,MODULEMODE_3_r"
group.long 0x78++0x03
line.long 0x00 "CM_L4PER_GPIO5_CLKCTRL,This register manages the GPIO5 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 8. "OPTFCLKEN_DBCLK,Optional functional clock control" "OPTFCLKEN_DBCLK_0,OPTFCLKEN_DBCLK_1"
newline
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1,MODULEMODE_2_r,MODULEMODE_3_r"
group.long 0x80++0x03
line.long 0x00 "CM_L4PER_GPIO6_CLKCTRL,This register manages the GPIO6 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 8. "OPTFCLKEN_DBCLK,Optional functional clock control" "OPTFCLKEN_DBCLK_0,OPTFCLKEN_DBCLK_1"
newline
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1,MODULEMODE_2_r,MODULEMODE_3_r"
group.long 0x88++0x03
line.long 0x00 "CM_L4PER_HDQ1W_CLKCTRL,This register manages the HDQ1W clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0xA0++0x03
line.long 0x00 "CM_L4PER_I2C1_CLKCTRL,This register manages the I2C1 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0xA8++0x03
line.long 0x00 "CM_L4PER_I2C2_CLKCTRL,This register manages the I2C2 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0xB0++0x03
line.long 0x00 "CM_L4PER_I2C3_CLKCTRL,This register manages the I2C3 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0xB8++0x03
line.long 0x00 "CM_L4PER_I2C4_CLKCTRL,This register manages the I2C4 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0xC0++0x03
line.long 0x00 "CM_L4PER_L4PER_CLKCTRL,This register manages the L4PER clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "?,MODULEMODE_1_r,?,?"
group.long 0xE0++0x03
line.long 0x00 "CM_L4PER_MCBSP4_CLKCTRL,This register manages the MCBSP4 clocks"
bitfld.long 0x00 25. "CLKSEL_INTERNAL_SOURCE,Selects the internal clock to be used as the functional clock in case CLKSEL_SOURCE selects the internal clock source as the functional clock source" "CLKSEL_INTERNAL_SOURCE_0,CLKSEL_INTERNAL_SOURCE_1"
bitfld.long 0x00 24. "CLKSEL_SOURCE,Selects the source of the functional clock between internal source and CLKS pad" "CLKSEL_SOURCE_0,CLKSEL_SOURCE_1"
newline
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0xF0++0x03
line.long 0x00 "CM_L4PER_MCSPI1_CLKCTRL,This register manages the MCSPI1 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0xF8++0x03
line.long 0x00 "CM_L4PER_MCSPI2_CLKCTRL,This register manages the MCSPI2 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x100++0x03
line.long 0x00 "CM_L4PER_MCSPI3_CLKCTRL,This register manages the MCSPI3 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x108++0x03
line.long 0x00 "CM_L4PER_MCSPI4_CLKCTRL,This register manages the MCSPI4 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x120++0x03
line.long 0x00 "CM_L4PER_MMCSD3_CLKCTRL,This register manages the MMCSD3 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x128++0x03
line.long 0x00 "CM_L4PER_MMCSD4_CLKCTRL,This register manages the MMCSD4 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x138++0x03
line.long 0x00 "CM_L4PER_SLIMBUS2_CLKCTRL,This register manages the SLIMBUS2 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 10. "OPTFCLKEN_SLIMBUS_CLK,Optional functional clock control" "OPTFCLKEN_SLIMBUS_CLK_0,OPTFCLKEN_SLIMBUS_CLK_1"
newline
bitfld.long 0x00 9. "OPTFCLKEN_PERABE24M_FCLK,Optional functional clock control for PER_ABE_24M_FCLK clock" "OPTFCLKEN_PERABE24M_FCLK_0,OPTFCLKEN_PERABE24M_FCLK_1"
bitfld.long 0x00 8. "OPTFCLKEN_PER24MC_FCLK,Optional functional clock control for PER_24MC_FCLK clock" "OPTFCLKEN_PER24MC_FCLK_0,OPTFCLKEN_PER24MC_FCLK_1"
newline
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x140++0x03
line.long 0x00 "CM_L4PER_UART1_CLKCTRL,This register manages the UART1 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x148++0x03
line.long 0x00 "CM_L4PER_UART2_CLKCTRL,This register manages the UART2 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x150++0x03
line.long 0x00 "CM_L4PER_UART3_CLKCTRL,This register manages the UART3 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x158++0x03
line.long 0x00 "CM_L4PER_UART4_CLKCTRL,This register manages the UART4 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x160++0x03
line.long 0x00 "CM_L4PER_MMCSD5_CLKCTRL,This register manages the MMCSD5 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x180++0x0B
line.long 0x00 "CM_L4SEC_CLKSTCTRL,This register enables the domain power state transition"
rbitfld.long 0x00 9. "CLKACTIVITY_L4_SECURE_GICLK,This field indicates the state of the L4_SECURE_GICLK clock in the domain" "CLKACTIVITY_L4_SECURE_GICLK_0_r,CLKACTIVITY_L4_SECURE_GICLK_1_r"
rbitfld.long 0x00 8. "CLKACTIVITY_L3_SECURE_GICLK,This field indicates the state of the L3_SECURE_GICLK clock in the domain" "CLKACTIVITY_L3_SECURE_GICLK_0_r,CLKACTIVITY_L3_SECURE_GICLK_1_r"
newline
bitfld.long 0x00 0.--1. "CLKTRCTRL,Controls the clock state transition of the L4SEC clock domain" "CLKTRCTRL_0,CLKTRCTRL_1,CLKTRCTRL_2,CLKTRCTRL_3"
line.long 0x04 "CM_L4SEC_STATICDEP,This register controls the static domain dependencies from L4SEC domain towards 'target' domains"
bitfld.long 0x04 13. "L4PER_STATDEP,Static dependency towards L4PER clock domain" "L4PER_STATDEP_0,L4PER_STATDEP_1"
rbitfld.long 0x04 6. "L3_2_STATDEP,Static dependency towards L3_2 clock domain" "?,L3_2_STATDEP_1_r"
newline
bitfld.long 0x04 5. "L3_1_STATDEP,Static dependency towards L3_1 clock domain" "L3_1_STATDEP_0,L3_1_STATDEP_1"
bitfld.long 0x04 4. "MEMIF_STATDEP,Static dependency towards MEMIF clock domain" "MEMIF_STATDEP_0,MEMIF_STATDEP_1"
line.long 0x08 "CM_L4SEC_DYNAMICDEP,This register controls the dynamic domain dependencies from L4SEC domain towards 'target' domains"
bitfld.long 0x08 6. "L3_2_DYNDEP,Dynamic dependency towards L3_2 clock domain" "L3_2_DYNDEP_0_r,?"
group.long 0x1A0++0x03
line.long 0x00 "CM_L4SEC_AES1_CLKCTRL,This register manages the AES1 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x1A8++0x03
line.long 0x00 "CM_L4SEC_AES2_CLKCTRL,This register manages the AES2 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x1B0++0x03
line.long 0x00 "CM_L4SEC_DES3DES_CLKCTRL,This register manages the DES3DES clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x1B8++0x03
line.long 0x00 "CM_L4SEC_PKA_CLKCTRL,This register manages the PKA clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x1C0++0x03
line.long 0x00 "CM_L4SEC_RNG_CLKCTRL,This register manages the RNG clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1,MODULEMODE_2_r,MODULEMODE_3_r"
group.long 0x1C8++0x03
line.long 0x00 "CM_L4SEC_SHA2MD5_CLKCTRL,This register manages the SHA2MD5 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
tree.end
tree "L4PER_PRM"
base ansd:0x4A307400
group.long 0x00++0x07
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" "?,?,?,NONRETAINED_BANK_ONSTATE_3_r"
bitfld.long 0x00 16.--17. "RETAINED_BANK_ONSTATE,RETAINED_BANK state when domain is ON" "?,?,?,RETAINED_BANK_ONSTATE_3_r"
newline
rbitfld.long 0x00 9. "NONRETAINED_BANK_RETSTATE,NONRETAINED_BANK state when domain is RETENTION" "NONRETAINED_BANK_RETSTATE_0_r,?"
bitfld.long 0x00 8. "RETAINED_BANK_RETSTATE,RETAINED_BANK state when domain is RETENTION" "?,RETAINED_BANK_RETSTATE_1_r"
newline
bitfld.long 0x00 4. "LOWPOWERSTATECHANGE,Power state change request when domain has already performed a sleep transition" "LOWPOWERSTATECHANGE_0,LOWPOWERSTATECHANGE_1"
bitfld.long 0x00 2. "LOGICRETSTATE,Logic state when power domain is RETENTION" "LOGICRETSTATE_0,LOGICRETSTATE_1"
newline
bitfld.long 0x00 0.--1. "POWERSTATE,Power state control" "POWERSTATE_0,POWERSTATE_1,POWERSTATE_2,POWERSTATE_3"
line.long 0x04 "PM_L4PER_PWRSTST,This register provides a status on the current L4PER power domain state"
bitfld.long 0x04 24.--25. "LASTPOWERSTATEENTERED,Last low power state entered" "LASTPOWERSTATEENTERED_0_r,LASTPOWERSTATEENTERED_1_r,LASTPOWERSTATEENTERED_2_r,LASTPOWERSTATEENTERED_3_r"
rbitfld.long 0x04 20. "INTRANSITION,Domain transition status" "INTRANSITION_0_r,INTRANSITION_1_r"
newline
rbitfld.long 0x04 6.--7. "NONRETAINED_BANK_STATEST,NONRETAINED_BANK state status" "NONRETAINED_BANK_STATEST_0_r,NONRETAINED_BANK_STATEST_1_r,NONRETAINED_BANK_STATEST_2_r,NONRETAINED_BANK_STATEST_3_r"
rbitfld.long 0x04 4.--5. "RETAINED_BANK_STATEST,RETAINED_BANK state status" "RETAINED_BANK_STATEST_0_r,RETAINED_BANK_STATEST_1_r,RETAINED_BANK_STATEST_2_r,RETAINED_BANK_STATEST_3_r"
newline
rbitfld.long 0x04 2. "LOGICSTATEST,Logic state status" "LOGICSTATEST_0_r,LOGICSTATEST_1_r"
rbitfld.long 0x04 0.--1. "POWERSTATEST,Current power state status" "POWERSTATEST_0_r,POWERSTATEST_1_r,POWERSTATEST_2_r,POWERSTATEST_3_r"
group.long 0x28++0x2F
line.long 0x00 "PM_L4PER_GPTIMER10_WKDEP,This register controls wakeup dependency based on DMTIMER10 service requests"
bitfld.long 0x00 0. "WKUPDEP_DMTIMER10_MPU,Wakeup dependency from DMTIMER10 module (softwareakeup signal) towards MPU + L3_1 + L3_2 domains" "?,WKUPDEP_DMTIMER10_MPU_1_r"
line.long 0x04 "RM_L4PER_GPTIMER10_CONTEXT,This register contains dedicated DMTIMER10 context statuses"
bitfld.long 0x04 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
line.long 0x08 "PM_L4PER_GPTIMER11_WKDEP,This register controls wakeup dependency based on DMTIMER11 service requests"
bitfld.long 0x08 1. "WKUPDEP_DMTIMER11_MPU_M3,Wakeup dependency from DMTIMER11 module (softwareakeup signal) towards MPU_A3 + L3_2 domains" "WKUPDEP_DMTIMER11_MPU_M3_0,WKUPDEP_DMTIMER11_MPU_M3_1"
bitfld.long 0x08 0. "WKUPDEP_DMTIMER11_MPU,Wakeup dependency from DMTIMER11 module (softwareakeup signal) towards MPU + L3_1 + L3_2 domains" "WKUPDEP_DMTIMER11_MPU_0,WKUPDEP_DMTIMER11_MPU_1"
line.long 0x0C "RM_L4PER_GPTIMER11_CONTEXT,This register contains dedicated DMTIMER11 context statuses"
bitfld.long 0x0C 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
line.long 0x10 "PM_L4PER_GPTIMER2_WKDEP,This register controls wakeup dependency based on DMTIMER2 service requests"
bitfld.long 0x10 0. "WKUPDEP_DMTIMER2_MPU,Wakeup dependency from DMTIMER2 module (softwareakeup signal) towards MPU + L3_1 + L3_2 domains" "?,WKUPDEP_DMTIMER2_MPU_1_r"
line.long 0x14 "RM_L4PER_GPTIMER2_CONTEXT,This register contains dedicated DMTIMER2 context statuses"
bitfld.long 0x14 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
line.long 0x18 "PM_L4PER_GPTIMER3_WKDEP,This register controls wakeup dependency based on DMTIMER3 service requests"
bitfld.long 0x18 1. "WKUPDEP_DMTIMER3_MPU_M3,Wakeup dependency from DMTIMER3 module (softwareakeup signal) towards MPU_A3 + L3_2 domains" "WKUPDEP_DMTIMER3_MPU_M3_0,WKUPDEP_DMTIMER3_MPU_M3_1"
bitfld.long 0x18 0. "WKUPDEP_DMTIMER3_MPU,Wakeup dependency from DMTIMER3 module (softwareakeup signal) towards MPU + L3_1 + L3_2 domains" "WKUPDEP_DMTIMER3_MPU_0,WKUPDEP_DMTIMER3_MPU_1"
line.long 0x1C "RM_L4PER_GPTIMER3_CONTEXT,This register contains dedicated DMTIMER3 context statuses"
bitfld.long 0x1C 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
line.long 0x20 "PM_L4PER_GPTIMER4_WKDEP,This register controls wakeup dependency based on DMTIMER4 service requests"
bitfld.long 0x20 1. "WKUPDEP_DMTIMER4_MPU_M3,Wakeup dependency from DMTIMER4 module (softwareakeup signal) towards MPU_A3 + L3_2 domains" "WKUPDEP_DMTIMER4_MPU_M3_0,WKUPDEP_DMTIMER4_MPU_M3_1"
bitfld.long 0x20 0. "WKUPDEP_DMTIMER4_MPU,Wakeup dependency from DMTIMER4 module (softwareakeup signal) towards MPU + L3_1 + L3_2 domains" "WKUPDEP_DMTIMER4_MPU_0,WKUPDEP_DMTIMER4_MPU_1"
line.long 0x24 "RM_L4PER_GPTIMER4_CONTEXT,This register contains dedicated DMTIMER4 context statuses"
bitfld.long 0x24 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
line.long 0x28 "PM_L4PER_GPTIMER9_WKDEP,This register controls wakeup dependency based on DMTIMER9 service requests"
bitfld.long 0x28 1. "WKUPDEP_DMTIMER9_MPU_M3,Wakeup dependency from DMTIMER9 module (softwareakeup signal) towards MPU_A3 + L3_2 domains" "WKUPDEP_DMTIMER9_MPU_M3_0,WKUPDEP_DMTIMER9_MPU_M3_1"
bitfld.long 0x28 0. "WKUPDEP_DMTIMER9_MPU,Wakeup dependency from DMTIMER9 module (softwareakeup signal) towards MPU + L3_1 + L3_2 domains" "WKUPDEP_DMTIMER9_MPU_0,WKUPDEP_DMTIMER9_MPU_1"
line.long 0x2C "RM_L4PER_GPTIMER9_CONTEXT,This register contains dedicated DMTIMER9 context statuses"
bitfld.long 0x2C 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
group.long 0x5C++0x2B
line.long 0x00 "RM_L4PER_ELM_CONTEXT,This register contains dedicated ELM context statuses"
bitfld.long 0x00 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
line.long 0x04 "PM_L4PER_GPIO2_WKDEP,This register controls wakeup dependency based on GPIO2 service requests"
bitfld.long 0x04 6. "WKUPDEP_GPIO2_IRQ2_DSP,Wakeup dependency from GPIO2 module (POINTRsoftwareAKEUP2 signal) towards DSP + L3_1 + L3_2 domains" "?,WKUPDEP_GPIO2_IRQ2_DSP_1_r"
bitfld.long 0x04 1. "WKUPDEP_GPIO2_IRQ1_MPU_M3,Wakeup dependency from GPIO2 module (POINTRsoftwareAKEUP1 signal) module towards MPU_A3 + L3_2 domains" "WKUPDEP_GPIO2_IRQ1_MPU_M3_0,WKUPDEP_GPIO2_IRQ1_MPU_M3_1"
newline
bitfld.long 0x04 0. "WKUPDEP_GPIO2_IRQ1_MPU,Wakeup dependency from GPIO2 module (POINTRsoftwareAKEUP1 signal) towards MPU + L3_1 + L3_2 domains" "WKUPDEP_GPIO2_IRQ1_MPU_0,WKUPDEP_GPIO2_IRQ1_MPU_1"
line.long 0x08 "RM_L4PER_GPIO2_CONTEXT,This register contains dedicated GPIO2 context statuses"
bitfld.long 0x08 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
line.long 0x0C "PM_L4PER_GPIO3_WKDEP,This register controls wakeup dependency based on GPIO3 service requests"
bitfld.long 0x0C 6. "WKUPDEP_GPIO3_IRQ2_DSP,Wakeup dependency from GPIO3 module (POINTRsoftwareAKEUP2 signal) towards DSP + L3_1 + L3_2 domains" "?,WKUPDEP_GPIO3_IRQ2_DSP_1_r"
bitfld.long 0x0C 0. "WKUPDEP_GPIO3_IRQ1_MPU,Wakeup dependency from GPIO3 module (POINTRsoftwareAKEUP1 signal) towards MPU + L3_1 + L3_2 domains" "WKUPDEP_GPIO3_IRQ1_MPU_0,WKUPDEP_GPIO3_IRQ1_MPU_1"
line.long 0x10 "RM_L4PER_GPIO3_CONTEXT,This register contains dedicated GPIO3 context statuses"
bitfld.long 0x10 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
line.long 0x14 "PM_L4PER_GPIO4_WKDEP,This register controls wakeup dependency based on GPIO4 service requests"
bitfld.long 0x14 6. "WKUPDEP_GPIO4_IRQ2_DSP,Wakeup dependency from GPIO4 module (POINTRsoftwareAKEUP2 signal) towards DSP + L3_1 + L3_2 domains" "?,WKUPDEP_GPIO4_IRQ2_DSP_1_r"
bitfld.long 0x14 0. "WKUPDEP_GPIO4_IRQ1_MPU,Wakeup dependency from GPIO4 module (POINTRsoftwareAKEUP1 signal) towards MPU + L3_1 + L3_2 domains" "WKUPDEP_GPIO4_IRQ1_MPU_0,WKUPDEP_GPIO4_IRQ1_MPU_1"
line.long 0x18 "RM_L4PER_GPIO4_CONTEXT,This register contains dedicated GPIO4 context statuses"
bitfld.long 0x18 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
line.long 0x1C "PM_L4PER_GPIO5_WKDEP,This register controls wakeup dependency based on GPIO5 service requests"
bitfld.long 0x1C 6. "WKUPDEP_GPIO5_IRQ2_DSP,Wakeup dependency from GPIO5 module (POINTRsoftwareAKEUP2 signal) towards DSP + L3_1 + L3_2 domains" "?,WKUPDEP_GPIO5_IRQ2_DSP_1_r"
bitfld.long 0x1C 0. "WKUPDEP_GPIO5_IRQ1_MPU,Wakeup dependency from GPIO5 module (POINTRsoftwareAKEUP1 signal) towards MPU + L3_1 + L3_2 domains" "?,WKUPDEP_GPIO5_IRQ1_MPU_1_r"
line.long 0x20 "RM_L4PER_GPIO5_CONTEXT,This register contains dedicated GPIO5 context statuses"
bitfld.long 0x20 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
line.long 0x24 "PM_L4PER_GPIO6_WKDEP,This register controls wakeup dependency based on GPIO6 service requests"
bitfld.long 0x24 6. "WKUPDEP_GPIO6_IRQ2_DSP,Wakeup dependency from GPIO6 module (POINTRsoftwareAKEUP2 signal) towards DSP + L3_1 + L3_2 domains" "?,WKUPDEP_GPIO6_IRQ2_DSP_1_r"
bitfld.long 0x24 0. "WKUPDEP_GPIO6_IRQ1_MPU,Wakeup dependency from GPIO6 module (POINTRsoftwareAKEUP1 signal) towards MPU + L3_1 + L3_2 domains" "?,WKUPDEP_GPIO6_IRQ1_MPU_1_r"
line.long 0x28 "RM_L4PER_GPIO6_CONTEXT,This register contains dedicated GPIO6 context statuses"
bitfld.long 0x28 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
group.long 0x8C++0x03
line.long 0x00 "RM_L4PER_HDQ1W_CONTEXT,This register contains dedicated HDQ1W context statuses"
bitfld.long 0x00 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
group.long 0xA0++0x23
line.long 0x00 "PM_L4PER_I2C1_WKDEP,This register controls wakeup dependency based on I2C1 service requests"
bitfld.long 0x00 7. "WKUPDEP_I2C1_DMA_SDMA,Wakeup dependency from I2C1 module (softwareakeup_dma signal) towards SDMA + L3_2 domains" "?,WKUPDEP_I2C1_DMA_SDMA_1_r"
bitfld.long 0x00 1. "WKUPDEP_I2C1_IRQ_MPU_M3,Wakeup dependency from I2C1 module (softwareakeup_irq signal) towards MPU_A3 + L3_2 domains" "WKUPDEP_I2C1_IRQ_MPU_M3_0,WKUPDEP_I2C1_IRQ_MPU_M3_1"
newline
bitfld.long 0x00 0. "WKUPDEP_I2C1_IRQ_MPU,Wakeup dependency from I2C1 module (softwareakeup_irq signal) towards MPU + L3_1 + L3_2 domains" "WKUPDEP_I2C1_IRQ_MPU_0,WKUPDEP_I2C1_IRQ_MPU_1"
line.long 0x04 "RM_L4PER_I2C1_CONTEXT,This register contains dedicated I2C1 context statuses"
bitfld.long 0x04 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
line.long 0x08 "PM_L4PER_I2C2_WKDEP,This register controls wakeup dependency based on I2C2 service requests"
bitfld.long 0x08 7. "WKUPDEP_I2C2_DMA_SDMA,Wakeup dependency from I2C2 module (softwareakeup_dma signal) towards SDMA + L3_2 domains" "?,WKUPDEP_I2C2_DMA_SDMA_1_r"
bitfld.long 0x08 1. "WKUPDEP_I2C2_IRQ_MPU_M3,Wakeup dependency from I2C2 module (softwareakeup_irq signal) towards MPU_A3 + L3_2 domains" "WKUPDEP_I2C2_IRQ_MPU_M3_0,WKUPDEP_I2C2_IRQ_MPU_M3_1"
newline
bitfld.long 0x08 0. "WKUPDEP_I2C2_IRQ_MPU,Wakeup dependency from I2C2 module (softwareakeup_irq signal) towards MPU + L3_1 + L3_2 domains" "WKUPDEP_I2C2_IRQ_MPU_0,WKUPDEP_I2C2_IRQ_MPU_1"
line.long 0x0C "RM_L4PER_I2C2_CONTEXT,This register contains dedicated I2C2 context statuses"
bitfld.long 0x0C 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
line.long 0x10 "PM_L4PER_I2C3_WKDEP,This register controls wakeup dependency based on I2C3 service requests"
bitfld.long 0x10 7. "WKUPDEP_I2C3_DMA_SDMA,Wakeup dependency from I2C3 module (softwareakeup_dma signal) towards SDMA + L3_2 domains" "?,WKUPDEP_I2C3_DMA_SDMA_1_r"
bitfld.long 0x10 1. "WKUPDEP_I2C3_IRQ_MPU_M3,Wakeup dependency from I2C3 module (softwareakeup_irq signal) towards MPU_A3 + L3_2 domains" "WKUPDEP_I2C3_IRQ_MPU_M3_0,WKUPDEP_I2C3_IRQ_MPU_M3_1"
newline
bitfld.long 0x10 0. "WKUPDEP_I2C3_IRQ_MPU,Wakeup dependency from I2C3 module (softwareakeup_irq signal) towards MPU + L3_1 + L3_2 domains" "WKUPDEP_I2C3_IRQ_MPU_0,WKUPDEP_I2C3_IRQ_MPU_1"
line.long 0x14 "RM_L4PER_I2C3_CONTEXT,This register contains dedicated I2C3 context statuses"
bitfld.long 0x14 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
line.long 0x18 "PM_L4PER_I2C4_WKDEP,This register controls wakeup dependency based on I2C4 service requests"
bitfld.long 0x18 7. "WKUPDEP_I2C4_DMA_SDMA,Wakeup dependency from I2C4 module (softwareakeup_dma signal) towards SDMA + L3_2 domains" "?,WKUPDEP_I2C4_DMA_SDMA_1_r"
bitfld.long 0x18 1. "WKUPDEP_I2C4_IRQ_MPU_M3,Wakeup dependency from I2C4 module (softwareakeup_irq signal) towards MPU_A3 + L3_2 domains" "WKUPDEP_I2C4_IRQ_MPU_M3_0,WKUPDEP_I2C4_IRQ_MPU_M3_1"
newline
bitfld.long 0x18 0. "WKUPDEP_I2C4_IRQ_MPU,Wakeup dependency from I2C4 module (softwareakeup_irq signal) towards MPU + L3_1 + L3_2 domains" "WKUPDEP_I2C4_IRQ_MPU_0,WKUPDEP_I2C4_IRQ_MPU_1"
line.long 0x1C "RM_L4PER_I2C4_CONTEXT,This register contains dedicated I2C4 context statuses"
bitfld.long 0x1C 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
line.long 0x20 "RM_L4PER_L4_PER_CONTEXT,This register contains dedicated L4_PER context statuses"
bitfld.long 0x20 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
bitfld.long 0x20 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
group.long 0xE0++0x07
line.long 0x00 "PM_L4PER_MCBSP4_WKDEP,This register controls wakeup dependency based on MCBSP4 service requests"
bitfld.long 0x00 3. "WKUPDEP_MCBSP4_SDMA,Wakeup dependency from MCBSP4 module (softwareakeup signal) towards SDMA + L3_2 domains" "WKUPDEP_MCBSP4_SDMA_0,WKUPDEP_MCBSP4_SDMA_1"
bitfld.long 0x00 2. "WKUPDEP_MCBSP4_DSP,Wakeup dependency from MCBSP4 module (softwareakeup signal) towards DSP + L3_1 + L3_2 domain" "WKUPDEP_MCBSP4_DSP_0,WKUPDEP_MCBSP4_DSP_1"
newline
bitfld.long 0x00 0. "WKUPDEP_MCBSP4_MPU,Wakeup dependency from MCBSP4 module (softwareakeup signal) towards MPU + L3_1 + L3_2 domain" "WKUPDEP_MCBSP4_MPU_0,WKUPDEP_MCBSP4_MPU_1"
line.long 0x04 "RM_L4PER_MCBSP4_CONTEXT,This register contains dedicated MCBSP4 context statuses"
bitfld.long 0x04 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" "LOSTMEM_NONRETAINED_BANK_0,LOSTMEM_NONRETAINED_BANK_1"
bitfld.long 0x04 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
group.long 0xF0++0x1F
line.long 0x00 "PM_L4PER_MCSPI1_WKDEP,This register controls wakeup dependency based on MCSPI1 service requests"
bitfld.long 0x00 3. "WKUPDEP_MCSPI1_SDMA,Wakeup dependency from MCSPI1 module (softwareakeup signal) towards SDMA + L3_2 domains" "WKUPDEP_MCSPI1_SDMA_0,WKUPDEP_MCSPI1_SDMA_1"
bitfld.long 0x00 2. "WKUPDEP_MCSPI1_DSP,Wakeup dependency from MCSPI1 module (softwareakeup signal) towards DSP + L3_1 + L3_2 domains" "WKUPDEP_MCSPI1_DSP_0,WKUPDEP_MCSPI1_DSP_1"
newline
bitfld.long 0x00 1. "WKUPDEP_MCSPI1_MPU_M3,Wakeup dependency from MCSPI1 module (softwareakeup signal) towards MPU_A3 + L3_2 domains" "WKUPDEP_MCSPI1_MPU_M3_0,WKUPDEP_MCSPI1_MPU_M3_1"
bitfld.long 0x00 0. "WKUPDEP_MCSPI1_MPU,Wakeup dependency from MCSPI1 module (softwareakeup signal) towards MPU + L3_1 + L3_2 domains" "WKUPDEP_MCSPI1_MPU_0,WKUPDEP_MCSPI1_MPU_1"
line.long 0x04 "RM_L4PER_MCSPI1_CONTEXT,This register contains dedicated MCSPI1 context statuses"
bitfld.long 0x04 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
line.long 0x08 "PM_L4PER_MCSPI2_WKDEP,This register controls wakeup dependency based on MCSPI2 service requests"
bitfld.long 0x08 3. "WKUPDEP_MCSPI2_SDMA,Wakeup dependency from MCSPI2 module (softwareakeup signal) towards SDMA + L3_2 domains" "WKUPDEP_MCSPI2_SDMA_0,WKUPDEP_MCSPI2_SDMA_1"
bitfld.long 0x08 1. "WKUPDEP_MCSPI2_MPU_M3,Wakeup dependency from MCSPI2 module (softwareakeup signal) towards MPU_A3 + L3_2 domains" "WKUPDEP_MCSPI2_MPU_M3_0,WKUPDEP_MCSPI2_MPU_M3_1"
newline
bitfld.long 0x08 0. "WKUPDEP_MCSPI2_MPU,Wakeup dependency from MCSPI2 module (softwareakeup signal) towards MPU + L3_1 + L3_2 domains" "WKUPDEP_MCSPI2_MPU_0,WKUPDEP_MCSPI2_MPU_1"
line.long 0x0C "RM_L4PER_MCSPI2_CONTEXT,This register contains dedicated MCSPI2 context statuses"
bitfld.long 0x0C 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
line.long 0x10 "PM_L4PER_MCSPI3_WKDEP,This register controls wakeup dependency based on MCSPI3 service requests"
bitfld.long 0x10 3. "WKUPDEP_MCSPI3_SDMA,Wakeup dependency from MCSPI3 module (softwareakeup signal) towards SDMA + L3_2 domains" "WKUPDEP_MCSPI3_SDMA_0,WKUPDEP_MCSPI3_SDMA_1"
bitfld.long 0x10 0. "WKUPDEP_MCSPI3_MPU,Wakeup dependency from MCSPI3 module (softwareakeup signal) towards MPU + L3_1 + L3_2 domains" "WKUPDEP_MCSPI3_MPU_0,WKUPDEP_MCSPI3_MPU_1"
line.long 0x14 "RM_L4PER_MCSPI3_CONTEXT,This register contains dedicated MCSPI3 context statuses"
bitfld.long 0x14 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
line.long 0x18 "PM_L4PER_MCSPI4_WKDEP,This register controls wakeup dependency based on MCSPI4 service requests"
bitfld.long 0x18 3. "WKUPDEP_MCSPI4_SDMA,Wakeup dependency from MCSPI4 module (softwareakeup signal) towards SDMA + L3_2 domains" "WKUPDEP_MCSPI4_SDMA_0,WKUPDEP_MCSPI4_SDMA_1"
bitfld.long 0x18 0. "WKUPDEP_MCSPI4_MPU,Wakeup dependency from MCSPI4 module (softwareakeup signal) towards MPU + L3_1 + L3_2 domains" "WKUPDEP_MCSPI4_MPU_0,WKUPDEP_MCSPI4_MPU_1"
line.long 0x1C "RM_L4PER_MCSPI4_CONTEXT,This register contains dedicated MCSPI4 context statuses"
bitfld.long 0x1C 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
group.long 0x120++0x0F
line.long 0x00 "PM_L4PER_MMCSD3_WKDEP,This register controls wakeup dependency based on MMCSD3 service requests"
bitfld.long 0x00 3. "WKUPDEP_MMCSD3_SDMA,Wakeup dependency from MMCSD3 module (softwareakeup signal) towards SDMA + L3_2 domains" "WKUPDEP_MMCSD3_SDMA_0,WKUPDEP_MMCSD3_SDMA_1"
bitfld.long 0x00 1. "WKUPDEP_MMCSD3_MPU_M3,Wakeup dependency from MMCSD3 module (softwareakeup signal) towards MPU_A3 + L3_2 domains" "WKUPDEP_MMCSD3_MPU_M3_0,WKUPDEP_MMCSD3_MPU_M3_1"
newline
bitfld.long 0x00 0. "WKUPDEP_MMCSD3_MPU,Wakeup dependency from MMCSD3 module (softwareakeup signal) towards MPU + L3_1 + L3_2 domains" "WKUPDEP_MMCSD3_MPU_0,WKUPDEP_MMCSD3_MPU_1"
line.long 0x04 "RM_L4PER_MMCSD3_CONTEXT,This register contains dedicated MMCSD3 context statuses"
bitfld.long 0x04 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" "LOSTMEM_NONRETAINED_BANK_0,LOSTMEM_NONRETAINED_BANK_1"
bitfld.long 0x04 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
line.long 0x08 "PM_L4PER_MMCSD4_WKDEP,This register controls wakeup dependency based on MMCSD4 service requests"
bitfld.long 0x08 3. "WKUPDEP_MMCSD4_SDMA,Wakeup dependency from MMCSD4 module (softwareakeup signal) towards SDMA + L3_2 domains" "WKUPDEP_MMCSD4_SDMA_0,WKUPDEP_MMCSD4_SDMA_1"
bitfld.long 0x08 1. "WKUPDEP_MMCSD4_MPU_M3,Wakeup dependency from MMCSD4 module (softwareakeup signal) towards MPU_A3 + L3_2 domains" "WKUPDEP_MMCSD4_MPU_M3_0,WKUPDEP_MMCSD4_MPU_M3_1"
newline
bitfld.long 0x08 0. "WKUPDEP_MMCSD4_MPU,Wakeup dependency from MMCSD4 module (softwareakeup signal) towards MPU + L3_1 + L3_2 domains" "WKUPDEP_MMCSD4_MPU_0,WKUPDEP_MMCSD4_MPU_1"
line.long 0x0C "RM_L4PER_MMCSD4_CONTEXT,This register contains dedicated MMCSD4 context statuses"
bitfld.long 0x0C 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" "LOSTMEM_NONRETAINED_BANK_0,LOSTMEM_NONRETAINED_BANK_1"
bitfld.long 0x0C 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
group.long 0x138++0x2F
line.long 0x00 "PM_L4PER_SLIMBUS2_WKDEP,This register controls wakeup dependency based on SLIMBUS2 service requests"
bitfld.long 0x00 7. "WKUPDEP_SLIMBUS2_DMA_SDMA,Wakeup dependency from SLIMBUS2 module (softwareakeup_dma signal) towards SDMA + L3_2 domains" "WKUPDEP_SLIMBUS2_DMA_SDMA_0,WKUPDEP_SLIMBUS2_DMA_SDMA_1"
bitfld.long 0x00 6. "WKUPDEP_SLIMBUS2_DMA_DSP,Wakeup dependency from SLIMBUS2 module (softwareakeup_dma signal) towards DSP + L3_1 + L3_2 domains" "WKUPDEP_SLIMBUS2_DMA_DSP_0,WKUPDEP_SLIMBUS2_DMA_DSP_1"
newline
bitfld.long 0x00 2. "WKUPDEP_SLIMBUS2_IRQ_DSP,Wakeup dependency from SLIMBUS2 module (softwareakeup_irq signal) towards DSP + L3_1 + L3_2 domains" "WKUPDEP_SLIMBUS2_IRQ_DSP_0,WKUPDEP_SLIMBUS2_IRQ_DSP_1"
bitfld.long 0x00 0. "WKUPDEP_SLIMBUS2_IRQ_MPU,Wakeup dependency from SLIMBUS2 module (softwareakeup_irq signal) towards MPU + L3_1 + L3_2 domains" "WKUPDEP_SLIMBUS2_IRQ_MPU_0,WKUPDEP_SLIMBUS2_IRQ_MPU_1"
line.long 0x04 "RM_L4PER_SLIMBUS2_CONTEXT,This register contains dedicated SLIMBUS2 context statuses"
bitfld.long 0x04 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" "LOSTMEM_NONRETAINED_BANK_0,LOSTMEM_NONRETAINED_BANK_1"
bitfld.long 0x04 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
line.long 0x08 "PM_L4PER_UART1_WKDEP,This register controls wakeup dependency based on UART1 service requests"
bitfld.long 0x08 3. "WKUPDEP_UART1_SDMA,Wakeup dependency from UART1 module (softwareakeup signal) towards SDMA + L3_2 domains" "WKUPDEP_UART1_SDMA_0,WKUPDEP_UART1_SDMA_1"
bitfld.long 0x08 0. "WKUPDEP_UART1_MPU,Wakeup dependency from UART1 module (softwareakeup signal) towards MPU + L3_1 + L3_2 domains" "WKUPDEP_UART1_MPU_0,WKUPDEP_UART1_MPU_1"
line.long 0x0C "RM_L4PER_UART1_CONTEXT,This register contains dedicated UART1 context statuses"
bitfld.long 0x0C 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" "LOSTMEM_RETAINED_BANK_0,LOSTMEM_RETAINED_BANK_1"
bitfld.long 0x0C 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
line.long 0x10 "PM_L4PER_UART2_WKDEP,This register controls wakeup dependency based on UART2 service requests"
bitfld.long 0x10 3. "WKUPDEP_UART2_SDMA,Wakeup dependency from UART2 module (softwareakeup signal) towards SDMA + L3_2 domains" "WKUPDEP_UART2_SDMA_0,WKUPDEP_UART2_SDMA_1"
bitfld.long 0x10 0. "WKUPDEP_UART2_MPU,Wakeup dependency from UART2 module (softwareakeup signal) towards MPU + L3_1 + L3_2 domains" "WKUPDEP_UART2_MPU_0,WKUPDEP_UART2_MPU_1"
line.long 0x14 "RM_L4PER_UART2_CONTEXT,This register contains dedicated UART2 context statuses"
bitfld.long 0x14 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" "LOSTMEM_RETAINED_BANK_0,LOSTMEM_RETAINED_BANK_1"
bitfld.long 0x14 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
line.long 0x18 "PM_L4PER_UART3_WKDEP,This register controls wakeup dependency based on UART3 service requests"
bitfld.long 0x18 3. "WKUPDEP_UART3_SDMA,Wakeup dependency from UART3 module (softwareakeup signal) towards SDMA + L3_2 domains" "WKUPDEP_UART3_SDMA_0,WKUPDEP_UART3_SDMA_1"
bitfld.long 0x18 2. "WKUPDEP_UART3_DSP,Wakeup dependency from UART3 module (softwareakeup signal) towards DSP + L3_1 + L3_2 domains" "WKUPDEP_UART3_DSP_0,WKUPDEP_UART3_DSP_1"
newline
bitfld.long 0x18 1. "WKUPDEP_UART3_MPU_M3,Wakeup dependency from UART3 module (softwareakeup signal) towards MPU_A3 + L3_2 domains" "WKUPDEP_UART3_MPU_M3_0,WKUPDEP_UART3_MPU_M3_1"
bitfld.long 0x18 0. "WKUPDEP_UART3_MPU,Wakeup dependency from UART3 module (softwareakeup signal) towards MPU + L3_1 + L3_2 domains" "WKUPDEP_UART3_MPU_0,WKUPDEP_UART3_MPU_1"
line.long 0x1C "RM_L4PER_UART3_CONTEXT,This register contains dedicated UART3 context statuses"
bitfld.long 0x1C 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" "LOSTMEM_RETAINED_BANK_0,LOSTMEM_RETAINED_BANK_1"
bitfld.long 0x1C 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
line.long 0x20 "PM_L4PER_UART4_WKDEP,This register controls wakeup dependency based on UART4 service requests"
bitfld.long 0x20 3. "WKUPDEP_UART4_SDMA,Wakeup dependency from UART4 module (softwareakeup signal) towards SDMA + L3_2 domains" "WKUPDEP_UART4_SDMA_0,WKUPDEP_UART4_SDMA_1"
bitfld.long 0x20 0. "WKUPDEP_UART4_MPU,Wakeup dependency from UART4 module (softwareakeup signal) towards MPU + L3_1 + L3_2 domains" "WKUPDEP_UART4_MPU_0,WKUPDEP_UART4_MPU_1"
line.long 0x24 "RM_L4PER_UART4_CONTEXT,This register contains dedicated UART4 context statuses"
bitfld.long 0x24 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" "LOSTMEM_RETAINED_BANK_0,LOSTMEM_RETAINED_BANK_1"
bitfld.long 0x24 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
line.long 0x28 "PM_L4PER_MMCSD5_WKDEP,This register controls wakeup dependency based on MMCSD5 service requests"
bitfld.long 0x28 3. "WKUPDEP_MMCSD5_SDMA,Wakeup dependency from MMCSD5 module (softwareakeup signal) towards SDMA + L3_2 domains" "WKUPDEP_MMCSD5_SDMA_0,WKUPDEP_MMCSD5_SDMA_1"
bitfld.long 0x28 1. "WKUPDEP_MMCSD5_MPU_M3,Wakeup dependency from MMCSD5 module (softwareakeup signal) towards MPU_A3 + L3_2 domains" "WKUPDEP_MMCSD5_MPU_M3_0,WKUPDEP_MMCSD5_MPU_M3_1"
newline
bitfld.long 0x28 0. "WKUPDEP_MMCSD5_MPU,Wakeup dependency from MMCSD5 module (softwareakeup signal) towards MPU + L3_1 + L3_2 domains" "WKUPDEP_MMCSD5_MPU_0,WKUPDEP_MMCSD5_MPU_1"
line.long 0x2C "RM_L4PER_MMCSD5_CONTEXT,This register contains dedicated MMCSD5 context statuses"
bitfld.long 0x2C 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" "LOSTMEM_NONRETAINED_BANK_0,LOSTMEM_NONRETAINED_BANK_1"
bitfld.long 0x2C 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
group.long 0x1A4++0x03
line.long 0x00 "RM_L4SEC_AES1_CONTEXT,This register contains dedicated AES1 context statuses"
bitfld.long 0x00 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
group.long 0x1AC++0x03
line.long 0x00 "RM_L4SEC_AES2_CONTEXT,This register contains dedicated AES2 context statuses"
bitfld.long 0x00 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
group.long 0x1B4++0x03
line.long 0x00 "RM_L4SEC_DES3DES_CONTEXT,This register contains dedicated DES3DES context statuses"
bitfld.long 0x00 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
group.long 0x1BC++0x03
line.long 0x00 "RM_L4SEC_PKA_CONTEXT,This register contains dedicated PKA context statuses"
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" "LOSTMEM_NONRETAINED_BANK_0,LOSTMEM_NONRETAINED_BANK_1"
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 L4_PER_RST signal)" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
group.long 0x1C4++0x03
line.long 0x00 "RM_L4SEC_RNG_CONTEXT,This register contains dedicated RNG context statuses"
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 L4_PER_RET_RST signal)" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
group.long 0x1CC++0x03
line.long 0x00 "RM_L4SEC_SHA2MD5_CONTEXT,This register contains dedicated SHA2MD5 context statuses"
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 L4_PER_RET_RST signal)" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
group.long 0x1DC++0x03
line.long 0x00 "RM_L4SEC_CRYPTODMA_CONTEXT,This register contains dedicated CRYPTODMA context statuses"
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" "LOSTMEM_RETAINED_BANK_0,LOSTMEM_RETAINED_BANK_1"
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 L4_PER_RST signal)" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
tree.end
tree "MPU_CM1"
base ansd:0x4A004300
group.long 0x00++0x0B
line.long 0x00 "CM_MPU_CLKSTCTRL,This register enables the MPU domain power state transition"
rbitfld.long 0x00 8. "CLKACTIVITY_MPU_DPLL_CLK,This field indicates the state of the MPU_DPLL_CLK clock in the domain" "CLKACTIVITY_MPU_DPLL_CLK_0_r,CLKACTIVITY_MPU_DPLL_CLK_1_r"
bitfld.long 0x00 0.--1. "CLKTRCTRL,Controls the clock state transition of the MPU clock domain" "CLKTRCTRL_0,CLKTRCTRL_1_r,CLKTRCTRL_2,CLKTRCTRL_3"
line.long 0x04 "CM_MPU_STATICDEP,This register controls the static domain dependencies from MPU domain towards 'target' domains"
rbitfld.long 0x04 18. "C2C_STATDEP,Static dependency towards C2C clock domain" "C2C_STATDEP_0_r,?"
rbitfld.long 0x04 16. "ALWONCORE_STATDEP,Static dependency towards ALWONCORE clock domain" "ALWONCORE_STATDEP_0_r,?"
newline
bitfld.long 0x04 15. "L4WKUP_STATDEP,Static dependency towards L4WKUP clock domain" "L4WKUP_STATDEP_0,L4WKUP_STATDEP_1"
bitfld.long 0x04 14. "L4SEC_STATDEP,Static dependency towards L4SEC clock domain" "L4SEC_STATDEP_0,L4SEC_STATDEP_1"
newline
bitfld.long 0x04 13. "L4PER_STATDEP,Static dependency towards L4PER clock domain" "L4PER_STATDEP_0,L4PER_STATDEP_1"
bitfld.long 0x04 12. "L4CFG_STATDEP,Static dependency towards L4CFG clock domain" "L4CFG_STATDEP_0,L4CFG_STATDEP_1"
newline
rbitfld.long 0x04 11. "SDMA_STATDEP,Static dependency towards SDMA clock domain" "SDMA_STATDEP_0_r,?"
bitfld.long 0x04 10. "SGX_STATDEP,Static dependency towards SGX clock domain" "SGX_STATDEP_0,SGX_STATDEP_1"
newline
rbitfld.long 0x04 9. "ISS_STATDEP,Static dependency towards ISS clock domain" "ISS_STATDEP_0_r,?"
bitfld.long 0x04 8. "DSS_STATDEP,Static dependency towards DSS clock domain" "DSS_STATDEP_0,DSS_STATDEP_1"
newline
bitfld.long 0x04 7. "L3INIT_STATDEP,Static dependency towards L3INIT clock domain" "L3INIT_STATDEP_0,L3INIT_STATDEP_1"
bitfld.long 0x04 6. "L3_2_STATDEP,Static dependency towards L3_2 clock domain" "L3_2_STATDEP_0,L3_2_STATDEP_1"
newline
bitfld.long 0x04 5. "L3_1_STATDEP,Static dependency towards L3_1 clock domain" "L3_1_STATDEP_0,L3_1_STATDEP_1"
bitfld.long 0x04 4. "MEMIF_STATDEP,Static dependency towards MEMIF clock domain" "MEMIF_STATDEP_0,MEMIF_STATDEP_1"
newline
bitfld.long 0x04 3. "ABE_STATDEP,Static dependency towards ABE clock domain" "ABE_STATDEP_0,ABE_STATDEP_1"
bitfld.long 0x04 2. "IVAHD_STATDEP,Static dependency towards IVAHD clock domain" "IVAHD_STATDEP_0,IVAHD_STATDEP_1"
newline
bitfld.long 0x04 1. "DSP_STATDEP,Static dependency towards DSP clock domain" "DSP_STATDEP_0,DSP_STATDEP_1"
bitfld.long 0x04 0. "MPU_M3_STATDEP,Static dependency towards MPU_A3 clock domain" "MPU_M3_STATDEP_0,MPU_M3_STATDEP_1"
line.long 0x08 "CM_MPU_DYNAMICDEP,This register controls the dynamic domain depedencies from MPU domain towards 'target' domains"
bitfld.long 0x08 24.--27. "WINDOWSIZE,Size of sliding window used to monitor INTRCONN interface activity for determination of auto-sleep feature" "WINDOWSIZE_0,WINDOWSIZE_1,WINDOWSIZE_2,WINDOWSIZE_3,WINDOWSIZE_4,WINDOWSIZE_5,WINDOWSIZE_6,WINDOWSIZE_7,WINDOWSIZE_8,WINDOWSIZE_9,WINDOWSIZE_10,WINDOWSIZE_11,WINDOWSIZE_12,WINDOWSIZE_13,WINDOWSIZE_14,WINDOWSIZE_15"
bitfld.long 0x08 5. "L3_1_DYNDEP,Dynamic dependency towards L3_1 clock domain" "?,L3_1_DYNDEP_1_r"
newline
bitfld.long 0x08 4. "MEMIF_DYNDEP,Dynamic dependency towards MEMIF clock domain" "?,MEMIF_DYNDEP_1_r"
bitfld.long 0x08 3. "ABE_DYNDEP,Dynamic dependency towards ABE clock domain" "?,ABE_DYNDEP_1_r"
group.long 0x20++0x03
line.long 0x00 "CM_MPU_MPU_CLKCTRL,This register manages the MPU clocks"
bitfld.long 0x00 25. "CLKSEL_ABE_DIV_MODE,Selects the ratio for MPU-ABE async bridge versus MPU DPLL clock" "CLKSEL_ABE_DIV_MODE_0,CLKSEL_ABE_DIV_MODE_1"
bitfld.long 0x00 24. "CLKSEL_EMIF_DIV_MODE,Selects the ratio for memory adapter clock (MA_EOCP_ICLK) versus MPU DPLL clock" "CLKSEL_EMIF_DIV_MODE_0,CLKSEL_EMIF_DIV_MODE_1"
newline
rbitfld.long 0x00 18. "STBYST,Module standby status" "STBYST_0_r,STBYST_1_r"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
newline
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "?,MODULEMODE_1_r,?,?"
tree.end
tree "MPU_PRM"
base ansd:0x4A306300
group.long 0x00++0x07
line.long 0x00 "PM_MPU_PWRSTCTRL,This register controls the MPU domain power state to reach upon a domain sleep transition"
bitfld.long 0x00 20.--21. "MPU_RAM_ONSTATE,MPU_RAM memory state when domain is ON" "?,?,?,MPU_RAM_ONSTATE_3_r"
bitfld.long 0x00 18.--19. "MPU_L2_ONSTATE,MPU_L2 memory state when domain is ON" "?,?,?,MPU_L2_ONSTATE_3_r"
newline
bitfld.long 0x00 10. "MPU_RAM_RETSTATE,MPU_RAM memory state when domain is RETENTION" "?,MPU_RAM_RETSTATE_1_r"
bitfld.long 0x00 9. "MPU_L2_RETSTATE,MPU_L2 memory state when domain is RETENTION" "MPU_L2_RETSTATE_0,MPU_L2_RETSTATE_1"
newline
bitfld.long 0x00 4. "LOWPOWERSTATECHANGE,Power state change request when domain has already performed a sleep transition" "LOWPOWERSTATECHANGE_0,LOWPOWERSTATECHANGE_1"
bitfld.long 0x00 2. "LOGICRETSTATE,Logic state when power domain is RETENTION" "LOGICRETSTATE_0,LOGICRETSTATE_1"
newline
bitfld.long 0x00 0.--1. "POWERSTATE,Power state control" "POWERSTATE_0,POWERSTATE_1,POWERSTATE_2,POWERSTATE_3"
line.long 0x04 "PM_MPU_PWRSTST,This register provides a status on the MPU domain current power state"
bitfld.long 0x04 24.--25. "LASTPOWERSTATEENTERED,Last low power state entered" "LASTPOWERSTATEENTERED_0_r,LASTPOWERSTATEENTERED_1_r,LASTPOWERSTATEENTERED_2_r,LASTPOWERSTATEENTERED_3_r"
rbitfld.long 0x04 20. "INTRANSITION,Domain transition status" "INTRANSITION_0_r,INTRANSITION_1_r"
newline
rbitfld.long 0x04 8.--9. "MPU_RAM_STATEST,MPU_RAM memory state status" "MPU_RAM_STATEST_0_r,MPU_RAM_STATEST_1_r,MPU_RAM_STATEST_2_r,MPU_RAM_STATEST_3_r"
rbitfld.long 0x04 6.--7. "MPU_L2_STATEST,MPU_L2 memory state status" "MPU_L2_STATEST_0_r,MPU_L2_STATEST_1_r,MPU_L2_STATEST_2_r,MPU_L2_STATEST_3_r"
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rbitfld.long 0x04 2. "LOGICSTATEST,Logic state status" "LOGICSTATEST_0_r,LOGICSTATEST_1_r"
rbitfld.long 0x04 0.--1. "POWERSTATEST,Current power state status" "POWERSTATEST_0_r,POWERSTATEST_1_r,POWERSTATEST_2_r,POWERSTATEST_3_r"
group.long 0x14++0x03
line.long 0x00 "RM_MPU_RSTST,This register logs the different reset sources of the MPU domain"
bitfld.long 0x00 0. "EMULATION_RST,MPU domain has been reset due to emulation reset source e.g" "EMULATION_RST_0,EMULATION_RST_1"
group.long 0x24++0x03
line.long 0x00 "RM_MPU_MPU_CONTEXT,This register contains dedicated MPU context statuses"
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)" "LOSTMEM_MPU_RAM_0,LOSTMEM_MPU_RAM_1"
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" "LOSTMEM_MPU_L2_0,LOSTMEM_MPU_L2_1"
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bitfld.long 0x00 1. "LOSTCONTEXT_RFF,Specify if RFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_RFF_0,LOSTCONTEXT_RFF_1"
bitfld.long 0x00 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
tree.end
tree "RESTORE_CM1"
base ansd:0x4A004E00
group.long 0x00++0x43
line.long 0x00 "CM_CLKSEL_CORE_RESTORE,Second address map for register"
bitfld.long 0x00 8. "CLKSEL_L4,Selects L4 interconnect clock (L4_clk)" "CLKSEL_L4_0,CLKSEL_L4_1"
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bitfld.long 0x00 4. "CLKSEL_L3,Selects L3 interconnect clock (L3_clk)" "CLKSEL_L3_0,CLKSEL_L3_1"
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bitfld.long 0x00 0. "CLKSEL_CORE,Selects CORE_CLK configuration" "CLKSEL_CORE_0,CLKSEL_CORE_1"
line.long 0x04 "CM_DIV_M2_DPLL_CORE_RESTORE,Second address map for register"
rbitfld.long 0x04 9. "ST_DPLL_CLKOUT,DPLL CLKOUT status" "ST_DPLL_CLKOUT_0_r,ST_DPLL_CLKOUT_1_r"
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bitfld.long 0x04 8. "DPLL_CLKOUT_GATE_CTRL,Control gating of DPLL CLKOUT" "DPLL_CLKOUT_GATE_CTRL_0,DPLL_CLKOUT_GATE_CTRL_1"
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rbitfld.long 0x04 5. "DPLL_CLKOUT_DIVCHACK,Toggle on this status bit after changing DPLL_CLKOUT_DIV indicates that the change in divider value has taken effect" "DPLL_CLKOUT_DIVCHACK_0,DPLL_CLKOUT_DIVCHACK_1"
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bitfld.long 0x04 0.--4. "DPLL_CLKOUT_DIV,DPLL post-divider factor M2 for internal clock generation (1 to 31); Divide value from 1 to 31" "DPLL_CLKOUT_DIV_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
line.long 0x08 "CM_DIV_M3_DPLL_CORE_RESTORE,Second address map for register"
rbitfld.long 0x08 9. "ST_DPLL_CLKOUTHIF,DPLL CLKOUTHIF status" "ST_DPLL_CLKOUTHIF_0_r,ST_DPLL_CLKOUTHIF_1_r"
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bitfld.long 0x08 8. "DPLL_CLKOUTHIF_GATE_CTRL,Control gating of DPLL CLKOUTHIF" "DPLL_CLKOUTHIF_GATE_CTRL_0,DPLL_CLKOUTHIF_GATE_CTRL_1"
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rbitfld.long 0x08 5. "DPLL_CLKOUTHIF_DIVCHACK,Toggle on this status bit after changing DPLL_CLKOUTHIF_DIV indicates that the change in divider value has taken effect" "DPLL_CLKOUTHIF_DIVCHACK_0,DPLL_CLKOUTHIF_DIVCHACK_1"
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bitfld.long 0x08 0.--4. "DPLL_CLKOUTHIF_DIV,DPLL post-divider factor M3 for internal clock generation (1 to 31);Divide value from 1 to 31" "DPLL_CLKOUTHIF_DIV_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
line.long 0x0C "CM_DIV_M4_DPLL_CORE_RESTORE,Second address map for register"
bitfld.long 0x0C 12. "HSDIVIDER_CLKOUT1_PWDN,Direct power down control for HSDIVIDER M4 divider and CLKOUT1 output" "HSDIVIDER_CLKOUT1_PWDN_0,HSDIVIDER_CLKOUT1_PWDN_1"
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rbitfld.long 0x0C 9. "ST_HSDIVIDER_CLKOUT1,HSDIVIDER CLKOUT1 status" "ST_HSDIVIDER_CLKOUT1_0_r,ST_HSDIVIDER_CLKOUT1_1_r"
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bitfld.long 0x0C 8. "HSDIVIDER_CLKOUT1_GATE_CTRL,Control gating of HSDIVIDER CLKOUT1" "HSDIVIDER_CLKOUT1_GATE_CTRL_0,HSDIVIDER_CLKOUT1_GATE_CTRL_1"
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rbitfld.long 0x0C 5. "HSDIVIDER_CLKOUT1_DIVCHACK,Toggle on this status bit after changing HSDIVIDER_CLKOUT1_DIV indicates that the change in divider value has taken effect" "HSDIVIDER_CLKOUT1_DIVCHACK_0,HSDIVIDER_CLKOUT1_DIVCHACK_1"
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bitfld.long 0x0C 0.--4. "HSDIVIDER_CLKOUT1_DIV,DPLL M4 post-divider factor (1 to 31)" "HSDIVIDER_CLKOUT1_DIV_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
line.long 0x10 "CM_DIV_M5_DPLL_CORE_RESTORE,Second address map for register"
bitfld.long 0x10 12. "HSDIVIDER_CLKOUT2_PWDN,Direct power down control for HSDIVIDER M5 divider and CLKOUT2 output" "HSDIVIDER_CLKOUT2_PWDN_0,HSDIVIDER_CLKOUT2_PWDN_1"
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rbitfld.long 0x10 9. "ST_HSDIVIDER_CLKOUT2,HSDIVIDER CLKOUT2 status" "ST_HSDIVIDER_CLKOUT2_0_r,ST_HSDIVIDER_CLKOUT2_1_r"
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bitfld.long 0x10 8. "HSDIVIDER_CLKOUT2_GATE_CTRL,Control gating of HSDIVIDER CLKOUT2" "HSDIVIDER_CLKOUT2_GATE_CTRL_0,HSDIVIDER_CLKOUT2_GATE_CTRL_1"
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rbitfld.long 0x10 5. "HSDIVIDER_CLKOUT2_DIVCHACK,Toggle on this status bit after changing HSDIVIDER_CLKOUT2_DIV indicates that the change in divider value has taken effect" "HSDIVIDER_CLKOUT2_DIVCHACK_0,HSDIVIDER_CLKOUT2_DIVCHACK_1"
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bitfld.long 0x10 0.--4. "HSDIVIDER_CLKOUT2_DIV,DPLL M5 post-divider factor (1 to 31)" "HSDIVIDER_CLKOUT2_DIV_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
line.long 0x14 "CM_DIV_M6_DPLL_CORE_RESTORE,Second address map for register"
bitfld.long 0x14 12. "HSDIVIDER_CLKOUT3_PWDN,Direct power down control for HSDIVIDER M6 divider and CLKOUT3 output" "HSDIVIDER_CLKOUT3_PWDN_0,HSDIVIDER_CLKOUT3_PWDN_1"
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rbitfld.long 0x14 9. "ST_HSDIVIDER_CLKOUT3,HSDIVIDER CLKOUT3 status" "ST_HSDIVIDER_CLKOUT3_0_r,ST_HSDIVIDER_CLKOUT3_1_r"
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bitfld.long 0x14 8. "HSDIVIDER_CLKOUT3_GATE_CTRL,Control gating of HSDIVIDER CLKOUT3" "HSDIVIDER_CLKOUT3_GATE_CTRL_0,HSDIVIDER_CLKOUT3_GATE_CTRL_1"
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rbitfld.long 0x14 5. "HSDIVIDER_CLKOUT3_DIVCHACK,Toggle on this status bit after changing HSDIVIDER_CLKOUT3_DIV indicates that the change in divider value has taken effect" "HSDIVIDER_CLKOUT3_DIVCHACK_0,HSDIVIDER_CLKOUT3_DIVCHACK_1"
newline
bitfld.long 0x14 0.--4. "HSDIVIDER_CLKOUT3_DIV,DPLL M6 post-divider factor (1 to 31)" "HSDIVIDER_CLKOUT3_DIV_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
line.long 0x18 "CM_DIV_M7_DPLL_CORE_RESTORE,Second address map for register"
bitfld.long 0x18 12. "HSDIVIDER_CLKOUT4_PWDN,Direct power down control for HSDIVIDER M7 divider and CLKOUT4 output" "HSDIVIDER_CLKOUT4_PWDN_0,HSDIVIDER_CLKOUT4_PWDN_1"
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rbitfld.long 0x18 9. "ST_HSDIVIDER_CLKOUT4,HSDIVIDER CLKOUT4 status" "ST_HSDIVIDER_CLKOUT4_0_r,ST_HSDIVIDER_CLKOUT4_1_r"
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bitfld.long 0x18 8. "HSDIVIDER_CLKOUT4_GATE_CTRL,Control gating of HSDIVIDER CLKOUT4" "HSDIVIDER_CLKOUT4_GATE_CTRL_0,HSDIVIDER_CLKOUT4_GATE_CTRL_1"
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rbitfld.long 0x18 5. "HSDIVIDER_CLKOUT4_DIVCHACK,Toggle on this status bit after changing HSDIVIDER_CLKOUT4_DIV indicates that the change in divider value has taken effect" "HSDIVIDER_CLKOUT4_DIVCHACK_0,HSDIVIDER_CLKOUT4_DIVCHACK_1"
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bitfld.long 0x18 0.--4. "HSDIVIDER_CLKOUT4_DIV,DPLL M7 post-divider factor (1 to 31)" "HSDIVIDER_CLKOUT4_DIV_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
line.long 0x1C "CM_CLKSEL_DPLL_CORE_RESTORE,Second address map for register"
bitfld.long 0x1C 23. "DPLL_BYP_CLKSEL,Allows control of the BYPASS clock of the PLL and the associated HSDIVIDER" "CLKINP is selected as the BYPASS clock for..,CLKINPULOW is selected as the BYPASS clock for.."
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bitfld.long 0x1C 20. "DPLL_CLKOUTHIF_CLKSEL,Selects the source of the DPLL CLKOUTHIF clock" "DPLL_CLKOUTHIF_CLKSEL_0,DPLL_CLKOUTHIF_CLKSEL_1"
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hexmask.long.word 0x1C 8.--18. 1. "DPLL_MULT,DPLL multiplier factor (2 to 2047)"
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hexmask.long.byte 0x1C 0.--6. 1. "DPLL_DIV,DPLL divider factor (0 to 127) (equal to input N of DPLL; actual division factor is N+1)"
line.long 0x20 "CM_SSC_DELTAMSTEP_DPLL_CORE_RESTORE,Second address map for register"
hexmask.long.tbyte 0x20 0.--19. 1. "DELTAMSTEP,DeltaMStep is split into fractional and integer part"
line.long 0x24 "CM_SSC_MODFREQDIV_DPLL_CORE_RESTORE,Second address map for register"
bitfld.long 0x24 8.--10. "MODFREQDIV_EXPONENT,Set the Exponent component of MODFREQDIV factor" "MODFREQDIV_EXPONENT_0,MODFREQDIV_EXPONENT_1,MODFREQDIV_EXPONENT_2,MODFREQDIV_EXPONENT_3,MODFREQDIV_EXPONENT_4,MODFREQDIV_EXPONENT_5,MODFREQDIV_EXPONENT_6,MODFREQDIV_EXPONENT_7"
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hexmask.long.byte 0x24 0.--6. 1. "MODFREQDIV_MANTISSA,Set the Mantissa component of MODFREQDIV factor"
line.long 0x28 "CM_CLKMODE_DPLL_CORE_RESTORE,Second address map for register"
bitfld.long 0x28 14. "DPLL_SSC_DOWNSPREAD,Control if only low frequency spread is required" "DPLL_SSC_DOWNSPREAD_0,DPLL_SSC_DOWNSPREAD_1"
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rbitfld.long 0x28 13. "DPLL_SSC_ACK,Acknowledgement from the DPLL regarding start and stop of Spread Spectrum Clocking feature" "DPLL_SSC_ACK_0_r,DPLL_SSC_ACK_1_r"
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bitfld.long 0x28 12. "DPLL_SSC_EN,Enable or disable Spread Spectrum Clocking" "DPLL_SSC_EN_0,DPLL_SSC_EN_1"
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rbitfld.long 0x28 11. "DPLL_REGM4XEN,Enable the REGM4XEN mode of the DPLL" "DPLL_REGM4XEN_0_r,?"
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bitfld.long 0x28 10. "DPLL_LPMODE_EN,Set the DPLL in low-power mode" "DPLL_LPMODE_EN_0,DPLL_LPMODE_EN_1"
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bitfld.long 0x28 8. "DPLL_DRIFTGUARD_EN,This bit allows to enable or disable the automatic recalibration feature of the DPLL" "DPLL_DRIFTGUARD_EN_0,DPLL_DRIFTGUARD_EN_1"
newline
bitfld.long 0x28 0.--2. "DPLL_EN,DPLL control" "DPLL_EN_0,DPLL_EN_1,DPLL_EN_2,DPLL_EN_3,DPLL_EN_4,DPLL_EN_5,DPLL_EN_6,DPLL_EN_7"
line.long 0x2C "CM_SHADOW_FREQ_CONFIG2_RESTORE,Second address map for register"
bitfld.long 0x2C 3.--7. "DPLL_CORE_M5_DIV,Shadow register forCM_DIV_M5_DPLL_CORE.HSDIVIDER_CLKOUT2_DIV" "DPLL_CORE_M5_DIV_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
bitfld.long 0x2C 2. "CLKSEL_L3,Shadow register forCM_CLKSEL_CORE.CLKSEL_L3" "CLKSEL_L3_0,CLKSEL_L3_1"
newline
bitfld.long 0x2C 1. "CLKSEL_CORE,Shadow register forCM_CLKSEL_CORE.CLKSEL_CORE" "CLKSEL_CORE_0,CLKSEL_CORE_1"
newline
bitfld.long 0x2C 0. "GPMC_FREQ_UPDATE,Controls whether or not GPMC has to be put automatically into idle during the frequency change operation" "GPMC_FREQ_UPDATE_0,GPMC_FREQ_UPDATE_1"
line.long 0x30 "CM_SHADOW_FREQ_CONFIG1_RESTORE,Second address map for register"
bitfld.long 0x30 11.--15. "DPLL_CORE_M2_DIV,Shadow register forCM_DIV_M2_DPLL_CORE.DPLL_CLKOUT_DIV" "DPLL_CORE_M2_DIV_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
bitfld.long 0x30 8.--10. "DPLL_CORE_DPLL_EN,Shadow register forCM_CLKMODE_DPLL_CORE.DPLL_EN" "DPLL_CORE_DPLL_EN_0,DPLL_CORE_DPLL_EN_1,DPLL_CORE_DPLL_EN_2,DPLL_CORE_DPLL_EN_3,DPLL_CORE_DPLL_EN_4,DPLL_CORE_DPLL_EN_5,DPLL_CORE_DPLL_EN_6,DPLL_CORE_DPLL_EN_7"
newline
bitfld.long 0x30 3. "DLL_RESET,Specify if DLL should be reset or not during the frequency change hardware sequence" "DLL_RESET_0,DLL_RESET_1"
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bitfld.long 0x30 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" "DLL_OVERRIDE_0,DLL_OVERRIDE_1"
newline
bitfld.long 0x30 0. "FREQ_UPDATE,Writing 1 indicates that a new configuration is available" "FREQ_UPDATE_0,FREQ_UPDATE_1"
line.long 0x34 "CM_AUTOIDLE_DPLL_CORE_RESTORE,Second address map for register"
bitfld.long 0x34 4. "DPLL_DCOCLKLDO_PWDN,Allows powering down the DCOCLKLDO o/p of DPLL if all dividers in HSDIVIDER are powered down" "DPLL_DCOCLKLDO_PWDN_0,DPLL_DCOCLKLDO_PWDN_1"
newline
bitfld.long 0x34 0.--2. "AUTO_DPLL_MODE,DPLL automatic control" "AUTO_DPLL_MODE_0,AUTO_DPLL_MODE_1,AUTO_DPLL_MODE_2,AUTO_DPLL_MODE_3,AUTO_DPLL_MODE_4,AUTO_DPLL_MODE_5,AUTO_DPLL_MODE_6,AUTO_DPLL_MODE_7"
line.long 0x38 "CM_MPU_CLKSTCTRL_RESTORE,Second address map for register"
rbitfld.long 0x38 8. "CLKACTIVITY_MPU_DPLL_CLK,This field indicates the state of the MPU_DPLL_CLK clock in the domain" "CLKACTIVITY_MPU_DPLL_CLK_0_r,CLKACTIVITY_MPU_DPLL_CLK_1_r"
newline
bitfld.long 0x38 0.--1. "CLKTRCTRL,Controls the clock state transition of the MPU clock domain" "CLKTRCTRL_0,CLKTRCTRL_1_r,CLKTRCTRL_2,CLKTRCTRL_3"
line.long 0x3C "CM_CM1_PROFILING_CLKCTRL_RESTORE,Second address map for register"
rbitfld.long 0x3C 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
newline
bitfld.long 0x3C 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1,MODULEMODE_2_r,MODULEMODE_3_r"
line.long 0x40 "CM_DYN_DEP_PRESCAL_RESTORE,Second address map for register"
bitfld.long 0x40 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"
tree.end
tree "SCRM"
base ansd:0x4A30A000
rgroup.long 0x00++0x03
line.long 0x00 "REVISION_SCRM,This register contains the IP revision code for the SCRM"
hexmask.long.byte 0x00 0.--7. 1. "REV,Revision Number"
group.long 0x100++0x07
line.long 0x00 "CLKSETUPTIME,This register holds the clock setup time counters of the system clock source supplier"
bitfld.long 0x00 16.--21. "DOWNTIME,Holds the number of 32 kHz clock cycles it takes to gate the clock source supplier" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.word 0x00 0.--11. 1. "SETUPTIME,Holds the number of 32 kHz clock cycles it takes to stabilize the clock source supplier"
line.long 0x04 "PMICSETUPTIME,This register holds the setup time counters for the sleep mode of the PMIC"
bitfld.long 0x04 16.--21. "WAKEUPTIME,Holds the number of 32 kHz clock cycles it takes to exit the PMIC from sleep 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 0x04 0.--5. "SLEEPTIME,Holds the number of 32 kHz clock cycles it takes to enter the PMIC in sleep 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 0x110++0x03
line.long 0x00 "ALTCLKSRC,This register controls the alternate system clock source supplier"
bitfld.long 0x00 3. "ENABLE_EXT,This bit allows to enable and disable the output alternate system clock version" "ENABLE_EXT_0,ENABLE_EXT_1"
bitfld.long 0x00 2. "ENABLE_INT,This bit allows to enable and disable the alternate system clock version used to generate the auxiliary clocks" "ENABLE_INT_0,ENABLE_INT_1"
bitfld.long 0x00 0.--1. "MODE,This bit field defines the functional mode of the alternate system clock supplier" "MODE_0,MODE_1,MODE_2,MODE_3"
group.long 0x11C++0x03
line.long 0x00 "C2CCLKM,This register controls the clocks of the external C2C interface"
bitfld.long 0x00 1. "SYSCLK,This bit allows to enable and disable the system clock version of the external C2C interface" "SYSCLK_0,SYSCLK_1"
bitfld.long 0x00 0. "CLK_32KHZ,This bit allows to enable and disable the 32 kHz clock version of the external C2C interface" "CLK_32KHZ_0,CLK_32KHZ_1"
group.long 0x200++0x0B
line.long 0x00 "EXTCLKREQ,This register holds qualifiers for the external clock request"
bitfld.long 0x00 0. "POLARITY,This bit defines the active level of the external clock request" "POLARITY_0,POLARITY_1"
line.long 0x04 "ACCCLKREQ,This register holds qualifiers for the accurate clock request"
bitfld.long 0x04 0. "POLARITY,This bit defines the active level of the accurate clock request" "POLARITY_0,POLARITY_1"
line.long 0x08 "PWRREQ,This register holds qualifiers for the external power request"
bitfld.long 0x08 0. "POLARITY,This bit defines the active level of the external power request" "POLARITY_0,POLARITY_1"
group.long 0x210++0x17
line.long 0x00 "AUXCLKREQ0,This register holds qualifiers for the auxiliary clock request #0"
bitfld.long 0x00 2.--4. "MAPPING,This field allows re-mapping the auxiliary clock request #0 on another auxiliary clock output than auxiliary clock #0" "MAPPING_0,MAPPING_1,MAPPING_2,MAPPING_3,MAPPING_4,MAPPING_5,MAPPING_6,MAPPING_7"
bitfld.long 0x00 1. "ACCURACY,This bit qualifies the auxiliary clock request #0 as an accurate clock request" "ACCURACY_0,ACCURACY_1"
bitfld.long 0x00 0. "POLARITY,This bit defines the active level of the auxiliary clock request #0" "POLARITY_0,POLARITY_1"
line.long 0x04 "AUXCLKREQ1,This register holds qualifiers for the auxiliary clock request #1"
bitfld.long 0x04 2.--4. "MAPPING,This field allows re-mapping the auxiliary clock request #1 on another auxiliary clock output than auxiliary clock #1" "MAPPING_0,MAPPING_1,MAPPING_2,MAPPING_3,MAPPING_4,MAPPING_5,MAPPING_6,MAPPING_7"
bitfld.long 0x04 1. "ACCURACY,This bit qualifies the auxiliary clock request #1 as an accurate clock request" "ACCURACY_0,ACCURACY_1"
bitfld.long 0x04 0. "POLARITY,This bit defines the active level of the auxiliary clock request #1" "POLARITY_0,POLARITY_1"
line.long 0x08 "AUXCLKREQ2,This register holds qualifiers for the auxiliary clock request #2"
bitfld.long 0x08 2.--4. "MAPPING,This field allows re-mapping the auxiliary clock request #2 on another auxiliary clock output than auxiliary clock #2" "MAPPING_0,MAPPING_1,MAPPING_2,MAPPING_3,MAPPING_4,MAPPING_5,MAPPING_6,MAPPING_7"
bitfld.long 0x08 1. "ACCURACY,This bit qualifies the auxiliary clock request #2 as an accurate clock request" "ACCURACY_0,ACCURACY_1"
bitfld.long 0x08 0. "POLARITY,This bit defines the active level of the auxiliary clock request #2" "POLARITY_0,POLARITY_1"
line.long 0x0C "AUXCLKREQ3,This register holds qualifiers for the auxiliary clock request #3"
bitfld.long 0x0C 2.--4. "MAPPING,This field allows re-mapping the auxiliary clock request #3 on another auxiliary clock output than auxiliary clock #3" "MAPPING_0,MAPPING_1,MAPPING_2,MAPPING_3,MAPPING_4,MAPPING_5,MAPPING_6,MAPPING_7"
bitfld.long 0x0C 1. "ACCURACY,This bit qualifies the auxiliary clock request #3 as an accurate clock request" "ACCURACY_0,ACCURACY_1"
bitfld.long 0x0C 0. "POLARITY,This bit defines the active level of the auxiliary clock request #3" "POLARITY_0,POLARITY_1"
line.long 0x10 "AUXCLKREQ4,This register holds qualifiers for the auxiliary clock request #4"
bitfld.long 0x10 2.--4. "MAPPING,This field allows re-mapping the auxiliary clock request #4 on another auxiliary clock output than auxiliary clock #4" "MAPPING_0,MAPPING_1,MAPPING_2,MAPPING_3,MAPPING_4,MAPPING_5,MAPPING_6,MAPPING_7"
bitfld.long 0x10 1. "ACCURACY,This bit qualifies the auxiliary clock request #4 as an accurate clock request" "ACCURACY_0,ACCURACY_1"
bitfld.long 0x10 0. "POLARITY,This bit defines the active level of the auxiliary clock request #4" "POLARITY_0,POLARITY_1"
line.long 0x14 "AUXCLKREQ5,This register holds qualifiers for the auxiliary clock request #5"
bitfld.long 0x14 2.--4. "MAPPING,This field allows re-mapping the auxiliary clock request #5 on another auxiliary clock output than auxiliary clock #5" "MAPPING_0,MAPPING_1,MAPPING_2,MAPPING_3,MAPPING_4,MAPPING_5,MAPPING_6,MAPPING_7"
bitfld.long 0x14 1. "ACCURACY,This bit qualifies the auxiliary clock request #5 as an accurate clock request" "ACCURACY_0,ACCURACY_1"
bitfld.long 0x14 0. "POLARITY,This bit defines the active level of the auxiliary clock request #5" "POLARITY_0,POLARITY_1"
group.long 0x234++0x03
line.long 0x00 "C2CCLKREQ,This register holds qualifiers for the external C2C interface clock request"
bitfld.long 0x00 1. "ACCURACY,This bit qualifies the external C2C interface clock request as an accurate clock request" "ACCURACY_0,ACCURACY_1"
bitfld.long 0x00 0. "POLARITY,This bit defines the active level of the external C2C interface clock request" "POLARITY_0,POLARITY_1"
group.long 0x310++0x17
line.long 0x00 "AUXCLK0,This register holds qualifiers for the auxiliary clock #0"
bitfld.long 0x00 16.--19. "CLKDIV,This field holds the divider value for the auxiliary clock #0" "CLKDIV_0,CLKDIV_1,CLKDIV_2,CLKDIV_3,CLKDIV_4,CLKDIV_5,CLKDIV_6,CLKDIV_7,CLKDIV_8,CLKDIV_9,CLKDIV_10,CLKDIV_11,CLKDIV_12,CLKDIV_13,CLKDIV_14,CLKDIV_15"
bitfld.long 0x00 9. "DISABLECLK,This bit allows to gate the auxiliary clock #0 without condition" "DISABLECLK_0,DISABLECLK_1"
bitfld.long 0x00 8. "ENABLE,This bit allows to request the auxiliary clock #0 by software" "ENABLE_0,ENABLE_1"
bitfld.long 0x00 1.--2. "SRCSELECT,This field allows selecting the clock source of the auxiliary clock #0" "SRCSELECT_0,SRCSELECT_1,SRCSELECT_2,SRCSELECT_3"
bitfld.long 0x00 0. "POLARITY,This bit defines the output level when the auxiliary clock #0 is gated" "POLARITY_0,POLARITY_1"
line.long 0x04 "AUXCLK1,This register holds qualifiers for the auxiliary clock #1"
bitfld.long 0x04 16.--19. "CLKDIV,This field holds the divider value for the auxiliary clock #1" "CLKDIV_0,CLKDIV_1,CLKDIV_2,CLKDIV_3,CLKDIV_4,CLKDIV_5,CLKDIV_6,CLKDIV_7,CLKDIV_8,CLKDIV_9,CLKDIV_10,CLKDIV_11,CLKDIV_12,CLKDIV_13,CLKDIV_14,CLKDIV_15"
bitfld.long 0x04 8. "ENABLE,This bit allows to request the auxiliary clock #1 by software" "ENABLE_0,ENABLE_1"
bitfld.long 0x04 1.--2. "SRCSELECT,This field allows selecting the clock source of the auxiliary clock #1" "SRCSELECT_0,SRCSELECT_1,SRCSELECT_2,SRCSELECT_3"
bitfld.long 0x04 0. "POLARITY,This bit defines the output level when the auxiliary clock #1 is gated" "POLARITY_0,POLARITY_1"
line.long 0x08 "AUXCLK2,This register holds qualifiers for the auxiliary clock #2"
bitfld.long 0x08 16.--19. "CLKDIV,This field holds the divider value for the auxiliary clock #2" "CLKDIV_0,CLKDIV_1,CLKDIV_2,CLKDIV_3,CLKDIV_4,CLKDIV_5,CLKDIV_6,CLKDIV_7,CLKDIV_8,CLKDIV_9,CLKDIV_10,CLKDIV_11,CLKDIV_12,CLKDIV_13,CLKDIV_14,CLKDIV_15"
bitfld.long 0x08 8. "ENABLE,This bit allows to request the auxiliary clock #2 by software" "ENABLE_0,ENABLE_1"
bitfld.long 0x08 1.--2. "SRCSELECT,This field allows selecting the clock source of the auxiliary clock #2" "SRCSELECT_0,SRCSELECT_1,SRCSELECT_2,SRCSELECT_3"
bitfld.long 0x08 0. "POLARITY,This bit defines the output level when the auxiliary clock #2 is gated" "POLARITY_0,POLARITY_1"
line.long 0x0C "AUXCLK3,This register holds qualifiers for the auxiliary clock #3"
bitfld.long 0x0C 16.--19. "CLKDIV,This field holds the divider value for the auxiliary clock #3" "CLKDIV_0,CLKDIV_1,CLKDIV_2,CLKDIV_3,CLKDIV_4,CLKDIV_5,CLKDIV_6,CLKDIV_7,CLKDIV_8,CLKDIV_9,CLKDIV_10,CLKDIV_11,CLKDIV_12,CLKDIV_13,CLKDIV_14,CLKDIV_15"
bitfld.long 0x0C 8. "ENABLE,This bit allows to request the auxiliary clock #3 by software" "ENABLE_0,ENABLE_1"
bitfld.long 0x0C 1.--2. "SRCSELECT,This field allows selecting the clock source of the auxiliary clock #3" "SRCSELECT_0,SRCSELECT_1,SRCSELECT_2,SRCSELECT_3"
bitfld.long 0x0C 0. "POLARITY,This bit defines the output level when the auxiliary clock #3 is gated" "POLARITY_0,POLARITY_1"
line.long 0x10 "AUXCLK4,This register holds qualifiers for the auxiliary clock #4"
bitfld.long 0x10 16.--19. "CLKDIV,This field holds the divider value for the auxiliary clock #4" "CLKDIV_0,CLKDIV_1,CLKDIV_2,CLKDIV_3,CLKDIV_4,CLKDIV_5,CLKDIV_6,CLKDIV_7,CLKDIV_8,CLKDIV_9,CLKDIV_10,CLKDIV_11,CLKDIV_12,CLKDIV_13,CLKDIV_14,CLKDIV_15"
bitfld.long 0x10 8. "ENABLE,This bit allows to request the auxiliary clock #4 by software" "ENABLE_0,ENABLE_1"
bitfld.long 0x10 1.--2. "SRCSELECT,This field allows selecting the clock source of the auxiliary clock #4" "SRCSELECT_0,SRCSELECT_1,SRCSELECT_2,SRCSELECT_3"
bitfld.long 0x10 0. "POLARITY,This bit defines the output level when the auxiliary clock #4 is gated" "POLARITY_0,POLARITY_1"
line.long 0x14 "AUXCLK5,This register holds qualifiers for the auxiliary clock #5"
bitfld.long 0x14 16.--19. "CLKDIV,This field holds the divider value for the auxiliary clock #5" "CLKDIV_0,CLKDIV_1,CLKDIV_2,CLKDIV_3,CLKDIV_4,CLKDIV_5,CLKDIV_6,CLKDIV_7,CLKDIV_8,CLKDIV_9,CLKDIV_10,CLKDIV_11,CLKDIV_12,CLKDIV_13,CLKDIV_14,CLKDIV_15"
bitfld.long 0x14 8. "ENABLE,This bit allows to request the auxiliary clock #5 by software" "ENABLE_0,ENABLE_1"
bitfld.long 0x14 1.--2. "SRCSELECT,This field allows selecting the clock source of the auxiliary clock #5" "SRCSELECT_0,SRCSELECT_1,SRCSELECT_2,SRCSELECT_3"
bitfld.long 0x14 0. "POLARITY,This bit defines the output level when the auxiliary clock #5 is gated" "POLARITY_0,POLARITY_1"
group.long 0x400++0x03
line.long 0x00 "RSTTIME_REG,This register holds the reset time counter which is used to extend the reset lines beyond the release of the pad reset"
bitfld.long 0x00 0.--3. "RSTTIME,Holds the number of 32 kHz clock cycles for which the reset duration is extended" "Reserved,Reserved,Reserved,?..."
group.long 0x41C++0x07
line.long 0x00 "C2CRSTCTRL,This register controls the release of the external C2C interface reset lines"
bitfld.long 0x00 1. "WARMRST,This bit allows to release the warm reset line of the external C2C interface" "WARMRST_0,WARMRST_1"
bitfld.long 0x00 0. "COLDRST,This bit allows to release the cold reset line of the external C2C interface" "COLDRST_0,COLDRST_1"
line.long 0x04 "EXTPWRONRSTCTRL,This register allows the software to perform an external power-on reset"
bitfld.long 0x04 1. "PWRONRST,This bit controls the assertion and the de-assertion of the external power-on reset" "PWRONRST_0,PWRONRST_1"
bitfld.long 0x04 0. "ENABLE,This bit must be set to 1 to allow the software to assert the external power-on reset" "ENABLE_0,ENABLE_1"
group.long 0x510++0x07
line.long 0x00 "EXTWARMRSTST_REG,This register logs the source of warm reset output"
bitfld.long 0x00 0. "EXTWARMRSTST,This bit logs the external warm reset source" "EXTWARMRSTST_0,EXTWARMRSTST_1"
line.long 0x04 "APEWARMRSTST_REG,This register logs the source of warm reset on the APE"
bitfld.long 0x04 1. "APEWARMRSTST,This bit logs the APE warm reset source" "APEWARMRSTST_0,APEWARMRSTST_1"
group.long 0x51C++0x03
line.long 0x00 "C2CWARMRSTST_REG,This register logs the source of warm reset on the external C2C interface"
bitfld.long 0x00 3. "C2CWARMRSTST,This bit logs the C2C warm reset source" "C2CWARMRSTST_0,C2CWARMRSTST_1"
tree.end
tree "SGX_CM2"
base ansd:0x4A009200
group.long 0x00++0x0B
line.long 0x00 "CM_SGX_CLKSTCTRL,This register enables the SGX domain power state transition"
rbitfld.long 0x00 9. "CLKACTIVITY_SGX_FCLK,This field indicates the state of the SGX_FCLK clock in the domain" "CLKACTIVITY_SGX_FCLK_0_r,CLKACTIVITY_SGX_FCLK_1_r"
rbitfld.long 0x00 8. "CLKACTIVITY_SGX_L3_ICLK,This field indicates the state of the SGX_L3_ICLK clock in the domain" "CLKACTIVITY_SGX_L3_ICLK_0_r,CLKACTIVITY_SGX_L3_ICLK_1_r"
newline
bitfld.long 0x00 0.--1. "CLKTRCTRL,Controls the clock state transition of the SGX clock domain" "CLKTRCTRL_0,CLKTRCTRL_1,CLKTRCTRL_2,CLKTRCTRL_3"
line.long 0x04 "CM_SGX_STATICDEP,This register controls the static domain depedencies from SGX domain towards 'target' domains"
bitfld.long 0x04 6. "L3_2_STATDEP,Static dependency towards L3_2 clock domain" "?,L3_2_STATDEP_1_r"
bitfld.long 0x04 5. "L3_1_STATDEP,Static dependency towards L3_1 clock domain" "L3_1_STATDEP_0,L3_1_STATDEP_1"
newline
bitfld.long 0x04 4. "MEMIF_STATDEP,Static dependency towards MEMIF clock domain" "MEMIF_STATDEP_0,MEMIF_STATDEP_1"
bitfld.long 0x04 2. "IVAHD_STATDEP,Static dependency towards IVAHD clock domain" "IVAHD_STATDEP_0,IVAHD_STATDEP_1"
line.long 0x08 "CM_SGX_DYNAMICDEP,This register controls the dynamic domain depedencies from SGX domain towards 'target' domains"
bitfld.long 0x08 6. "L3_2_DYNDEP,Dynamic dependency towards L3_2 clock domain" "L3_2_DYNDEP_0_r,?"
group.long 0x20++0x03
line.long 0x00 "CM_SGX_SGX_CLKCTRL,This register manages the SGX clocks"
bitfld.long 0x00 24. "CLKSEL_SGX_FCLK,Select the source of SGX_FCLK" "CLKSEL_SGX_FCLK_0,CLKSEL_SGX_FCLK_1"
rbitfld.long 0x00 18. "STBYST,Module standby status" "STBYST_0_r,STBYST_1_r"
newline
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
tree.end
tree "SGX_PRM"
base ansd:0x4A307200
group.long 0x00++0x07
line.long 0x00 "PM_SGX_PWRSTCTRL,This register controls the SGX power state to reach upon a domain sleep transition"
bitfld.long 0x00 16.--17. "SGX_MEM_ONSTATE,SGX_MEM memory bank state when domain is ON" "?,?,?,SGX_MEM_ONSTATE_3_r"
bitfld.long 0x00 4. "LOWPOWERSTATECHANGE,Power state change request when domain has already performed a sleep transition" "LOWPOWERSTATECHANGE_0,LOWPOWERSTATECHANGE_1"
newline
bitfld.long 0x00 0.--1. "POWERSTATE,Power state control" "POWERSTATE_0,POWERSTATE_1,POWERSTATE_2,POWERSTATE_3"
line.long 0x04 "PM_SGX_PWRSTST,This register provides a status on the current SGX power domain state"
bitfld.long 0x04 24.--25. "LASTPOWERSTATEENTERED,Last low power state entered" "LASTPOWERSTATEENTERED_0_r,LASTPOWERSTATEENTERED_1_r,LASTPOWERSTATEENTERED_2_r,LASTPOWERSTATEENTERED_3_r"
rbitfld.long 0x04 20. "INTRANSITION,Domain transition status" "INTRANSITION_0_r,INTRANSITION_1_r"
newline
rbitfld.long 0x04 4.--5. "SGX_MEM_STATEST,SGX_MEM memory bank state status" "SGX_MEM_STATEST_0_r,SGX_MEM_STATEST_1_r,SGX_MEM_STATEST_2_r,SGX_MEM_STATEST_3_r"
rbitfld.long 0x04 2. "LOGICSTATEST,Logic state status" "LOGICSTATEST_0_r,LOGICSTATEST_1_r"
newline
rbitfld.long 0x04 0.--1. "POWERSTATEST,Current power state status" "POWERSTATEST_0_r,POWERSTATEST_1_r,POWERSTATEST_2_r,POWERSTATEST_3_r"
group.long 0x24++0x03
line.long 0x00 "RM_SGX_SGX_CONTEXT,This register contains dedicated SGX context statuses"
bitfld.long 0x00 8. "LOSTMEM_SGX_MEM,Specify if memory-based context in SGX_MEM memory bank has been lost due to a previous power transition or other reset source" "LOSTMEM_SGX_MEM_0,LOSTMEM_SGX_MEM_1"
bitfld.long 0x00 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
tree.end
tree "SR_CORE"
base ansd:0x4A0DD000
group.long 0x00++0x1F
line.long 0x00 "SRCONFIG,Configuration bits for the Sensor Core and the Digital Processing"
hexmask.long.word 0x00 22.--31. 1. "ACCUMDATA,Number of Values to Accumulate"
hexmask.long.word 0x00 12.--21. 1. "SRCLKLENGTH,Determines frequency of SRClk"
newline
bitfld.long 0x00 11. "SRENABLE," "SRENABLE_0,SRENABLE_1"
bitfld.long 0x00 10. "SENENABLE," "SENENABLE_0,SENENABLE_1"
newline
bitfld.long 0x00 9. "ERRORGENERATORENABLE," "ERRORGENERATORENABLE_0,ERRORGENERATORENABLE_1"
bitfld.long 0x00 8. "MINMAXAVGENABLE," "MINMAXAVGENABLE_0,MINMAXAVGENABLE_1"
newline
bitfld.long 0x00 1. "SENNENABLE," "SENNENABLE_0,SENNENABLE_1"
bitfld.long 0x00 0. "SENPENABLE," "SENPENABLE_0,SENPENABLE_1"
line.long 0x04 "SRSTATUS,Status bits that indicate that the values in the register are valid or events have occurred"
bitfld.long 0x04 3. "AVGERRVALID," "AVGERRVALID_0,AVGERRVALID_1"
bitfld.long 0x04 2. "MINMAXAVGVALID," "MINMAXAVGVALID_0,MINMAXAVGVALID_1"
newline
bitfld.long 0x04 1. "ERRORGENERATORVALID," "ERRORGENERATORVALID_0,ERRORGENERATORVALID_1"
bitfld.long 0x04 0. "MINMAXAVGACCUMVALID," "MINMAXAVGACCUMVALID_0,MINMAXAVGACCUMVALID_1"
line.long 0x08 "SENVAL,The current sensor values from the Sensor Core"
hexmask.long.word 0x08 16.--31. 1. "SENPVAL,The latest value of the SenPVal from the sensor core"
hexmask.long.word 0x08 0.--15. 1. "SENNVAL,The latest value of the SenNVal from the sensor core"
line.long 0x0C "SENMIN,The minimum sensor values"
hexmask.long.word 0x0C 16.--31. 1. "SENPMIN,The minimum value of the SenPVal from the sensor core since the last restat operation"
hexmask.long.word 0x0C 0.--15. 1. "SENNMIN,The minimum value of the SenNVal from the sensor core since the last restat operation"
line.long 0x10 "SENMAX,The maximum sensor values"
hexmask.long.word 0x10 16.--31. 1. "SENPMAX,The maximum value of the SenPVal from the sensor core since the last restat operation"
hexmask.long.word 0x10 0.--15. 1. "SENNMAX,The maximum value of the SenNVal from the sensor core since the last restat operation"
line.long 0x14 "SENAVG,The average sensor values"
hexmask.long.word 0x14 16.--31. 1. "SENPAVG,The running average of the SenPVal from the sensor core since the last restat operation"
hexmask.long.word 0x14 0.--15. 1. "SENNAVG,The running average of the SenNVal from the sensor core since the last restat operation"
line.long 0x18 "AVGWEIGHT,The weighting factor in the average computation"
bitfld.long 0x18 2.--3. "SENPAVGWEIGHT,The weighting factor for the SenP averager" "SENPAVGWEIGHT_0,SENPAVGWEIGHT_1,SENPAVGWEIGHT_2,SENPAVGWEIGHT_3"
bitfld.long 0x18 0.--1. "SENNAVGWEIGHT,The weighting factor for the SenN averager" "SENNAVGWEIGHT_0,SENNAVGWEIGHT_1,SENNAVGWEIGHT_2,SENNAVGWEIGHT_3"
line.long 0x1C "NVALUERECIPROCAL,The reciprocal of the SenN and SenP values used in error generation"
bitfld.long 0x1C 20.--23. "SENPGAIN,The gain value for the SenP reciprocal" "SENPGAIN_0,SENPGAIN_1,SENPGAIN_2,SENPGAIN_3,SENPGAIN_4,SENPGAIN_5,SENPGAIN_6,SENPGAIN_7,SENPGAIN_8,SENPGAIN_9,SENPGAIN_10,SENPGAIN_11,SENPGAIN_12,SENPGAIN_13,SENPGAIN_14,SENPGAIN_15"
bitfld.long 0x1C 16.--19. "SENNGAIN,The gain value for the SenN reciprocal" "SENNGAIN_0,SENNGAIN_1,SENNGAIN_2,SENNGAIN_3,SENNGAIN_4,SENNGAIN_5,SENNGAIN_6,SENNGAIN_7,SENNGAIN_8,SENNGAIN_9,SENNGAIN_10,SENNGAIN_11,SENNGAIN_12,SENNGAIN_13,SENNGAIN_14,SENNGAIN_15"
newline
hexmask.long.byte 0x1C 8.--15. 1. "SENPRN,The scale value for the SenP reciprocal"
hexmask.long.byte 0x1C 0.--7. 1. "SENNRN,The scale value for the SenN reciprocal"
group.long 0x24++0x17
line.long 0x00 "IRQSTATUS_RAW,MCU raw interrup status and set"
bitfld.long 0x00 3. "MCUACCUMINTSTATRAW," "MCUACCUMINTSTATRAW_0,MCUACCUMINTSTATRAW_1"
bitfld.long 0x00 2. "MCUVALIDINTSTATRAW," "0,1"
newline
bitfld.long 0x00 1. "MCUBOUNDSINTSTATRAW," "0,1"
bitfld.long 0x00 0. "MCUDISABLEACKINTSTATRAW," "MCUDISABLEACKINTSTATRAW_0,MCUDISABLEACKINTSTATRAW_1"
line.long 0x04 "IRQSTATUS,MCU masked interrupt status and clear"
bitfld.long 0x04 3. "MCUACCUMINTSTATENA," "MCUACCUMINTSTATENA_0_w,MCUACCUMINTSTATENA_1_w"
bitfld.long 0x04 2. "MCUVALIDINTSTATENA," "MCUVALIDINTSTATENA_0_w,MCUVALIDINTSTATENA_1_w"
newline
bitfld.long 0x04 1. "MCUBOUNDSINTSTATENA," "MCUBOUNDSINTSTATENA_0_w,MCUBOUNDSINTSTATENA_1_w"
bitfld.long 0x04 0. "MCUDISABLEACKINTSTATENA," "MCUDISABLEACKINTSTATENA_0_w,MCUDISABLEACKINTSTATENA_1_w"
line.long 0x08 "IRQENABLE_SET,MCU interrupt enable flag and set"
bitfld.long 0x08 3. "MCUACCUMINTENASET,Read mode" "No change to Accum interrupt enable,Enable Accum interrupt generation"
bitfld.long 0x08 2. "MCUVALIDINTENASET,Read mode" "No change to Valid interrupt enable,Enable Valid interrupt generation"
newline
bitfld.long 0x08 1. "MCUBOUNDSINTENASET,Read mode" "No change to Bounds interrupt enable,Enable Bounds interrupt generation"
bitfld.long 0x08 0. "MCUDISABLEACTINTENASET,Read mode" "No change to MCUDisAck interrupt enable,Enable MCUDisableAck interrupt generation"
line.long 0x0C "IRQENABLE_CLR,MCU interrup enable flag and clear"
bitfld.long 0x0C 3. "MCUACCUMINTENACLR,Read mode" "No change to Accum interrupt enable,Enable Accum interrupt generation"
bitfld.long 0x0C 2. "MCUVALIDINTENACLR,Read mode" "No change to Valid interrupt enable,Enable Valid interrupt generation"
newline
bitfld.long 0x0C 1. "MCUBOUNDSINTENACLR,Read mode" "No change to Bounds interrupt enable,Enable Bounds interrupt generation"
bitfld.long 0x0C 0. "MCUDISABLEACKINTENACLR,Read mode" "No change to MCUDisAck interrupt enable,Enable MCUDisableAck interrupt generation"
line.long 0x10 "SENERROR,The sensor error from the error generator"
hexmask.long.byte 0x10 8.--15. 1. "AVGERROR,The average sensor error"
hexmask.long.byte 0x10 0.--7. 1. "SENERROR,The percentage of sensor error"
line.long 0x14 "ERRCONFIG,The sensor error configuration"
bitfld.long 0x14 26. "WAKEUPENABLE,Wakeup from MCU Interrupts enable" "WAKEUPENABLE_0,WAKEUPENABLE_1"
bitfld.long 0x14 24.--25. "IDLEMODE," "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
newline
bitfld.long 0x14 23. "VPBOUNDSINTSTATENA," "VPBOUNDSINTSTATENA_0,VPBOUNDSINTSTATENA_1"
bitfld.long 0x14 22. "VPBOUNDSINTENABLE," "VPBOUNDSINTENABLE_0,VPBOUNDSINTENABLE_1"
newline
bitfld.long 0x14 16.--18. "ERRWEIGHT,The AvgSenError weight" "ERRWEIGHT_0,ERRWEIGHT_1,ERRWEIGHT_2,ERRWEIGHT_3,ERRWEIGHT_4,ERRWEIGHT_5,ERRWEIGHT_6,ERRWEIGHT_7"
hexmask.long.byte 0x14 8.--15. 1. "ERRMAXLIMIT,The upper limit of SenError for interrupt generation"
newline
hexmask.long.byte 0x14 0.--7. 1. "ERRMINLIMIT,The lower limit of SenError for interrupt generation"
tree.end
tree "SR_IVA"
base ansd:0x4A0DB000
group.long 0x00++0x1F
line.long 0x00 "SRCONFIG,Configuration bits for the Sensor Core and the Digital Processing"
hexmask.long.word 0x00 22.--31. 1. "ACCUMDATA,Number of Values to Accumulate"
hexmask.long.word 0x00 12.--21. 1. "SRCLKLENGTH,Determines frequency of SRClk"
newline
bitfld.long 0x00 11. "SRENABLE," "SRENABLE_0,SRENABLE_1"
bitfld.long 0x00 10. "SENENABLE," "SENENABLE_0,SENENABLE_1"
newline
bitfld.long 0x00 9. "ERRORGENERATORENABLE," "ERRORGENERATORENABLE_0,ERRORGENERATORENABLE_1"
bitfld.long 0x00 8. "MINMAXAVGENABLE," "MINMAXAVGENABLE_0,MINMAXAVGENABLE_1"
newline
bitfld.long 0x00 1. "SENNENABLE," "SENNENABLE_0,SENNENABLE_1"
bitfld.long 0x00 0. "SENPENABLE," "SENPENABLE_0,SENPENABLE_1"
line.long 0x04 "SRSTATUS,Status bits that indicate that the values in the register are valid or events have occurred"
bitfld.long 0x04 3. "AVGERRVALID," "AVGERRVALID_0,AVGERRVALID_1"
bitfld.long 0x04 2. "MINMAXAVGVALID," "MINMAXAVGVALID_0,MINMAXAVGVALID_1"
newline
bitfld.long 0x04 1. "ERRORGENERATORVALID," "ERRORGENERATORVALID_0,ERRORGENERATORVALID_1"
bitfld.long 0x04 0. "MINMAXAVGACCUMVALID," "MINMAXAVGACCUMVALID_0,MINMAXAVGACCUMVALID_1"
line.long 0x08 "SENVAL,The current sensor values from the Sensor Core"
hexmask.long.word 0x08 16.--31. 1. "SENPVAL,The latest value of the SenPVal from the sensor core"
hexmask.long.word 0x08 0.--15. 1. "SENNVAL,The latest value of the SenNVal from the sensor core"
line.long 0x0C "SENMIN,The minimum sensor values"
hexmask.long.word 0x0C 16.--31. 1. "SENPMIN,The minimum value of the SenPVal from the sensor core since the last restat operation"
hexmask.long.word 0x0C 0.--15. 1. "SENNMIN,The minimum value of the SenNVal from the sensor core since the last restat operation"
line.long 0x10 "SENMAX,The maximum sensor values"
hexmask.long.word 0x10 16.--31. 1. "SENPMAX,The maximum value of the SenPVal from the sensor core since the last restat operation"
hexmask.long.word 0x10 0.--15. 1. "SENNMAX,The maximum value of the SenNVal from the sensor core since the last restat operation"
line.long 0x14 "SENAVG,The average sensor values"
hexmask.long.word 0x14 16.--31. 1. "SENPAVG,The running average of the SenPVal from the sensor core since the last restat operation"
hexmask.long.word 0x14 0.--15. 1. "SENNAVG,The running average of the SenNVal from the sensor core since the last restat operation"
line.long 0x18 "AVGWEIGHT,The weighting factor in the average computation"
bitfld.long 0x18 2.--3. "SENPAVGWEIGHT,The weighting factor for the SenP averager" "SENPAVGWEIGHT_0,SENPAVGWEIGHT_1,SENPAVGWEIGHT_2,SENPAVGWEIGHT_3"
bitfld.long 0x18 0.--1. "SENNAVGWEIGHT,The weighting factor for the SenN averager" "SENNAVGWEIGHT_0,SENNAVGWEIGHT_1,SENNAVGWEIGHT_2,SENNAVGWEIGHT_3"
line.long 0x1C "NVALUERECIPROCAL,The reciprocal of the SenN and SenP values used in error generation"
bitfld.long 0x1C 20.--23. "SENPGAIN,The gain value for the SenP reciprocal" "SENPGAIN_0,SENPGAIN_1,SENPGAIN_2,SENPGAIN_3,SENPGAIN_4,SENPGAIN_5,SENPGAIN_6,SENPGAIN_7,SENPGAIN_8,SENPGAIN_9,SENPGAIN_10,SENPGAIN_11,SENPGAIN_12,SENPGAIN_13,SENPGAIN_14,SENPGAIN_15"
bitfld.long 0x1C 16.--19. "SENNGAIN,The gain value for the SenN reciprocal" "SENNGAIN_0,SENNGAIN_1,SENNGAIN_2,SENNGAIN_3,SENNGAIN_4,SENNGAIN_5,SENNGAIN_6,SENNGAIN_7,SENNGAIN_8,SENNGAIN_9,SENNGAIN_10,SENNGAIN_11,SENNGAIN_12,SENNGAIN_13,SENNGAIN_14,SENNGAIN_15"
newline
hexmask.long.byte 0x1C 8.--15. 1. "SENPRN,The scale value for the SenP reciprocal"
hexmask.long.byte 0x1C 0.--7. 1. "SENNRN,The scale value for the SenN reciprocal"
group.long 0x24++0x17
line.long 0x00 "IRQSTATUS_RAW,MCU raw interrup status and set"
bitfld.long 0x00 3. "MCUACCUMINTSTATRAW," "MCUACCUMINTSTATRAW_0,MCUACCUMINTSTATRAW_1"
bitfld.long 0x00 2. "MCUVALIDINTSTATRAW," "0,1"
newline
bitfld.long 0x00 1. "MCUBOUNDSINTSTATRAW," "0,1"
bitfld.long 0x00 0. "MCUDISABLEACKINTSTATRAW," "MCUDISABLEACKINTSTATRAW_0,MCUDISABLEACKINTSTATRAW_1"
line.long 0x04 "IRQSTATUS,MCU masked interrupt status and clear"
bitfld.long 0x04 3. "MCUACCUMINTSTATENA," "MCUACCUMINTSTATENA_0_w,MCUACCUMINTSTATENA_1_w"
bitfld.long 0x04 2. "MCUVALIDINTSTATENA," "MCUVALIDINTSTATENA_0_w,MCUVALIDINTSTATENA_1_w"
newline
bitfld.long 0x04 1. "MCUBOUNDSINTSTATENA," "MCUBOUNDSINTSTATENA_0_w,MCUBOUNDSINTSTATENA_1_w"
bitfld.long 0x04 0. "MCUDISABLEACKINTSTATENA," "MCUDISABLEACKINTSTATENA_0_w,MCUDISABLEACKINTSTATENA_1_w"
line.long 0x08 "IRQENABLE_SET,MCU interrupt enable flag and set"
bitfld.long 0x08 3. "MCUACCUMINTENASET,Read mode" "No change to Accum interrupt enable,Enable Accum interrupt generation"
bitfld.long 0x08 2. "MCUVALIDINTENASET,Read mode" "No change to Valid interrupt enable,Enable Valid interrupt generation"
newline
bitfld.long 0x08 1. "MCUBOUNDSINTENASET,Read mode" "No change to Bounds interrupt enable,Enable Bounds interrupt generation"
bitfld.long 0x08 0. "MCUDISABLEACTINTENASET,Read mode" "No change to MCUDisAck interrupt enable,Enable MCUDisableAck interrupt generation"
line.long 0x0C "IRQENABLE_CLR,MCU interrup enable flag and clear"
bitfld.long 0x0C 3. "MCUACCUMINTENACLR,Read mode" "No change to Accum interrupt enable,Enable Accum interrupt generation"
bitfld.long 0x0C 2. "MCUVALIDINTENACLR,Read mode" "No change to Valid interrupt enable,Enable Valid interrupt generation"
newline
bitfld.long 0x0C 1. "MCUBOUNDSINTENACLR,Read mode" "No change to Bounds interrupt enable,Enable Bounds interrupt generation"
bitfld.long 0x0C 0. "MCUDISABLEACKINTENACLR,Read mode" "No change to MCUDisAck interrupt enable,Enable MCUDisableAck interrupt generation"
line.long 0x10 "SENERROR,The sensor error from the error generator"
hexmask.long.byte 0x10 8.--15. 1. "AVGERROR,The average sensor error"
hexmask.long.byte 0x10 0.--7. 1. "SENERROR,The percentage of sensor error"
line.long 0x14 "ERRCONFIG,The sensor error configuration"
bitfld.long 0x14 26. "WAKEUPENABLE,Wakeup from MCU Interrupts enable" "WAKEUPENABLE_0,WAKEUPENABLE_1"
bitfld.long 0x14 24.--25. "IDLEMODE," "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
newline
bitfld.long 0x14 23. "VPBOUNDSINTSTATENA," "VPBOUNDSINTSTATENA_0,VPBOUNDSINTSTATENA_1"
bitfld.long 0x14 22. "VPBOUNDSINTENABLE," "VPBOUNDSINTENABLE_0,VPBOUNDSINTENABLE_1"
newline
bitfld.long 0x14 16.--18. "ERRWEIGHT,The AvgSenError weight" "ERRWEIGHT_0,ERRWEIGHT_1,ERRWEIGHT_2,ERRWEIGHT_3,ERRWEIGHT_4,ERRWEIGHT_5,ERRWEIGHT_6,ERRWEIGHT_7"
hexmask.long.byte 0x14 8.--15. 1. "ERRMAXLIMIT,The upper limit of SenError for interrupt generation"
newline
hexmask.long.byte 0x14 0.--7. 1. "ERRMINLIMIT,The lower limit of SenError for interrupt generation"
tree.end
tree "SR_MPU"
base ansd:0x4A0D9000
group.long 0x00++0x1F
line.long 0x00 "SRCONFIG,Configuration bits for the Sensor Core and the Digital Processing"
hexmask.long.word 0x00 22.--31. 1. "ACCUMDATA,Number of Values to Accumulate"
hexmask.long.word 0x00 12.--21. 1. "SRCLKLENGTH,Determines frequency of SRClk"
newline
bitfld.long 0x00 11. "SRENABLE," "SRENABLE_0,SRENABLE_1"
bitfld.long 0x00 10. "SENENABLE," "SENENABLE_0,SENENABLE_1"
newline
bitfld.long 0x00 9. "ERRORGENERATORENABLE," "ERRORGENERATORENABLE_0,ERRORGENERATORENABLE_1"
bitfld.long 0x00 8. "MINMAXAVGENABLE," "MINMAXAVGENABLE_0,MINMAXAVGENABLE_1"
newline
bitfld.long 0x00 1. "SENNENABLE," "SENNENABLE_0,SENNENABLE_1"
bitfld.long 0x00 0. "SENPENABLE," "SENPENABLE_0,SENPENABLE_1"
line.long 0x04 "SRSTATUS,Status bits that indicate that the values in the register are valid or events have occurred"
bitfld.long 0x04 3. "AVGERRVALID," "AVGERRVALID_0,AVGERRVALID_1"
bitfld.long 0x04 2. "MINMAXAVGVALID," "MINMAXAVGVALID_0,MINMAXAVGVALID_1"
newline
bitfld.long 0x04 1. "ERRORGENERATORVALID," "ERRORGENERATORVALID_0,ERRORGENERATORVALID_1"
bitfld.long 0x04 0. "MINMAXAVGACCUMVALID," "MINMAXAVGACCUMVALID_0,MINMAXAVGACCUMVALID_1"
line.long 0x08 "SENVAL,The current sensor values from the Sensor Core"
hexmask.long.word 0x08 16.--31. 1. "SENPVAL,The latest value of the SenPVal from the sensor core"
hexmask.long.word 0x08 0.--15. 1. "SENNVAL,The latest value of the SenNVal from the sensor core"
line.long 0x0C "SENMIN,The minimum sensor values"
hexmask.long.word 0x0C 16.--31. 1. "SENPMIN,The minimum value of the SenPVal from the sensor core since the last restat operation"
hexmask.long.word 0x0C 0.--15. 1. "SENNMIN,The minimum value of the SenNVal from the sensor core since the last restat operation"
line.long 0x10 "SENMAX,The maximum sensor values"
hexmask.long.word 0x10 16.--31. 1. "SENPMAX,The maximum value of the SenPVal from the sensor core since the last restat operation"
hexmask.long.word 0x10 0.--15. 1. "SENNMAX,The maximum value of the SenNVal from the sensor core since the last restat operation"
line.long 0x14 "SENAVG,The average sensor values"
hexmask.long.word 0x14 16.--31. 1. "SENPAVG,The running average of the SenPVal from the sensor core since the last restat operation"
hexmask.long.word 0x14 0.--15. 1. "SENNAVG,The running average of the SenNVal from the sensor core since the last restat operation"
line.long 0x18 "AVGWEIGHT,The weighting factor in the average computation"
bitfld.long 0x18 2.--3. "SENPAVGWEIGHT,The weighting factor for the SenP averager" "SENPAVGWEIGHT_0,SENPAVGWEIGHT_1,SENPAVGWEIGHT_2,SENPAVGWEIGHT_3"
bitfld.long 0x18 0.--1. "SENNAVGWEIGHT,The weighting factor for the SenN averager" "SENNAVGWEIGHT_0,SENNAVGWEIGHT_1,SENNAVGWEIGHT_2,SENNAVGWEIGHT_3"
line.long 0x1C "NVALUERECIPROCAL,The reciprocal of the SenN and SenP values used in error generation"
bitfld.long 0x1C 20.--23. "SENPGAIN,The gain value for the SenP reciprocal" "SENPGAIN_0,SENPGAIN_1,SENPGAIN_2,SENPGAIN_3,SENPGAIN_4,SENPGAIN_5,SENPGAIN_6,SENPGAIN_7,SENPGAIN_8,SENPGAIN_9,SENPGAIN_10,SENPGAIN_11,SENPGAIN_12,SENPGAIN_13,SENPGAIN_14,SENPGAIN_15"
bitfld.long 0x1C 16.--19. "SENNGAIN,The gain value for the SenN reciprocal" "SENNGAIN_0,SENNGAIN_1,SENNGAIN_2,SENNGAIN_3,SENNGAIN_4,SENNGAIN_5,SENNGAIN_6,SENNGAIN_7,SENNGAIN_8,SENNGAIN_9,SENNGAIN_10,SENNGAIN_11,SENNGAIN_12,SENNGAIN_13,SENNGAIN_14,SENNGAIN_15"
newline
hexmask.long.byte 0x1C 8.--15. 1. "SENPRN,The scale value for the SenP reciprocal"
hexmask.long.byte 0x1C 0.--7. 1. "SENNRN,The scale value for the SenN reciprocal"
group.long 0x24++0x17
line.long 0x00 "IRQSTATUS_RAW,MCU raw interrup status and set"
bitfld.long 0x00 3. "MCUACCUMINTSTATRAW," "MCUACCUMINTSTATRAW_0,MCUACCUMINTSTATRAW_1"
bitfld.long 0x00 2. "MCUVALIDINTSTATRAW," "0,1"
newline
bitfld.long 0x00 1. "MCUBOUNDSINTSTATRAW," "0,1"
bitfld.long 0x00 0. "MCUDISABLEACKINTSTATRAW," "MCUDISABLEACKINTSTATRAW_0,MCUDISABLEACKINTSTATRAW_1"
line.long 0x04 "IRQSTATUS,MCU masked interrupt status and clear"
bitfld.long 0x04 3. "MCUACCUMINTSTATENA," "MCUACCUMINTSTATENA_0_w,MCUACCUMINTSTATENA_1_w"
bitfld.long 0x04 2. "MCUVALIDINTSTATENA," "MCUVALIDINTSTATENA_0_w,MCUVALIDINTSTATENA_1_w"
newline
bitfld.long 0x04 1. "MCUBOUNDSINTSTATENA," "MCUBOUNDSINTSTATENA_0_w,MCUBOUNDSINTSTATENA_1_w"
bitfld.long 0x04 0. "MCUDISABLEACKINTSTATENA," "MCUDISABLEACKINTSTATENA_0_w,MCUDISABLEACKINTSTATENA_1_w"
line.long 0x08 "IRQENABLE_SET,MCU interrupt enable flag and set"
bitfld.long 0x08 3. "MCUACCUMINTENASET,Read mode" "No change to Accum interrupt enable,Enable Accum interrupt generation"
bitfld.long 0x08 2. "MCUVALIDINTENASET,Read mode" "No change to Valid interrupt enable,Enable Valid interrupt generation"
newline
bitfld.long 0x08 1. "MCUBOUNDSINTENASET,Read mode" "No change to Bounds interrupt enable,Enable Bounds interrupt generation"
bitfld.long 0x08 0. "MCUDISABLEACTINTENASET,Read mode" "No change to MCUDisAck interrupt enable,Enable MCUDisableAck interrupt generation"
line.long 0x0C "IRQENABLE_CLR,MCU interrup enable flag and clear"
bitfld.long 0x0C 3. "MCUACCUMINTENACLR,Read mode" "No change to Accum interrupt enable,Enable Accum interrupt generation"
bitfld.long 0x0C 2. "MCUVALIDINTENACLR,Read mode" "No change to Valid interrupt enable,Enable Valid interrupt generation"
newline
bitfld.long 0x0C 1. "MCUBOUNDSINTENACLR,Read mode" "No change to Bounds interrupt enable,Enable Bounds interrupt generation"
bitfld.long 0x0C 0. "MCUDISABLEACKINTENACLR,Read mode" "No change to MCUDisAck interrupt enable,Enable MCUDisableAck interrupt generation"
line.long 0x10 "SENERROR,The sensor error from the error generator"
hexmask.long.byte 0x10 8.--15. 1. "AVGERROR,The average sensor error"
hexmask.long.byte 0x10 0.--7. 1. "SENERROR,The percentage of sensor error"
line.long 0x14 "ERRCONFIG,The sensor error configuration"
bitfld.long 0x14 26. "WAKEUPENABLE,Wakeup from MCU Interrupts enable" "WAKEUPENABLE_0,WAKEUPENABLE_1"
bitfld.long 0x14 24.--25. "IDLEMODE," "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
newline
bitfld.long 0x14 23. "VPBOUNDSINTSTATENA," "VPBOUNDSINTSTATENA_0,VPBOUNDSINTSTATENA_1"
bitfld.long 0x14 22. "VPBOUNDSINTENABLE," "VPBOUNDSINTENABLE_0,VPBOUNDSINTENABLE_1"
newline
bitfld.long 0x14 16.--18. "ERRWEIGHT,The AvgSenError weight" "ERRWEIGHT_0,ERRWEIGHT_1,ERRWEIGHT_2,ERRWEIGHT_3,ERRWEIGHT_4,ERRWEIGHT_5,ERRWEIGHT_6,ERRWEIGHT_7"
hexmask.long.byte 0x14 8.--15. 1. "ERRMAXLIMIT,The upper limit of SenError for interrupt generation"
newline
hexmask.long.byte 0x14 0.--7. 1. "ERRMINLIMIT,The lower limit of SenError for interrupt generation"
tree.end
tree "WKUP_CM"
base ansd:0x4A307800
group.long 0x00++0x03
line.long 0x00 "CM_WKUP_CLKSTCTRL,This register enables the domain power state transition"
rbitfld.long 0x00 13. "CLKACTIVITY_WKUP_TS_FCLK,This field indicates the state of the WKUP_TS_FCLK clock in the domain" "CLKACTIVITY_WKUP_TS_FCLK_0_r,CLKACTIVITY_WKUP_TS_FCLK_1_r"
rbitfld.long 0x00 12. "CLKACTIVITY_L4_WKUP_ICLK,This field indicates the state of the clock in the domain" "CLKACTIVITY_L4_WKUP_ICLK_0_r,CLKACTIVITY_L4_WKUP_ICLK_1_r"
newline
rbitfld.long 0x00 11. "CLKACTIVITY_WKUP_32K_FCLK,This field indicates the state of the clock in the domain" "CLKACTIVITY_WKUP_32K_FCLK_0_r,CLKACTIVITY_WKUP_32K_FCLK_1_r"
rbitfld.long 0x00 9. "CLKACTIVITY_ABE_LP_CLK,This field indicates the state of the clock in the domain" "CLKACTIVITY_ABE_LP_CLK_0_r,CLKACTIVITY_ABE_LP_CLK_1_r"
newline
rbitfld.long 0x00 8. "CLKACTIVITY_SYS_CLK,This field indicates the state of the SYS_CLK clock in the domain" "CLKACTIVITY_SYS_CLK_0_r,CLKACTIVITY_SYS_CLK_1_r"
bitfld.long 0x00 0.--1. "CLKTRCTRL,Controls the clock state transition of the WKUP clock domain" "CLKTRCTRL_0,CLKTRCTRL_1_r,CLKTRCTRL_2_r,CLKTRCTRL_3"
group.long 0x20++0x03
line.long 0x00 "CM_WKUP_L4WKUP_CLKCTRL,This register manages the L4WKUP clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "?,MODULEMODE_1_r,?,?"
group.long 0x30++0x03
line.long 0x00 "CM_WKUP_WDTIMER2_CLKCTRL,This register manages the WDT2 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x38++0x03
line.long 0x00 "CM_WKUP_GPIO1_CLKCTRL,This register manages the GPIO1 clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 8. "OPTFCLKEN_DBCLK,Optional functional clock control" "OPTFCLKEN_DBCLK_0,OPTFCLKEN_DBCLK_1"
newline
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1,MODULEMODE_2_r,MODULEMODE_3_r"
group.long 0x40++0x03
line.long 0x00 "CM_WKUP_GPTIMER1_CLKCTRL,This register manages the TIMER1 clocks"
bitfld.long 0x00 24. "CLKSEL,Select the source of the functional clock" "CLKSEL_0,CLKSEL_1"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
newline
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x50++0x03
line.long 0x00 "CM_WKUP_32KTIMER_CLKCTRL,This register manages the SYNCTIMER clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "?,MODULEMODE_1_r,?,?"
group.long 0x60++0x03
line.long 0x00 "CM_WKUP_SARRAM_CLKCTRL,This register manages the SARRAM clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "?,MODULEMODE_1_r,?,?"
group.long 0x78++0x03
line.long 0x00 "CM_WKUP_KEYBOARD_CLKCTRL,This register manages the KEYBOARD clocks"
rbitfld.long 0x00 16.--17. "IDLEST,Module idle status" "IDLEST_0_r,IDLEST_1_r,IDLEST_2_r,IDLEST_3_r"
bitfld.long 0x00 0.--1. "MODULEMODE,Control the way mandatory clocks are managed" "MODULEMODE_0,MODULEMODE_1_r,MODULEMODE_2,MODULEMODE_3_r"
group.long 0x88++0x03
line.long 0x00 "CM_WKUP_BANDGAP_CLKCTRL,This register manages the clock delivered to the Bandgap and SYSCTRL_GENERAL_CORE modules for the Thermal Sensor feature"
bitfld.long 0x00 24.--25. "CLKSEL,Selects the divider value for generating the Thermal Sensor clock from L4WKUP_ICLK source" "CLKSEL_0,CLKSEL_1,CLKSEL_2,CLKSEL_3"
bitfld.long 0x00 8. "OPTFCLKEN_TS_FCLK,Optional functional clock control" "OPTFCLKEN_TS_FCLK_0,OPTFCLKEN_TS_FCLK_1"
tree.end
tree "WKUP_PRM"
base ansd:0x4A307700
group.long 0x24++0x03
line.long 0x00 "RM_WKUP_L4WKUP_CONTEXT,This register contains dedicated L4WKUP context statuses"
bitfld.long 0x00 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
group.long 0x30++0x17
line.long 0x00 "PM_WKUP_WDTIMER2_WKDEP,This register controls wakeup dependency based on WDT2 service requests"
bitfld.long 0x00 1. "WKUPDEP_WDT2_MPU_M3,Wakeup dependency from WDT2 module (softwareakeup signal) towards MPU_A3 + L3_2 + L3_1 + L4_CFG domains" "WKUPDEP_WDT2_MPU_M3_0,WKUPDEP_WDT2_MPU_M3_1"
bitfld.long 0x00 0. "WKUPDEP_WDT2_MPU,Wakeup dependency from WDT2 module (softwareakeup signal) towards MPU + L3_1 + L4_CFG domains" "WKUPDEP_WDT2_MPU_0,WKUPDEP_WDT2_MPU_1"
line.long 0x04 "RM_WKUP_WDTIMER2_CONTEXT,This register contains dedicated WDT2 context statuses"
bitfld.long 0x04 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
line.long 0x08 "PM_WKUP_GPIO1_WKDEP,This register controls wakeup dependency based on GPIO1 service requests"
bitfld.long 0x08 6. "WKUPDEP_GPIO1_IRQ2_DSP,Wakeup dependency from GPIO1 module (POINTRsoftwareAKEUP2 signal) towards DSP + L3_1 + L4_CFG domains" "?,WKUPDEP_GPIO1_IRQ2_DSP_1_r"
bitfld.long 0x08 1. "WKUPDEP_GPIO1_IRQ1_MPU_M3,Wakeup dependency from GPIO1 module (POINTRsoftwareAKEUP1 signal) module towards MPU_A3 + L3_2 + L3_1 + L4_CFG domains" "WKUPDEP_GPIO1_IRQ1_MPU_M3_0,WKUPDEP_GPIO1_IRQ1_MPU_M3_1"
newline
bitfld.long 0x08 0. "WKUPDEP_GPIO1_IRQ1_MPU,Wakeup dependency from GPIO1 module (POINTRsoftwareAKEUP1 signal) towards MPU + L3_1 + L4_CFG domains" "WKUPDEP_GPIO1_IRQ1_MPU_0,WKUPDEP_GPIO1_IRQ1_MPU_1"
line.long 0x0C "RM_WKUP_GPIO1_CONTEXT,This register contains dedicated GPIO1 context statuses"
bitfld.long 0x0C 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
line.long 0x10 "PM_WKUP_GPTIMER1_WKDEP,This register controls wakeup dependency based on TIMER1 service requests"
bitfld.long 0x10 0. "WKUPDEP_TIMER1_MPU,Wakeup dependency from TIMER1 module (softwareakeup signal) towards MPU + L3_1 + L4_CFG domains" "?,WKUPDEP_TIMER1_MPU_1_r"
line.long 0x14 "RM_WKUP_GPTIMER1_CONTEXT,This register contains dedicated TIMER1 context statuses"
bitfld.long 0x14 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
group.long 0x54++0x03
line.long 0x00 "RM_WKUP_32KTIMER_CONTEXT,This register contains dedicated SYNCTIMER context statuses"
bitfld.long 0x00 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
group.long 0x64++0x03
line.long 0x00 "RM_WKUP_SARRAM_CONTEXT,This register contains dedicated SARRAM context statuses"
bitfld.long 0x00 8. "LOSTMEM_WKUP_BANK,Specify if memory-based context in WKUP_BANK memory bank has been lost due to a previous global cold reset" "LOSTMEM_WKUP_BANK_0,LOSTMEM_WKUP_BANK_1"
bitfld.long 0x00 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
group.long 0x78++0x07
line.long 0x00 "PM_WKUP_KEYBOARD_WKDEP,This register controls wakeup dependency based on KEYBOARD service requests"
bitfld.long 0x00 0. "WKUPDEP_KEYBOARD_MPU,Wakeup dependency from KEYBOARD module (softwareakeup signal) towards MPU + L3_1 + L4_CFG domains" "?,WKUPDEP_KEYBOARD_MPU_1_r"
line.long 0x04 "RM_WKUP_KEYBOARD_CONTEXT,This register contains dedicated KEYBOARD context statuses"
bitfld.long 0x04 0. "LOSTCONTEXT_DFF,Specify if DFF-based context has been lost due to a previous power transition or other reset source" "LOSTCONTEXT_DFF_0,LOSTCONTEXT_DFF_1"
tree.end
tree.end
tree "Remote_Frame_Buffer_Interface"
tree "RFBI_L3"
base ansd:0x58002000
tree "Channel_0"
group.long 0x6C++0x0B
line.long 0x00 "RFBI_DATA_CYCLEi_0,The control register configures the RFBI data format for ith cycle (i = 1 for firstcycle. i = 2 for second cycle. i = 3 for thrid cycle)"
bitfld.long 0x00 24.--27. "BITALIGNMENTPIXEL2,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 from the pixel 2 (value from 0 to 16 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"
bitfld.long 0x00 8.--11. "BITALIGNMENTPIXEL1,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"
bitfld.long 0x00 0.--4. "NBBITSPIXEL1,Number of bits from the pixel 1 (value from 0 to 16 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"
line.long 0x04 "RFBI_DATA_CYCLEi_1,The control register configures the RFBI data format for ith cycle (i = 1 for firstcycle. i = 2 for second cycle. i = 3 for thrid cycle)"
bitfld.long 0x04 24.--27. "BITALIGNMENTPIXEL2,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 0x04 16.--20. "NBBITSPIXEL2,Number of bits from the pixel 2 (value from 0 to 16 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"
bitfld.long 0x04 8.--11. "BITALIGNMENTPIXEL1,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"
bitfld.long 0x04 0.--4. "NBBITSPIXEL1,Number of bits from the pixel 1 (value from 0 to 16 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"
line.long 0x08 "RFBI_DATA_CYCLEi_2,The control register configures the RFBI data format for ith cycle (i = 1 for firstcycle. i = 2 for second cycle. i = 3 for thrid cycle)"
bitfld.long 0x08 24.--27. "BITALIGNMENTPIXEL2,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 0x08 16.--20. "NBBITSPIXEL2,Number of bits from the pixel 2 (value from 0 to 16 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"
bitfld.long 0x08 8.--11. "BITALIGNMENTPIXEL1,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"
bitfld.long 0x08 0.--4. "NBBITSPIXEL1,Number of bits from the pixel 1 (value from 0 to 16 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"
tree.end
group.long 0x4C++0x03
line.long 0x00 "RFBI_CMD,The register configures the RFBI command"
hexmask.long.byte 0x00 0.--7. 1. "CMD,Command Value"
group.long 0x60++0x03
line.long 0x00 "RFBI_CONFIG,The control register sets the configuration for the LCD 0 and LCD 1"
bitfld.long 0x00 21. "HSYNCPOLARITY,HSYNC polarity" "HSYNCPOLARITY_0,HSYNCPOLARITY_1"
bitfld.long 0x00 20. "TE_VSYNC_POLARITY,TE or VSYNC polarity" "TE_VSYNC_POLARITY_0,TE_VSYNC_POLARITY_1"
bitfld.long 0x00 19. "CSPOLARITY,CS polarity" "CSPOLARITY_0,CSPOLARITY_1"
newline
bitfld.long 0x00 18. "WEPOLARITY,WE polarity" "WEPOLARITY_0,WEPOLARITY_1"
bitfld.long 0x00 17. "REPOLARITY,RE polarity" "REPOLARITY_0,REPOLARITY_1"
bitfld.long 0x00 16. "A0POLARITY,A0 polarity" "A0POLARITY_0,A0POLARITY_1"
newline
bitfld.long 0x00 11.--12. "UNUSEDBITS,State of unused bits" "UNUSEDBITS_0,UNUSEDBITS_1,UNUSEDBITS_2,?"
bitfld.long 0x00 9.--10. "CYCLEFORMAT,Cycle format" "CYCLEFORMAT_0,CYCLEFORMAT_1,CYCLEFORMAT_2,CYCLEFORMAT_3"
bitfld.long 0x00 7.--8. "PORTFORMAT,Slave port write access format" "PORTFORMAT_0,?,PORTFORMAT_2,PORTFORMAT_3"
newline
bitfld.long 0x00 5.--6. "DATATYPE,Data type from the DISPC and slave port" "DATATYPE_0,DATATYPE_1,DATATYPE_2,DATATYPE_3"
bitfld.long 0x00 4. "TIMEGRANULARITY,Multiplies signal timing latencies by" "TIMEGRANULARITY_0,TIMEGRANULARITY_1"
bitfld.long 0x00 2.--3. "TRIGGERMODE,Trigger mode" "TRIGGERMODE_0,TRIGGERMODE_1,TRIGGERMODE_2,?"
newline
bitfld.long 0x00 0.--1. "PARALLELMODE,Parallel mode" "PARALLELMODE_0,PARALLELMODE_1,PARALLELMODE_2,PARALLELMODE_3"
group.long 0x40++0x03
line.long 0x00 "RFBI_CONTROL,The register configures the RFBI module"
bitfld.long 0x00 8. "SMART_DMA_REQ,Smart DMA request" "SMART_DMA_REQ_0,SMART_DMA_REQ_1"
bitfld.long 0x00 7. "DISABLE_DMA_REQ,Disable DMA request" "DISABLE_DMA_REQ_0,DISABLE_DMA_REQ_1"
bitfld.long 0x00 5.--6. "HIGHTHRESHOLD,Defines the FIFO high threshold used by hardware to assert DMA request" "HIGHTHRESHOLD_0,HIGHTHRESHOLD_1,HIGHTHRESHOLD_2,?"
newline
bitfld.long 0x00 4. "ITE,Internal Trigger" "ITE_0,ITE_1"
bitfld.long 0x00 2.--3. "CONFIGSELECT,Select the CS and configuration" "CONFIGSELECT_0,CONFIGSELECT_1,CONFIGSELECT_2,CONFIGSELECT_3"
bitfld.long 0x00 1. "RFBIMODE,RFBI Mode" "RFBIMODE_0,RFBIMODE_1"
newline
bitfld.long 0x00 0. "ENABLE,Enable/Disable flag" "ENABLE_0,ENABLE_1"
group.long 0x68++0x03
line.long 0x00 "RFBI_CYCLE_TIME,The control register configures the RFBI timings for the LCD 0 and LCD 1"
bitfld.long 0x00 22.--27. "ACCESSTIME,Access time number of RFBI_ICLK 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"
bitfld.long 0x00 21. "WRENABLE,Write-to-read pulse width enable (same CS)" "WRENABLE_0,WRENABLE_1"
bitfld.long 0x00 20. "WWENABLE,Write-to-write pulse width enable (same CS)" "WWENABLE_0,WWENABLE_1"
newline
bitfld.long 0x00 19. "RRENABLE,Read-to-read pulse width enable (same CS)" "RRENABLE_0,RRENABLE_1"
bitfld.long 0x00 18. "RWENABLE,Read-to-write pulse width enable (same" "RWENABLE_0,RWENABLE_1"
bitfld.long 0x00 12.--17. "CSPULSEWIDTH,CS pulse width number of RFBI_ICLK 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"
newline
bitfld.long 0x00 6.--11. "RECYCLETIME,RE cycle time number of RFBI_ICLK 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"
bitfld.long 0x00 0.--5. "WECYCLETIME,WE cycle time number of RFBI_ICLK 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 0x54++0x03
line.long 0x00 "RFBI_DATA,The register configures the RFBI data"
group.long 0x94++0x03
line.long 0x00 "RFBI_HSYNC_WIDTH,The register configures the RFBI HSYNC minimum pulse width"
hexmask.long.word 0x00 0.--15. 1. "MINHSYNCPULSEWIDTH,Programmable minimum HSYNC pulse width minimum HSYNC pulse width from 0 to 65535"
group.long 0x48++0x03
line.long 0x00 "RFBI_LINE_NUMBER,The register configures the number of lines to synchronize the beginning of the transfer"
hexmask.long.word 0x00 0.--10. 1. "LINENUMBER,Programmable line numberLine number from 0 to 2047"
group.long 0x64++0x03
line.long 0x00 "RFBI_ONOFF_TIME,The control register configures the RFBI timings for the LCD 0 and LCD 1"
bitfld.long 0x00 24.--29. "REOFFTIME,Read enable deassertion time from start access time" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 20.--23. "REONTIME,Read enable assertion time from start access time" "REONTIME_0,REONTIME_1,REONTIME_2,REONTIME_3,REONTIME_4,REONTIME_5,REONTIME_6,REONTIME_7,REONTIME_8,REONTIME_9,REONTIME_10,REONTIME_11,REONTIME_12,REONTIME_13,REONTIME_14,REONTIME_15"
bitfld.long 0x00 14.--19. "WEOFFTIME,Write enable deassertion time from start access time" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x00 10.--13. "WEONTIME,Write enable assertion time from start access time" "WEONTIME_0,WEONTIME_1,WEONTIME_2,WEONTIME_3,WEONTIME_4,WEONTIME_5,WEONTIME_6,WEONTIME_7,WEONTIME_8,WEONTIME_9,WEONTIME_10,WEONTIME_11,WEONTIME_12,WEONTIME_13,WEONTIME_14,WEONTIME_15"
bitfld.long 0x00 4.--9. "CSOFFTIME,CS deassertion time from start access time" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--3. "CSONTIME,CS assertion time from start access time" "CSONTIME_0,CSONTIME_1,CSONTIME_2,CSONTIME_3,CSONTIME_4,CSONTIME_5,CSONTIME_6,CSONTIME_7,CSONTIME_8,CSONTIME_9,CSONTIME_10,CSONTIME_11,CSONTIME_12,CSONTIME_13,CSONTIME_14,CSONTIME_15"
group.long 0x50++0x03
line.long 0x00 "RFBI_PARAM,The register configures the RFBI parameter"
hexmask.long.byte 0x00 0.--7. 1. "PARAM,Parameter value"
group.long 0x44++0x03
line.long 0x00 "RFBI_PIXEL_CNT,The register configures the RFBI pixel count value"
group.long 0x58++0x03
line.long 0x00 "RFBI_READ,The register configures the RFBI"
hexmask.long.byte 0x00 0.--7. 1. "READ,Read value"
rgroup.long 0x00++0x03
line.long 0x00 "RFBI_REVISION,This register contains the IP revision"
group.long 0x5C++0x03
line.long 0x00 "RFBI_STATUS,The register configures the RFBI status"
hexmask.long.byte 0x00 0.--7. 1. "STATUS,Status value"
group.long 0x10++0x07
line.long 0x00 "RFBI_SYSCONFIG,This register controls various parameters of the slave port interface"
bitfld.long 0x00 3.--4. "SIDLEMODE,Slave interface power management Idle req/ack control" "SIDLEMODE_0,SIDLEMODE_1,SIDLEMODE_2,?"
bitfld.long 0x00 1. "SOFTRESET,Software reset Sets this bit to 1 to trigger a module reset" "SOFTRESET_0,SOFTRESET_1"
bitfld.long 0x00 0. "AUTOIDLE,Internal clock gating strategy (RFBI_ICLK clock and DISPC clock)" "AUTOIDLE_0,AUTOIDLE_1"
line.long 0x04 "RFBI_SYSSTATUS,This register provides status information about the module. excluding the interrupt status information"
bitfld.long 0x04 9. "BUSYRFBIDATA,Data are pending to be processed from interconnect FIFO" "BUSYRFBIDATA_0_r,BUSYRFBIDATA_1_r"
bitfld.long 0x04 8. "BUSY,Slave port busy status bit" "BUSY_0_r,BUSY_1_r"
bitfld.long 0x04 0. "RESETDONE,Internal reset monitoring" "RESETDONE_0_r,RESETDONE_1_r"
group.long 0x90++0x03
line.long 0x00 "RFBI_VSYNC_WIDTH,The register configures the RFBI VSYNC minimum pulse width"
hexmask.long.word 0x00 0.--15. 1. "MINVSYNCPULSEWIDTH,Programmable minimum VSYNC pulse width Minimum VSYNC pulse width from 0 to 65535"
tree.end
tree "RFBI_L4_PER"
base ansd:0x48042000
tree "Channel_0"
group.long 0x6C++0x0B
line.long 0x00 "RFBI_DATA_CYCLEi_0,The control register configures the RFBI data format for ith cycle (i = 1 for firstcycle. i = 2 for second cycle. i = 3 for thrid cycle)"
bitfld.long 0x00 24.--27. "BITALIGNMENTPIXEL2,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 from the pixel 2 (value from 0 to 16 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"
bitfld.long 0x00 8.--11. "BITALIGNMENTPIXEL1,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"
bitfld.long 0x00 0.--4. "NBBITSPIXEL1,Number of bits from the pixel 1 (value from 0 to 16 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"
line.long 0x04 "RFBI_DATA_CYCLEi_1,The control register configures the RFBI data format for ith cycle (i = 1 for firstcycle. i = 2 for second cycle. i = 3 for thrid cycle)"
bitfld.long 0x04 24.--27. "BITALIGNMENTPIXEL2,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 0x04 16.--20. "NBBITSPIXEL2,Number of bits from the pixel 2 (value from 0 to 16 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"
bitfld.long 0x04 8.--11. "BITALIGNMENTPIXEL1,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"
bitfld.long 0x04 0.--4. "NBBITSPIXEL1,Number of bits from the pixel 1 (value from 0 to 16 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"
line.long 0x08 "RFBI_DATA_CYCLEi_2,The control register configures the RFBI data format for ith cycle (i = 1 for firstcycle. i = 2 for second cycle. i = 3 for thrid cycle)"
bitfld.long 0x08 24.--27. "BITALIGNMENTPIXEL2,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 0x08 16.--20. "NBBITSPIXEL2,Number of bits from the pixel 2 (value from 0 to 16 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"
bitfld.long 0x08 8.--11. "BITALIGNMENTPIXEL1,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"
bitfld.long 0x08 0.--4. "NBBITSPIXEL1,Number of bits from the pixel 1 (value from 0 to 16 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"
tree.end
group.long 0x4C++0x03
line.long 0x00 "RFBI_CMD,The register configures the RFBI command"
hexmask.long.byte 0x00 0.--7. 1. "CMD,Command Value"
group.long 0x60++0x03
line.long 0x00 "RFBI_CONFIG,The control register sets the configuration for the LCD 0 and LCD 1"
bitfld.long 0x00 21. "HSYNCPOLARITY,HSYNC polarity" "HSYNCPOLARITY_0,HSYNCPOLARITY_1"
bitfld.long 0x00 20. "TE_VSYNC_POLARITY,TE or VSYNC polarity" "TE_VSYNC_POLARITY_0,TE_VSYNC_POLARITY_1"
bitfld.long 0x00 19. "CSPOLARITY,CS polarity" "CSPOLARITY_0,CSPOLARITY_1"
newline
bitfld.long 0x00 18. "WEPOLARITY,WE polarity" "WEPOLARITY_0,WEPOLARITY_1"
bitfld.long 0x00 17. "REPOLARITY,RE polarity" "REPOLARITY_0,REPOLARITY_1"
bitfld.long 0x00 16. "A0POLARITY,A0 polarity" "A0POLARITY_0,A0POLARITY_1"
newline
bitfld.long 0x00 11.--12. "UNUSEDBITS,State of unused bits" "UNUSEDBITS_0,UNUSEDBITS_1,UNUSEDBITS_2,?"
bitfld.long 0x00 9.--10. "CYCLEFORMAT,Cycle format" "CYCLEFORMAT_0,CYCLEFORMAT_1,CYCLEFORMAT_2,CYCLEFORMAT_3"
bitfld.long 0x00 7.--8. "PORTFORMAT,Slave port write access format" "PORTFORMAT_0,?,PORTFORMAT_2,PORTFORMAT_3"
newline
bitfld.long 0x00 5.--6. "DATATYPE,Data type from the DISPC and slave port" "DATATYPE_0,DATATYPE_1,DATATYPE_2,DATATYPE_3"
bitfld.long 0x00 4. "TIMEGRANULARITY,Multiplies signal timing latencies by" "TIMEGRANULARITY_0,TIMEGRANULARITY_1"
bitfld.long 0x00 2.--3. "TRIGGERMODE,Trigger mode" "TRIGGERMODE_0,TRIGGERMODE_1,TRIGGERMODE_2,?"
newline
bitfld.long 0x00 0.--1. "PARALLELMODE,Parallel mode" "PARALLELMODE_0,PARALLELMODE_1,PARALLELMODE_2,PARALLELMODE_3"
group.long 0x40++0x03
line.long 0x00 "RFBI_CONTROL,The register configures the RFBI module"
bitfld.long 0x00 8. "SMART_DMA_REQ,Smart DMA request" "SMART_DMA_REQ_0,SMART_DMA_REQ_1"
bitfld.long 0x00 7. "DISABLE_DMA_REQ,Disable DMA request" "DISABLE_DMA_REQ_0,DISABLE_DMA_REQ_1"
bitfld.long 0x00 5.--6. "HIGHTHRESHOLD,Defines the FIFO high threshold used by hardware to assert DMA request" "HIGHTHRESHOLD_0,HIGHTHRESHOLD_1,HIGHTHRESHOLD_2,?"
newline
bitfld.long 0x00 4. "ITE,Internal Trigger" "ITE_0,ITE_1"
bitfld.long 0x00 2.--3. "CONFIGSELECT,Select the CS and configuration" "CONFIGSELECT_0,CONFIGSELECT_1,CONFIGSELECT_2,CONFIGSELECT_3"
bitfld.long 0x00 1. "RFBIMODE,RFBI Mode" "RFBIMODE_0,RFBIMODE_1"
newline
bitfld.long 0x00 0. "ENABLE,Enable/Disable flag" "ENABLE_0,ENABLE_1"
group.long 0x68++0x03
line.long 0x00 "RFBI_CYCLE_TIME,The control register configures the RFBI timings for the LCD 0 and LCD 1"
bitfld.long 0x00 22.--27. "ACCESSTIME,Access time number of RFBI_ICLK 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"
bitfld.long 0x00 21. "WRENABLE,Write-to-read pulse width enable (same CS)" "WRENABLE_0,WRENABLE_1"
bitfld.long 0x00 20. "WWENABLE,Write-to-write pulse width enable (same CS)" "WWENABLE_0,WWENABLE_1"
newline
bitfld.long 0x00 19. "RRENABLE,Read-to-read pulse width enable (same CS)" "RRENABLE_0,RRENABLE_1"
bitfld.long 0x00 18. "RWENABLE,Read-to-write pulse width enable (same" "RWENABLE_0,RWENABLE_1"
bitfld.long 0x00 12.--17. "CSPULSEWIDTH,CS pulse width number of RFBI_ICLK 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"
newline
bitfld.long 0x00 6.--11. "RECYCLETIME,RE cycle time number of RFBI_ICLK 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"
bitfld.long 0x00 0.--5. "WECYCLETIME,WE cycle time number of RFBI_ICLK 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 0x54++0x03
line.long 0x00 "RFBI_DATA,The register configures the RFBI data"
group.long 0x94++0x03
line.long 0x00 "RFBI_HSYNC_WIDTH,The register configures the RFBI HSYNC minimum pulse width"
hexmask.long.word 0x00 0.--15. 1. "MINHSYNCPULSEWIDTH,Programmable minimum HSYNC pulse width minimum HSYNC pulse width from 0 to 65535"
group.long 0x48++0x03
line.long 0x00 "RFBI_LINE_NUMBER,The register configures the number of lines to synchronize the beginning of the transfer"
hexmask.long.word 0x00 0.--10. 1. "LINENUMBER,Programmable line numberLine number from 0 to 2047"
group.long 0x64++0x03
line.long 0x00 "RFBI_ONOFF_TIME,The control register configures the RFBI timings for the LCD 0 and LCD 1"
bitfld.long 0x00 24.--29. "REOFFTIME,Read enable deassertion time from start access time" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 20.--23. "REONTIME,Read enable assertion time from start access time" "REONTIME_0,REONTIME_1,REONTIME_2,REONTIME_3,REONTIME_4,REONTIME_5,REONTIME_6,REONTIME_7,REONTIME_8,REONTIME_9,REONTIME_10,REONTIME_11,REONTIME_12,REONTIME_13,REONTIME_14,REONTIME_15"
bitfld.long 0x00 14.--19. "WEOFFTIME,Write enable deassertion time from start access time" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x00 10.--13. "WEONTIME,Write enable assertion time from start access time" "WEONTIME_0,WEONTIME_1,WEONTIME_2,WEONTIME_3,WEONTIME_4,WEONTIME_5,WEONTIME_6,WEONTIME_7,WEONTIME_8,WEONTIME_9,WEONTIME_10,WEONTIME_11,WEONTIME_12,WEONTIME_13,WEONTIME_14,WEONTIME_15"
bitfld.long 0x00 4.--9. "CSOFFTIME,CS deassertion time from start access time" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--3. "CSONTIME,CS assertion time from start access time" "CSONTIME_0,CSONTIME_1,CSONTIME_2,CSONTIME_3,CSONTIME_4,CSONTIME_5,CSONTIME_6,CSONTIME_7,CSONTIME_8,CSONTIME_9,CSONTIME_10,CSONTIME_11,CSONTIME_12,CSONTIME_13,CSONTIME_14,CSONTIME_15"
group.long 0x50++0x03
line.long 0x00 "RFBI_PARAM,The register configures the RFBI parameter"
hexmask.long.byte 0x00 0.--7. 1. "PARAM,Parameter value"
group.long 0x44++0x03
line.long 0x00 "RFBI_PIXEL_CNT,The register configures the RFBI pixel count value"
group.long 0x58++0x03
line.long 0x00 "RFBI_READ,The register configures the RFBI"
hexmask.long.byte 0x00 0.--7. 1. "READ,Read value"
rgroup.long 0x00++0x03
line.long 0x00 "RFBI_REVISION,This register contains the IP revision"
group.long 0x5C++0x03
line.long 0x00 "RFBI_STATUS,The register configures the RFBI status"
hexmask.long.byte 0x00 0.--7. 1. "STATUS,Status value"
group.long 0x10++0x07
line.long 0x00 "RFBI_SYSCONFIG,This register controls various parameters of the slave port interface"
bitfld.long 0x00 3.--4. "SIDLEMODE,Slave interface power management Idle req/ack control" "SIDLEMODE_0,SIDLEMODE_1,SIDLEMODE_2,?"
bitfld.long 0x00 1. "SOFTRESET,Software reset Sets this bit to 1 to trigger a module reset" "SOFTRESET_0,SOFTRESET_1"
bitfld.long 0x00 0. "AUTOIDLE,Internal clock gating strategy (RFBI_ICLK clock and DISPC clock)" "AUTOIDLE_0,AUTOIDLE_1"
line.long 0x04 "RFBI_SYSSTATUS,This register provides status information about the module. excluding the interrupt status information"
bitfld.long 0x04 9. "BUSYRFBIDATA,Data are pending to be processed from interconnect FIFO" "BUSYRFBIDATA_0_r,BUSYRFBIDATA_1_r"
bitfld.long 0x04 8. "BUSY,Slave port busy status bit" "BUSY_0_r,BUSY_1_r"
bitfld.long 0x04 0. "RESETDONE,Internal reset monitoring" "RESETDONE_0_r,RESETDONE_1_r"
group.long 0x90++0x03
line.long 0x00 "RFBI_VSYNC_WIDTH,The register configures the RFBI VSYNC minimum pulse width"
hexmask.long.word 0x00 0.--15. 1. "MINVSYNCPULSEWIDTH,Programmable minimum VSYNC pulse width Minimum VSYNC pulse width from 0 to 65535"
tree.end
tree.end
tree "SDMA_Module_Overview"
tree "SDMA"
base ansd:0x4A056000
rgroup.long 0x64++0x03
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" "LINK_LIST_CPBLTY_TYPE4_0,LINK_LIST_CPBLTY_TYPE4_1"
newline
bitfld.long 0x00 20. "LINK_LIST_CPBLTY_TYPE123,Link List capability for type123 descriptor capability" "LINK_LIST_CPBLTY_TYPE123_0,LINK_LIST_CPBLTY_TYPE123_1"
newline
bitfld.long 0x00 19. "CONST_FILL_CPBLTY,Constant_Fill_Capability" "CONST_FILL_CPBLTY_0_r,CONST_FILL_CPBLTY_1_r"
newline
bitfld.long 0x00 18. "TRANSPARENT_BLT_CPBLTY,Transparent_BLT_Capability" "TRANSPARENT_BLT_CPBLTY_0_r,TRANSPARENT_BLT_CPBLTY_1_r"
rgroup.long 0x6C++0x0F
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" "SEPARATE_SRC_AND_DST_INDEX_CPBLTY_0_r,SEPARATE_SRC_AND_DST_INDEX_CPBLTY_1_r"
newline
bitfld.long 0x00 7. "DST_DOUBLE_INDEX_ADRS_CPBLTY,Destination_double_index_address_capability" "DST_DOUBLE_INDEX_ADRS_CPBLTY_0_r,DST_DOUBLE_INDEX_ADRS_CPBLTY_1_r"
newline
bitfld.long 0x00 6. "DST_SINGLE_INDEX_ADRS_CPBLTY,Destination_single_index_address_capability" "DST_SINGLE_INDEX_ADRS_CPBLTY_0_r,DST_SINGLE_INDEX_ADRS_CPBLTY_1_r"
newline
bitfld.long 0x00 5. "DST_POST_INCRMNT_ADRS_CPBLTY,Destination_post_increment_address_capability" "DST_POST_INCRMNT_ADRS_CPBLTY_0_r,DST_POST_INCRMNT_ADRS_CPBLTY_1_r"
newline
bitfld.long 0x00 4. "DST_CONST_ADRS_CPBLTY,Destination_constant_address_capability" "DST_CONST_ADRS_CPBLTY_0_r,DST_CONST_ADRS_CPBLTY_1_r"
newline
bitfld.long 0x00 3. "SRC_DOUBLE_INDEX_ADRS_CPBLTY,Source_double_index_address_capability" "SRC_DOUBLE_INDEX_ADRS_CPBLTY_0_r,SRC_DOUBLE_INDEX_ADRS_CPBLTY_1_r"
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bitfld.long 0x00 2. "SRC_SINGLE_INDEX_ADRS_CPBLTY,Source_single_index_address_capability" "SRC_SINGLE_INDEX_ADRS_CPBLTY_0_r,SRC_SINGLE_INDEX_ADRS_CPBLTY_1_r"
newline
bitfld.long 0x00 1. "SRC_POST_INCREMENT_ADRS_CPBLTY,Source_post_increment_address_capability" "SRC_POST_INCREMENT_ADRS_CPBLTY_0_r,SRC_POST_INCREMENT_ADRS_CPBLTY_1_r"
newline
bitfld.long 0x00 0. "SRC_CONST_ADRS_CPBLTY,Source_constant_address_capability" "SRC_CONST_ADRS_CPBLTY_0_r,SRC_CONST_ADRS_CPBLTY_1_r"
line.long 0x04 "DMA4_CAPS_3,DMA Capabilities Register 3"
bitfld.long 0x04 7. "BLOCK_SYNCHR_CPBLTY," "BLOCK_SYNCHR_CPBLTY_0_r,BLOCK_SYNCHR_CPBLTY_1_r"
newline
bitfld.long 0x04 6. "PKT_SYNCHR_CPBLTY,Packet_synchronization_capability" "PKT_SYNCHR_CPBLTY_0_r,PKT_SYNCHR_CPBLTY_1_r"
newline
bitfld.long 0x04 5. "CHANNEL_CHANINIG_CPBLTY," "CHANNEL_CHANINIG_CPBLTY_0_r,CHANNEL_CHANINIG_CPBLTY_1_r"
newline
bitfld.long 0x04 4. "CHANNEL_INTERLEAVE_CPBLTY," "CHANNEL_INTERLEAVE_CPBLTY_0_r,CHANNEL_INTERLEAVE_CPBLTY_1_r"
newline
bitfld.long 0x04 1. "FRAME_SYNCHR_CPBLTY," "FRAME_SYNCHR_CPBLTY_0_r,FRAME_SYNCHR_CPBLTY_1_r"
newline
bitfld.long 0x04 0. "ELMNT_SYNCHR_CPBLTY," "ELMNT_SYNCHR_CPBLTY_0_r,ELMNT_SYNCHR_CPBLTY_1_r"
line.long 0x08 "DMA4_CAPS_4,DMA Capabilities Register 4"
bitfld.long 0x08 14. "EOSB_INTERRUPT_CPBLTY,End of Super Block detection capability" "EOSB_INTERRUPT_CPBLTY_0,EOSB_INTERRUPT_CPBLTY_1"
newline
bitfld.long 0x08 12. "DRAIN_END_INTERRUPT_CPBLTY,Drain End detection capability" "DRAIN_END_INTERRUPT_CPBLTY_0,DRAIN_END_INTERRUPT_CPBLTY_1"
newline
bitfld.long 0x08 11. "MISALIGNED_ADRS_ERR_INTERRUPT_CPBLTY,Misaligned error detection capability" "MISALIGNED_ADRS_ERR_INTERRUPT_CPBLTY_0,MISALIGNED_ADRS_ERR_INTERRUPT_CPBLTY_1"
newline
bitfld.long 0x08 10. "SUPERVISOR_ERR_INTERRUPT_CPBLTY,Supervisor error detection capability" "SUPERVISOR_ERR_INTERRUPT_CPBLTY_0,SUPERVISOR_ERR_INTERRUPT_CPBLTY_1"
newline
bitfld.long 0x08 8. "TRANS_ERR_INTERRUPT_CPBLTY,Transaction error detection capability" "TRANS_ERR_INTERRUPT_CPBLTY_0,TRANS_ERR_INTERRUPT_CPBLTY_1"
newline
bitfld.long 0x08 7. "PKT_INTERRUPT_CPBLTY,End of Packet detection capability" "PKT_INTERRUPT_CPBLTY_0_r,PKT_INTERRUPT_CPBLTY_1_r"
newline
bitfld.long 0x08 6. "SYNC_STATUS_CPBLTY,Sync_status_capability" "SYNC_STATUS_CPBLTY_0_r,SYNC_STATUS_CPBLTY_1_r"
newline
bitfld.long 0x08 5. "BLOCK_INTERRUPT_CPBLTY,End of block detection capability" "BLOCK_INTERRUPT_CPBLTY_0_r,BLOCK_INTERRUPT_CPBLTY_1_r"
newline
bitfld.long 0x08 4. "LAST_FRAME_INTERRUPT_CPBLTY,Start of last frame detection capability" "LAST_FRAME_INTERRUPT_CPBLTY_0_r,LAST_FRAME_INTERRUPT_CPBLTY_1_r"
newline
bitfld.long 0x08 3. "FRAME_INTERRUPT_CPBLTY,End of frame detection capability" "FRAME_INTERRUPT_CPBLTY_0_r,FRAME_INTERRUPT_CPBLTY_1_r"
newline
bitfld.long 0x08 2. "HALF_FRAME_INTERRUPT_CPBLTY,Detection capability of the half of frame end" "HALF_FRAME_INTERRUPT_CPBLTY_0_r,HALF_FRAME_INTERRUPT_CPBLTY_1_r"
newline
bitfld.long 0x08 1. "EVENT_DROP_INTERRUPT_CPBLTY,Request collision detection capability" "EVENT_DROP_INTERRUPT_CPBLTY_0_r,EVENT_DROP_INTERRUPT_CPBLTY_1_r"
line.long 0x0C "DMA4_GCR,"
bitfld.long 0x0C 24. "CHANNEL_ID_GATE,Gates the Channel ID bus monitoring on both Read and Write ports" "Gates the Channel ID qualifiers on both Read and..,Does not gate the Channel ID qualifiers on both.."
newline
hexmask.long.byte 0x0C 16.--23. 1. "ARBITRATION_RATE,Arbitration switching rate between prioritized and regular channel queues"
newline
bitfld.long 0x0C 14.--15. "HI_LO_FIFO_BUDGET,Allow to have a separate Global FIFO budget for high and low priority channels" "HI_LO_FIFO_BUDGET_0,HI_LO_FIFO_BUDGET_1,HI_LO_FIFO_BUDGET_2,HI_LO_FIFO_BUDGET_3"
newline
bitfld.long 0x0C 12.--13. "HI_THREAD_RESERVED,Allow thread reservation for high priority channel on both read and write ports" "HI_THREAD_RESERVED_0,HI_THREAD_RESERVED_1,HI_THREAD_RESERVED_2,HI_THREAD_RESERVED_3"
newline
hexmask.long.byte 0x0C 0.--7. 1. "MAX_CHANNEL_FIFO_DEPTH,Maximum FIFO depth allocated to one logical channel"
group.long 0x2C++0x03
line.long 0x00 "DMA4_OCP_SYSCONFIG,DMA system configuration register"
bitfld.long 0x00 12.--13. "MIDLEMODE,Read write power management standby/wait control" "MIDLEMODE_0,MIDLEMODE_1,MIDLEMODE_2,MIDLEMODE_3"
newline
rbitfld.long 0x00 8.--9. "CLOCKACTIVITY,Clocks activities during wake-up Bit" "0,1,2,3"
newline
bitfld.long 0x00 5. "EMUFREE,Enable sensitivity to MSuspend" "EMUFREE_0,EMUFREE_1"
newline
bitfld.long 0x00 3.--4. "SIDLEMODE,Configuration port power management Idle req/ack control" "SIDLEMODE_0,SIDLEMODE_1,SIDLEMODE_2,SIDLEMODE_3"
newline
bitfld.long 0x00 0. "AUTOIDLE,Internal interface clock gating strategy" "AUTOIDLE_0,AUTOIDLE_1"
rgroup.long 0x00++0x03
line.long 0x00 "DMA4_REVISION,This register contains the DMA revision code"
rgroup.long 0x28++0x03
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" "RESETDONE_0_r,RESETDONE_1_r"
tree "DMA_Channel_0"
group.long 0xD8++0x03
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"
group.long 0xBC++0x07
line.long 0x00 "DMA4_CCENi_0,Channel Current Transferred Element Number in the current frame"
hexmask.long.tbyte 0x00 0.--23. 1. "CURRENT_ELMNT_NBR,Channel current transferred element number in the current frame"
line.long 0x04 "DMA4_CCFNi_0,Channel Current Transferred Frame Number in the current transfer"
hexmask.long.word 0x04 0.--15. 1. "CURRENT_FRAME_NBR,Channel current transferred frame number in the current transfer"
group.long 0x80++0x03
line.long 0x00 "DMA4_CCRi_0,Channel Control Register"
bitfld.long 0x00 26. "WRITE_PRIORITY,Channel priority on the Write side" "WRITE_PRIORITY_0,WRITE_PRIORITY_1"
newline
bitfld.long 0x00 25. "BUFFERING_DISABLE,This bit allows to disable the default buffering functionality when transfer is source synchronized" "BUFFERING_DISABLE_0,BUFFERING_DISABLE_1"
newline
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" "SEL_SRC_DST_SYNC_0,SEL_SRC_DST_SYNC_1"
newline
bitfld.long 0x00 23. "PREFETCH,Enables the prefetch mode" "PREFETCH_0,PREFETCH_1"
newline
bitfld.long 0x00 22. "SUPERVISOR,Enables the supervisor mode" "SUPERVISOR_0,SUPERVISOR_1"
newline
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"
newline
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"
newline
bitfld.long 0x00 17. "TRANSPARENT_COPY_ENABLE,Transparent copy enable" "TRANSPARENT_COPY_ENABLE_0,TRANSPARENT_COPY_ENABLE_1"
newline
bitfld.long 0x00 16. "CONST_FILL_ENABLE,Constant fill enable" "CONST_FILL_ENABLE_0,CONST_FILL_ENABLE_1"
newline
bitfld.long 0x00 14.--15. "DST_AMODE,Selects the addressing mode on the Write Port of a channel" "DST_AMODE_0,DST_AMODE_1,DST_AMODE_2,DST_AMODE_3"
newline
bitfld.long 0x00 12.--13. "SRC_AMODE,Selects the addressing mode on the Read Port of a channel" "SRC_AMODE_0,SRC_AMODE_1,SRC_AMODE_2,SRC_AMODE_3"
newline
rbitfld.long 0x00 10. "WR_ACTIVE,Indicates if the channel write context is active or not" "WR_ACTIVE_0_r,WR_ACTIVE_1_r"
newline
rbitfld.long 0x00 9. "RD_ACTIVE,Indicates if the channel read context is active or not" "RD_ACTIVE_0_r,RD_ACTIVE_1_r"
newline
bitfld.long 0x00 8. "SUSPEND_SENSITIVE,Logical channel suspend enable bit" "SUSPEND_SENSITIVE_0,SUSPEND_SENSITIVE_1"
newline
bitfld.long 0x00 7. "ENABLE,Logical channel enable" "ENABLE_0,ENABLE_1"
newline
bitfld.long 0x00 6. "READ_PRIORITY,Channel priority on the read side" "READ_PRIORITY_0,READ_PRIORITY_1"
newline
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 =" "An entire frame is transferred once a DMA..,A packet is transferred once a DMA request is made"
newline
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)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xB8++0x03
line.long 0x00 "DMA4_CDACi_0,Channel Destination Address Value"
group.long 0xAC++0x07
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"
line.long 0x04 "DMA4_CDFIi_0,Channel Destination Frame Index (Signed) or 16-bit Packet size"
group.long 0xD0++0x03
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" "FAST_0,FAST_1"
newline
bitfld.long 0x00 8.--9. "TRANSFER_MODE,Enable linked-list transfer mode" "TRANSFER_MODE_0,TRANSFER_MODE_1,TRANSFER_MODE_2,TRANSFER_MODE_3"
newline
bitfld.long 0x00 7. "PAUSE_LINK_LIST,Suspend the linked-list transfer at completion of the current block transfer" "PAUSE_LINK_LIST_0,PAUSE_LINK_LIST_1"
newline
bitfld.long 0x00 4.--6. "NEXT_DESCRIPTOR_TYPE,Next Descriptor Type" "NEXT_DESCRIPTOR_TYPE_0,NEXT_DESCRIPTOR_TYPE_1,NEXT_DESCRIPTOR_TYPE_2,NEXT_DESCRIPTOR_TYPE_3,NEXT_DESCRIPTOR_TYPE_4,NEXT_DESCRIPTOR_TYPE_5,NEXT_DESCRIPTOR_TYPE_6,NEXT_DESCRIPTOR_TYPE_7"
newline
bitfld.long 0x00 2.--3. "SRC_VALID,Source address valid" "SRC_VALID_0,SRC_VALID_1,SRC_VALID_2,SRC_VALID_3"
newline
bitfld.long 0x00 0.--1. "DEST_VALID,Destination address valid" "DEST_VALID_0,DEST_VALID_1,DEST_VALID_2,DEST_VALID_3"
group.long 0xA0++0x03
line.long 0x00 "DMA4_CDSAi_0,Channel Destination Start Address"
group.long 0x94++0x07
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"
line.long 0x04 "DMA4_CFNi_0,Channel Frame Number"
hexmask.long.word 0x04 0.--15. 1. "CHANNEL_FRAME_NBR,Number of frames within the block to be transferred (unsigned)"
group.long 0x88++0x03
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"
newline
bitfld.long 0x00 12. "DRAIN_IE,Enables the end of draining interrupt" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ERR_IE,Enables the address misaligned error event interrupt" "MISALIGNED_ERR_IE_0,MISALIGNED_ERR_IE_1"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR_IE,Enables the supervisor transaction error event interrupt" "SUPERVISOR_ERR_IE_0,SUPERVISOR_ERR_IE_1"
newline
bitfld.long 0x00 8. "TRANS_ERR_IE,Enables the transaction error event interrupt" "TRANS_ERR_IE_0,TRANS_ERR_IE_1"
newline
bitfld.long 0x00 7. "PKT_IE,Enables the end of Packet interrupt" "PKT_IE_0,PKT_IE_1"
newline
bitfld.long 0x00 5. "BLOCK_IE,Enables the end of block interrupt" "BLOCK_IE_0,BLOCK_IE_1"
newline
bitfld.long 0x00 4. "LAST_IE,Last frame interrupt enable (start of last frame)" "LAST_IE_0,LAST_IE_1"
newline
bitfld.long 0x00 3. "FRAME_IE,Frame interrupt enable (end of frame)" "FRAME_IE_0,FRAME_IE_1"
newline
bitfld.long 0x00 2. "HALF_IE,Enables or disables the half frame interrupt" "HALF_IE_0,HALF_IE_1"
newline
bitfld.long 0x00 1. "DROP_IE,Synchronization event drop interrupt enable (request collision)" "DROP_IE_0,DROP_IE_1"
group.long 0x84++0x03
line.long 0x00 "DMA4_CLNK_CTRLi_0,Channel Link Control Register"
bitfld.long 0x00 15. "ENABLE_LNK,Enables or disable the channel linking" "ENABLE_LNK_0,ENABLE_LNK_1"
newline
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++0x03
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++0x03
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"
rgroup.long 0xB4++0x03
line.long 0x00 "DMA4_CSACi_0,Channel Source Address Value"
group.long 0x90++0x03
line.long 0x00 "DMA4_CSDPi_0,Channel Source Destination Parameters"
bitfld.long 0x00 21. "SRC_ENDIAN,Channel source endianness control" "SRC_ENDIAN_0,SRC_ENDIAN_1"
newline
bitfld.long 0x00 20. "SRC_ENDIAN_LOCK,Endianness Lock" "SRC_ENDIAN_LOCK_0,SRC_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 19. "DST_ENDIAN,Channel Destination endianness control" "DST_ENDIAN_0,DST_ENDIAN_1"
newline
bitfld.long 0x00 18. "DST_ENDIAN_LOCK,Endianness Lock" "DST_ENDIAN_LOCK_0,DST_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 16.--17. "WRITE_MODE,Used to enable writing mode without posting or with posting" "WRITE_MODE_0,WRITE_MODE_1,WRITE_MODE_2,WRITE_MODE_3"
newline
bitfld.long 0x00 14.--15. "DST_BURST_EN,Used to enable bursting on the Write Port" "DST_BURST_EN_0,DST_BURST_EN_1,DST_BURST_EN_2,DST_BURST_EN_3"
newline
bitfld.long 0x00 13. "DST_PACKED,Destination receives packed data" "DST_PACKED_0,DST_PACKED_1"
newline
bitfld.long 0x00 7.--8. "SRC_BURST_EN,Used to enable bursting on the Read Port" "SRC_BURST_EN_0,SRC_BURST_EN_1,SRC_BURST_EN_2,SRC_BURST_EN_3"
newline
bitfld.long 0x00 6. "SRC_PACKED,Source provides packed data" "SRC_PACKED_0,SRC_PACKED_1"
newline
bitfld.long 0x00 0.--1. "DATA_TYPE,Defines the type of the data moved in the channel" "DATA_TYPE_0,DATA_TYPE_1,DATA_TYPE_2,DATA_TYPE_3"
group.long 0xA4++0x07
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"
line.long 0x04 "DMA4_CSFIi_0,Channel Source Frame Index (Signed) or 16-bit Packet size"
group.long 0x8C++0x03
line.long 0x00 "DMA4_CSRi_0,Channel Status Register"
bitfld.long 0x00 14. "SUPER_BLOCK,End of Super block event" "0,1"
newline
bitfld.long 0x00 12. "DRAIN_END,End of channel draining" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ADRS_ERR,Misaligned address error event" "MISALIGNED_ADRS_ERR_0_w,MISALIGNED_ADRS_ERR_1_r"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR,Supervisor transaction error event" "SUPERVISOR_ERR_0_w,SUPERVISOR_ERR_1_r"
newline
bitfld.long 0x00 8. "TRANS_ERR,Transaction error event" "TRANS_ERR_0_w,TRANS_ERR_1_r"
newline
bitfld.long 0x00 7. "PKT,End of Packet transfer" "PKT_0_w,PKT_1_r"
newline
bitfld.long 0x00 6. "SYNC,Synchronization status of a channel" "SYNC_0_w,SYNC_1_r"
newline
bitfld.long 0x00 5. "BLOCK,End of block event" "BLOCK_0_w,BLOCK_1_r"
newline
bitfld.long 0x00 4. "LAST,Last frame (start of last frame)" "LAST_0_w,LAST_1_r"
newline
bitfld.long 0x00 3. "FRAME,End of frame event" "FRAME_0_w,FRAME_1_r"
newline
bitfld.long 0x00 2. "HALF,Half of frame event" "HALF_0_w,HALF_1_r"
newline
bitfld.long 0x00 1. "DROP,Synchronization event drop occured during the transfer" "DROP_0_w,DROP_1_r"
group.long 0x9C++0x03
line.long 0x00 "DMA4_CSSAi_0,Channel Source Start Address"
group.long 0x18++0x03
line.long 0x00 "DMA4_IRQENABLE_Lj_0,The interrupt enable register allows to mask/unmask the module internal sources of interrupt. on line Lj"
group.long 0x08++0x03
line.long 0x00 "DMA4_IRQSTATUS_Lj_0,The interrupt status register regroups all the status of the DMA4 channels that can generate an interrupt over line Lj"
tree.end
tree "DMA_Channel_1"
group.long 0x138++0x03
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"
group.long 0x11C++0x07
line.long 0x00 "DMA4_CCENi_1,Channel Current Transferred Element Number in the current frame"
hexmask.long.tbyte 0x00 0.--23. 1. "CURRENT_ELMNT_NBR,Channel current transferred element number in the current frame"
line.long 0x04 "DMA4_CCFNi_1,Channel Current Transferred Frame Number in the current transfer"
hexmask.long.word 0x04 0.--15. 1. "CURRENT_FRAME_NBR,Channel current transferred frame number in the current transfer"
group.long 0xE0++0x03
line.long 0x00 "DMA4_CCRi_1,Channel Control Register"
bitfld.long 0x00 26. "WRITE_PRIORITY,Channel priority on the Write side" "WRITE_PRIORITY_0,WRITE_PRIORITY_1"
newline
bitfld.long 0x00 25. "BUFFERING_DISABLE,This bit allows to disable the default buffering functionality when transfer is source synchronized" "BUFFERING_DISABLE_0,BUFFERING_DISABLE_1"
newline
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" "SEL_SRC_DST_SYNC_0,SEL_SRC_DST_SYNC_1"
newline
bitfld.long 0x00 23. "PREFETCH,Enables the prefetch mode" "PREFETCH_0,PREFETCH_1"
newline
bitfld.long 0x00 22. "SUPERVISOR,Enables the supervisor mode" "SUPERVISOR_0,SUPERVISOR_1"
newline
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"
newline
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"
newline
bitfld.long 0x00 17. "TRANSPARENT_COPY_ENABLE,Transparent copy enable" "TRANSPARENT_COPY_ENABLE_0,TRANSPARENT_COPY_ENABLE_1"
newline
bitfld.long 0x00 16. "CONST_FILL_ENABLE,Constant fill enable" "CONST_FILL_ENABLE_0,CONST_FILL_ENABLE_1"
newline
bitfld.long 0x00 14.--15. "DST_AMODE,Selects the addressing mode on the Write Port of a channel" "DST_AMODE_0,DST_AMODE_1,DST_AMODE_2,DST_AMODE_3"
newline
bitfld.long 0x00 12.--13. "SRC_AMODE,Selects the addressing mode on the Read Port of a channel" "SRC_AMODE_0,SRC_AMODE_1,SRC_AMODE_2,SRC_AMODE_3"
newline
rbitfld.long 0x00 10. "WR_ACTIVE,Indicates if the channel write context is active or not" "WR_ACTIVE_0_r,WR_ACTIVE_1_r"
newline
rbitfld.long 0x00 9. "RD_ACTIVE,Indicates if the channel read context is active or not" "RD_ACTIVE_0_r,RD_ACTIVE_1_r"
newline
bitfld.long 0x00 8. "SUSPEND_SENSITIVE,Logical channel suspend enable bit" "SUSPEND_SENSITIVE_0,SUSPEND_SENSITIVE_1"
newline
bitfld.long 0x00 7. "ENABLE,Logical channel enable" "ENABLE_0,ENABLE_1"
newline
bitfld.long 0x00 6. "READ_PRIORITY,Channel priority on the read side" "READ_PRIORITY_0,READ_PRIORITY_1"
newline
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 =" "An entire frame is transferred once a DMA..,A packet is transferred once a DMA request is made"
newline
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)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x118++0x03
line.long 0x00 "DMA4_CDACi_1,Channel Destination Address Value"
group.long 0x10C++0x07
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"
line.long 0x04 "DMA4_CDFIi_1,Channel Destination Frame Index (Signed) or 16-bit Packet size"
group.long 0x130++0x03
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" "FAST_0,FAST_1"
newline
bitfld.long 0x00 8.--9. "TRANSFER_MODE,Enable linked-list transfer mode" "TRANSFER_MODE_0,TRANSFER_MODE_1,TRANSFER_MODE_2,TRANSFER_MODE_3"
newline
bitfld.long 0x00 7. "PAUSE_LINK_LIST,Suspend the linked-list transfer at completion of the current block transfer" "PAUSE_LINK_LIST_0,PAUSE_LINK_LIST_1"
newline
bitfld.long 0x00 4.--6. "NEXT_DESCRIPTOR_TYPE,Next Descriptor Type" "NEXT_DESCRIPTOR_TYPE_0,NEXT_DESCRIPTOR_TYPE_1,NEXT_DESCRIPTOR_TYPE_2,NEXT_DESCRIPTOR_TYPE_3,NEXT_DESCRIPTOR_TYPE_4,NEXT_DESCRIPTOR_TYPE_5,NEXT_DESCRIPTOR_TYPE_6,NEXT_DESCRIPTOR_TYPE_7"
newline
bitfld.long 0x00 2.--3. "SRC_VALID,Source address valid" "SRC_VALID_0,SRC_VALID_1,SRC_VALID_2,SRC_VALID_3"
newline
bitfld.long 0x00 0.--1. "DEST_VALID,Destination address valid" "DEST_VALID_0,DEST_VALID_1,DEST_VALID_2,DEST_VALID_3"
group.long 0x100++0x03
line.long 0x00 "DMA4_CDSAi_1,Channel Destination Start Address"
group.long 0xF4++0x07
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"
line.long 0x04 "DMA4_CFNi_1,Channel Frame Number"
hexmask.long.word 0x04 0.--15. 1. "CHANNEL_FRAME_NBR,Number of frames within the block to be transferred (unsigned)"
group.long 0xE8++0x03
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"
newline
bitfld.long 0x00 12. "DRAIN_IE,Enables the end of draining interrupt" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ERR_IE,Enables the address misaligned error event interrupt" "MISALIGNED_ERR_IE_0,MISALIGNED_ERR_IE_1"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR_IE,Enables the supervisor transaction error event interrupt" "SUPERVISOR_ERR_IE_0,SUPERVISOR_ERR_IE_1"
newline
bitfld.long 0x00 8. "TRANS_ERR_IE,Enables the transaction error event interrupt" "TRANS_ERR_IE_0,TRANS_ERR_IE_1"
newline
bitfld.long 0x00 7. "PKT_IE,Enables the end of Packet interrupt" "PKT_IE_0,PKT_IE_1"
newline
bitfld.long 0x00 5. "BLOCK_IE,Enables the end of block interrupt" "BLOCK_IE_0,BLOCK_IE_1"
newline
bitfld.long 0x00 4. "LAST_IE,Last frame interrupt enable (start of last frame)" "LAST_IE_0,LAST_IE_1"
newline
bitfld.long 0x00 3. "FRAME_IE,Frame interrupt enable (end of frame)" "FRAME_IE_0,FRAME_IE_1"
newline
bitfld.long 0x00 2. "HALF_IE,Enables or disables the half frame interrupt" "HALF_IE_0,HALF_IE_1"
newline
bitfld.long 0x00 1. "DROP_IE,Synchronization event drop interrupt enable (request collision)" "DROP_IE_0,DROP_IE_1"
group.long 0xE4++0x03
line.long 0x00 "DMA4_CLNK_CTRLi_1,Channel Link Control Register"
bitfld.long 0x00 15. "ENABLE_LNK,Enables or disable the channel linking" "ENABLE_LNK_0,ENABLE_LNK_1"
newline
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++0x03
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++0x03
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"
rgroup.long 0x114++0x03
line.long 0x00 "DMA4_CSACi_1,Channel Source Address Value"
group.long 0xF0++0x03
line.long 0x00 "DMA4_CSDPi_1,Channel Source Destination Parameters"
bitfld.long 0x00 21. "SRC_ENDIAN,Channel source endianness control" "SRC_ENDIAN_0,SRC_ENDIAN_1"
newline
bitfld.long 0x00 20. "SRC_ENDIAN_LOCK,Endianness Lock" "SRC_ENDIAN_LOCK_0,SRC_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 19. "DST_ENDIAN,Channel Destination endianness control" "DST_ENDIAN_0,DST_ENDIAN_1"
newline
bitfld.long 0x00 18. "DST_ENDIAN_LOCK,Endianness Lock" "DST_ENDIAN_LOCK_0,DST_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 16.--17. "WRITE_MODE,Used to enable writing mode without posting or with posting" "WRITE_MODE_0,WRITE_MODE_1,WRITE_MODE_2,WRITE_MODE_3"
newline
bitfld.long 0x00 14.--15. "DST_BURST_EN,Used to enable bursting on the Write Port" "DST_BURST_EN_0,DST_BURST_EN_1,DST_BURST_EN_2,DST_BURST_EN_3"
newline
bitfld.long 0x00 13. "DST_PACKED,Destination receives packed data" "DST_PACKED_0,DST_PACKED_1"
newline
bitfld.long 0x00 7.--8. "SRC_BURST_EN,Used to enable bursting on the Read Port" "SRC_BURST_EN_0,SRC_BURST_EN_1,SRC_BURST_EN_2,SRC_BURST_EN_3"
newline
bitfld.long 0x00 6. "SRC_PACKED,Source provides packed data" "SRC_PACKED_0,SRC_PACKED_1"
newline
bitfld.long 0x00 0.--1. "DATA_TYPE,Defines the type of the data moved in the channel" "DATA_TYPE_0,DATA_TYPE_1,DATA_TYPE_2,DATA_TYPE_3"
group.long 0x104++0x07
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"
line.long 0x04 "DMA4_CSFIi_1,Channel Source Frame Index (Signed) or 16-bit Packet size"
group.long 0xEC++0x03
line.long 0x00 "DMA4_CSRi_1,Channel Status Register"
bitfld.long 0x00 14. "SUPER_BLOCK,End of Super block event" "0,1"
newline
bitfld.long 0x00 12. "DRAIN_END,End of channel draining" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ADRS_ERR,Misaligned address error event" "MISALIGNED_ADRS_ERR_0_w,MISALIGNED_ADRS_ERR_1_r"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR,Supervisor transaction error event" "SUPERVISOR_ERR_0_w,SUPERVISOR_ERR_1_r"
newline
bitfld.long 0x00 8. "TRANS_ERR,Transaction error event" "TRANS_ERR_0_w,TRANS_ERR_1_r"
newline
bitfld.long 0x00 7. "PKT,End of Packet transfer" "PKT_0_w,PKT_1_r"
newline
bitfld.long 0x00 6. "SYNC,Synchronization status of a channel" "SYNC_0_w,SYNC_1_r"
newline
bitfld.long 0x00 5. "BLOCK,End of block event" "BLOCK_0_w,BLOCK_1_r"
newline
bitfld.long 0x00 4. "LAST,Last frame (start of last frame)" "LAST_0_w,LAST_1_r"
newline
bitfld.long 0x00 3. "FRAME,End of frame event" "FRAME_0_w,FRAME_1_r"
newline
bitfld.long 0x00 2. "HALF,Half of frame event" "HALF_0_w,HALF_1_r"
newline
bitfld.long 0x00 1. "DROP,Synchronization event drop occured during the transfer" "DROP_0_w,DROP_1_r"
group.long 0xFC++0x03
line.long 0x00 "DMA4_CSSAi_1,Channel Source Start Address"
group.long 0x1C++0x03
line.long 0x00 "DMA4_IRQENABLE_Lj_1,The interrupt enable register allows to mask/unmask the module internal sources of interrupt. on line Lj"
group.long 0x0C++0x03
line.long 0x00 "DMA4_IRQSTATUS_Lj_1,The interrupt status register regroups all the status of the DMA4 channels that can generate an interrupt over line Lj"
tree.end
tree "DMA_Channel_10"
group.long 0x498++0x03
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"
group.long 0x47C++0x07
line.long 0x00 "DMA4_CCENi_10,Channel Current Transferred Element Number in the current frame"
hexmask.long.tbyte 0x00 0.--23. 1. "CURRENT_ELMNT_NBR,Channel current transferred element number in the current frame"
line.long 0x04 "DMA4_CCFNi_10,Channel Current Transferred Frame Number in the current transfer"
hexmask.long.word 0x04 0.--15. 1. "CURRENT_FRAME_NBR,Channel current transferred frame number in the current transfer"
group.long 0x440++0x03
line.long 0x00 "DMA4_CCRi_10,Channel Control Register"
bitfld.long 0x00 26. "WRITE_PRIORITY,Channel priority on the Write side" "WRITE_PRIORITY_0,WRITE_PRIORITY_1"
newline
bitfld.long 0x00 25. "BUFFERING_DISABLE,This bit allows to disable the default buffering functionality when transfer is source synchronized" "BUFFERING_DISABLE_0,BUFFERING_DISABLE_1"
newline
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" "SEL_SRC_DST_SYNC_0,SEL_SRC_DST_SYNC_1"
newline
bitfld.long 0x00 23. "PREFETCH,Enables the prefetch mode" "PREFETCH_0,PREFETCH_1"
newline
bitfld.long 0x00 22. "SUPERVISOR,Enables the supervisor mode" "SUPERVISOR_0,SUPERVISOR_1"
newline
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"
newline
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"
newline
bitfld.long 0x00 17. "TRANSPARENT_COPY_ENABLE,Transparent copy enable" "TRANSPARENT_COPY_ENABLE_0,TRANSPARENT_COPY_ENABLE_1"
newline
bitfld.long 0x00 16. "CONST_FILL_ENABLE,Constant fill enable" "CONST_FILL_ENABLE_0,CONST_FILL_ENABLE_1"
newline
bitfld.long 0x00 14.--15. "DST_AMODE,Selects the addressing mode on the Write Port of a channel" "DST_AMODE_0,DST_AMODE_1,DST_AMODE_2,DST_AMODE_3"
newline
bitfld.long 0x00 12.--13. "SRC_AMODE,Selects the addressing mode on the Read Port of a channel" "SRC_AMODE_0,SRC_AMODE_1,SRC_AMODE_2,SRC_AMODE_3"
newline
rbitfld.long 0x00 10. "WR_ACTIVE,Indicates if the channel write context is active or not" "WR_ACTIVE_0_r,WR_ACTIVE_1_r"
newline
rbitfld.long 0x00 9. "RD_ACTIVE,Indicates if the channel read context is active or not" "RD_ACTIVE_0_r,RD_ACTIVE_1_r"
newline
bitfld.long 0x00 8. "SUSPEND_SENSITIVE,Logical channel suspend enable bit" "SUSPEND_SENSITIVE_0,SUSPEND_SENSITIVE_1"
newline
bitfld.long 0x00 7. "ENABLE,Logical channel enable" "ENABLE_0,ENABLE_1"
newline
bitfld.long 0x00 6. "READ_PRIORITY,Channel priority on the read side" "READ_PRIORITY_0,READ_PRIORITY_1"
newline
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 =" "An entire frame is transferred once a DMA..,A packet is transferred once a DMA request is made"
newline
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)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x478++0x03
line.long 0x00 "DMA4_CDACi_10,Channel Destination Address Value"
group.long 0x46C++0x07
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"
line.long 0x04 "DMA4_CDFIi_10,Channel Destination Frame Index (Signed) or 16-bit Packet size"
group.long 0x490++0x03
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" "FAST_0,FAST_1"
newline
bitfld.long 0x00 8.--9. "TRANSFER_MODE,Enable linked-list transfer mode" "TRANSFER_MODE_0,TRANSFER_MODE_1,TRANSFER_MODE_2,TRANSFER_MODE_3"
newline
bitfld.long 0x00 7. "PAUSE_LINK_LIST,Suspend the linked-list transfer at completion of the current block transfer" "PAUSE_LINK_LIST_0,PAUSE_LINK_LIST_1"
newline
bitfld.long 0x00 4.--6. "NEXT_DESCRIPTOR_TYPE,Next Descriptor Type" "NEXT_DESCRIPTOR_TYPE_0,NEXT_DESCRIPTOR_TYPE_1,NEXT_DESCRIPTOR_TYPE_2,NEXT_DESCRIPTOR_TYPE_3,NEXT_DESCRIPTOR_TYPE_4,NEXT_DESCRIPTOR_TYPE_5,NEXT_DESCRIPTOR_TYPE_6,NEXT_DESCRIPTOR_TYPE_7"
newline
bitfld.long 0x00 2.--3. "SRC_VALID,Source address valid" "SRC_VALID_0,SRC_VALID_1,SRC_VALID_2,SRC_VALID_3"
newline
bitfld.long 0x00 0.--1. "DEST_VALID,Destination address valid" "DEST_VALID_0,DEST_VALID_1,DEST_VALID_2,DEST_VALID_3"
group.long 0x460++0x03
line.long 0x00 "DMA4_CDSAi_10,Channel Destination Start Address"
group.long 0x454++0x07
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"
line.long 0x04 "DMA4_CFNi_10,Channel Frame Number"
hexmask.long.word 0x04 0.--15. 1. "CHANNEL_FRAME_NBR,Number of frames within the block to be transferred (unsigned)"
group.long 0x448++0x03
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"
newline
bitfld.long 0x00 12. "DRAIN_IE,Enables the end of draining interrupt" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ERR_IE,Enables the address misaligned error event interrupt" "MISALIGNED_ERR_IE_0,MISALIGNED_ERR_IE_1"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR_IE,Enables the supervisor transaction error event interrupt" "SUPERVISOR_ERR_IE_0,SUPERVISOR_ERR_IE_1"
newline
bitfld.long 0x00 8. "TRANS_ERR_IE,Enables the transaction error event interrupt" "TRANS_ERR_IE_0,TRANS_ERR_IE_1"
newline
bitfld.long 0x00 7. "PKT_IE,Enables the end of Packet interrupt" "PKT_IE_0,PKT_IE_1"
newline
bitfld.long 0x00 5. "BLOCK_IE,Enables the end of block interrupt" "BLOCK_IE_0,BLOCK_IE_1"
newline
bitfld.long 0x00 4. "LAST_IE,Last frame interrupt enable (start of last frame)" "LAST_IE_0,LAST_IE_1"
newline
bitfld.long 0x00 3. "FRAME_IE,Frame interrupt enable (end of frame)" "FRAME_IE_0,FRAME_IE_1"
newline
bitfld.long 0x00 2. "HALF_IE,Enables or disables the half frame interrupt" "HALF_IE_0,HALF_IE_1"
newline
bitfld.long 0x00 1. "DROP_IE,Synchronization event drop interrupt enable (request collision)" "DROP_IE_0,DROP_IE_1"
group.long 0x444++0x03
line.long 0x00 "DMA4_CLNK_CTRLi_10,Channel Link Control Register"
bitfld.long 0x00 15. "ENABLE_LNK,Enables or disable the channel linking" "ENABLE_LNK_0,ENABLE_LNK_1"
newline
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++0x03
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++0x03
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"
rgroup.long 0x474++0x03
line.long 0x00 "DMA4_CSACi_10,Channel Source Address Value"
group.long 0x450++0x03
line.long 0x00 "DMA4_CSDPi_10,Channel Source Destination Parameters"
bitfld.long 0x00 21. "SRC_ENDIAN,Channel source endianness control" "SRC_ENDIAN_0,SRC_ENDIAN_1"
newline
bitfld.long 0x00 20. "SRC_ENDIAN_LOCK,Endianness Lock" "SRC_ENDIAN_LOCK_0,SRC_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 19. "DST_ENDIAN,Channel Destination endianness control" "DST_ENDIAN_0,DST_ENDIAN_1"
newline
bitfld.long 0x00 18. "DST_ENDIAN_LOCK,Endianness Lock" "DST_ENDIAN_LOCK_0,DST_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 16.--17. "WRITE_MODE,Used to enable writing mode without posting or with posting" "WRITE_MODE_0,WRITE_MODE_1,WRITE_MODE_2,WRITE_MODE_3"
newline
bitfld.long 0x00 14.--15. "DST_BURST_EN,Used to enable bursting on the Write Port" "DST_BURST_EN_0,DST_BURST_EN_1,DST_BURST_EN_2,DST_BURST_EN_3"
newline
bitfld.long 0x00 13. "DST_PACKED,Destination receives packed data" "DST_PACKED_0,DST_PACKED_1"
newline
bitfld.long 0x00 7.--8. "SRC_BURST_EN,Used to enable bursting on the Read Port" "SRC_BURST_EN_0,SRC_BURST_EN_1,SRC_BURST_EN_2,SRC_BURST_EN_3"
newline
bitfld.long 0x00 6. "SRC_PACKED,Source provides packed data" "SRC_PACKED_0,SRC_PACKED_1"
newline
bitfld.long 0x00 0.--1. "DATA_TYPE,Defines the type of the data moved in the channel" "DATA_TYPE_0,DATA_TYPE_1,DATA_TYPE_2,DATA_TYPE_3"
group.long 0x464++0x07
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"
line.long 0x04 "DMA4_CSFIi_10,Channel Source Frame Index (Signed) or 16-bit Packet size"
group.long 0x44C++0x03
line.long 0x00 "DMA4_CSRi_10,Channel Status Register"
bitfld.long 0x00 14. "SUPER_BLOCK,End of Super block event" "0,1"
newline
bitfld.long 0x00 12. "DRAIN_END,End of channel draining" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ADRS_ERR,Misaligned address error event" "MISALIGNED_ADRS_ERR_0_w,MISALIGNED_ADRS_ERR_1_r"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR,Supervisor transaction error event" "SUPERVISOR_ERR_0_w,SUPERVISOR_ERR_1_r"
newline
bitfld.long 0x00 8. "TRANS_ERR,Transaction error event" "TRANS_ERR_0_w,TRANS_ERR_1_r"
newline
bitfld.long 0x00 7. "PKT,End of Packet transfer" "PKT_0_w,PKT_1_r"
newline
bitfld.long 0x00 6. "SYNC,Synchronization status of a channel" "SYNC_0_w,SYNC_1_r"
newline
bitfld.long 0x00 5. "BLOCK,End of block event" "BLOCK_0_w,BLOCK_1_r"
newline
bitfld.long 0x00 4. "LAST,Last frame (start of last frame)" "LAST_0_w,LAST_1_r"
newline
bitfld.long 0x00 3. "FRAME,End of frame event" "FRAME_0_w,FRAME_1_r"
newline
bitfld.long 0x00 2. "HALF,Half of frame event" "HALF_0_w,HALF_1_r"
newline
bitfld.long 0x00 1. "DROP,Synchronization event drop occured during the transfer" "DROP_0_w,DROP_1_r"
group.long 0x45C++0x03
line.long 0x00 "DMA4_CSSAi_10,Channel Source Start Address"
tree.end
tree "DMA_Channel_11"
group.long 0x4F8++0x03
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"
group.long 0x4DC++0x07
line.long 0x00 "DMA4_CCENi_11,Channel Current Transferred Element Number in the current frame"
hexmask.long.tbyte 0x00 0.--23. 1. "CURRENT_ELMNT_NBR,Channel current transferred element number in the current frame"
line.long 0x04 "DMA4_CCFNi_11,Channel Current Transferred Frame Number in the current transfer"
hexmask.long.word 0x04 0.--15. 1. "CURRENT_FRAME_NBR,Channel current transferred frame number in the current transfer"
group.long 0x4A0++0x03
line.long 0x00 "DMA4_CCRi_11,Channel Control Register"
bitfld.long 0x00 26. "WRITE_PRIORITY,Channel priority on the Write side" "WRITE_PRIORITY_0,WRITE_PRIORITY_1"
newline
bitfld.long 0x00 25. "BUFFERING_DISABLE,This bit allows to disable the default buffering functionality when transfer is source synchronized" "BUFFERING_DISABLE_0,BUFFERING_DISABLE_1"
newline
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" "SEL_SRC_DST_SYNC_0,SEL_SRC_DST_SYNC_1"
newline
bitfld.long 0x00 23. "PREFETCH,Enables the prefetch mode" "PREFETCH_0,PREFETCH_1"
newline
bitfld.long 0x00 22. "SUPERVISOR,Enables the supervisor mode" "SUPERVISOR_0,SUPERVISOR_1"
newline
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"
newline
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"
newline
bitfld.long 0x00 17. "TRANSPARENT_COPY_ENABLE,Transparent copy enable" "TRANSPARENT_COPY_ENABLE_0,TRANSPARENT_COPY_ENABLE_1"
newline
bitfld.long 0x00 16. "CONST_FILL_ENABLE,Constant fill enable" "CONST_FILL_ENABLE_0,CONST_FILL_ENABLE_1"
newline
bitfld.long 0x00 14.--15. "DST_AMODE,Selects the addressing mode on the Write Port of a channel" "DST_AMODE_0,DST_AMODE_1,DST_AMODE_2,DST_AMODE_3"
newline
bitfld.long 0x00 12.--13. "SRC_AMODE,Selects the addressing mode on the Read Port of a channel" "SRC_AMODE_0,SRC_AMODE_1,SRC_AMODE_2,SRC_AMODE_3"
newline
rbitfld.long 0x00 10. "WR_ACTIVE,Indicates if the channel write context is active or not" "WR_ACTIVE_0_r,WR_ACTIVE_1_r"
newline
rbitfld.long 0x00 9. "RD_ACTIVE,Indicates if the channel read context is active or not" "RD_ACTIVE_0_r,RD_ACTIVE_1_r"
newline
bitfld.long 0x00 8. "SUSPEND_SENSITIVE,Logical channel suspend enable bit" "SUSPEND_SENSITIVE_0,SUSPEND_SENSITIVE_1"
newline
bitfld.long 0x00 7. "ENABLE,Logical channel enable" "ENABLE_0,ENABLE_1"
newline
bitfld.long 0x00 6. "READ_PRIORITY,Channel priority on the read side" "READ_PRIORITY_0,READ_PRIORITY_1"
newline
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 =" "An entire frame is transferred once a DMA..,A packet is transferred once a DMA request is made"
newline
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)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x4D8++0x03
line.long 0x00 "DMA4_CDACi_11,Channel Destination Address Value"
group.long 0x4CC++0x07
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"
line.long 0x04 "DMA4_CDFIi_11,Channel Destination Frame Index (Signed) or 16-bit Packet size"
group.long 0x4F0++0x03
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" "FAST_0,FAST_1"
newline
bitfld.long 0x00 8.--9. "TRANSFER_MODE,Enable linked-list transfer mode" "TRANSFER_MODE_0,TRANSFER_MODE_1,TRANSFER_MODE_2,TRANSFER_MODE_3"
newline
bitfld.long 0x00 7. "PAUSE_LINK_LIST,Suspend the linked-list transfer at completion of the current block transfer" "PAUSE_LINK_LIST_0,PAUSE_LINK_LIST_1"
newline
bitfld.long 0x00 4.--6. "NEXT_DESCRIPTOR_TYPE,Next Descriptor Type" "NEXT_DESCRIPTOR_TYPE_0,NEXT_DESCRIPTOR_TYPE_1,NEXT_DESCRIPTOR_TYPE_2,NEXT_DESCRIPTOR_TYPE_3,NEXT_DESCRIPTOR_TYPE_4,NEXT_DESCRIPTOR_TYPE_5,NEXT_DESCRIPTOR_TYPE_6,NEXT_DESCRIPTOR_TYPE_7"
newline
bitfld.long 0x00 2.--3. "SRC_VALID,Source address valid" "SRC_VALID_0,SRC_VALID_1,SRC_VALID_2,SRC_VALID_3"
newline
bitfld.long 0x00 0.--1. "DEST_VALID,Destination address valid" "DEST_VALID_0,DEST_VALID_1,DEST_VALID_2,DEST_VALID_3"
group.long 0x4C0++0x03
line.long 0x00 "DMA4_CDSAi_11,Channel Destination Start Address"
group.long 0x4B4++0x07
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"
line.long 0x04 "DMA4_CFNi_11,Channel Frame Number"
hexmask.long.word 0x04 0.--15. 1. "CHANNEL_FRAME_NBR,Number of frames within the block to be transferred (unsigned)"
group.long 0x4A8++0x03
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"
newline
bitfld.long 0x00 12. "DRAIN_IE,Enables the end of draining interrupt" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ERR_IE,Enables the address misaligned error event interrupt" "MISALIGNED_ERR_IE_0,MISALIGNED_ERR_IE_1"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR_IE,Enables the supervisor transaction error event interrupt" "SUPERVISOR_ERR_IE_0,SUPERVISOR_ERR_IE_1"
newline
bitfld.long 0x00 8. "TRANS_ERR_IE,Enables the transaction error event interrupt" "TRANS_ERR_IE_0,TRANS_ERR_IE_1"
newline
bitfld.long 0x00 7. "PKT_IE,Enables the end of Packet interrupt" "PKT_IE_0,PKT_IE_1"
newline
bitfld.long 0x00 5. "BLOCK_IE,Enables the end of block interrupt" "BLOCK_IE_0,BLOCK_IE_1"
newline
bitfld.long 0x00 4. "LAST_IE,Last frame interrupt enable (start of last frame)" "LAST_IE_0,LAST_IE_1"
newline
bitfld.long 0x00 3. "FRAME_IE,Frame interrupt enable (end of frame)" "FRAME_IE_0,FRAME_IE_1"
newline
bitfld.long 0x00 2. "HALF_IE,Enables or disables the half frame interrupt" "HALF_IE_0,HALF_IE_1"
newline
bitfld.long 0x00 1. "DROP_IE,Synchronization event drop interrupt enable (request collision)" "DROP_IE_0,DROP_IE_1"
group.long 0x4A4++0x03
line.long 0x00 "DMA4_CLNK_CTRLi_11,Channel Link Control Register"
bitfld.long 0x00 15. "ENABLE_LNK,Enables or disable the channel linking" "ENABLE_LNK_0,ENABLE_LNK_1"
newline
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++0x03
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++0x03
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"
rgroup.long 0x4D4++0x03
line.long 0x00 "DMA4_CSACi_11,Channel Source Address Value"
group.long 0x4B0++0x03
line.long 0x00 "DMA4_CSDPi_11,Channel Source Destination Parameters"
bitfld.long 0x00 21. "SRC_ENDIAN,Channel source endianness control" "SRC_ENDIAN_0,SRC_ENDIAN_1"
newline
bitfld.long 0x00 20. "SRC_ENDIAN_LOCK,Endianness Lock" "SRC_ENDIAN_LOCK_0,SRC_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 19. "DST_ENDIAN,Channel Destination endianness control" "DST_ENDIAN_0,DST_ENDIAN_1"
newline
bitfld.long 0x00 18. "DST_ENDIAN_LOCK,Endianness Lock" "DST_ENDIAN_LOCK_0,DST_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 16.--17. "WRITE_MODE,Used to enable writing mode without posting or with posting" "WRITE_MODE_0,WRITE_MODE_1,WRITE_MODE_2,WRITE_MODE_3"
newline
bitfld.long 0x00 14.--15. "DST_BURST_EN,Used to enable bursting on the Write Port" "DST_BURST_EN_0,DST_BURST_EN_1,DST_BURST_EN_2,DST_BURST_EN_3"
newline
bitfld.long 0x00 13. "DST_PACKED,Destination receives packed data" "DST_PACKED_0,DST_PACKED_1"
newline
bitfld.long 0x00 7.--8. "SRC_BURST_EN,Used to enable bursting on the Read Port" "SRC_BURST_EN_0,SRC_BURST_EN_1,SRC_BURST_EN_2,SRC_BURST_EN_3"
newline
bitfld.long 0x00 6. "SRC_PACKED,Source provides packed data" "SRC_PACKED_0,SRC_PACKED_1"
newline
bitfld.long 0x00 0.--1. "DATA_TYPE,Defines the type of the data moved in the channel" "DATA_TYPE_0,DATA_TYPE_1,DATA_TYPE_2,DATA_TYPE_3"
group.long 0x4C4++0x07
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"
line.long 0x04 "DMA4_CSFIi_11,Channel Source Frame Index (Signed) or 16-bit Packet size"
group.long 0x4AC++0x03
line.long 0x00 "DMA4_CSRi_11,Channel Status Register"
bitfld.long 0x00 14. "SUPER_BLOCK,End of Super block event" "0,1"
newline
bitfld.long 0x00 12. "DRAIN_END,End of channel draining" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ADRS_ERR,Misaligned address error event" "MISALIGNED_ADRS_ERR_0_w,MISALIGNED_ADRS_ERR_1_r"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR,Supervisor transaction error event" "SUPERVISOR_ERR_0_w,SUPERVISOR_ERR_1_r"
newline
bitfld.long 0x00 8. "TRANS_ERR,Transaction error event" "TRANS_ERR_0_w,TRANS_ERR_1_r"
newline
bitfld.long 0x00 7. "PKT,End of Packet transfer" "PKT_0_w,PKT_1_r"
newline
bitfld.long 0x00 6. "SYNC,Synchronization status of a channel" "SYNC_0_w,SYNC_1_r"
newline
bitfld.long 0x00 5. "BLOCK,End of block event" "BLOCK_0_w,BLOCK_1_r"
newline
bitfld.long 0x00 4. "LAST,Last frame (start of last frame)" "LAST_0_w,LAST_1_r"
newline
bitfld.long 0x00 3. "FRAME,End of frame event" "FRAME_0_w,FRAME_1_r"
newline
bitfld.long 0x00 2. "HALF,Half of frame event" "HALF_0_w,HALF_1_r"
newline
bitfld.long 0x00 1. "DROP,Synchronization event drop occured during the transfer" "DROP_0_w,DROP_1_r"
group.long 0x4BC++0x03
line.long 0x00 "DMA4_CSSAi_11,Channel Source Start Address"
tree.end
tree "DMA_Channel_12"
group.long 0x558++0x03
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"
group.long 0x53C++0x07
line.long 0x00 "DMA4_CCENi_12,Channel Current Transferred Element Number in the current frame"
hexmask.long.tbyte 0x00 0.--23. 1. "CURRENT_ELMNT_NBR,Channel current transferred element number in the current frame"
line.long 0x04 "DMA4_CCFNi_12,Channel Current Transferred Frame Number in the current transfer"
hexmask.long.word 0x04 0.--15. 1. "CURRENT_FRAME_NBR,Channel current transferred frame number in the current transfer"
group.long 0x500++0x03
line.long 0x00 "DMA4_CCRi_12,Channel Control Register"
bitfld.long 0x00 26. "WRITE_PRIORITY,Channel priority on the Write side" "WRITE_PRIORITY_0,WRITE_PRIORITY_1"
newline
bitfld.long 0x00 25. "BUFFERING_DISABLE,This bit allows to disable the default buffering functionality when transfer is source synchronized" "BUFFERING_DISABLE_0,BUFFERING_DISABLE_1"
newline
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" "SEL_SRC_DST_SYNC_0,SEL_SRC_DST_SYNC_1"
newline
bitfld.long 0x00 23. "PREFETCH,Enables the prefetch mode" "PREFETCH_0,PREFETCH_1"
newline
bitfld.long 0x00 22. "SUPERVISOR,Enables the supervisor mode" "SUPERVISOR_0,SUPERVISOR_1"
newline
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"
newline
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"
newline
bitfld.long 0x00 17. "TRANSPARENT_COPY_ENABLE,Transparent copy enable" "TRANSPARENT_COPY_ENABLE_0,TRANSPARENT_COPY_ENABLE_1"
newline
bitfld.long 0x00 16. "CONST_FILL_ENABLE,Constant fill enable" "CONST_FILL_ENABLE_0,CONST_FILL_ENABLE_1"
newline
bitfld.long 0x00 14.--15. "DST_AMODE,Selects the addressing mode on the Write Port of a channel" "DST_AMODE_0,DST_AMODE_1,DST_AMODE_2,DST_AMODE_3"
newline
bitfld.long 0x00 12.--13. "SRC_AMODE,Selects the addressing mode on the Read Port of a channel" "SRC_AMODE_0,SRC_AMODE_1,SRC_AMODE_2,SRC_AMODE_3"
newline
rbitfld.long 0x00 10. "WR_ACTIVE,Indicates if the channel write context is active or not" "WR_ACTIVE_0_r,WR_ACTIVE_1_r"
newline
rbitfld.long 0x00 9. "RD_ACTIVE,Indicates if the channel read context is active or not" "RD_ACTIVE_0_r,RD_ACTIVE_1_r"
newline
bitfld.long 0x00 8. "SUSPEND_SENSITIVE,Logical channel suspend enable bit" "SUSPEND_SENSITIVE_0,SUSPEND_SENSITIVE_1"
newline
bitfld.long 0x00 7. "ENABLE,Logical channel enable" "ENABLE_0,ENABLE_1"
newline
bitfld.long 0x00 6. "READ_PRIORITY,Channel priority on the read side" "READ_PRIORITY_0,READ_PRIORITY_1"
newline
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 =" "An entire frame is transferred once a DMA..,A packet is transferred once a DMA request is made"
newline
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)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x538++0x03
line.long 0x00 "DMA4_CDACi_12,Channel Destination Address Value"
group.long 0x52C++0x07
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"
line.long 0x04 "DMA4_CDFIi_12,Channel Destination Frame Index (Signed) or 16-bit Packet size"
group.long 0x550++0x03
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" "FAST_0,FAST_1"
newline
bitfld.long 0x00 8.--9. "TRANSFER_MODE,Enable linked-list transfer mode" "TRANSFER_MODE_0,TRANSFER_MODE_1,TRANSFER_MODE_2,TRANSFER_MODE_3"
newline
bitfld.long 0x00 7. "PAUSE_LINK_LIST,Suspend the linked-list transfer at completion of the current block transfer" "PAUSE_LINK_LIST_0,PAUSE_LINK_LIST_1"
newline
bitfld.long 0x00 4.--6. "NEXT_DESCRIPTOR_TYPE,Next Descriptor Type" "NEXT_DESCRIPTOR_TYPE_0,NEXT_DESCRIPTOR_TYPE_1,NEXT_DESCRIPTOR_TYPE_2,NEXT_DESCRIPTOR_TYPE_3,NEXT_DESCRIPTOR_TYPE_4,NEXT_DESCRIPTOR_TYPE_5,NEXT_DESCRIPTOR_TYPE_6,NEXT_DESCRIPTOR_TYPE_7"
newline
bitfld.long 0x00 2.--3. "SRC_VALID,Source address valid" "SRC_VALID_0,SRC_VALID_1,SRC_VALID_2,SRC_VALID_3"
newline
bitfld.long 0x00 0.--1. "DEST_VALID,Destination address valid" "DEST_VALID_0,DEST_VALID_1,DEST_VALID_2,DEST_VALID_3"
group.long 0x520++0x03
line.long 0x00 "DMA4_CDSAi_12,Channel Destination Start Address"
group.long 0x514++0x07
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"
line.long 0x04 "DMA4_CFNi_12,Channel Frame Number"
hexmask.long.word 0x04 0.--15. 1. "CHANNEL_FRAME_NBR,Number of frames within the block to be transferred (unsigned)"
group.long 0x508++0x03
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"
newline
bitfld.long 0x00 12. "DRAIN_IE,Enables the end of draining interrupt" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ERR_IE,Enables the address misaligned error event interrupt" "MISALIGNED_ERR_IE_0,MISALIGNED_ERR_IE_1"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR_IE,Enables the supervisor transaction error event interrupt" "SUPERVISOR_ERR_IE_0,SUPERVISOR_ERR_IE_1"
newline
bitfld.long 0x00 8. "TRANS_ERR_IE,Enables the transaction error event interrupt" "TRANS_ERR_IE_0,TRANS_ERR_IE_1"
newline
bitfld.long 0x00 7. "PKT_IE,Enables the end of Packet interrupt" "PKT_IE_0,PKT_IE_1"
newline
bitfld.long 0x00 5. "BLOCK_IE,Enables the end of block interrupt" "BLOCK_IE_0,BLOCK_IE_1"
newline
bitfld.long 0x00 4. "LAST_IE,Last frame interrupt enable (start of last frame)" "LAST_IE_0,LAST_IE_1"
newline
bitfld.long 0x00 3. "FRAME_IE,Frame interrupt enable (end of frame)" "FRAME_IE_0,FRAME_IE_1"
newline
bitfld.long 0x00 2. "HALF_IE,Enables or disables the half frame interrupt" "HALF_IE_0,HALF_IE_1"
newline
bitfld.long 0x00 1. "DROP_IE,Synchronization event drop interrupt enable (request collision)" "DROP_IE_0,DROP_IE_1"
group.long 0x504++0x03
line.long 0x00 "DMA4_CLNK_CTRLi_12,Channel Link Control Register"
bitfld.long 0x00 15. "ENABLE_LNK,Enables or disable the channel linking" "ENABLE_LNK_0,ENABLE_LNK_1"
newline
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++0x03
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++0x03
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"
rgroup.long 0x534++0x03
line.long 0x00 "DMA4_CSACi_12,Channel Source Address Value"
group.long 0x510++0x03
line.long 0x00 "DMA4_CSDPi_12,Channel Source Destination Parameters"
bitfld.long 0x00 21. "SRC_ENDIAN,Channel source endianness control" "SRC_ENDIAN_0,SRC_ENDIAN_1"
newline
bitfld.long 0x00 20. "SRC_ENDIAN_LOCK,Endianness Lock" "SRC_ENDIAN_LOCK_0,SRC_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 19. "DST_ENDIAN,Channel Destination endianness control" "DST_ENDIAN_0,DST_ENDIAN_1"
newline
bitfld.long 0x00 18. "DST_ENDIAN_LOCK,Endianness Lock" "DST_ENDIAN_LOCK_0,DST_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 16.--17. "WRITE_MODE,Used to enable writing mode without posting or with posting" "WRITE_MODE_0,WRITE_MODE_1,WRITE_MODE_2,WRITE_MODE_3"
newline
bitfld.long 0x00 14.--15. "DST_BURST_EN,Used to enable bursting on the Write Port" "DST_BURST_EN_0,DST_BURST_EN_1,DST_BURST_EN_2,DST_BURST_EN_3"
newline
bitfld.long 0x00 13. "DST_PACKED,Destination receives packed data" "DST_PACKED_0,DST_PACKED_1"
newline
bitfld.long 0x00 7.--8. "SRC_BURST_EN,Used to enable bursting on the Read Port" "SRC_BURST_EN_0,SRC_BURST_EN_1,SRC_BURST_EN_2,SRC_BURST_EN_3"
newline
bitfld.long 0x00 6. "SRC_PACKED,Source provides packed data" "SRC_PACKED_0,SRC_PACKED_1"
newline
bitfld.long 0x00 0.--1. "DATA_TYPE,Defines the type of the data moved in the channel" "DATA_TYPE_0,DATA_TYPE_1,DATA_TYPE_2,DATA_TYPE_3"
group.long 0x524++0x07
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"
line.long 0x04 "DMA4_CSFIi_12,Channel Source Frame Index (Signed) or 16-bit Packet size"
group.long 0x50C++0x03
line.long 0x00 "DMA4_CSRi_12,Channel Status Register"
bitfld.long 0x00 14. "SUPER_BLOCK,End of Super block event" "0,1"
newline
bitfld.long 0x00 12. "DRAIN_END,End of channel draining" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ADRS_ERR,Misaligned address error event" "MISALIGNED_ADRS_ERR_0_w,MISALIGNED_ADRS_ERR_1_r"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR,Supervisor transaction error event" "SUPERVISOR_ERR_0_w,SUPERVISOR_ERR_1_r"
newline
bitfld.long 0x00 8. "TRANS_ERR,Transaction error event" "TRANS_ERR_0_w,TRANS_ERR_1_r"
newline
bitfld.long 0x00 7. "PKT,End of Packet transfer" "PKT_0_w,PKT_1_r"
newline
bitfld.long 0x00 6. "SYNC,Synchronization status of a channel" "SYNC_0_w,SYNC_1_r"
newline
bitfld.long 0x00 5. "BLOCK,End of block event" "BLOCK_0_w,BLOCK_1_r"
newline
bitfld.long 0x00 4. "LAST,Last frame (start of last frame)" "LAST_0_w,LAST_1_r"
newline
bitfld.long 0x00 3. "FRAME,End of frame event" "FRAME_0_w,FRAME_1_r"
newline
bitfld.long 0x00 2. "HALF,Half of frame event" "HALF_0_w,HALF_1_r"
newline
bitfld.long 0x00 1. "DROP,Synchronization event drop occured during the transfer" "DROP_0_w,DROP_1_r"
group.long 0x51C++0x03
line.long 0x00 "DMA4_CSSAi_12,Channel Source Start Address"
tree.end
tree "DMA_Channel_13"
group.long 0x5B8++0x03
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"
group.long 0x59C++0x07
line.long 0x00 "DMA4_CCENi_13,Channel Current Transferred Element Number in the current frame"
hexmask.long.tbyte 0x00 0.--23. 1. "CURRENT_ELMNT_NBR,Channel current transferred element number in the current frame"
line.long 0x04 "DMA4_CCFNi_13,Channel Current Transferred Frame Number in the current transfer"
hexmask.long.word 0x04 0.--15. 1. "CURRENT_FRAME_NBR,Channel current transferred frame number in the current transfer"
group.long 0x560++0x03
line.long 0x00 "DMA4_CCRi_13,Channel Control Register"
bitfld.long 0x00 26. "WRITE_PRIORITY,Channel priority on the Write side" "WRITE_PRIORITY_0,WRITE_PRIORITY_1"
newline
bitfld.long 0x00 25. "BUFFERING_DISABLE,This bit allows to disable the default buffering functionality when transfer is source synchronized" "BUFFERING_DISABLE_0,BUFFERING_DISABLE_1"
newline
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" "SEL_SRC_DST_SYNC_0,SEL_SRC_DST_SYNC_1"
newline
bitfld.long 0x00 23. "PREFETCH,Enables the prefetch mode" "PREFETCH_0,PREFETCH_1"
newline
bitfld.long 0x00 22. "SUPERVISOR,Enables the supervisor mode" "SUPERVISOR_0,SUPERVISOR_1"
newline
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"
newline
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"
newline
bitfld.long 0x00 17. "TRANSPARENT_COPY_ENABLE,Transparent copy enable" "TRANSPARENT_COPY_ENABLE_0,TRANSPARENT_COPY_ENABLE_1"
newline
bitfld.long 0x00 16. "CONST_FILL_ENABLE,Constant fill enable" "CONST_FILL_ENABLE_0,CONST_FILL_ENABLE_1"
newline
bitfld.long 0x00 14.--15. "DST_AMODE,Selects the addressing mode on the Write Port of a channel" "DST_AMODE_0,DST_AMODE_1,DST_AMODE_2,DST_AMODE_3"
newline
bitfld.long 0x00 12.--13. "SRC_AMODE,Selects the addressing mode on the Read Port of a channel" "SRC_AMODE_0,SRC_AMODE_1,SRC_AMODE_2,SRC_AMODE_3"
newline
rbitfld.long 0x00 10. "WR_ACTIVE,Indicates if the channel write context is active or not" "WR_ACTIVE_0_r,WR_ACTIVE_1_r"
newline
rbitfld.long 0x00 9. "RD_ACTIVE,Indicates if the channel read context is active or not" "RD_ACTIVE_0_r,RD_ACTIVE_1_r"
newline
bitfld.long 0x00 8. "SUSPEND_SENSITIVE,Logical channel suspend enable bit" "SUSPEND_SENSITIVE_0,SUSPEND_SENSITIVE_1"
newline
bitfld.long 0x00 7. "ENABLE,Logical channel enable" "ENABLE_0,ENABLE_1"
newline
bitfld.long 0x00 6. "READ_PRIORITY,Channel priority on the read side" "READ_PRIORITY_0,READ_PRIORITY_1"
newline
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 =" "An entire frame is transferred once a DMA..,A packet is transferred once a DMA request is made"
newline
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)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x598++0x03
line.long 0x00 "DMA4_CDACi_13,Channel Destination Address Value"
group.long 0x58C++0x07
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"
line.long 0x04 "DMA4_CDFIi_13,Channel Destination Frame Index (Signed) or 16-bit Packet size"
group.long 0x5B0++0x03
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" "FAST_0,FAST_1"
newline
bitfld.long 0x00 8.--9. "TRANSFER_MODE,Enable linked-list transfer mode" "TRANSFER_MODE_0,TRANSFER_MODE_1,TRANSFER_MODE_2,TRANSFER_MODE_3"
newline
bitfld.long 0x00 7. "PAUSE_LINK_LIST,Suspend the linked-list transfer at completion of the current block transfer" "PAUSE_LINK_LIST_0,PAUSE_LINK_LIST_1"
newline
bitfld.long 0x00 4.--6. "NEXT_DESCRIPTOR_TYPE,Next Descriptor Type" "NEXT_DESCRIPTOR_TYPE_0,NEXT_DESCRIPTOR_TYPE_1,NEXT_DESCRIPTOR_TYPE_2,NEXT_DESCRIPTOR_TYPE_3,NEXT_DESCRIPTOR_TYPE_4,NEXT_DESCRIPTOR_TYPE_5,NEXT_DESCRIPTOR_TYPE_6,NEXT_DESCRIPTOR_TYPE_7"
newline
bitfld.long 0x00 2.--3. "SRC_VALID,Source address valid" "SRC_VALID_0,SRC_VALID_1,SRC_VALID_2,SRC_VALID_3"
newline
bitfld.long 0x00 0.--1. "DEST_VALID,Destination address valid" "DEST_VALID_0,DEST_VALID_1,DEST_VALID_2,DEST_VALID_3"
group.long 0x580++0x03
line.long 0x00 "DMA4_CDSAi_13,Channel Destination Start Address"
group.long 0x574++0x07
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"
line.long 0x04 "DMA4_CFNi_13,Channel Frame Number"
hexmask.long.word 0x04 0.--15. 1. "CHANNEL_FRAME_NBR,Number of frames within the block to be transferred (unsigned)"
group.long 0x568++0x03
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"
newline
bitfld.long 0x00 12. "DRAIN_IE,Enables the end of draining interrupt" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ERR_IE,Enables the address misaligned error event interrupt" "MISALIGNED_ERR_IE_0,MISALIGNED_ERR_IE_1"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR_IE,Enables the supervisor transaction error event interrupt" "SUPERVISOR_ERR_IE_0,SUPERVISOR_ERR_IE_1"
newline
bitfld.long 0x00 8. "TRANS_ERR_IE,Enables the transaction error event interrupt" "TRANS_ERR_IE_0,TRANS_ERR_IE_1"
newline
bitfld.long 0x00 7. "PKT_IE,Enables the end of Packet interrupt" "PKT_IE_0,PKT_IE_1"
newline
bitfld.long 0x00 5. "BLOCK_IE,Enables the end of block interrupt" "BLOCK_IE_0,BLOCK_IE_1"
newline
bitfld.long 0x00 4. "LAST_IE,Last frame interrupt enable (start of last frame)" "LAST_IE_0,LAST_IE_1"
newline
bitfld.long 0x00 3. "FRAME_IE,Frame interrupt enable (end of frame)" "FRAME_IE_0,FRAME_IE_1"
newline
bitfld.long 0x00 2. "HALF_IE,Enables or disables the half frame interrupt" "HALF_IE_0,HALF_IE_1"
newline
bitfld.long 0x00 1. "DROP_IE,Synchronization event drop interrupt enable (request collision)" "DROP_IE_0,DROP_IE_1"
group.long 0x564++0x03
line.long 0x00 "DMA4_CLNK_CTRLi_13,Channel Link Control Register"
bitfld.long 0x00 15. "ENABLE_LNK,Enables or disable the channel linking" "ENABLE_LNK_0,ENABLE_LNK_1"
newline
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++0x03
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++0x03
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"
rgroup.long 0x594++0x03
line.long 0x00 "DMA4_CSACi_13,Channel Source Address Value"
group.long 0x570++0x03
line.long 0x00 "DMA4_CSDPi_13,Channel Source Destination Parameters"
bitfld.long 0x00 21. "SRC_ENDIAN,Channel source endianness control" "SRC_ENDIAN_0,SRC_ENDIAN_1"
newline
bitfld.long 0x00 20. "SRC_ENDIAN_LOCK,Endianness Lock" "SRC_ENDIAN_LOCK_0,SRC_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 19. "DST_ENDIAN,Channel Destination endianness control" "DST_ENDIAN_0,DST_ENDIAN_1"
newline
bitfld.long 0x00 18. "DST_ENDIAN_LOCK,Endianness Lock" "DST_ENDIAN_LOCK_0,DST_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 16.--17. "WRITE_MODE,Used to enable writing mode without posting or with posting" "WRITE_MODE_0,WRITE_MODE_1,WRITE_MODE_2,WRITE_MODE_3"
newline
bitfld.long 0x00 14.--15. "DST_BURST_EN,Used to enable bursting on the Write Port" "DST_BURST_EN_0,DST_BURST_EN_1,DST_BURST_EN_2,DST_BURST_EN_3"
newline
bitfld.long 0x00 13. "DST_PACKED,Destination receives packed data" "DST_PACKED_0,DST_PACKED_1"
newline
bitfld.long 0x00 7.--8. "SRC_BURST_EN,Used to enable bursting on the Read Port" "SRC_BURST_EN_0,SRC_BURST_EN_1,SRC_BURST_EN_2,SRC_BURST_EN_3"
newline
bitfld.long 0x00 6. "SRC_PACKED,Source provides packed data" "SRC_PACKED_0,SRC_PACKED_1"
newline
bitfld.long 0x00 0.--1. "DATA_TYPE,Defines the type of the data moved in the channel" "DATA_TYPE_0,DATA_TYPE_1,DATA_TYPE_2,DATA_TYPE_3"
group.long 0x584++0x07
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"
line.long 0x04 "DMA4_CSFIi_13,Channel Source Frame Index (Signed) or 16-bit Packet size"
group.long 0x56C++0x03
line.long 0x00 "DMA4_CSRi_13,Channel Status Register"
bitfld.long 0x00 14. "SUPER_BLOCK,End of Super block event" "0,1"
newline
bitfld.long 0x00 12. "DRAIN_END,End of channel draining" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ADRS_ERR,Misaligned address error event" "MISALIGNED_ADRS_ERR_0_w,MISALIGNED_ADRS_ERR_1_r"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR,Supervisor transaction error event" "SUPERVISOR_ERR_0_w,SUPERVISOR_ERR_1_r"
newline
bitfld.long 0x00 8. "TRANS_ERR,Transaction error event" "TRANS_ERR_0_w,TRANS_ERR_1_r"
newline
bitfld.long 0x00 7. "PKT,End of Packet transfer" "PKT_0_w,PKT_1_r"
newline
bitfld.long 0x00 6. "SYNC,Synchronization status of a channel" "SYNC_0_w,SYNC_1_r"
newline
bitfld.long 0x00 5. "BLOCK,End of block event" "BLOCK_0_w,BLOCK_1_r"
newline
bitfld.long 0x00 4. "LAST,Last frame (start of last frame)" "LAST_0_w,LAST_1_r"
newline
bitfld.long 0x00 3. "FRAME,End of frame event" "FRAME_0_w,FRAME_1_r"
newline
bitfld.long 0x00 2. "HALF,Half of frame event" "HALF_0_w,HALF_1_r"
newline
bitfld.long 0x00 1. "DROP,Synchronization event drop occured during the transfer" "DROP_0_w,DROP_1_r"
group.long 0x57C++0x03
line.long 0x00 "DMA4_CSSAi_13,Channel Source Start Address"
tree.end
tree "DMA_Channel_14"
group.long 0x618++0x03
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"
group.long 0x5FC++0x07
line.long 0x00 "DMA4_CCENi_14,Channel Current Transferred Element Number in the current frame"
hexmask.long.tbyte 0x00 0.--23. 1. "CURRENT_ELMNT_NBR,Channel current transferred element number in the current frame"
line.long 0x04 "DMA4_CCFNi_14,Channel Current Transferred Frame Number in the current transfer"
hexmask.long.word 0x04 0.--15. 1. "CURRENT_FRAME_NBR,Channel current transferred frame number in the current transfer"
group.long 0x5C0++0x03
line.long 0x00 "DMA4_CCRi_14,Channel Control Register"
bitfld.long 0x00 26. "WRITE_PRIORITY,Channel priority on the Write side" "WRITE_PRIORITY_0,WRITE_PRIORITY_1"
newline
bitfld.long 0x00 25. "BUFFERING_DISABLE,This bit allows to disable the default buffering functionality when transfer is source synchronized" "BUFFERING_DISABLE_0,BUFFERING_DISABLE_1"
newline
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" "SEL_SRC_DST_SYNC_0,SEL_SRC_DST_SYNC_1"
newline
bitfld.long 0x00 23. "PREFETCH,Enables the prefetch mode" "PREFETCH_0,PREFETCH_1"
newline
bitfld.long 0x00 22. "SUPERVISOR,Enables the supervisor mode" "SUPERVISOR_0,SUPERVISOR_1"
newline
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"
newline
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"
newline
bitfld.long 0x00 17. "TRANSPARENT_COPY_ENABLE,Transparent copy enable" "TRANSPARENT_COPY_ENABLE_0,TRANSPARENT_COPY_ENABLE_1"
newline
bitfld.long 0x00 16. "CONST_FILL_ENABLE,Constant fill enable" "CONST_FILL_ENABLE_0,CONST_FILL_ENABLE_1"
newline
bitfld.long 0x00 14.--15. "DST_AMODE,Selects the addressing mode on the Write Port of a channel" "DST_AMODE_0,DST_AMODE_1,DST_AMODE_2,DST_AMODE_3"
newline
bitfld.long 0x00 12.--13. "SRC_AMODE,Selects the addressing mode on the Read Port of a channel" "SRC_AMODE_0,SRC_AMODE_1,SRC_AMODE_2,SRC_AMODE_3"
newline
rbitfld.long 0x00 10. "WR_ACTIVE,Indicates if the channel write context is active or not" "WR_ACTIVE_0_r,WR_ACTIVE_1_r"
newline
rbitfld.long 0x00 9. "RD_ACTIVE,Indicates if the channel read context is active or not" "RD_ACTIVE_0_r,RD_ACTIVE_1_r"
newline
bitfld.long 0x00 8. "SUSPEND_SENSITIVE,Logical channel suspend enable bit" "SUSPEND_SENSITIVE_0,SUSPEND_SENSITIVE_1"
newline
bitfld.long 0x00 7. "ENABLE,Logical channel enable" "ENABLE_0,ENABLE_1"
newline
bitfld.long 0x00 6. "READ_PRIORITY,Channel priority on the read side" "READ_PRIORITY_0,READ_PRIORITY_1"
newline
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 =" "An entire frame is transferred once a DMA..,A packet is transferred once a DMA request is made"
newline
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)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x5F8++0x03
line.long 0x00 "DMA4_CDACi_14,Channel Destination Address Value"
group.long 0x5EC++0x07
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"
line.long 0x04 "DMA4_CDFIi_14,Channel Destination Frame Index (Signed) or 16-bit Packet size"
group.long 0x610++0x03
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" "FAST_0,FAST_1"
newline
bitfld.long 0x00 8.--9. "TRANSFER_MODE,Enable linked-list transfer mode" "TRANSFER_MODE_0,TRANSFER_MODE_1,TRANSFER_MODE_2,TRANSFER_MODE_3"
newline
bitfld.long 0x00 7. "PAUSE_LINK_LIST,Suspend the linked-list transfer at completion of the current block transfer" "PAUSE_LINK_LIST_0,PAUSE_LINK_LIST_1"
newline
bitfld.long 0x00 4.--6. "NEXT_DESCRIPTOR_TYPE,Next Descriptor Type" "NEXT_DESCRIPTOR_TYPE_0,NEXT_DESCRIPTOR_TYPE_1,NEXT_DESCRIPTOR_TYPE_2,NEXT_DESCRIPTOR_TYPE_3,NEXT_DESCRIPTOR_TYPE_4,NEXT_DESCRIPTOR_TYPE_5,NEXT_DESCRIPTOR_TYPE_6,NEXT_DESCRIPTOR_TYPE_7"
newline
bitfld.long 0x00 2.--3. "SRC_VALID,Source address valid" "SRC_VALID_0,SRC_VALID_1,SRC_VALID_2,SRC_VALID_3"
newline
bitfld.long 0x00 0.--1. "DEST_VALID,Destination address valid" "DEST_VALID_0,DEST_VALID_1,DEST_VALID_2,DEST_VALID_3"
group.long 0x5E0++0x03
line.long 0x00 "DMA4_CDSAi_14,Channel Destination Start Address"
group.long 0x5D4++0x07
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"
line.long 0x04 "DMA4_CFNi_14,Channel Frame Number"
hexmask.long.word 0x04 0.--15. 1. "CHANNEL_FRAME_NBR,Number of frames within the block to be transferred (unsigned)"
group.long 0x5C8++0x03
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"
newline
bitfld.long 0x00 12. "DRAIN_IE,Enables the end of draining interrupt" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ERR_IE,Enables the address misaligned error event interrupt" "MISALIGNED_ERR_IE_0,MISALIGNED_ERR_IE_1"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR_IE,Enables the supervisor transaction error event interrupt" "SUPERVISOR_ERR_IE_0,SUPERVISOR_ERR_IE_1"
newline
bitfld.long 0x00 8. "TRANS_ERR_IE,Enables the transaction error event interrupt" "TRANS_ERR_IE_0,TRANS_ERR_IE_1"
newline
bitfld.long 0x00 7. "PKT_IE,Enables the end of Packet interrupt" "PKT_IE_0,PKT_IE_1"
newline
bitfld.long 0x00 5. "BLOCK_IE,Enables the end of block interrupt" "BLOCK_IE_0,BLOCK_IE_1"
newline
bitfld.long 0x00 4. "LAST_IE,Last frame interrupt enable (start of last frame)" "LAST_IE_0,LAST_IE_1"
newline
bitfld.long 0x00 3. "FRAME_IE,Frame interrupt enable (end of frame)" "FRAME_IE_0,FRAME_IE_1"
newline
bitfld.long 0x00 2. "HALF_IE,Enables or disables the half frame interrupt" "HALF_IE_0,HALF_IE_1"
newline
bitfld.long 0x00 1. "DROP_IE,Synchronization event drop interrupt enable (request collision)" "DROP_IE_0,DROP_IE_1"
group.long 0x5C4++0x03
line.long 0x00 "DMA4_CLNK_CTRLi_14,Channel Link Control Register"
bitfld.long 0x00 15. "ENABLE_LNK,Enables or disable the channel linking" "ENABLE_LNK_0,ENABLE_LNK_1"
newline
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++0x03
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++0x03
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"
rgroup.long 0x5F4++0x03
line.long 0x00 "DMA4_CSACi_14,Channel Source Address Value"
group.long 0x5D0++0x03
line.long 0x00 "DMA4_CSDPi_14,Channel Source Destination Parameters"
bitfld.long 0x00 21. "SRC_ENDIAN,Channel source endianness control" "SRC_ENDIAN_0,SRC_ENDIAN_1"
newline
bitfld.long 0x00 20. "SRC_ENDIAN_LOCK,Endianness Lock" "SRC_ENDIAN_LOCK_0,SRC_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 19. "DST_ENDIAN,Channel Destination endianness control" "DST_ENDIAN_0,DST_ENDIAN_1"
newline
bitfld.long 0x00 18. "DST_ENDIAN_LOCK,Endianness Lock" "DST_ENDIAN_LOCK_0,DST_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 16.--17. "WRITE_MODE,Used to enable writing mode without posting or with posting" "WRITE_MODE_0,WRITE_MODE_1,WRITE_MODE_2,WRITE_MODE_3"
newline
bitfld.long 0x00 14.--15. "DST_BURST_EN,Used to enable bursting on the Write Port" "DST_BURST_EN_0,DST_BURST_EN_1,DST_BURST_EN_2,DST_BURST_EN_3"
newline
bitfld.long 0x00 13. "DST_PACKED,Destination receives packed data" "DST_PACKED_0,DST_PACKED_1"
newline
bitfld.long 0x00 7.--8. "SRC_BURST_EN,Used to enable bursting on the Read Port" "SRC_BURST_EN_0,SRC_BURST_EN_1,SRC_BURST_EN_2,SRC_BURST_EN_3"
newline
bitfld.long 0x00 6. "SRC_PACKED,Source provides packed data" "SRC_PACKED_0,SRC_PACKED_1"
newline
bitfld.long 0x00 0.--1. "DATA_TYPE,Defines the type of the data moved in the channel" "DATA_TYPE_0,DATA_TYPE_1,DATA_TYPE_2,DATA_TYPE_3"
group.long 0x5E4++0x07
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"
line.long 0x04 "DMA4_CSFIi_14,Channel Source Frame Index (Signed) or 16-bit Packet size"
group.long 0x5CC++0x03
line.long 0x00 "DMA4_CSRi_14,Channel Status Register"
bitfld.long 0x00 14. "SUPER_BLOCK,End of Super block event" "0,1"
newline
bitfld.long 0x00 12. "DRAIN_END,End of channel draining" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ADRS_ERR,Misaligned address error event" "MISALIGNED_ADRS_ERR_0_w,MISALIGNED_ADRS_ERR_1_r"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR,Supervisor transaction error event" "SUPERVISOR_ERR_0_w,SUPERVISOR_ERR_1_r"
newline
bitfld.long 0x00 8. "TRANS_ERR,Transaction error event" "TRANS_ERR_0_w,TRANS_ERR_1_r"
newline
bitfld.long 0x00 7. "PKT,End of Packet transfer" "PKT_0_w,PKT_1_r"
newline
bitfld.long 0x00 6. "SYNC,Synchronization status of a channel" "SYNC_0_w,SYNC_1_r"
newline
bitfld.long 0x00 5. "BLOCK,End of block event" "BLOCK_0_w,BLOCK_1_r"
newline
bitfld.long 0x00 4. "LAST,Last frame (start of last frame)" "LAST_0_w,LAST_1_r"
newline
bitfld.long 0x00 3. "FRAME,End of frame event" "FRAME_0_w,FRAME_1_r"
newline
bitfld.long 0x00 2. "HALF,Half of frame event" "HALF_0_w,HALF_1_r"
newline
bitfld.long 0x00 1. "DROP,Synchronization event drop occured during the transfer" "DROP_0_w,DROP_1_r"
group.long 0x5DC++0x03
line.long 0x00 "DMA4_CSSAi_14,Channel Source Start Address"
tree.end
tree "DMA_Channel_15"
group.long 0x678++0x03
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"
group.long 0x65C++0x07
line.long 0x00 "DMA4_CCENi_15,Channel Current Transferred Element Number in the current frame"
hexmask.long.tbyte 0x00 0.--23. 1. "CURRENT_ELMNT_NBR,Channel current transferred element number in the current frame"
line.long 0x04 "DMA4_CCFNi_15,Channel Current Transferred Frame Number in the current transfer"
hexmask.long.word 0x04 0.--15. 1. "CURRENT_FRAME_NBR,Channel current transferred frame number in the current transfer"
group.long 0x620++0x03
line.long 0x00 "DMA4_CCRi_15,Channel Control Register"
bitfld.long 0x00 26. "WRITE_PRIORITY,Channel priority on the Write side" "WRITE_PRIORITY_0,WRITE_PRIORITY_1"
newline
bitfld.long 0x00 25. "BUFFERING_DISABLE,This bit allows to disable the default buffering functionality when transfer is source synchronized" "BUFFERING_DISABLE_0,BUFFERING_DISABLE_1"
newline
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" "SEL_SRC_DST_SYNC_0,SEL_SRC_DST_SYNC_1"
newline
bitfld.long 0x00 23. "PREFETCH,Enables the prefetch mode" "PREFETCH_0,PREFETCH_1"
newline
bitfld.long 0x00 22. "SUPERVISOR,Enables the supervisor mode" "SUPERVISOR_0,SUPERVISOR_1"
newline
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"
newline
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"
newline
bitfld.long 0x00 17. "TRANSPARENT_COPY_ENABLE,Transparent copy enable" "TRANSPARENT_COPY_ENABLE_0,TRANSPARENT_COPY_ENABLE_1"
newline
bitfld.long 0x00 16. "CONST_FILL_ENABLE,Constant fill enable" "CONST_FILL_ENABLE_0,CONST_FILL_ENABLE_1"
newline
bitfld.long 0x00 14.--15. "DST_AMODE,Selects the addressing mode on the Write Port of a channel" "DST_AMODE_0,DST_AMODE_1,DST_AMODE_2,DST_AMODE_3"
newline
bitfld.long 0x00 12.--13. "SRC_AMODE,Selects the addressing mode on the Read Port of a channel" "SRC_AMODE_0,SRC_AMODE_1,SRC_AMODE_2,SRC_AMODE_3"
newline
rbitfld.long 0x00 10. "WR_ACTIVE,Indicates if the channel write context is active or not" "WR_ACTIVE_0_r,WR_ACTIVE_1_r"
newline
rbitfld.long 0x00 9. "RD_ACTIVE,Indicates if the channel read context is active or not" "RD_ACTIVE_0_r,RD_ACTIVE_1_r"
newline
bitfld.long 0x00 8. "SUSPEND_SENSITIVE,Logical channel suspend enable bit" "SUSPEND_SENSITIVE_0,SUSPEND_SENSITIVE_1"
newline
bitfld.long 0x00 7. "ENABLE,Logical channel enable" "ENABLE_0,ENABLE_1"
newline
bitfld.long 0x00 6. "READ_PRIORITY,Channel priority on the read side" "READ_PRIORITY_0,READ_PRIORITY_1"
newline
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 =" "An entire frame is transferred once a DMA..,A packet is transferred once a DMA request is made"
newline
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)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x658++0x03
line.long 0x00 "DMA4_CDACi_15,Channel Destination Address Value"
group.long 0x64C++0x07
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"
line.long 0x04 "DMA4_CDFIi_15,Channel Destination Frame Index (Signed) or 16-bit Packet size"
group.long 0x670++0x03
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" "FAST_0,FAST_1"
newline
bitfld.long 0x00 8.--9. "TRANSFER_MODE,Enable linked-list transfer mode" "TRANSFER_MODE_0,TRANSFER_MODE_1,TRANSFER_MODE_2,TRANSFER_MODE_3"
newline
bitfld.long 0x00 7. "PAUSE_LINK_LIST,Suspend the linked-list transfer at completion of the current block transfer" "PAUSE_LINK_LIST_0,PAUSE_LINK_LIST_1"
newline
bitfld.long 0x00 4.--6. "NEXT_DESCRIPTOR_TYPE,Next Descriptor Type" "NEXT_DESCRIPTOR_TYPE_0,NEXT_DESCRIPTOR_TYPE_1,NEXT_DESCRIPTOR_TYPE_2,NEXT_DESCRIPTOR_TYPE_3,NEXT_DESCRIPTOR_TYPE_4,NEXT_DESCRIPTOR_TYPE_5,NEXT_DESCRIPTOR_TYPE_6,NEXT_DESCRIPTOR_TYPE_7"
newline
bitfld.long 0x00 2.--3. "SRC_VALID,Source address valid" "SRC_VALID_0,SRC_VALID_1,SRC_VALID_2,SRC_VALID_3"
newline
bitfld.long 0x00 0.--1. "DEST_VALID,Destination address valid" "DEST_VALID_0,DEST_VALID_1,DEST_VALID_2,DEST_VALID_3"
group.long 0x640++0x03
line.long 0x00 "DMA4_CDSAi_15,Channel Destination Start Address"
group.long 0x634++0x07
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"
line.long 0x04 "DMA4_CFNi_15,Channel Frame Number"
hexmask.long.word 0x04 0.--15. 1. "CHANNEL_FRAME_NBR,Number of frames within the block to be transferred (unsigned)"
group.long 0x628++0x03
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"
newline
bitfld.long 0x00 12. "DRAIN_IE,Enables the end of draining interrupt" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ERR_IE,Enables the address misaligned error event interrupt" "MISALIGNED_ERR_IE_0,MISALIGNED_ERR_IE_1"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR_IE,Enables the supervisor transaction error event interrupt" "SUPERVISOR_ERR_IE_0,SUPERVISOR_ERR_IE_1"
newline
bitfld.long 0x00 8. "TRANS_ERR_IE,Enables the transaction error event interrupt" "TRANS_ERR_IE_0,TRANS_ERR_IE_1"
newline
bitfld.long 0x00 7. "PKT_IE,Enables the end of Packet interrupt" "PKT_IE_0,PKT_IE_1"
newline
bitfld.long 0x00 5. "BLOCK_IE,Enables the end of block interrupt" "BLOCK_IE_0,BLOCK_IE_1"
newline
bitfld.long 0x00 4. "LAST_IE,Last frame interrupt enable (start of last frame)" "LAST_IE_0,LAST_IE_1"
newline
bitfld.long 0x00 3. "FRAME_IE,Frame interrupt enable (end of frame)" "FRAME_IE_0,FRAME_IE_1"
newline
bitfld.long 0x00 2. "HALF_IE,Enables or disables the half frame interrupt" "HALF_IE_0,HALF_IE_1"
newline
bitfld.long 0x00 1. "DROP_IE,Synchronization event drop interrupt enable (request collision)" "DROP_IE_0,DROP_IE_1"
group.long 0x624++0x03
line.long 0x00 "DMA4_CLNK_CTRLi_15,Channel Link Control Register"
bitfld.long 0x00 15. "ENABLE_LNK,Enables or disable the channel linking" "ENABLE_LNK_0,ENABLE_LNK_1"
newline
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++0x03
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++0x03
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"
rgroup.long 0x654++0x03
line.long 0x00 "DMA4_CSACi_15,Channel Source Address Value"
group.long 0x630++0x03
line.long 0x00 "DMA4_CSDPi_15,Channel Source Destination Parameters"
bitfld.long 0x00 21. "SRC_ENDIAN,Channel source endianness control" "SRC_ENDIAN_0,SRC_ENDIAN_1"
newline
bitfld.long 0x00 20. "SRC_ENDIAN_LOCK,Endianness Lock" "SRC_ENDIAN_LOCK_0,SRC_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 19. "DST_ENDIAN,Channel Destination endianness control" "DST_ENDIAN_0,DST_ENDIAN_1"
newline
bitfld.long 0x00 18. "DST_ENDIAN_LOCK,Endianness Lock" "DST_ENDIAN_LOCK_0,DST_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 16.--17. "WRITE_MODE,Used to enable writing mode without posting or with posting" "WRITE_MODE_0,WRITE_MODE_1,WRITE_MODE_2,WRITE_MODE_3"
newline
bitfld.long 0x00 14.--15. "DST_BURST_EN,Used to enable bursting on the Write Port" "DST_BURST_EN_0,DST_BURST_EN_1,DST_BURST_EN_2,DST_BURST_EN_3"
newline
bitfld.long 0x00 13. "DST_PACKED,Destination receives packed data" "DST_PACKED_0,DST_PACKED_1"
newline
bitfld.long 0x00 7.--8. "SRC_BURST_EN,Used to enable bursting on the Read Port" "SRC_BURST_EN_0,SRC_BURST_EN_1,SRC_BURST_EN_2,SRC_BURST_EN_3"
newline
bitfld.long 0x00 6. "SRC_PACKED,Source provides packed data" "SRC_PACKED_0,SRC_PACKED_1"
newline
bitfld.long 0x00 0.--1. "DATA_TYPE,Defines the type of the data moved in the channel" "DATA_TYPE_0,DATA_TYPE_1,DATA_TYPE_2,DATA_TYPE_3"
group.long 0x644++0x07
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"
line.long 0x04 "DMA4_CSFIi_15,Channel Source Frame Index (Signed) or 16-bit Packet size"
group.long 0x62C++0x03
line.long 0x00 "DMA4_CSRi_15,Channel Status Register"
bitfld.long 0x00 14. "SUPER_BLOCK,End of Super block event" "0,1"
newline
bitfld.long 0x00 12. "DRAIN_END,End of channel draining" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ADRS_ERR,Misaligned address error event" "MISALIGNED_ADRS_ERR_0_w,MISALIGNED_ADRS_ERR_1_r"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR,Supervisor transaction error event" "SUPERVISOR_ERR_0_w,SUPERVISOR_ERR_1_r"
newline
bitfld.long 0x00 8. "TRANS_ERR,Transaction error event" "TRANS_ERR_0_w,TRANS_ERR_1_r"
newline
bitfld.long 0x00 7. "PKT,End of Packet transfer" "PKT_0_w,PKT_1_r"
newline
bitfld.long 0x00 6. "SYNC,Synchronization status of a channel" "SYNC_0_w,SYNC_1_r"
newline
bitfld.long 0x00 5. "BLOCK,End of block event" "BLOCK_0_w,BLOCK_1_r"
newline
bitfld.long 0x00 4. "LAST,Last frame (start of last frame)" "LAST_0_w,LAST_1_r"
newline
bitfld.long 0x00 3. "FRAME,End of frame event" "FRAME_0_w,FRAME_1_r"
newline
bitfld.long 0x00 2. "HALF,Half of frame event" "HALF_0_w,HALF_1_r"
newline
bitfld.long 0x00 1. "DROP,Synchronization event drop occured during the transfer" "DROP_0_w,DROP_1_r"
group.long 0x63C++0x03
line.long 0x00 "DMA4_CSSAi_15,Channel Source Start Address"
tree.end
tree "DMA_Channel_16"
group.long 0x6D8++0x03
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"
group.long 0x6BC++0x07
line.long 0x00 "DMA4_CCENi_16,Channel Current Transferred Element Number in the current frame"
hexmask.long.tbyte 0x00 0.--23. 1. "CURRENT_ELMNT_NBR,Channel current transferred element number in the current frame"
line.long 0x04 "DMA4_CCFNi_16,Channel Current Transferred Frame Number in the current transfer"
hexmask.long.word 0x04 0.--15. 1. "CURRENT_FRAME_NBR,Channel current transferred frame number in the current transfer"
group.long 0x680++0x03
line.long 0x00 "DMA4_CCRi_16,Channel Control Register"
bitfld.long 0x00 26. "WRITE_PRIORITY,Channel priority on the Write side" "WRITE_PRIORITY_0,WRITE_PRIORITY_1"
newline
bitfld.long 0x00 25. "BUFFERING_DISABLE,This bit allows to disable the default buffering functionality when transfer is source synchronized" "BUFFERING_DISABLE_0,BUFFERING_DISABLE_1"
newline
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" "SEL_SRC_DST_SYNC_0,SEL_SRC_DST_SYNC_1"
newline
bitfld.long 0x00 23. "PREFETCH,Enables the prefetch mode" "PREFETCH_0,PREFETCH_1"
newline
bitfld.long 0x00 22. "SUPERVISOR,Enables the supervisor mode" "SUPERVISOR_0,SUPERVISOR_1"
newline
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"
newline
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"
newline
bitfld.long 0x00 17. "TRANSPARENT_COPY_ENABLE,Transparent copy enable" "TRANSPARENT_COPY_ENABLE_0,TRANSPARENT_COPY_ENABLE_1"
newline
bitfld.long 0x00 16. "CONST_FILL_ENABLE,Constant fill enable" "CONST_FILL_ENABLE_0,CONST_FILL_ENABLE_1"
newline
bitfld.long 0x00 14.--15. "DST_AMODE,Selects the addressing mode on the Write Port of a channel" "DST_AMODE_0,DST_AMODE_1,DST_AMODE_2,DST_AMODE_3"
newline
bitfld.long 0x00 12.--13. "SRC_AMODE,Selects the addressing mode on the Read Port of a channel" "SRC_AMODE_0,SRC_AMODE_1,SRC_AMODE_2,SRC_AMODE_3"
newline
rbitfld.long 0x00 10. "WR_ACTIVE,Indicates if the channel write context is active or not" "WR_ACTIVE_0_r,WR_ACTIVE_1_r"
newline
rbitfld.long 0x00 9. "RD_ACTIVE,Indicates if the channel read context is active or not" "RD_ACTIVE_0_r,RD_ACTIVE_1_r"
newline
bitfld.long 0x00 8. "SUSPEND_SENSITIVE,Logical channel suspend enable bit" "SUSPEND_SENSITIVE_0,SUSPEND_SENSITIVE_1"
newline
bitfld.long 0x00 7. "ENABLE,Logical channel enable" "ENABLE_0,ENABLE_1"
newline
bitfld.long 0x00 6. "READ_PRIORITY,Channel priority on the read side" "READ_PRIORITY_0,READ_PRIORITY_1"
newline
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 =" "An entire frame is transferred once a DMA..,A packet is transferred once a DMA request is made"
newline
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)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x6B8++0x03
line.long 0x00 "DMA4_CDACi_16,Channel Destination Address Value"
group.long 0x6AC++0x07
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"
line.long 0x04 "DMA4_CDFIi_16,Channel Destination Frame Index (Signed) or 16-bit Packet size"
group.long 0x6D0++0x03
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" "FAST_0,FAST_1"
newline
bitfld.long 0x00 8.--9. "TRANSFER_MODE,Enable linked-list transfer mode" "TRANSFER_MODE_0,TRANSFER_MODE_1,TRANSFER_MODE_2,TRANSFER_MODE_3"
newline
bitfld.long 0x00 7. "PAUSE_LINK_LIST,Suspend the linked-list transfer at completion of the current block transfer" "PAUSE_LINK_LIST_0,PAUSE_LINK_LIST_1"
newline
bitfld.long 0x00 4.--6. "NEXT_DESCRIPTOR_TYPE,Next Descriptor Type" "NEXT_DESCRIPTOR_TYPE_0,NEXT_DESCRIPTOR_TYPE_1,NEXT_DESCRIPTOR_TYPE_2,NEXT_DESCRIPTOR_TYPE_3,NEXT_DESCRIPTOR_TYPE_4,NEXT_DESCRIPTOR_TYPE_5,NEXT_DESCRIPTOR_TYPE_6,NEXT_DESCRIPTOR_TYPE_7"
newline
bitfld.long 0x00 2.--3. "SRC_VALID,Source address valid" "SRC_VALID_0,SRC_VALID_1,SRC_VALID_2,SRC_VALID_3"
newline
bitfld.long 0x00 0.--1. "DEST_VALID,Destination address valid" "DEST_VALID_0,DEST_VALID_1,DEST_VALID_2,DEST_VALID_3"
group.long 0x6A0++0x03
line.long 0x00 "DMA4_CDSAi_16,Channel Destination Start Address"
group.long 0x694++0x07
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"
line.long 0x04 "DMA4_CFNi_16,Channel Frame Number"
hexmask.long.word 0x04 0.--15. 1. "CHANNEL_FRAME_NBR,Number of frames within the block to be transferred (unsigned)"
group.long 0x688++0x03
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"
newline
bitfld.long 0x00 12. "DRAIN_IE,Enables the end of draining interrupt" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ERR_IE,Enables the address misaligned error event interrupt" "MISALIGNED_ERR_IE_0,MISALIGNED_ERR_IE_1"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR_IE,Enables the supervisor transaction error event interrupt" "SUPERVISOR_ERR_IE_0,SUPERVISOR_ERR_IE_1"
newline
bitfld.long 0x00 8. "TRANS_ERR_IE,Enables the transaction error event interrupt" "TRANS_ERR_IE_0,TRANS_ERR_IE_1"
newline
bitfld.long 0x00 7. "PKT_IE,Enables the end of Packet interrupt" "PKT_IE_0,PKT_IE_1"
newline
bitfld.long 0x00 5. "BLOCK_IE,Enables the end of block interrupt" "BLOCK_IE_0,BLOCK_IE_1"
newline
bitfld.long 0x00 4. "LAST_IE,Last frame interrupt enable (start of last frame)" "LAST_IE_0,LAST_IE_1"
newline
bitfld.long 0x00 3. "FRAME_IE,Frame interrupt enable (end of frame)" "FRAME_IE_0,FRAME_IE_1"
newline
bitfld.long 0x00 2. "HALF_IE,Enables or disables the half frame interrupt" "HALF_IE_0,HALF_IE_1"
newline
bitfld.long 0x00 1. "DROP_IE,Synchronization event drop interrupt enable (request collision)" "DROP_IE_0,DROP_IE_1"
group.long 0x684++0x03
line.long 0x00 "DMA4_CLNK_CTRLi_16,Channel Link Control Register"
bitfld.long 0x00 15. "ENABLE_LNK,Enables or disable the channel linking" "ENABLE_LNK_0,ENABLE_LNK_1"
newline
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++0x03
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++0x03
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"
rgroup.long 0x6B4++0x03
line.long 0x00 "DMA4_CSACi_16,Channel Source Address Value"
group.long 0x690++0x03
line.long 0x00 "DMA4_CSDPi_16,Channel Source Destination Parameters"
bitfld.long 0x00 21. "SRC_ENDIAN,Channel source endianness control" "SRC_ENDIAN_0,SRC_ENDIAN_1"
newline
bitfld.long 0x00 20. "SRC_ENDIAN_LOCK,Endianness Lock" "SRC_ENDIAN_LOCK_0,SRC_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 19. "DST_ENDIAN,Channel Destination endianness control" "DST_ENDIAN_0,DST_ENDIAN_1"
newline
bitfld.long 0x00 18. "DST_ENDIAN_LOCK,Endianness Lock" "DST_ENDIAN_LOCK_0,DST_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 16.--17. "WRITE_MODE,Used to enable writing mode without posting or with posting" "WRITE_MODE_0,WRITE_MODE_1,WRITE_MODE_2,WRITE_MODE_3"
newline
bitfld.long 0x00 14.--15. "DST_BURST_EN,Used to enable bursting on the Write Port" "DST_BURST_EN_0,DST_BURST_EN_1,DST_BURST_EN_2,DST_BURST_EN_3"
newline
bitfld.long 0x00 13. "DST_PACKED,Destination receives packed data" "DST_PACKED_0,DST_PACKED_1"
newline
bitfld.long 0x00 7.--8. "SRC_BURST_EN,Used to enable bursting on the Read Port" "SRC_BURST_EN_0,SRC_BURST_EN_1,SRC_BURST_EN_2,SRC_BURST_EN_3"
newline
bitfld.long 0x00 6. "SRC_PACKED,Source provides packed data" "SRC_PACKED_0,SRC_PACKED_1"
newline
bitfld.long 0x00 0.--1. "DATA_TYPE,Defines the type of the data moved in the channel" "DATA_TYPE_0,DATA_TYPE_1,DATA_TYPE_2,DATA_TYPE_3"
group.long 0x6A4++0x07
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"
line.long 0x04 "DMA4_CSFIi_16,Channel Source Frame Index (Signed) or 16-bit Packet size"
group.long 0x68C++0x03
line.long 0x00 "DMA4_CSRi_16,Channel Status Register"
bitfld.long 0x00 14. "SUPER_BLOCK,End of Super block event" "0,1"
newline
bitfld.long 0x00 12. "DRAIN_END,End of channel draining" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ADRS_ERR,Misaligned address error event" "MISALIGNED_ADRS_ERR_0_w,MISALIGNED_ADRS_ERR_1_r"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR,Supervisor transaction error event" "SUPERVISOR_ERR_0_w,SUPERVISOR_ERR_1_r"
newline
bitfld.long 0x00 8. "TRANS_ERR,Transaction error event" "TRANS_ERR_0_w,TRANS_ERR_1_r"
newline
bitfld.long 0x00 7. "PKT,End of Packet transfer" "PKT_0_w,PKT_1_r"
newline
bitfld.long 0x00 6. "SYNC,Synchronization status of a channel" "SYNC_0_w,SYNC_1_r"
newline
bitfld.long 0x00 5. "BLOCK,End of block event" "BLOCK_0_w,BLOCK_1_r"
newline
bitfld.long 0x00 4. "LAST,Last frame (start of last frame)" "LAST_0_w,LAST_1_r"
newline
bitfld.long 0x00 3. "FRAME,End of frame event" "FRAME_0_w,FRAME_1_r"
newline
bitfld.long 0x00 2. "HALF,Half of frame event" "HALF_0_w,HALF_1_r"
newline
bitfld.long 0x00 1. "DROP,Synchronization event drop occured during the transfer" "DROP_0_w,DROP_1_r"
group.long 0x69C++0x03
line.long 0x00 "DMA4_CSSAi_16,Channel Source Start Address"
tree.end
tree "DMA_Channel_17"
group.long 0x738++0x03
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"
group.long 0x71C++0x07
line.long 0x00 "DMA4_CCENi_17,Channel Current Transferred Element Number in the current frame"
hexmask.long.tbyte 0x00 0.--23. 1. "CURRENT_ELMNT_NBR,Channel current transferred element number in the current frame"
line.long 0x04 "DMA4_CCFNi_17,Channel Current Transferred Frame Number in the current transfer"
hexmask.long.word 0x04 0.--15. 1. "CURRENT_FRAME_NBR,Channel current transferred frame number in the current transfer"
group.long 0x6E0++0x03
line.long 0x00 "DMA4_CCRi_17,Channel Control Register"
bitfld.long 0x00 26. "WRITE_PRIORITY,Channel priority on the Write side" "WRITE_PRIORITY_0,WRITE_PRIORITY_1"
newline
bitfld.long 0x00 25. "BUFFERING_DISABLE,This bit allows to disable the default buffering functionality when transfer is source synchronized" "BUFFERING_DISABLE_0,BUFFERING_DISABLE_1"
newline
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" "SEL_SRC_DST_SYNC_0,SEL_SRC_DST_SYNC_1"
newline
bitfld.long 0x00 23. "PREFETCH,Enables the prefetch mode" "PREFETCH_0,PREFETCH_1"
newline
bitfld.long 0x00 22. "SUPERVISOR,Enables the supervisor mode" "SUPERVISOR_0,SUPERVISOR_1"
newline
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"
newline
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"
newline
bitfld.long 0x00 17. "TRANSPARENT_COPY_ENABLE,Transparent copy enable" "TRANSPARENT_COPY_ENABLE_0,TRANSPARENT_COPY_ENABLE_1"
newline
bitfld.long 0x00 16. "CONST_FILL_ENABLE,Constant fill enable" "CONST_FILL_ENABLE_0,CONST_FILL_ENABLE_1"
newline
bitfld.long 0x00 14.--15. "DST_AMODE,Selects the addressing mode on the Write Port of a channel" "DST_AMODE_0,DST_AMODE_1,DST_AMODE_2,DST_AMODE_3"
newline
bitfld.long 0x00 12.--13. "SRC_AMODE,Selects the addressing mode on the Read Port of a channel" "SRC_AMODE_0,SRC_AMODE_1,SRC_AMODE_2,SRC_AMODE_3"
newline
rbitfld.long 0x00 10. "WR_ACTIVE,Indicates if the channel write context is active or not" "WR_ACTIVE_0_r,WR_ACTIVE_1_r"
newline
rbitfld.long 0x00 9. "RD_ACTIVE,Indicates if the channel read context is active or not" "RD_ACTIVE_0_r,RD_ACTIVE_1_r"
newline
bitfld.long 0x00 8. "SUSPEND_SENSITIVE,Logical channel suspend enable bit" "SUSPEND_SENSITIVE_0,SUSPEND_SENSITIVE_1"
newline
bitfld.long 0x00 7. "ENABLE,Logical channel enable" "ENABLE_0,ENABLE_1"
newline
bitfld.long 0x00 6. "READ_PRIORITY,Channel priority on the read side" "READ_PRIORITY_0,READ_PRIORITY_1"
newline
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 =" "An entire frame is transferred once a DMA..,A packet is transferred once a DMA request is made"
newline
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)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x718++0x03
line.long 0x00 "DMA4_CDACi_17,Channel Destination Address Value"
group.long 0x70C++0x07
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"
line.long 0x04 "DMA4_CDFIi_17,Channel Destination Frame Index (Signed) or 16-bit Packet size"
group.long 0x730++0x03
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" "FAST_0,FAST_1"
newline
bitfld.long 0x00 8.--9. "TRANSFER_MODE,Enable linked-list transfer mode" "TRANSFER_MODE_0,TRANSFER_MODE_1,TRANSFER_MODE_2,TRANSFER_MODE_3"
newline
bitfld.long 0x00 7. "PAUSE_LINK_LIST,Suspend the linked-list transfer at completion of the current block transfer" "PAUSE_LINK_LIST_0,PAUSE_LINK_LIST_1"
newline
bitfld.long 0x00 4.--6. "NEXT_DESCRIPTOR_TYPE,Next Descriptor Type" "NEXT_DESCRIPTOR_TYPE_0,NEXT_DESCRIPTOR_TYPE_1,NEXT_DESCRIPTOR_TYPE_2,NEXT_DESCRIPTOR_TYPE_3,NEXT_DESCRIPTOR_TYPE_4,NEXT_DESCRIPTOR_TYPE_5,NEXT_DESCRIPTOR_TYPE_6,NEXT_DESCRIPTOR_TYPE_7"
newline
bitfld.long 0x00 2.--3. "SRC_VALID,Source address valid" "SRC_VALID_0,SRC_VALID_1,SRC_VALID_2,SRC_VALID_3"
newline
bitfld.long 0x00 0.--1. "DEST_VALID,Destination address valid" "DEST_VALID_0,DEST_VALID_1,DEST_VALID_2,DEST_VALID_3"
group.long 0x700++0x03
line.long 0x00 "DMA4_CDSAi_17,Channel Destination Start Address"
group.long 0x6F4++0x07
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"
line.long 0x04 "DMA4_CFNi_17,Channel Frame Number"
hexmask.long.word 0x04 0.--15. 1. "CHANNEL_FRAME_NBR,Number of frames within the block to be transferred (unsigned)"
group.long 0x6E8++0x03
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"
newline
bitfld.long 0x00 12. "DRAIN_IE,Enables the end of draining interrupt" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ERR_IE,Enables the address misaligned error event interrupt" "MISALIGNED_ERR_IE_0,MISALIGNED_ERR_IE_1"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR_IE,Enables the supervisor transaction error event interrupt" "SUPERVISOR_ERR_IE_0,SUPERVISOR_ERR_IE_1"
newline
bitfld.long 0x00 8. "TRANS_ERR_IE,Enables the transaction error event interrupt" "TRANS_ERR_IE_0,TRANS_ERR_IE_1"
newline
bitfld.long 0x00 7. "PKT_IE,Enables the end of Packet interrupt" "PKT_IE_0,PKT_IE_1"
newline
bitfld.long 0x00 5. "BLOCK_IE,Enables the end of block interrupt" "BLOCK_IE_0,BLOCK_IE_1"
newline
bitfld.long 0x00 4. "LAST_IE,Last frame interrupt enable (start of last frame)" "LAST_IE_0,LAST_IE_1"
newline
bitfld.long 0x00 3. "FRAME_IE,Frame interrupt enable (end of frame)" "FRAME_IE_0,FRAME_IE_1"
newline
bitfld.long 0x00 2. "HALF_IE,Enables or disables the half frame interrupt" "HALF_IE_0,HALF_IE_1"
newline
bitfld.long 0x00 1. "DROP_IE,Synchronization event drop interrupt enable (request collision)" "DROP_IE_0,DROP_IE_1"
group.long 0x6E4++0x03
line.long 0x00 "DMA4_CLNK_CTRLi_17,Channel Link Control Register"
bitfld.long 0x00 15. "ENABLE_LNK,Enables or disable the channel linking" "ENABLE_LNK_0,ENABLE_LNK_1"
newline
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++0x03
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++0x03
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"
rgroup.long 0x714++0x03
line.long 0x00 "DMA4_CSACi_17,Channel Source Address Value"
group.long 0x6F0++0x03
line.long 0x00 "DMA4_CSDPi_17,Channel Source Destination Parameters"
bitfld.long 0x00 21. "SRC_ENDIAN,Channel source endianness control" "SRC_ENDIAN_0,SRC_ENDIAN_1"
newline
bitfld.long 0x00 20. "SRC_ENDIAN_LOCK,Endianness Lock" "SRC_ENDIAN_LOCK_0,SRC_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 19. "DST_ENDIAN,Channel Destination endianness control" "DST_ENDIAN_0,DST_ENDIAN_1"
newline
bitfld.long 0x00 18. "DST_ENDIAN_LOCK,Endianness Lock" "DST_ENDIAN_LOCK_0,DST_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 16.--17. "WRITE_MODE,Used to enable writing mode without posting or with posting" "WRITE_MODE_0,WRITE_MODE_1,WRITE_MODE_2,WRITE_MODE_3"
newline
bitfld.long 0x00 14.--15. "DST_BURST_EN,Used to enable bursting on the Write Port" "DST_BURST_EN_0,DST_BURST_EN_1,DST_BURST_EN_2,DST_BURST_EN_3"
newline
bitfld.long 0x00 13. "DST_PACKED,Destination receives packed data" "DST_PACKED_0,DST_PACKED_1"
newline
bitfld.long 0x00 7.--8. "SRC_BURST_EN,Used to enable bursting on the Read Port" "SRC_BURST_EN_0,SRC_BURST_EN_1,SRC_BURST_EN_2,SRC_BURST_EN_3"
newline
bitfld.long 0x00 6. "SRC_PACKED,Source provides packed data" "SRC_PACKED_0,SRC_PACKED_1"
newline
bitfld.long 0x00 0.--1. "DATA_TYPE,Defines the type of the data moved in the channel" "DATA_TYPE_0,DATA_TYPE_1,DATA_TYPE_2,DATA_TYPE_3"
group.long 0x704++0x07
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"
line.long 0x04 "DMA4_CSFIi_17,Channel Source Frame Index (Signed) or 16-bit Packet size"
group.long 0x6EC++0x03
line.long 0x00 "DMA4_CSRi_17,Channel Status Register"
bitfld.long 0x00 14. "SUPER_BLOCK,End of Super block event" "0,1"
newline
bitfld.long 0x00 12. "DRAIN_END,End of channel draining" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ADRS_ERR,Misaligned address error event" "MISALIGNED_ADRS_ERR_0_w,MISALIGNED_ADRS_ERR_1_r"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR,Supervisor transaction error event" "SUPERVISOR_ERR_0_w,SUPERVISOR_ERR_1_r"
newline
bitfld.long 0x00 8. "TRANS_ERR,Transaction error event" "TRANS_ERR_0_w,TRANS_ERR_1_r"
newline
bitfld.long 0x00 7. "PKT,End of Packet transfer" "PKT_0_w,PKT_1_r"
newline
bitfld.long 0x00 6. "SYNC,Synchronization status of a channel" "SYNC_0_w,SYNC_1_r"
newline
bitfld.long 0x00 5. "BLOCK,End of block event" "BLOCK_0_w,BLOCK_1_r"
newline
bitfld.long 0x00 4. "LAST,Last frame (start of last frame)" "LAST_0_w,LAST_1_r"
newline
bitfld.long 0x00 3. "FRAME,End of frame event" "FRAME_0_w,FRAME_1_r"
newline
bitfld.long 0x00 2. "HALF,Half of frame event" "HALF_0_w,HALF_1_r"
newline
bitfld.long 0x00 1. "DROP,Synchronization event drop occured during the transfer" "DROP_0_w,DROP_1_r"
group.long 0x6FC++0x03
line.long 0x00 "DMA4_CSSAi_17,Channel Source Start Address"
tree.end
tree "DMA_Channel_18"
group.long 0x798++0x03
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"
group.long 0x77C++0x07
line.long 0x00 "DMA4_CCENi_18,Channel Current Transferred Element Number in the current frame"
hexmask.long.tbyte 0x00 0.--23. 1. "CURRENT_ELMNT_NBR,Channel current transferred element number in the current frame"
line.long 0x04 "DMA4_CCFNi_18,Channel Current Transferred Frame Number in the current transfer"
hexmask.long.word 0x04 0.--15. 1. "CURRENT_FRAME_NBR,Channel current transferred frame number in the current transfer"
group.long 0x740++0x03
line.long 0x00 "DMA4_CCRi_18,Channel Control Register"
bitfld.long 0x00 26. "WRITE_PRIORITY,Channel priority on the Write side" "WRITE_PRIORITY_0,WRITE_PRIORITY_1"
newline
bitfld.long 0x00 25. "BUFFERING_DISABLE,This bit allows to disable the default buffering functionality when transfer is source synchronized" "BUFFERING_DISABLE_0,BUFFERING_DISABLE_1"
newline
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" "SEL_SRC_DST_SYNC_0,SEL_SRC_DST_SYNC_1"
newline
bitfld.long 0x00 23. "PREFETCH,Enables the prefetch mode" "PREFETCH_0,PREFETCH_1"
newline
bitfld.long 0x00 22. "SUPERVISOR,Enables the supervisor mode" "SUPERVISOR_0,SUPERVISOR_1"
newline
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"
newline
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"
newline
bitfld.long 0x00 17. "TRANSPARENT_COPY_ENABLE,Transparent copy enable" "TRANSPARENT_COPY_ENABLE_0,TRANSPARENT_COPY_ENABLE_1"
newline
bitfld.long 0x00 16. "CONST_FILL_ENABLE,Constant fill enable" "CONST_FILL_ENABLE_0,CONST_FILL_ENABLE_1"
newline
bitfld.long 0x00 14.--15. "DST_AMODE,Selects the addressing mode on the Write Port of a channel" "DST_AMODE_0,DST_AMODE_1,DST_AMODE_2,DST_AMODE_3"
newline
bitfld.long 0x00 12.--13. "SRC_AMODE,Selects the addressing mode on the Read Port of a channel" "SRC_AMODE_0,SRC_AMODE_1,SRC_AMODE_2,SRC_AMODE_3"
newline
rbitfld.long 0x00 10. "WR_ACTIVE,Indicates if the channel write context is active or not" "WR_ACTIVE_0_r,WR_ACTIVE_1_r"
newline
rbitfld.long 0x00 9. "RD_ACTIVE,Indicates if the channel read context is active or not" "RD_ACTIVE_0_r,RD_ACTIVE_1_r"
newline
bitfld.long 0x00 8. "SUSPEND_SENSITIVE,Logical channel suspend enable bit" "SUSPEND_SENSITIVE_0,SUSPEND_SENSITIVE_1"
newline
bitfld.long 0x00 7. "ENABLE,Logical channel enable" "ENABLE_0,ENABLE_1"
newline
bitfld.long 0x00 6. "READ_PRIORITY,Channel priority on the read side" "READ_PRIORITY_0,READ_PRIORITY_1"
newline
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 =" "An entire frame is transferred once a DMA..,A packet is transferred once a DMA request is made"
newline
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)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x778++0x03
line.long 0x00 "DMA4_CDACi_18,Channel Destination Address Value"
group.long 0x76C++0x07
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"
line.long 0x04 "DMA4_CDFIi_18,Channel Destination Frame Index (Signed) or 16-bit Packet size"
group.long 0x790++0x03
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" "FAST_0,FAST_1"
newline
bitfld.long 0x00 8.--9. "TRANSFER_MODE,Enable linked-list transfer mode" "TRANSFER_MODE_0,TRANSFER_MODE_1,TRANSFER_MODE_2,TRANSFER_MODE_3"
newline
bitfld.long 0x00 7. "PAUSE_LINK_LIST,Suspend the linked-list transfer at completion of the current block transfer" "PAUSE_LINK_LIST_0,PAUSE_LINK_LIST_1"
newline
bitfld.long 0x00 4.--6. "NEXT_DESCRIPTOR_TYPE,Next Descriptor Type" "NEXT_DESCRIPTOR_TYPE_0,NEXT_DESCRIPTOR_TYPE_1,NEXT_DESCRIPTOR_TYPE_2,NEXT_DESCRIPTOR_TYPE_3,NEXT_DESCRIPTOR_TYPE_4,NEXT_DESCRIPTOR_TYPE_5,NEXT_DESCRIPTOR_TYPE_6,NEXT_DESCRIPTOR_TYPE_7"
newline
bitfld.long 0x00 2.--3. "SRC_VALID,Source address valid" "SRC_VALID_0,SRC_VALID_1,SRC_VALID_2,SRC_VALID_3"
newline
bitfld.long 0x00 0.--1. "DEST_VALID,Destination address valid" "DEST_VALID_0,DEST_VALID_1,DEST_VALID_2,DEST_VALID_3"
group.long 0x760++0x03
line.long 0x00 "DMA4_CDSAi_18,Channel Destination Start Address"
group.long 0x754++0x07
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"
line.long 0x04 "DMA4_CFNi_18,Channel Frame Number"
hexmask.long.word 0x04 0.--15. 1. "CHANNEL_FRAME_NBR,Number of frames within the block to be transferred (unsigned)"
group.long 0x748++0x03
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"
newline
bitfld.long 0x00 12. "DRAIN_IE,Enables the end of draining interrupt" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ERR_IE,Enables the address misaligned error event interrupt" "MISALIGNED_ERR_IE_0,MISALIGNED_ERR_IE_1"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR_IE,Enables the supervisor transaction error event interrupt" "SUPERVISOR_ERR_IE_0,SUPERVISOR_ERR_IE_1"
newline
bitfld.long 0x00 8. "TRANS_ERR_IE,Enables the transaction error event interrupt" "TRANS_ERR_IE_0,TRANS_ERR_IE_1"
newline
bitfld.long 0x00 7. "PKT_IE,Enables the end of Packet interrupt" "PKT_IE_0,PKT_IE_1"
newline
bitfld.long 0x00 5. "BLOCK_IE,Enables the end of block interrupt" "BLOCK_IE_0,BLOCK_IE_1"
newline
bitfld.long 0x00 4. "LAST_IE,Last frame interrupt enable (start of last frame)" "LAST_IE_0,LAST_IE_1"
newline
bitfld.long 0x00 3. "FRAME_IE,Frame interrupt enable (end of frame)" "FRAME_IE_0,FRAME_IE_1"
newline
bitfld.long 0x00 2. "HALF_IE,Enables or disables the half frame interrupt" "HALF_IE_0,HALF_IE_1"
newline
bitfld.long 0x00 1. "DROP_IE,Synchronization event drop interrupt enable (request collision)" "DROP_IE_0,DROP_IE_1"
group.long 0x744++0x03
line.long 0x00 "DMA4_CLNK_CTRLi_18,Channel Link Control Register"
bitfld.long 0x00 15. "ENABLE_LNK,Enables or disable the channel linking" "ENABLE_LNK_0,ENABLE_LNK_1"
newline
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++0x03
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++0x03
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"
rgroup.long 0x774++0x03
line.long 0x00 "DMA4_CSACi_18,Channel Source Address Value"
group.long 0x750++0x03
line.long 0x00 "DMA4_CSDPi_18,Channel Source Destination Parameters"
bitfld.long 0x00 21. "SRC_ENDIAN,Channel source endianness control" "SRC_ENDIAN_0,SRC_ENDIAN_1"
newline
bitfld.long 0x00 20. "SRC_ENDIAN_LOCK,Endianness Lock" "SRC_ENDIAN_LOCK_0,SRC_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 19. "DST_ENDIAN,Channel Destination endianness control" "DST_ENDIAN_0,DST_ENDIAN_1"
newline
bitfld.long 0x00 18. "DST_ENDIAN_LOCK,Endianness Lock" "DST_ENDIAN_LOCK_0,DST_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 16.--17. "WRITE_MODE,Used to enable writing mode without posting or with posting" "WRITE_MODE_0,WRITE_MODE_1,WRITE_MODE_2,WRITE_MODE_3"
newline
bitfld.long 0x00 14.--15. "DST_BURST_EN,Used to enable bursting on the Write Port" "DST_BURST_EN_0,DST_BURST_EN_1,DST_BURST_EN_2,DST_BURST_EN_3"
newline
bitfld.long 0x00 13. "DST_PACKED,Destination receives packed data" "DST_PACKED_0,DST_PACKED_1"
newline
bitfld.long 0x00 7.--8. "SRC_BURST_EN,Used to enable bursting on the Read Port" "SRC_BURST_EN_0,SRC_BURST_EN_1,SRC_BURST_EN_2,SRC_BURST_EN_3"
newline
bitfld.long 0x00 6. "SRC_PACKED,Source provides packed data" "SRC_PACKED_0,SRC_PACKED_1"
newline
bitfld.long 0x00 0.--1. "DATA_TYPE,Defines the type of the data moved in the channel" "DATA_TYPE_0,DATA_TYPE_1,DATA_TYPE_2,DATA_TYPE_3"
group.long 0x764++0x07
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"
line.long 0x04 "DMA4_CSFIi_18,Channel Source Frame Index (Signed) or 16-bit Packet size"
group.long 0x74C++0x03
line.long 0x00 "DMA4_CSRi_18,Channel Status Register"
bitfld.long 0x00 14. "SUPER_BLOCK,End of Super block event" "0,1"
newline
bitfld.long 0x00 12. "DRAIN_END,End of channel draining" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ADRS_ERR,Misaligned address error event" "MISALIGNED_ADRS_ERR_0_w,MISALIGNED_ADRS_ERR_1_r"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR,Supervisor transaction error event" "SUPERVISOR_ERR_0_w,SUPERVISOR_ERR_1_r"
newline
bitfld.long 0x00 8. "TRANS_ERR,Transaction error event" "TRANS_ERR_0_w,TRANS_ERR_1_r"
newline
bitfld.long 0x00 7. "PKT,End of Packet transfer" "PKT_0_w,PKT_1_r"
newline
bitfld.long 0x00 6. "SYNC,Synchronization status of a channel" "SYNC_0_w,SYNC_1_r"
newline
bitfld.long 0x00 5. "BLOCK,End of block event" "BLOCK_0_w,BLOCK_1_r"
newline
bitfld.long 0x00 4. "LAST,Last frame (start of last frame)" "LAST_0_w,LAST_1_r"
newline
bitfld.long 0x00 3. "FRAME,End of frame event" "FRAME_0_w,FRAME_1_r"
newline
bitfld.long 0x00 2. "HALF,Half of frame event" "HALF_0_w,HALF_1_r"
newline
bitfld.long 0x00 1. "DROP,Synchronization event drop occured during the transfer" "DROP_0_w,DROP_1_r"
group.long 0x75C++0x03
line.long 0x00 "DMA4_CSSAi_18,Channel Source Start Address"
tree.end
tree "DMA_Channel_19"
group.long 0x7F8++0x03
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"
group.long 0x7DC++0x07
line.long 0x00 "DMA4_CCENi_19,Channel Current Transferred Element Number in the current frame"
hexmask.long.tbyte 0x00 0.--23. 1. "CURRENT_ELMNT_NBR,Channel current transferred element number in the current frame"
line.long 0x04 "DMA4_CCFNi_19,Channel Current Transferred Frame Number in the current transfer"
hexmask.long.word 0x04 0.--15. 1. "CURRENT_FRAME_NBR,Channel current transferred frame number in the current transfer"
group.long 0x7A0++0x03
line.long 0x00 "DMA4_CCRi_19,Channel Control Register"
bitfld.long 0x00 26. "WRITE_PRIORITY,Channel priority on the Write side" "WRITE_PRIORITY_0,WRITE_PRIORITY_1"
newline
bitfld.long 0x00 25. "BUFFERING_DISABLE,This bit allows to disable the default buffering functionality when transfer is source synchronized" "BUFFERING_DISABLE_0,BUFFERING_DISABLE_1"
newline
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" "SEL_SRC_DST_SYNC_0,SEL_SRC_DST_SYNC_1"
newline
bitfld.long 0x00 23. "PREFETCH,Enables the prefetch mode" "PREFETCH_0,PREFETCH_1"
newline
bitfld.long 0x00 22. "SUPERVISOR,Enables the supervisor mode" "SUPERVISOR_0,SUPERVISOR_1"
newline
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"
newline
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"
newline
bitfld.long 0x00 17. "TRANSPARENT_COPY_ENABLE,Transparent copy enable" "TRANSPARENT_COPY_ENABLE_0,TRANSPARENT_COPY_ENABLE_1"
newline
bitfld.long 0x00 16. "CONST_FILL_ENABLE,Constant fill enable" "CONST_FILL_ENABLE_0,CONST_FILL_ENABLE_1"
newline
bitfld.long 0x00 14.--15. "DST_AMODE,Selects the addressing mode on the Write Port of a channel" "DST_AMODE_0,DST_AMODE_1,DST_AMODE_2,DST_AMODE_3"
newline
bitfld.long 0x00 12.--13. "SRC_AMODE,Selects the addressing mode on the Read Port of a channel" "SRC_AMODE_0,SRC_AMODE_1,SRC_AMODE_2,SRC_AMODE_3"
newline
rbitfld.long 0x00 10. "WR_ACTIVE,Indicates if the channel write context is active or not" "WR_ACTIVE_0_r,WR_ACTIVE_1_r"
newline
rbitfld.long 0x00 9. "RD_ACTIVE,Indicates if the channel read context is active or not" "RD_ACTIVE_0_r,RD_ACTIVE_1_r"
newline
bitfld.long 0x00 8. "SUSPEND_SENSITIVE,Logical channel suspend enable bit" "SUSPEND_SENSITIVE_0,SUSPEND_SENSITIVE_1"
newline
bitfld.long 0x00 7. "ENABLE,Logical channel enable" "ENABLE_0,ENABLE_1"
newline
bitfld.long 0x00 6. "READ_PRIORITY,Channel priority on the read side" "READ_PRIORITY_0,READ_PRIORITY_1"
newline
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 =" "An entire frame is transferred once a DMA..,A packet is transferred once a DMA request is made"
newline
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)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x7D8++0x03
line.long 0x00 "DMA4_CDACi_19,Channel Destination Address Value"
group.long 0x7CC++0x07
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"
line.long 0x04 "DMA4_CDFIi_19,Channel Destination Frame Index (Signed) or 16-bit Packet size"
group.long 0x7F0++0x03
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" "FAST_0,FAST_1"
newline
bitfld.long 0x00 8.--9. "TRANSFER_MODE,Enable linked-list transfer mode" "TRANSFER_MODE_0,TRANSFER_MODE_1,TRANSFER_MODE_2,TRANSFER_MODE_3"
newline
bitfld.long 0x00 7. "PAUSE_LINK_LIST,Suspend the linked-list transfer at completion of the current block transfer" "PAUSE_LINK_LIST_0,PAUSE_LINK_LIST_1"
newline
bitfld.long 0x00 4.--6. "NEXT_DESCRIPTOR_TYPE,Next Descriptor Type" "NEXT_DESCRIPTOR_TYPE_0,NEXT_DESCRIPTOR_TYPE_1,NEXT_DESCRIPTOR_TYPE_2,NEXT_DESCRIPTOR_TYPE_3,NEXT_DESCRIPTOR_TYPE_4,NEXT_DESCRIPTOR_TYPE_5,NEXT_DESCRIPTOR_TYPE_6,NEXT_DESCRIPTOR_TYPE_7"
newline
bitfld.long 0x00 2.--3. "SRC_VALID,Source address valid" "SRC_VALID_0,SRC_VALID_1,SRC_VALID_2,SRC_VALID_3"
newline
bitfld.long 0x00 0.--1. "DEST_VALID,Destination address valid" "DEST_VALID_0,DEST_VALID_1,DEST_VALID_2,DEST_VALID_3"
group.long 0x7C0++0x03
line.long 0x00 "DMA4_CDSAi_19,Channel Destination Start Address"
group.long 0x7B4++0x07
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"
line.long 0x04 "DMA4_CFNi_19,Channel Frame Number"
hexmask.long.word 0x04 0.--15. 1. "CHANNEL_FRAME_NBR,Number of frames within the block to be transferred (unsigned)"
group.long 0x7A8++0x03
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"
newline
bitfld.long 0x00 12. "DRAIN_IE,Enables the end of draining interrupt" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ERR_IE,Enables the address misaligned error event interrupt" "MISALIGNED_ERR_IE_0,MISALIGNED_ERR_IE_1"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR_IE,Enables the supervisor transaction error event interrupt" "SUPERVISOR_ERR_IE_0,SUPERVISOR_ERR_IE_1"
newline
bitfld.long 0x00 8. "TRANS_ERR_IE,Enables the transaction error event interrupt" "TRANS_ERR_IE_0,TRANS_ERR_IE_1"
newline
bitfld.long 0x00 7. "PKT_IE,Enables the end of Packet interrupt" "PKT_IE_0,PKT_IE_1"
newline
bitfld.long 0x00 5. "BLOCK_IE,Enables the end of block interrupt" "BLOCK_IE_0,BLOCK_IE_1"
newline
bitfld.long 0x00 4. "LAST_IE,Last frame interrupt enable (start of last frame)" "LAST_IE_0,LAST_IE_1"
newline
bitfld.long 0x00 3. "FRAME_IE,Frame interrupt enable (end of frame)" "FRAME_IE_0,FRAME_IE_1"
newline
bitfld.long 0x00 2. "HALF_IE,Enables or disables the half frame interrupt" "HALF_IE_0,HALF_IE_1"
newline
bitfld.long 0x00 1. "DROP_IE,Synchronization event drop interrupt enable (request collision)" "DROP_IE_0,DROP_IE_1"
group.long 0x7A4++0x03
line.long 0x00 "DMA4_CLNK_CTRLi_19,Channel Link Control Register"
bitfld.long 0x00 15. "ENABLE_LNK,Enables or disable the channel linking" "ENABLE_LNK_0,ENABLE_LNK_1"
newline
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++0x03
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++0x03
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"
rgroup.long 0x7D4++0x03
line.long 0x00 "DMA4_CSACi_19,Channel Source Address Value"
group.long 0x7B0++0x03
line.long 0x00 "DMA4_CSDPi_19,Channel Source Destination Parameters"
bitfld.long 0x00 21. "SRC_ENDIAN,Channel source endianness control" "SRC_ENDIAN_0,SRC_ENDIAN_1"
newline
bitfld.long 0x00 20. "SRC_ENDIAN_LOCK,Endianness Lock" "SRC_ENDIAN_LOCK_0,SRC_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 19. "DST_ENDIAN,Channel Destination endianness control" "DST_ENDIAN_0,DST_ENDIAN_1"
newline
bitfld.long 0x00 18. "DST_ENDIAN_LOCK,Endianness Lock" "DST_ENDIAN_LOCK_0,DST_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 16.--17. "WRITE_MODE,Used to enable writing mode without posting or with posting" "WRITE_MODE_0,WRITE_MODE_1,WRITE_MODE_2,WRITE_MODE_3"
newline
bitfld.long 0x00 14.--15. "DST_BURST_EN,Used to enable bursting on the Write Port" "DST_BURST_EN_0,DST_BURST_EN_1,DST_BURST_EN_2,DST_BURST_EN_3"
newline
bitfld.long 0x00 13. "DST_PACKED,Destination receives packed data" "DST_PACKED_0,DST_PACKED_1"
newline
bitfld.long 0x00 7.--8. "SRC_BURST_EN,Used to enable bursting on the Read Port" "SRC_BURST_EN_0,SRC_BURST_EN_1,SRC_BURST_EN_2,SRC_BURST_EN_3"
newline
bitfld.long 0x00 6. "SRC_PACKED,Source provides packed data" "SRC_PACKED_0,SRC_PACKED_1"
newline
bitfld.long 0x00 0.--1. "DATA_TYPE,Defines the type of the data moved in the channel" "DATA_TYPE_0,DATA_TYPE_1,DATA_TYPE_2,DATA_TYPE_3"
group.long 0x7C4++0x07
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"
line.long 0x04 "DMA4_CSFIi_19,Channel Source Frame Index (Signed) or 16-bit Packet size"
group.long 0x7AC++0x03
line.long 0x00 "DMA4_CSRi_19,Channel Status Register"
bitfld.long 0x00 14. "SUPER_BLOCK,End of Super block event" "0,1"
newline
bitfld.long 0x00 12. "DRAIN_END,End of channel draining" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ADRS_ERR,Misaligned address error event" "MISALIGNED_ADRS_ERR_0_w,MISALIGNED_ADRS_ERR_1_r"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR,Supervisor transaction error event" "SUPERVISOR_ERR_0_w,SUPERVISOR_ERR_1_r"
newline
bitfld.long 0x00 8. "TRANS_ERR,Transaction error event" "TRANS_ERR_0_w,TRANS_ERR_1_r"
newline
bitfld.long 0x00 7. "PKT,End of Packet transfer" "PKT_0_w,PKT_1_r"
newline
bitfld.long 0x00 6. "SYNC,Synchronization status of a channel" "SYNC_0_w,SYNC_1_r"
newline
bitfld.long 0x00 5. "BLOCK,End of block event" "BLOCK_0_w,BLOCK_1_r"
newline
bitfld.long 0x00 4. "LAST,Last frame (start of last frame)" "LAST_0_w,LAST_1_r"
newline
bitfld.long 0x00 3. "FRAME,End of frame event" "FRAME_0_w,FRAME_1_r"
newline
bitfld.long 0x00 2. "HALF,Half of frame event" "HALF_0_w,HALF_1_r"
newline
bitfld.long 0x00 1. "DROP,Synchronization event drop occured during the transfer" "DROP_0_w,DROP_1_r"
group.long 0x7BC++0x03
line.long 0x00 "DMA4_CSSAi_19,Channel Source Start Address"
tree.end
tree "DMA_Channel_2"
group.long 0x198++0x03
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"
group.long 0x17C++0x07
line.long 0x00 "DMA4_CCENi_2,Channel Current Transferred Element Number in the current frame"
hexmask.long.tbyte 0x00 0.--23. 1. "CURRENT_ELMNT_NBR,Channel current transferred element number in the current frame"
line.long 0x04 "DMA4_CCFNi_2,Channel Current Transferred Frame Number in the current transfer"
hexmask.long.word 0x04 0.--15. 1. "CURRENT_FRAME_NBR,Channel current transferred frame number in the current transfer"
group.long 0x140++0x03
line.long 0x00 "DMA4_CCRi_2,Channel Control Register"
bitfld.long 0x00 26. "WRITE_PRIORITY,Channel priority on the Write side" "WRITE_PRIORITY_0,WRITE_PRIORITY_1"
newline
bitfld.long 0x00 25. "BUFFERING_DISABLE,This bit allows to disable the default buffering functionality when transfer is source synchronized" "BUFFERING_DISABLE_0,BUFFERING_DISABLE_1"
newline
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" "SEL_SRC_DST_SYNC_0,SEL_SRC_DST_SYNC_1"
newline
bitfld.long 0x00 23. "PREFETCH,Enables the prefetch mode" "PREFETCH_0,PREFETCH_1"
newline
bitfld.long 0x00 22. "SUPERVISOR,Enables the supervisor mode" "SUPERVISOR_0,SUPERVISOR_1"
newline
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"
newline
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"
newline
bitfld.long 0x00 17. "TRANSPARENT_COPY_ENABLE,Transparent copy enable" "TRANSPARENT_COPY_ENABLE_0,TRANSPARENT_COPY_ENABLE_1"
newline
bitfld.long 0x00 16. "CONST_FILL_ENABLE,Constant fill enable" "CONST_FILL_ENABLE_0,CONST_FILL_ENABLE_1"
newline
bitfld.long 0x00 14.--15. "DST_AMODE,Selects the addressing mode on the Write Port of a channel" "DST_AMODE_0,DST_AMODE_1,DST_AMODE_2,DST_AMODE_3"
newline
bitfld.long 0x00 12.--13. "SRC_AMODE,Selects the addressing mode on the Read Port of a channel" "SRC_AMODE_0,SRC_AMODE_1,SRC_AMODE_2,SRC_AMODE_3"
newline
rbitfld.long 0x00 10. "WR_ACTIVE,Indicates if the channel write context is active or not" "WR_ACTIVE_0_r,WR_ACTIVE_1_r"
newline
rbitfld.long 0x00 9. "RD_ACTIVE,Indicates if the channel read context is active or not" "RD_ACTIVE_0_r,RD_ACTIVE_1_r"
newline
bitfld.long 0x00 8. "SUSPEND_SENSITIVE,Logical channel suspend enable bit" "SUSPEND_SENSITIVE_0,SUSPEND_SENSITIVE_1"
newline
bitfld.long 0x00 7. "ENABLE,Logical channel enable" "ENABLE_0,ENABLE_1"
newline
bitfld.long 0x00 6. "READ_PRIORITY,Channel priority on the read side" "READ_PRIORITY_0,READ_PRIORITY_1"
newline
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 =" "An entire frame is transferred once a DMA..,A packet is transferred once a DMA request is made"
newline
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)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x178++0x03
line.long 0x00 "DMA4_CDACi_2,Channel Destination Address Value"
group.long 0x16C++0x07
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"
line.long 0x04 "DMA4_CDFIi_2,Channel Destination Frame Index (Signed) or 16-bit Packet size"
group.long 0x190++0x03
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" "FAST_0,FAST_1"
newline
bitfld.long 0x00 8.--9. "TRANSFER_MODE,Enable linked-list transfer mode" "TRANSFER_MODE_0,TRANSFER_MODE_1,TRANSFER_MODE_2,TRANSFER_MODE_3"
newline
bitfld.long 0x00 7. "PAUSE_LINK_LIST,Suspend the linked-list transfer at completion of the current block transfer" "PAUSE_LINK_LIST_0,PAUSE_LINK_LIST_1"
newline
bitfld.long 0x00 4.--6. "NEXT_DESCRIPTOR_TYPE,Next Descriptor Type" "NEXT_DESCRIPTOR_TYPE_0,NEXT_DESCRIPTOR_TYPE_1,NEXT_DESCRIPTOR_TYPE_2,NEXT_DESCRIPTOR_TYPE_3,NEXT_DESCRIPTOR_TYPE_4,NEXT_DESCRIPTOR_TYPE_5,NEXT_DESCRIPTOR_TYPE_6,NEXT_DESCRIPTOR_TYPE_7"
newline
bitfld.long 0x00 2.--3. "SRC_VALID,Source address valid" "SRC_VALID_0,SRC_VALID_1,SRC_VALID_2,SRC_VALID_3"
newline
bitfld.long 0x00 0.--1. "DEST_VALID,Destination address valid" "DEST_VALID_0,DEST_VALID_1,DEST_VALID_2,DEST_VALID_3"
group.long 0x160++0x03
line.long 0x00 "DMA4_CDSAi_2,Channel Destination Start Address"
group.long 0x154++0x07
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"
line.long 0x04 "DMA4_CFNi_2,Channel Frame Number"
hexmask.long.word 0x04 0.--15. 1. "CHANNEL_FRAME_NBR,Number of frames within the block to be transferred (unsigned)"
group.long 0x148++0x03
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"
newline
bitfld.long 0x00 12. "DRAIN_IE,Enables the end of draining interrupt" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ERR_IE,Enables the address misaligned error event interrupt" "MISALIGNED_ERR_IE_0,MISALIGNED_ERR_IE_1"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR_IE,Enables the supervisor transaction error event interrupt" "SUPERVISOR_ERR_IE_0,SUPERVISOR_ERR_IE_1"
newline
bitfld.long 0x00 8. "TRANS_ERR_IE,Enables the transaction error event interrupt" "TRANS_ERR_IE_0,TRANS_ERR_IE_1"
newline
bitfld.long 0x00 7. "PKT_IE,Enables the end of Packet interrupt" "PKT_IE_0,PKT_IE_1"
newline
bitfld.long 0x00 5. "BLOCK_IE,Enables the end of block interrupt" "BLOCK_IE_0,BLOCK_IE_1"
newline
bitfld.long 0x00 4. "LAST_IE,Last frame interrupt enable (start of last frame)" "LAST_IE_0,LAST_IE_1"
newline
bitfld.long 0x00 3. "FRAME_IE,Frame interrupt enable (end of frame)" "FRAME_IE_0,FRAME_IE_1"
newline
bitfld.long 0x00 2. "HALF_IE,Enables or disables the half frame interrupt" "HALF_IE_0,HALF_IE_1"
newline
bitfld.long 0x00 1. "DROP_IE,Synchronization event drop interrupt enable (request collision)" "DROP_IE_0,DROP_IE_1"
group.long 0x144++0x03
line.long 0x00 "DMA4_CLNK_CTRLi_2,Channel Link Control Register"
bitfld.long 0x00 15. "ENABLE_LNK,Enables or disable the channel linking" "ENABLE_LNK_0,ENABLE_LNK_1"
newline
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++0x03
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++0x03
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"
rgroup.long 0x174++0x03
line.long 0x00 "DMA4_CSACi_2,Channel Source Address Value"
group.long 0x150++0x03
line.long 0x00 "DMA4_CSDPi_2,Channel Source Destination Parameters"
bitfld.long 0x00 21. "SRC_ENDIAN,Channel source endianness control" "SRC_ENDIAN_0,SRC_ENDIAN_1"
newline
bitfld.long 0x00 20. "SRC_ENDIAN_LOCK,Endianness Lock" "SRC_ENDIAN_LOCK_0,SRC_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 19. "DST_ENDIAN,Channel Destination endianness control" "DST_ENDIAN_0,DST_ENDIAN_1"
newline
bitfld.long 0x00 18. "DST_ENDIAN_LOCK,Endianness Lock" "DST_ENDIAN_LOCK_0,DST_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 16.--17. "WRITE_MODE,Used to enable writing mode without posting or with posting" "WRITE_MODE_0,WRITE_MODE_1,WRITE_MODE_2,WRITE_MODE_3"
newline
bitfld.long 0x00 14.--15. "DST_BURST_EN,Used to enable bursting on the Write Port" "DST_BURST_EN_0,DST_BURST_EN_1,DST_BURST_EN_2,DST_BURST_EN_3"
newline
bitfld.long 0x00 13. "DST_PACKED,Destination receives packed data" "DST_PACKED_0,DST_PACKED_1"
newline
bitfld.long 0x00 7.--8. "SRC_BURST_EN,Used to enable bursting on the Read Port" "SRC_BURST_EN_0,SRC_BURST_EN_1,SRC_BURST_EN_2,SRC_BURST_EN_3"
newline
bitfld.long 0x00 6. "SRC_PACKED,Source provides packed data" "SRC_PACKED_0,SRC_PACKED_1"
newline
bitfld.long 0x00 0.--1. "DATA_TYPE,Defines the type of the data moved in the channel" "DATA_TYPE_0,DATA_TYPE_1,DATA_TYPE_2,DATA_TYPE_3"
group.long 0x164++0x07
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"
line.long 0x04 "DMA4_CSFIi_2,Channel Source Frame Index (Signed) or 16-bit Packet size"
group.long 0x14C++0x03
line.long 0x00 "DMA4_CSRi_2,Channel Status Register"
bitfld.long 0x00 14. "SUPER_BLOCK,End of Super block event" "0,1"
newline
bitfld.long 0x00 12. "DRAIN_END,End of channel draining" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ADRS_ERR,Misaligned address error event" "MISALIGNED_ADRS_ERR_0_w,MISALIGNED_ADRS_ERR_1_r"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR,Supervisor transaction error event" "SUPERVISOR_ERR_0_w,SUPERVISOR_ERR_1_r"
newline
bitfld.long 0x00 8. "TRANS_ERR,Transaction error event" "TRANS_ERR_0_w,TRANS_ERR_1_r"
newline
bitfld.long 0x00 7. "PKT,End of Packet transfer" "PKT_0_w,PKT_1_r"
newline
bitfld.long 0x00 6. "SYNC,Synchronization status of a channel" "SYNC_0_w,SYNC_1_r"
newline
bitfld.long 0x00 5. "BLOCK,End of block event" "BLOCK_0_w,BLOCK_1_r"
newline
bitfld.long 0x00 4. "LAST,Last frame (start of last frame)" "LAST_0_w,LAST_1_r"
newline
bitfld.long 0x00 3. "FRAME,End of frame event" "FRAME_0_w,FRAME_1_r"
newline
bitfld.long 0x00 2. "HALF,Half of frame event" "HALF_0_w,HALF_1_r"
newline
bitfld.long 0x00 1. "DROP,Synchronization event drop occured during the transfer" "DROP_0_w,DROP_1_r"
group.long 0x15C++0x03
line.long 0x00 "DMA4_CSSAi_2,Channel Source Start Address"
group.long 0x20++0x03
line.long 0x00 "DMA4_IRQENABLE_Lj_2,The interrupt enable register allows to mask/unmask the module internal sources of interrupt. on line Lj"
group.long 0x10++0x03
line.long 0x00 "DMA4_IRQSTATUS_Lj_2,The interrupt status register regroups all the status of the DMA4 channels that can generate an interrupt over line Lj"
tree.end
tree "DMA_Channel_20"
group.long 0x858++0x03
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"
group.long 0x83C++0x07
line.long 0x00 "DMA4_CCENi_20,Channel Current Transferred Element Number in the current frame"
hexmask.long.tbyte 0x00 0.--23. 1. "CURRENT_ELMNT_NBR,Channel current transferred element number in the current frame"
line.long 0x04 "DMA4_CCFNi_20,Channel Current Transferred Frame Number in the current transfer"
hexmask.long.word 0x04 0.--15. 1. "CURRENT_FRAME_NBR,Channel current transferred frame number in the current transfer"
group.long 0x800++0x03
line.long 0x00 "DMA4_CCRi_20,Channel Control Register"
bitfld.long 0x00 26. "WRITE_PRIORITY,Channel priority on the Write side" "WRITE_PRIORITY_0,WRITE_PRIORITY_1"
newline
bitfld.long 0x00 25. "BUFFERING_DISABLE,This bit allows to disable the default buffering functionality when transfer is source synchronized" "BUFFERING_DISABLE_0,BUFFERING_DISABLE_1"
newline
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" "SEL_SRC_DST_SYNC_0,SEL_SRC_DST_SYNC_1"
newline
bitfld.long 0x00 23. "PREFETCH,Enables the prefetch mode" "PREFETCH_0,PREFETCH_1"
newline
bitfld.long 0x00 22. "SUPERVISOR,Enables the supervisor mode" "SUPERVISOR_0,SUPERVISOR_1"
newline
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"
newline
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"
newline
bitfld.long 0x00 17. "TRANSPARENT_COPY_ENABLE,Transparent copy enable" "TRANSPARENT_COPY_ENABLE_0,TRANSPARENT_COPY_ENABLE_1"
newline
bitfld.long 0x00 16. "CONST_FILL_ENABLE,Constant fill enable" "CONST_FILL_ENABLE_0,CONST_FILL_ENABLE_1"
newline
bitfld.long 0x00 14.--15. "DST_AMODE,Selects the addressing mode on the Write Port of a channel" "DST_AMODE_0,DST_AMODE_1,DST_AMODE_2,DST_AMODE_3"
newline
bitfld.long 0x00 12.--13. "SRC_AMODE,Selects the addressing mode on the Read Port of a channel" "SRC_AMODE_0,SRC_AMODE_1,SRC_AMODE_2,SRC_AMODE_3"
newline
rbitfld.long 0x00 10. "WR_ACTIVE,Indicates if the channel write context is active or not" "WR_ACTIVE_0_r,WR_ACTIVE_1_r"
newline
rbitfld.long 0x00 9. "RD_ACTIVE,Indicates if the channel read context is active or not" "RD_ACTIVE_0_r,RD_ACTIVE_1_r"
newline
bitfld.long 0x00 8. "SUSPEND_SENSITIVE,Logical channel suspend enable bit" "SUSPEND_SENSITIVE_0,SUSPEND_SENSITIVE_1"
newline
bitfld.long 0x00 7. "ENABLE,Logical channel enable" "ENABLE_0,ENABLE_1"
newline
bitfld.long 0x00 6. "READ_PRIORITY,Channel priority on the read side" "READ_PRIORITY_0,READ_PRIORITY_1"
newline
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 =" "An entire frame is transferred once a DMA..,A packet is transferred once a DMA request is made"
newline
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)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x838++0x03
line.long 0x00 "DMA4_CDACi_20,Channel Destination Address Value"
group.long 0x82C++0x07
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"
line.long 0x04 "DMA4_CDFIi_20,Channel Destination Frame Index (Signed) or 16-bit Packet size"
group.long 0x850++0x03
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" "FAST_0,FAST_1"
newline
bitfld.long 0x00 8.--9. "TRANSFER_MODE,Enable linked-list transfer mode" "TRANSFER_MODE_0,TRANSFER_MODE_1,TRANSFER_MODE_2,TRANSFER_MODE_3"
newline
bitfld.long 0x00 7. "PAUSE_LINK_LIST,Suspend the linked-list transfer at completion of the current block transfer" "PAUSE_LINK_LIST_0,PAUSE_LINK_LIST_1"
newline
bitfld.long 0x00 4.--6. "NEXT_DESCRIPTOR_TYPE,Next Descriptor Type" "NEXT_DESCRIPTOR_TYPE_0,NEXT_DESCRIPTOR_TYPE_1,NEXT_DESCRIPTOR_TYPE_2,NEXT_DESCRIPTOR_TYPE_3,NEXT_DESCRIPTOR_TYPE_4,NEXT_DESCRIPTOR_TYPE_5,NEXT_DESCRIPTOR_TYPE_6,NEXT_DESCRIPTOR_TYPE_7"
newline
bitfld.long 0x00 2.--3. "SRC_VALID,Source address valid" "SRC_VALID_0,SRC_VALID_1,SRC_VALID_2,SRC_VALID_3"
newline
bitfld.long 0x00 0.--1. "DEST_VALID,Destination address valid" "DEST_VALID_0,DEST_VALID_1,DEST_VALID_2,DEST_VALID_3"
group.long 0x820++0x03
line.long 0x00 "DMA4_CDSAi_20,Channel Destination Start Address"
group.long 0x814++0x07
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"
line.long 0x04 "DMA4_CFNi_20,Channel Frame Number"
hexmask.long.word 0x04 0.--15. 1. "CHANNEL_FRAME_NBR,Number of frames within the block to be transferred (unsigned)"
group.long 0x808++0x03
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"
newline
bitfld.long 0x00 12. "DRAIN_IE,Enables the end of draining interrupt" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ERR_IE,Enables the address misaligned error event interrupt" "MISALIGNED_ERR_IE_0,MISALIGNED_ERR_IE_1"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR_IE,Enables the supervisor transaction error event interrupt" "SUPERVISOR_ERR_IE_0,SUPERVISOR_ERR_IE_1"
newline
bitfld.long 0x00 8. "TRANS_ERR_IE,Enables the transaction error event interrupt" "TRANS_ERR_IE_0,TRANS_ERR_IE_1"
newline
bitfld.long 0x00 7. "PKT_IE,Enables the end of Packet interrupt" "PKT_IE_0,PKT_IE_1"
newline
bitfld.long 0x00 5. "BLOCK_IE,Enables the end of block interrupt" "BLOCK_IE_0,BLOCK_IE_1"
newline
bitfld.long 0x00 4. "LAST_IE,Last frame interrupt enable (start of last frame)" "LAST_IE_0,LAST_IE_1"
newline
bitfld.long 0x00 3. "FRAME_IE,Frame interrupt enable (end of frame)" "FRAME_IE_0,FRAME_IE_1"
newline
bitfld.long 0x00 2. "HALF_IE,Enables or disables the half frame interrupt" "HALF_IE_0,HALF_IE_1"
newline
bitfld.long 0x00 1. "DROP_IE,Synchronization event drop interrupt enable (request collision)" "DROP_IE_0,DROP_IE_1"
group.long 0x804++0x03
line.long 0x00 "DMA4_CLNK_CTRLi_20,Channel Link Control Register"
bitfld.long 0x00 15. "ENABLE_LNK,Enables or disable the channel linking" "ENABLE_LNK_0,ENABLE_LNK_1"
newline
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++0x03
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++0x03
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"
rgroup.long 0x834++0x03
line.long 0x00 "DMA4_CSACi_20,Channel Source Address Value"
group.long 0x810++0x03
line.long 0x00 "DMA4_CSDPi_20,Channel Source Destination Parameters"
bitfld.long 0x00 21. "SRC_ENDIAN,Channel source endianness control" "SRC_ENDIAN_0,SRC_ENDIAN_1"
newline
bitfld.long 0x00 20. "SRC_ENDIAN_LOCK,Endianness Lock" "SRC_ENDIAN_LOCK_0,SRC_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 19. "DST_ENDIAN,Channel Destination endianness control" "DST_ENDIAN_0,DST_ENDIAN_1"
newline
bitfld.long 0x00 18. "DST_ENDIAN_LOCK,Endianness Lock" "DST_ENDIAN_LOCK_0,DST_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 16.--17. "WRITE_MODE,Used to enable writing mode without posting or with posting" "WRITE_MODE_0,WRITE_MODE_1,WRITE_MODE_2,WRITE_MODE_3"
newline
bitfld.long 0x00 14.--15. "DST_BURST_EN,Used to enable bursting on the Write Port" "DST_BURST_EN_0,DST_BURST_EN_1,DST_BURST_EN_2,DST_BURST_EN_3"
newline
bitfld.long 0x00 13. "DST_PACKED,Destination receives packed data" "DST_PACKED_0,DST_PACKED_1"
newline
bitfld.long 0x00 7.--8. "SRC_BURST_EN,Used to enable bursting on the Read Port" "SRC_BURST_EN_0,SRC_BURST_EN_1,SRC_BURST_EN_2,SRC_BURST_EN_3"
newline
bitfld.long 0x00 6. "SRC_PACKED,Source provides packed data" "SRC_PACKED_0,SRC_PACKED_1"
newline
bitfld.long 0x00 0.--1. "DATA_TYPE,Defines the type of the data moved in the channel" "DATA_TYPE_0,DATA_TYPE_1,DATA_TYPE_2,DATA_TYPE_3"
group.long 0x824++0x07
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"
line.long 0x04 "DMA4_CSFIi_20,Channel Source Frame Index (Signed) or 16-bit Packet size"
group.long 0x80C++0x03
line.long 0x00 "DMA4_CSRi_20,Channel Status Register"
bitfld.long 0x00 14. "SUPER_BLOCK,End of Super block event" "0,1"
newline
bitfld.long 0x00 12. "DRAIN_END,End of channel draining" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ADRS_ERR,Misaligned address error event" "MISALIGNED_ADRS_ERR_0_w,MISALIGNED_ADRS_ERR_1_r"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR,Supervisor transaction error event" "SUPERVISOR_ERR_0_w,SUPERVISOR_ERR_1_r"
newline
bitfld.long 0x00 8. "TRANS_ERR,Transaction error event" "TRANS_ERR_0_w,TRANS_ERR_1_r"
newline
bitfld.long 0x00 7. "PKT,End of Packet transfer" "PKT_0_w,PKT_1_r"
newline
bitfld.long 0x00 6. "SYNC,Synchronization status of a channel" "SYNC_0_w,SYNC_1_r"
newline
bitfld.long 0x00 5. "BLOCK,End of block event" "BLOCK_0_w,BLOCK_1_r"
newline
bitfld.long 0x00 4. "LAST,Last frame (start of last frame)" "LAST_0_w,LAST_1_r"
newline
bitfld.long 0x00 3. "FRAME,End of frame event" "FRAME_0_w,FRAME_1_r"
newline
bitfld.long 0x00 2. "HALF,Half of frame event" "HALF_0_w,HALF_1_r"
newline
bitfld.long 0x00 1. "DROP,Synchronization event drop occured during the transfer" "DROP_0_w,DROP_1_r"
group.long 0x81C++0x03
line.long 0x00 "DMA4_CSSAi_20,Channel Source Start Address"
tree.end
tree "DMA_Channel_21"
group.long 0x8B8++0x03
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"
group.long 0x89C++0x07
line.long 0x00 "DMA4_CCENi_21,Channel Current Transferred Element Number in the current frame"
hexmask.long.tbyte 0x00 0.--23. 1. "CURRENT_ELMNT_NBR,Channel current transferred element number in the current frame"
line.long 0x04 "DMA4_CCFNi_21,Channel Current Transferred Frame Number in the current transfer"
hexmask.long.word 0x04 0.--15. 1. "CURRENT_FRAME_NBR,Channel current transferred frame number in the current transfer"
group.long 0x860++0x03
line.long 0x00 "DMA4_CCRi_21,Channel Control Register"
bitfld.long 0x00 26. "WRITE_PRIORITY,Channel priority on the Write side" "WRITE_PRIORITY_0,WRITE_PRIORITY_1"
newline
bitfld.long 0x00 25. "BUFFERING_DISABLE,This bit allows to disable the default buffering functionality when transfer is source synchronized" "BUFFERING_DISABLE_0,BUFFERING_DISABLE_1"
newline
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" "SEL_SRC_DST_SYNC_0,SEL_SRC_DST_SYNC_1"
newline
bitfld.long 0x00 23. "PREFETCH,Enables the prefetch mode" "PREFETCH_0,PREFETCH_1"
newline
bitfld.long 0x00 22. "SUPERVISOR,Enables the supervisor mode" "SUPERVISOR_0,SUPERVISOR_1"
newline
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"
newline
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"
newline
bitfld.long 0x00 17. "TRANSPARENT_COPY_ENABLE,Transparent copy enable" "TRANSPARENT_COPY_ENABLE_0,TRANSPARENT_COPY_ENABLE_1"
newline
bitfld.long 0x00 16. "CONST_FILL_ENABLE,Constant fill enable" "CONST_FILL_ENABLE_0,CONST_FILL_ENABLE_1"
newline
bitfld.long 0x00 14.--15. "DST_AMODE,Selects the addressing mode on the Write Port of a channel" "DST_AMODE_0,DST_AMODE_1,DST_AMODE_2,DST_AMODE_3"
newline
bitfld.long 0x00 12.--13. "SRC_AMODE,Selects the addressing mode on the Read Port of a channel" "SRC_AMODE_0,SRC_AMODE_1,SRC_AMODE_2,SRC_AMODE_3"
newline
rbitfld.long 0x00 10. "WR_ACTIVE,Indicates if the channel write context is active or not" "WR_ACTIVE_0_r,WR_ACTIVE_1_r"
newline
rbitfld.long 0x00 9. "RD_ACTIVE,Indicates if the channel read context is active or not" "RD_ACTIVE_0_r,RD_ACTIVE_1_r"
newline
bitfld.long 0x00 8. "SUSPEND_SENSITIVE,Logical channel suspend enable bit" "SUSPEND_SENSITIVE_0,SUSPEND_SENSITIVE_1"
newline
bitfld.long 0x00 7. "ENABLE,Logical channel enable" "ENABLE_0,ENABLE_1"
newline
bitfld.long 0x00 6. "READ_PRIORITY,Channel priority on the read side" "READ_PRIORITY_0,READ_PRIORITY_1"
newline
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 =" "An entire frame is transferred once a DMA..,A packet is transferred once a DMA request is made"
newline
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)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x898++0x03
line.long 0x00 "DMA4_CDACi_21,Channel Destination Address Value"
group.long 0x88C++0x07
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"
line.long 0x04 "DMA4_CDFIi_21,Channel Destination Frame Index (Signed) or 16-bit Packet size"
group.long 0x8B0++0x03
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" "FAST_0,FAST_1"
newline
bitfld.long 0x00 8.--9. "TRANSFER_MODE,Enable linked-list transfer mode" "TRANSFER_MODE_0,TRANSFER_MODE_1,TRANSFER_MODE_2,TRANSFER_MODE_3"
newline
bitfld.long 0x00 7. "PAUSE_LINK_LIST,Suspend the linked-list transfer at completion of the current block transfer" "PAUSE_LINK_LIST_0,PAUSE_LINK_LIST_1"
newline
bitfld.long 0x00 4.--6. "NEXT_DESCRIPTOR_TYPE,Next Descriptor Type" "NEXT_DESCRIPTOR_TYPE_0,NEXT_DESCRIPTOR_TYPE_1,NEXT_DESCRIPTOR_TYPE_2,NEXT_DESCRIPTOR_TYPE_3,NEXT_DESCRIPTOR_TYPE_4,NEXT_DESCRIPTOR_TYPE_5,NEXT_DESCRIPTOR_TYPE_6,NEXT_DESCRIPTOR_TYPE_7"
newline
bitfld.long 0x00 2.--3. "SRC_VALID,Source address valid" "SRC_VALID_0,SRC_VALID_1,SRC_VALID_2,SRC_VALID_3"
newline
bitfld.long 0x00 0.--1. "DEST_VALID,Destination address valid" "DEST_VALID_0,DEST_VALID_1,DEST_VALID_2,DEST_VALID_3"
group.long 0x880++0x03
line.long 0x00 "DMA4_CDSAi_21,Channel Destination Start Address"
group.long 0x874++0x07
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"
line.long 0x04 "DMA4_CFNi_21,Channel Frame Number"
hexmask.long.word 0x04 0.--15. 1. "CHANNEL_FRAME_NBR,Number of frames within the block to be transferred (unsigned)"
group.long 0x868++0x03
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"
newline
bitfld.long 0x00 12. "DRAIN_IE,Enables the end of draining interrupt" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ERR_IE,Enables the address misaligned error event interrupt" "MISALIGNED_ERR_IE_0,MISALIGNED_ERR_IE_1"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR_IE,Enables the supervisor transaction error event interrupt" "SUPERVISOR_ERR_IE_0,SUPERVISOR_ERR_IE_1"
newline
bitfld.long 0x00 8. "TRANS_ERR_IE,Enables the transaction error event interrupt" "TRANS_ERR_IE_0,TRANS_ERR_IE_1"
newline
bitfld.long 0x00 7. "PKT_IE,Enables the end of Packet interrupt" "PKT_IE_0,PKT_IE_1"
newline
bitfld.long 0x00 5. "BLOCK_IE,Enables the end of block interrupt" "BLOCK_IE_0,BLOCK_IE_1"
newline
bitfld.long 0x00 4. "LAST_IE,Last frame interrupt enable (start of last frame)" "LAST_IE_0,LAST_IE_1"
newline
bitfld.long 0x00 3. "FRAME_IE,Frame interrupt enable (end of frame)" "FRAME_IE_0,FRAME_IE_1"
newline
bitfld.long 0x00 2. "HALF_IE,Enables or disables the half frame interrupt" "HALF_IE_0,HALF_IE_1"
newline
bitfld.long 0x00 1. "DROP_IE,Synchronization event drop interrupt enable (request collision)" "DROP_IE_0,DROP_IE_1"
group.long 0x864++0x03
line.long 0x00 "DMA4_CLNK_CTRLi_21,Channel Link Control Register"
bitfld.long 0x00 15. "ENABLE_LNK,Enables or disable the channel linking" "ENABLE_LNK_0,ENABLE_LNK_1"
newline
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++0x03
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++0x03
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"
rgroup.long 0x894++0x03
line.long 0x00 "DMA4_CSACi_21,Channel Source Address Value"
group.long 0x870++0x03
line.long 0x00 "DMA4_CSDPi_21,Channel Source Destination Parameters"
bitfld.long 0x00 21. "SRC_ENDIAN,Channel source endianness control" "SRC_ENDIAN_0,SRC_ENDIAN_1"
newline
bitfld.long 0x00 20. "SRC_ENDIAN_LOCK,Endianness Lock" "SRC_ENDIAN_LOCK_0,SRC_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 19. "DST_ENDIAN,Channel Destination endianness control" "DST_ENDIAN_0,DST_ENDIAN_1"
newline
bitfld.long 0x00 18. "DST_ENDIAN_LOCK,Endianness Lock" "DST_ENDIAN_LOCK_0,DST_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 16.--17. "WRITE_MODE,Used to enable writing mode without posting or with posting" "WRITE_MODE_0,WRITE_MODE_1,WRITE_MODE_2,WRITE_MODE_3"
newline
bitfld.long 0x00 14.--15. "DST_BURST_EN,Used to enable bursting on the Write Port" "DST_BURST_EN_0,DST_BURST_EN_1,DST_BURST_EN_2,DST_BURST_EN_3"
newline
bitfld.long 0x00 13. "DST_PACKED,Destination receives packed data" "DST_PACKED_0,DST_PACKED_1"
newline
bitfld.long 0x00 7.--8. "SRC_BURST_EN,Used to enable bursting on the Read Port" "SRC_BURST_EN_0,SRC_BURST_EN_1,SRC_BURST_EN_2,SRC_BURST_EN_3"
newline
bitfld.long 0x00 6. "SRC_PACKED,Source provides packed data" "SRC_PACKED_0,SRC_PACKED_1"
newline
bitfld.long 0x00 0.--1. "DATA_TYPE,Defines the type of the data moved in the channel" "DATA_TYPE_0,DATA_TYPE_1,DATA_TYPE_2,DATA_TYPE_3"
group.long 0x884++0x07
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"
line.long 0x04 "DMA4_CSFIi_21,Channel Source Frame Index (Signed) or 16-bit Packet size"
group.long 0x86C++0x03
line.long 0x00 "DMA4_CSRi_21,Channel Status Register"
bitfld.long 0x00 14. "SUPER_BLOCK,End of Super block event" "0,1"
newline
bitfld.long 0x00 12. "DRAIN_END,End of channel draining" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ADRS_ERR,Misaligned address error event" "MISALIGNED_ADRS_ERR_0_w,MISALIGNED_ADRS_ERR_1_r"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR,Supervisor transaction error event" "SUPERVISOR_ERR_0_w,SUPERVISOR_ERR_1_r"
newline
bitfld.long 0x00 8. "TRANS_ERR,Transaction error event" "TRANS_ERR_0_w,TRANS_ERR_1_r"
newline
bitfld.long 0x00 7. "PKT,End of Packet transfer" "PKT_0_w,PKT_1_r"
newline
bitfld.long 0x00 6. "SYNC,Synchronization status of a channel" "SYNC_0_w,SYNC_1_r"
newline
bitfld.long 0x00 5. "BLOCK,End of block event" "BLOCK_0_w,BLOCK_1_r"
newline
bitfld.long 0x00 4. "LAST,Last frame (start of last frame)" "LAST_0_w,LAST_1_r"
newline
bitfld.long 0x00 3. "FRAME,End of frame event" "FRAME_0_w,FRAME_1_r"
newline
bitfld.long 0x00 2. "HALF,Half of frame event" "HALF_0_w,HALF_1_r"
newline
bitfld.long 0x00 1. "DROP,Synchronization event drop occured during the transfer" "DROP_0_w,DROP_1_r"
group.long 0x87C++0x03
line.long 0x00 "DMA4_CSSAi_21,Channel Source Start Address"
tree.end
tree "DMA_Channel_22"
group.long 0x918++0x03
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"
group.long 0x8FC++0x07
line.long 0x00 "DMA4_CCENi_22,Channel Current Transferred Element Number in the current frame"
hexmask.long.tbyte 0x00 0.--23. 1. "CURRENT_ELMNT_NBR,Channel current transferred element number in the current frame"
line.long 0x04 "DMA4_CCFNi_22,Channel Current Transferred Frame Number in the current transfer"
hexmask.long.word 0x04 0.--15. 1. "CURRENT_FRAME_NBR,Channel current transferred frame number in the current transfer"
group.long 0x8C0++0x03
line.long 0x00 "DMA4_CCRi_22,Channel Control Register"
bitfld.long 0x00 26. "WRITE_PRIORITY,Channel priority on the Write side" "WRITE_PRIORITY_0,WRITE_PRIORITY_1"
newline
bitfld.long 0x00 25. "BUFFERING_DISABLE,This bit allows to disable the default buffering functionality when transfer is source synchronized" "BUFFERING_DISABLE_0,BUFFERING_DISABLE_1"
newline
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" "SEL_SRC_DST_SYNC_0,SEL_SRC_DST_SYNC_1"
newline
bitfld.long 0x00 23. "PREFETCH,Enables the prefetch mode" "PREFETCH_0,PREFETCH_1"
newline
bitfld.long 0x00 22. "SUPERVISOR,Enables the supervisor mode" "SUPERVISOR_0,SUPERVISOR_1"
newline
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"
newline
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"
newline
bitfld.long 0x00 17. "TRANSPARENT_COPY_ENABLE,Transparent copy enable" "TRANSPARENT_COPY_ENABLE_0,TRANSPARENT_COPY_ENABLE_1"
newline
bitfld.long 0x00 16. "CONST_FILL_ENABLE,Constant fill enable" "CONST_FILL_ENABLE_0,CONST_FILL_ENABLE_1"
newline
bitfld.long 0x00 14.--15. "DST_AMODE,Selects the addressing mode on the Write Port of a channel" "DST_AMODE_0,DST_AMODE_1,DST_AMODE_2,DST_AMODE_3"
newline
bitfld.long 0x00 12.--13. "SRC_AMODE,Selects the addressing mode on the Read Port of a channel" "SRC_AMODE_0,SRC_AMODE_1,SRC_AMODE_2,SRC_AMODE_3"
newline
rbitfld.long 0x00 10. "WR_ACTIVE,Indicates if the channel write context is active or not" "WR_ACTIVE_0_r,WR_ACTIVE_1_r"
newline
rbitfld.long 0x00 9. "RD_ACTIVE,Indicates if the channel read context is active or not" "RD_ACTIVE_0_r,RD_ACTIVE_1_r"
newline
bitfld.long 0x00 8. "SUSPEND_SENSITIVE,Logical channel suspend enable bit" "SUSPEND_SENSITIVE_0,SUSPEND_SENSITIVE_1"
newline
bitfld.long 0x00 7. "ENABLE,Logical channel enable" "ENABLE_0,ENABLE_1"
newline
bitfld.long 0x00 6. "READ_PRIORITY,Channel priority on the read side" "READ_PRIORITY_0,READ_PRIORITY_1"
newline
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 =" "An entire frame is transferred once a DMA..,A packet is transferred once a DMA request is made"
newline
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)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x8F8++0x03
line.long 0x00 "DMA4_CDACi_22,Channel Destination Address Value"
group.long 0x8EC++0x07
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"
line.long 0x04 "DMA4_CDFIi_22,Channel Destination Frame Index (Signed) or 16-bit Packet size"
group.long 0x910++0x03
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" "FAST_0,FAST_1"
newline
bitfld.long 0x00 8.--9. "TRANSFER_MODE,Enable linked-list transfer mode" "TRANSFER_MODE_0,TRANSFER_MODE_1,TRANSFER_MODE_2,TRANSFER_MODE_3"
newline
bitfld.long 0x00 7. "PAUSE_LINK_LIST,Suspend the linked-list transfer at completion of the current block transfer" "PAUSE_LINK_LIST_0,PAUSE_LINK_LIST_1"
newline
bitfld.long 0x00 4.--6. "NEXT_DESCRIPTOR_TYPE,Next Descriptor Type" "NEXT_DESCRIPTOR_TYPE_0,NEXT_DESCRIPTOR_TYPE_1,NEXT_DESCRIPTOR_TYPE_2,NEXT_DESCRIPTOR_TYPE_3,NEXT_DESCRIPTOR_TYPE_4,NEXT_DESCRIPTOR_TYPE_5,NEXT_DESCRIPTOR_TYPE_6,NEXT_DESCRIPTOR_TYPE_7"
newline
bitfld.long 0x00 2.--3. "SRC_VALID,Source address valid" "SRC_VALID_0,SRC_VALID_1,SRC_VALID_2,SRC_VALID_3"
newline
bitfld.long 0x00 0.--1. "DEST_VALID,Destination address valid" "DEST_VALID_0,DEST_VALID_1,DEST_VALID_2,DEST_VALID_3"
group.long 0x8E0++0x03
line.long 0x00 "DMA4_CDSAi_22,Channel Destination Start Address"
group.long 0x8D4++0x07
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"
line.long 0x04 "DMA4_CFNi_22,Channel Frame Number"
hexmask.long.word 0x04 0.--15. 1. "CHANNEL_FRAME_NBR,Number of frames within the block to be transferred (unsigned)"
group.long 0x8C8++0x03
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"
newline
bitfld.long 0x00 12. "DRAIN_IE,Enables the end of draining interrupt" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ERR_IE,Enables the address misaligned error event interrupt" "MISALIGNED_ERR_IE_0,MISALIGNED_ERR_IE_1"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR_IE,Enables the supervisor transaction error event interrupt" "SUPERVISOR_ERR_IE_0,SUPERVISOR_ERR_IE_1"
newline
bitfld.long 0x00 8. "TRANS_ERR_IE,Enables the transaction error event interrupt" "TRANS_ERR_IE_0,TRANS_ERR_IE_1"
newline
bitfld.long 0x00 7. "PKT_IE,Enables the end of Packet interrupt" "PKT_IE_0,PKT_IE_1"
newline
bitfld.long 0x00 5. "BLOCK_IE,Enables the end of block interrupt" "BLOCK_IE_0,BLOCK_IE_1"
newline
bitfld.long 0x00 4. "LAST_IE,Last frame interrupt enable (start of last frame)" "LAST_IE_0,LAST_IE_1"
newline
bitfld.long 0x00 3. "FRAME_IE,Frame interrupt enable (end of frame)" "FRAME_IE_0,FRAME_IE_1"
newline
bitfld.long 0x00 2. "HALF_IE,Enables or disables the half frame interrupt" "HALF_IE_0,HALF_IE_1"
newline
bitfld.long 0x00 1. "DROP_IE,Synchronization event drop interrupt enable (request collision)" "DROP_IE_0,DROP_IE_1"
group.long 0x8C4++0x03
line.long 0x00 "DMA4_CLNK_CTRLi_22,Channel Link Control Register"
bitfld.long 0x00 15. "ENABLE_LNK,Enables or disable the channel linking" "ENABLE_LNK_0,ENABLE_LNK_1"
newline
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++0x03
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++0x03
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"
rgroup.long 0x8F4++0x03
line.long 0x00 "DMA4_CSACi_22,Channel Source Address Value"
group.long 0x8D0++0x03
line.long 0x00 "DMA4_CSDPi_22,Channel Source Destination Parameters"
bitfld.long 0x00 21. "SRC_ENDIAN,Channel source endianness control" "SRC_ENDIAN_0,SRC_ENDIAN_1"
newline
bitfld.long 0x00 20. "SRC_ENDIAN_LOCK,Endianness Lock" "SRC_ENDIAN_LOCK_0,SRC_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 19. "DST_ENDIAN,Channel Destination endianness control" "DST_ENDIAN_0,DST_ENDIAN_1"
newline
bitfld.long 0x00 18. "DST_ENDIAN_LOCK,Endianness Lock" "DST_ENDIAN_LOCK_0,DST_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 16.--17. "WRITE_MODE,Used to enable writing mode without posting or with posting" "WRITE_MODE_0,WRITE_MODE_1,WRITE_MODE_2,WRITE_MODE_3"
newline
bitfld.long 0x00 14.--15. "DST_BURST_EN,Used to enable bursting on the Write Port" "DST_BURST_EN_0,DST_BURST_EN_1,DST_BURST_EN_2,DST_BURST_EN_3"
newline
bitfld.long 0x00 13. "DST_PACKED,Destination receives packed data" "DST_PACKED_0,DST_PACKED_1"
newline
bitfld.long 0x00 7.--8. "SRC_BURST_EN,Used to enable bursting on the Read Port" "SRC_BURST_EN_0,SRC_BURST_EN_1,SRC_BURST_EN_2,SRC_BURST_EN_3"
newline
bitfld.long 0x00 6. "SRC_PACKED,Source provides packed data" "SRC_PACKED_0,SRC_PACKED_1"
newline
bitfld.long 0x00 0.--1. "DATA_TYPE,Defines the type of the data moved in the channel" "DATA_TYPE_0,DATA_TYPE_1,DATA_TYPE_2,DATA_TYPE_3"
group.long 0x8E4++0x07
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"
line.long 0x04 "DMA4_CSFIi_22,Channel Source Frame Index (Signed) or 16-bit Packet size"
group.long 0x8CC++0x03
line.long 0x00 "DMA4_CSRi_22,Channel Status Register"
bitfld.long 0x00 14. "SUPER_BLOCK,End of Super block event" "0,1"
newline
bitfld.long 0x00 12. "DRAIN_END,End of channel draining" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ADRS_ERR,Misaligned address error event" "MISALIGNED_ADRS_ERR_0_w,MISALIGNED_ADRS_ERR_1_r"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR,Supervisor transaction error event" "SUPERVISOR_ERR_0_w,SUPERVISOR_ERR_1_r"
newline
bitfld.long 0x00 8. "TRANS_ERR,Transaction error event" "TRANS_ERR_0_w,TRANS_ERR_1_r"
newline
bitfld.long 0x00 7. "PKT,End of Packet transfer" "PKT_0_w,PKT_1_r"
newline
bitfld.long 0x00 6. "SYNC,Synchronization status of a channel" "SYNC_0_w,SYNC_1_r"
newline
bitfld.long 0x00 5. "BLOCK,End of block event" "BLOCK_0_w,BLOCK_1_r"
newline
bitfld.long 0x00 4. "LAST,Last frame (start of last frame)" "LAST_0_w,LAST_1_r"
newline
bitfld.long 0x00 3. "FRAME,End of frame event" "FRAME_0_w,FRAME_1_r"
newline
bitfld.long 0x00 2. "HALF,Half of frame event" "HALF_0_w,HALF_1_r"
newline
bitfld.long 0x00 1. "DROP,Synchronization event drop occured during the transfer" "DROP_0_w,DROP_1_r"
group.long 0x8DC++0x03
line.long 0x00 "DMA4_CSSAi_22,Channel Source Start Address"
tree.end
tree "DMA_Channel_23"
group.long 0x978++0x03
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"
group.long 0x95C++0x07
line.long 0x00 "DMA4_CCENi_23,Channel Current Transferred Element Number in the current frame"
hexmask.long.tbyte 0x00 0.--23. 1. "CURRENT_ELMNT_NBR,Channel current transferred element number in the current frame"
line.long 0x04 "DMA4_CCFNi_23,Channel Current Transferred Frame Number in the current transfer"
hexmask.long.word 0x04 0.--15. 1. "CURRENT_FRAME_NBR,Channel current transferred frame number in the current transfer"
group.long 0x920++0x03
line.long 0x00 "DMA4_CCRi_23,Channel Control Register"
bitfld.long 0x00 26. "WRITE_PRIORITY,Channel priority on the Write side" "WRITE_PRIORITY_0,WRITE_PRIORITY_1"
newline
bitfld.long 0x00 25. "BUFFERING_DISABLE,This bit allows to disable the default buffering functionality when transfer is source synchronized" "BUFFERING_DISABLE_0,BUFFERING_DISABLE_1"
newline
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" "SEL_SRC_DST_SYNC_0,SEL_SRC_DST_SYNC_1"
newline
bitfld.long 0x00 23. "PREFETCH,Enables the prefetch mode" "PREFETCH_0,PREFETCH_1"
newline
bitfld.long 0x00 22. "SUPERVISOR,Enables the supervisor mode" "SUPERVISOR_0,SUPERVISOR_1"
newline
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"
newline
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"
newline
bitfld.long 0x00 17. "TRANSPARENT_COPY_ENABLE,Transparent copy enable" "TRANSPARENT_COPY_ENABLE_0,TRANSPARENT_COPY_ENABLE_1"
newline
bitfld.long 0x00 16. "CONST_FILL_ENABLE,Constant fill enable" "CONST_FILL_ENABLE_0,CONST_FILL_ENABLE_1"
newline
bitfld.long 0x00 14.--15. "DST_AMODE,Selects the addressing mode on the Write Port of a channel" "DST_AMODE_0,DST_AMODE_1,DST_AMODE_2,DST_AMODE_3"
newline
bitfld.long 0x00 12.--13. "SRC_AMODE,Selects the addressing mode on the Read Port of a channel" "SRC_AMODE_0,SRC_AMODE_1,SRC_AMODE_2,SRC_AMODE_3"
newline
rbitfld.long 0x00 10. "WR_ACTIVE,Indicates if the channel write context is active or not" "WR_ACTIVE_0_r,WR_ACTIVE_1_r"
newline
rbitfld.long 0x00 9. "RD_ACTIVE,Indicates if the channel read context is active or not" "RD_ACTIVE_0_r,RD_ACTIVE_1_r"
newline
bitfld.long 0x00 8. "SUSPEND_SENSITIVE,Logical channel suspend enable bit" "SUSPEND_SENSITIVE_0,SUSPEND_SENSITIVE_1"
newline
bitfld.long 0x00 7. "ENABLE,Logical channel enable" "ENABLE_0,ENABLE_1"
newline
bitfld.long 0x00 6. "READ_PRIORITY,Channel priority on the read side" "READ_PRIORITY_0,READ_PRIORITY_1"
newline
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 =" "An entire frame is transferred once a DMA..,A packet is transferred once a DMA request is made"
newline
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)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x958++0x03
line.long 0x00 "DMA4_CDACi_23,Channel Destination Address Value"
group.long 0x94C++0x07
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"
line.long 0x04 "DMA4_CDFIi_23,Channel Destination Frame Index (Signed) or 16-bit Packet size"
group.long 0x970++0x03
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" "FAST_0,FAST_1"
newline
bitfld.long 0x00 8.--9. "TRANSFER_MODE,Enable linked-list transfer mode" "TRANSFER_MODE_0,TRANSFER_MODE_1,TRANSFER_MODE_2,TRANSFER_MODE_3"
newline
bitfld.long 0x00 7. "PAUSE_LINK_LIST,Suspend the linked-list transfer at completion of the current block transfer" "PAUSE_LINK_LIST_0,PAUSE_LINK_LIST_1"
newline
bitfld.long 0x00 4.--6. "NEXT_DESCRIPTOR_TYPE,Next Descriptor Type" "NEXT_DESCRIPTOR_TYPE_0,NEXT_DESCRIPTOR_TYPE_1,NEXT_DESCRIPTOR_TYPE_2,NEXT_DESCRIPTOR_TYPE_3,NEXT_DESCRIPTOR_TYPE_4,NEXT_DESCRIPTOR_TYPE_5,NEXT_DESCRIPTOR_TYPE_6,NEXT_DESCRIPTOR_TYPE_7"
newline
bitfld.long 0x00 2.--3. "SRC_VALID,Source address valid" "SRC_VALID_0,SRC_VALID_1,SRC_VALID_2,SRC_VALID_3"
newline
bitfld.long 0x00 0.--1. "DEST_VALID,Destination address valid" "DEST_VALID_0,DEST_VALID_1,DEST_VALID_2,DEST_VALID_3"
group.long 0x940++0x03
line.long 0x00 "DMA4_CDSAi_23,Channel Destination Start Address"
group.long 0x934++0x07
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"
line.long 0x04 "DMA4_CFNi_23,Channel Frame Number"
hexmask.long.word 0x04 0.--15. 1. "CHANNEL_FRAME_NBR,Number of frames within the block to be transferred (unsigned)"
group.long 0x928++0x03
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"
newline
bitfld.long 0x00 12. "DRAIN_IE,Enables the end of draining interrupt" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ERR_IE,Enables the address misaligned error event interrupt" "MISALIGNED_ERR_IE_0,MISALIGNED_ERR_IE_1"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR_IE,Enables the supervisor transaction error event interrupt" "SUPERVISOR_ERR_IE_0,SUPERVISOR_ERR_IE_1"
newline
bitfld.long 0x00 8. "TRANS_ERR_IE,Enables the transaction error event interrupt" "TRANS_ERR_IE_0,TRANS_ERR_IE_1"
newline
bitfld.long 0x00 7. "PKT_IE,Enables the end of Packet interrupt" "PKT_IE_0,PKT_IE_1"
newline
bitfld.long 0x00 5. "BLOCK_IE,Enables the end of block interrupt" "BLOCK_IE_0,BLOCK_IE_1"
newline
bitfld.long 0x00 4. "LAST_IE,Last frame interrupt enable (start of last frame)" "LAST_IE_0,LAST_IE_1"
newline
bitfld.long 0x00 3. "FRAME_IE,Frame interrupt enable (end of frame)" "FRAME_IE_0,FRAME_IE_1"
newline
bitfld.long 0x00 2. "HALF_IE,Enables or disables the half frame interrupt" "HALF_IE_0,HALF_IE_1"
newline
bitfld.long 0x00 1. "DROP_IE,Synchronization event drop interrupt enable (request collision)" "DROP_IE_0,DROP_IE_1"
group.long 0x924++0x03
line.long 0x00 "DMA4_CLNK_CTRLi_23,Channel Link Control Register"
bitfld.long 0x00 15. "ENABLE_LNK,Enables or disable the channel linking" "ENABLE_LNK_0,ENABLE_LNK_1"
newline
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++0x03
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++0x03
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"
rgroup.long 0x954++0x03
line.long 0x00 "DMA4_CSACi_23,Channel Source Address Value"
group.long 0x930++0x03
line.long 0x00 "DMA4_CSDPi_23,Channel Source Destination Parameters"
bitfld.long 0x00 21. "SRC_ENDIAN,Channel source endianness control" "SRC_ENDIAN_0,SRC_ENDIAN_1"
newline
bitfld.long 0x00 20. "SRC_ENDIAN_LOCK,Endianness Lock" "SRC_ENDIAN_LOCK_0,SRC_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 19. "DST_ENDIAN,Channel Destination endianness control" "DST_ENDIAN_0,DST_ENDIAN_1"
newline
bitfld.long 0x00 18. "DST_ENDIAN_LOCK,Endianness Lock" "DST_ENDIAN_LOCK_0,DST_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 16.--17. "WRITE_MODE,Used to enable writing mode without posting or with posting" "WRITE_MODE_0,WRITE_MODE_1,WRITE_MODE_2,WRITE_MODE_3"
newline
bitfld.long 0x00 14.--15. "DST_BURST_EN,Used to enable bursting on the Write Port" "DST_BURST_EN_0,DST_BURST_EN_1,DST_BURST_EN_2,DST_BURST_EN_3"
newline
bitfld.long 0x00 13. "DST_PACKED,Destination receives packed data" "DST_PACKED_0,DST_PACKED_1"
newline
bitfld.long 0x00 7.--8. "SRC_BURST_EN,Used to enable bursting on the Read Port" "SRC_BURST_EN_0,SRC_BURST_EN_1,SRC_BURST_EN_2,SRC_BURST_EN_3"
newline
bitfld.long 0x00 6. "SRC_PACKED,Source provides packed data" "SRC_PACKED_0,SRC_PACKED_1"
newline
bitfld.long 0x00 0.--1. "DATA_TYPE,Defines the type of the data moved in the channel" "DATA_TYPE_0,DATA_TYPE_1,DATA_TYPE_2,DATA_TYPE_3"
group.long 0x944++0x07
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"
line.long 0x04 "DMA4_CSFIi_23,Channel Source Frame Index (Signed) or 16-bit Packet size"
group.long 0x92C++0x03
line.long 0x00 "DMA4_CSRi_23,Channel Status Register"
bitfld.long 0x00 14. "SUPER_BLOCK,End of Super block event" "0,1"
newline
bitfld.long 0x00 12. "DRAIN_END,End of channel draining" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ADRS_ERR,Misaligned address error event" "MISALIGNED_ADRS_ERR_0_w,MISALIGNED_ADRS_ERR_1_r"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR,Supervisor transaction error event" "SUPERVISOR_ERR_0_w,SUPERVISOR_ERR_1_r"
newline
bitfld.long 0x00 8. "TRANS_ERR,Transaction error event" "TRANS_ERR_0_w,TRANS_ERR_1_r"
newline
bitfld.long 0x00 7. "PKT,End of Packet transfer" "PKT_0_w,PKT_1_r"
newline
bitfld.long 0x00 6. "SYNC,Synchronization status of a channel" "SYNC_0_w,SYNC_1_r"
newline
bitfld.long 0x00 5. "BLOCK,End of block event" "BLOCK_0_w,BLOCK_1_r"
newline
bitfld.long 0x00 4. "LAST,Last frame (start of last frame)" "LAST_0_w,LAST_1_r"
newline
bitfld.long 0x00 3. "FRAME,End of frame event" "FRAME_0_w,FRAME_1_r"
newline
bitfld.long 0x00 2. "HALF,Half of frame event" "HALF_0_w,HALF_1_r"
newline
bitfld.long 0x00 1. "DROP,Synchronization event drop occured during the transfer" "DROP_0_w,DROP_1_r"
group.long 0x93C++0x03
line.long 0x00 "DMA4_CSSAi_23,Channel Source Start Address"
tree.end
tree "DMA_Channel_24"
group.long 0x9D8++0x03
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"
group.long 0x9BC++0x07
line.long 0x00 "DMA4_CCENi_24,Channel Current Transferred Element Number in the current frame"
hexmask.long.tbyte 0x00 0.--23. 1. "CURRENT_ELMNT_NBR,Channel current transferred element number in the current frame"
line.long 0x04 "DMA4_CCFNi_24,Channel Current Transferred Frame Number in the current transfer"
hexmask.long.word 0x04 0.--15. 1. "CURRENT_FRAME_NBR,Channel current transferred frame number in the current transfer"
group.long 0x980++0x03
line.long 0x00 "DMA4_CCRi_24,Channel Control Register"
bitfld.long 0x00 26. "WRITE_PRIORITY,Channel priority on the Write side" "WRITE_PRIORITY_0,WRITE_PRIORITY_1"
newline
bitfld.long 0x00 25. "BUFFERING_DISABLE,This bit allows to disable the default buffering functionality when transfer is source synchronized" "BUFFERING_DISABLE_0,BUFFERING_DISABLE_1"
newline
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" "SEL_SRC_DST_SYNC_0,SEL_SRC_DST_SYNC_1"
newline
bitfld.long 0x00 23. "PREFETCH,Enables the prefetch mode" "PREFETCH_0,PREFETCH_1"
newline
bitfld.long 0x00 22. "SUPERVISOR,Enables the supervisor mode" "SUPERVISOR_0,SUPERVISOR_1"
newline
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"
newline
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"
newline
bitfld.long 0x00 17. "TRANSPARENT_COPY_ENABLE,Transparent copy enable" "TRANSPARENT_COPY_ENABLE_0,TRANSPARENT_COPY_ENABLE_1"
newline
bitfld.long 0x00 16. "CONST_FILL_ENABLE,Constant fill enable" "CONST_FILL_ENABLE_0,CONST_FILL_ENABLE_1"
newline
bitfld.long 0x00 14.--15. "DST_AMODE,Selects the addressing mode on the Write Port of a channel" "DST_AMODE_0,DST_AMODE_1,DST_AMODE_2,DST_AMODE_3"
newline
bitfld.long 0x00 12.--13. "SRC_AMODE,Selects the addressing mode on the Read Port of a channel" "SRC_AMODE_0,SRC_AMODE_1,SRC_AMODE_2,SRC_AMODE_3"
newline
rbitfld.long 0x00 10. "WR_ACTIVE,Indicates if the channel write context is active or not" "WR_ACTIVE_0_r,WR_ACTIVE_1_r"
newline
rbitfld.long 0x00 9. "RD_ACTIVE,Indicates if the channel read context is active or not" "RD_ACTIVE_0_r,RD_ACTIVE_1_r"
newline
bitfld.long 0x00 8. "SUSPEND_SENSITIVE,Logical channel suspend enable bit" "SUSPEND_SENSITIVE_0,SUSPEND_SENSITIVE_1"
newline
bitfld.long 0x00 7. "ENABLE,Logical channel enable" "ENABLE_0,ENABLE_1"
newline
bitfld.long 0x00 6. "READ_PRIORITY,Channel priority on the read side" "READ_PRIORITY_0,READ_PRIORITY_1"
newline
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 =" "An entire frame is transferred once a DMA..,A packet is transferred once a DMA request is made"
newline
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)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x9B8++0x03
line.long 0x00 "DMA4_CDACi_24,Channel Destination Address Value"
group.long 0x9AC++0x07
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"
line.long 0x04 "DMA4_CDFIi_24,Channel Destination Frame Index (Signed) or 16-bit Packet size"
group.long 0x9D0++0x03
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" "FAST_0,FAST_1"
newline
bitfld.long 0x00 8.--9. "TRANSFER_MODE,Enable linked-list transfer mode" "TRANSFER_MODE_0,TRANSFER_MODE_1,TRANSFER_MODE_2,TRANSFER_MODE_3"
newline
bitfld.long 0x00 7. "PAUSE_LINK_LIST,Suspend the linked-list transfer at completion of the current block transfer" "PAUSE_LINK_LIST_0,PAUSE_LINK_LIST_1"
newline
bitfld.long 0x00 4.--6. "NEXT_DESCRIPTOR_TYPE,Next Descriptor Type" "NEXT_DESCRIPTOR_TYPE_0,NEXT_DESCRIPTOR_TYPE_1,NEXT_DESCRIPTOR_TYPE_2,NEXT_DESCRIPTOR_TYPE_3,NEXT_DESCRIPTOR_TYPE_4,NEXT_DESCRIPTOR_TYPE_5,NEXT_DESCRIPTOR_TYPE_6,NEXT_DESCRIPTOR_TYPE_7"
newline
bitfld.long 0x00 2.--3. "SRC_VALID,Source address valid" "SRC_VALID_0,SRC_VALID_1,SRC_VALID_2,SRC_VALID_3"
newline
bitfld.long 0x00 0.--1. "DEST_VALID,Destination address valid" "DEST_VALID_0,DEST_VALID_1,DEST_VALID_2,DEST_VALID_3"
group.long 0x9A0++0x03
line.long 0x00 "DMA4_CDSAi_24,Channel Destination Start Address"
group.long 0x994++0x07
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"
line.long 0x04 "DMA4_CFNi_24,Channel Frame Number"
hexmask.long.word 0x04 0.--15. 1. "CHANNEL_FRAME_NBR,Number of frames within the block to be transferred (unsigned)"
group.long 0x988++0x03
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"
newline
bitfld.long 0x00 12. "DRAIN_IE,Enables the end of draining interrupt" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ERR_IE,Enables the address misaligned error event interrupt" "MISALIGNED_ERR_IE_0,MISALIGNED_ERR_IE_1"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR_IE,Enables the supervisor transaction error event interrupt" "SUPERVISOR_ERR_IE_0,SUPERVISOR_ERR_IE_1"
newline
bitfld.long 0x00 8. "TRANS_ERR_IE,Enables the transaction error event interrupt" "TRANS_ERR_IE_0,TRANS_ERR_IE_1"
newline
bitfld.long 0x00 7. "PKT_IE,Enables the end of Packet interrupt" "PKT_IE_0,PKT_IE_1"
newline
bitfld.long 0x00 5. "BLOCK_IE,Enables the end of block interrupt" "BLOCK_IE_0,BLOCK_IE_1"
newline
bitfld.long 0x00 4. "LAST_IE,Last frame interrupt enable (start of last frame)" "LAST_IE_0,LAST_IE_1"
newline
bitfld.long 0x00 3. "FRAME_IE,Frame interrupt enable (end of frame)" "FRAME_IE_0,FRAME_IE_1"
newline
bitfld.long 0x00 2. "HALF_IE,Enables or disables the half frame interrupt" "HALF_IE_0,HALF_IE_1"
newline
bitfld.long 0x00 1. "DROP_IE,Synchronization event drop interrupt enable (request collision)" "DROP_IE_0,DROP_IE_1"
group.long 0x984++0x03
line.long 0x00 "DMA4_CLNK_CTRLi_24,Channel Link Control Register"
bitfld.long 0x00 15. "ENABLE_LNK,Enables or disable the channel linking" "ENABLE_LNK_0,ENABLE_LNK_1"
newline
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++0x03
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++0x03
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"
rgroup.long 0x9B4++0x03
line.long 0x00 "DMA4_CSACi_24,Channel Source Address Value"
group.long 0x990++0x03
line.long 0x00 "DMA4_CSDPi_24,Channel Source Destination Parameters"
bitfld.long 0x00 21. "SRC_ENDIAN,Channel source endianness control" "SRC_ENDIAN_0,SRC_ENDIAN_1"
newline
bitfld.long 0x00 20. "SRC_ENDIAN_LOCK,Endianness Lock" "SRC_ENDIAN_LOCK_0,SRC_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 19. "DST_ENDIAN,Channel Destination endianness control" "DST_ENDIAN_0,DST_ENDIAN_1"
newline
bitfld.long 0x00 18. "DST_ENDIAN_LOCK,Endianness Lock" "DST_ENDIAN_LOCK_0,DST_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 16.--17. "WRITE_MODE,Used to enable writing mode without posting or with posting" "WRITE_MODE_0,WRITE_MODE_1,WRITE_MODE_2,WRITE_MODE_3"
newline
bitfld.long 0x00 14.--15. "DST_BURST_EN,Used to enable bursting on the Write Port" "DST_BURST_EN_0,DST_BURST_EN_1,DST_BURST_EN_2,DST_BURST_EN_3"
newline
bitfld.long 0x00 13. "DST_PACKED,Destination receives packed data" "DST_PACKED_0,DST_PACKED_1"
newline
bitfld.long 0x00 7.--8. "SRC_BURST_EN,Used to enable bursting on the Read Port" "SRC_BURST_EN_0,SRC_BURST_EN_1,SRC_BURST_EN_2,SRC_BURST_EN_3"
newline
bitfld.long 0x00 6. "SRC_PACKED,Source provides packed data" "SRC_PACKED_0,SRC_PACKED_1"
newline
bitfld.long 0x00 0.--1. "DATA_TYPE,Defines the type of the data moved in the channel" "DATA_TYPE_0,DATA_TYPE_1,DATA_TYPE_2,DATA_TYPE_3"
group.long 0x9A4++0x07
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"
line.long 0x04 "DMA4_CSFIi_24,Channel Source Frame Index (Signed) or 16-bit Packet size"
group.long 0x98C++0x03
line.long 0x00 "DMA4_CSRi_24,Channel Status Register"
bitfld.long 0x00 14. "SUPER_BLOCK,End of Super block event" "0,1"
newline
bitfld.long 0x00 12. "DRAIN_END,End of channel draining" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ADRS_ERR,Misaligned address error event" "MISALIGNED_ADRS_ERR_0_w,MISALIGNED_ADRS_ERR_1_r"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR,Supervisor transaction error event" "SUPERVISOR_ERR_0_w,SUPERVISOR_ERR_1_r"
newline
bitfld.long 0x00 8. "TRANS_ERR,Transaction error event" "TRANS_ERR_0_w,TRANS_ERR_1_r"
newline
bitfld.long 0x00 7. "PKT,End of Packet transfer" "PKT_0_w,PKT_1_r"
newline
bitfld.long 0x00 6. "SYNC,Synchronization status of a channel" "SYNC_0_w,SYNC_1_r"
newline
bitfld.long 0x00 5. "BLOCK,End of block event" "BLOCK_0_w,BLOCK_1_r"
newline
bitfld.long 0x00 4. "LAST,Last frame (start of last frame)" "LAST_0_w,LAST_1_r"
newline
bitfld.long 0x00 3. "FRAME,End of frame event" "FRAME_0_w,FRAME_1_r"
newline
bitfld.long 0x00 2. "HALF,Half of frame event" "HALF_0_w,HALF_1_r"
newline
bitfld.long 0x00 1. "DROP,Synchronization event drop occured during the transfer" "DROP_0_w,DROP_1_r"
group.long 0x99C++0x03
line.long 0x00 "DMA4_CSSAi_24,Channel Source Start Address"
tree.end
tree "DMA_Channel_25"
group.long 0xA38++0x03
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"
group.long 0xA1C++0x07
line.long 0x00 "DMA4_CCENi_25,Channel Current Transferred Element Number in the current frame"
hexmask.long.tbyte 0x00 0.--23. 1. "CURRENT_ELMNT_NBR,Channel current transferred element number in the current frame"
line.long 0x04 "DMA4_CCFNi_25,Channel Current Transferred Frame Number in the current transfer"
hexmask.long.word 0x04 0.--15. 1. "CURRENT_FRAME_NBR,Channel current transferred frame number in the current transfer"
group.long 0x9E0++0x03
line.long 0x00 "DMA4_CCRi_25,Channel Control Register"
bitfld.long 0x00 26. "WRITE_PRIORITY,Channel priority on the Write side" "WRITE_PRIORITY_0,WRITE_PRIORITY_1"
newline
bitfld.long 0x00 25. "BUFFERING_DISABLE,This bit allows to disable the default buffering functionality when transfer is source synchronized" "BUFFERING_DISABLE_0,BUFFERING_DISABLE_1"
newline
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" "SEL_SRC_DST_SYNC_0,SEL_SRC_DST_SYNC_1"
newline
bitfld.long 0x00 23. "PREFETCH,Enables the prefetch mode" "PREFETCH_0,PREFETCH_1"
newline
bitfld.long 0x00 22. "SUPERVISOR,Enables the supervisor mode" "SUPERVISOR_0,SUPERVISOR_1"
newline
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"
newline
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"
newline
bitfld.long 0x00 17. "TRANSPARENT_COPY_ENABLE,Transparent copy enable" "TRANSPARENT_COPY_ENABLE_0,TRANSPARENT_COPY_ENABLE_1"
newline
bitfld.long 0x00 16. "CONST_FILL_ENABLE,Constant fill enable" "CONST_FILL_ENABLE_0,CONST_FILL_ENABLE_1"
newline
bitfld.long 0x00 14.--15. "DST_AMODE,Selects the addressing mode on the Write Port of a channel" "DST_AMODE_0,DST_AMODE_1,DST_AMODE_2,DST_AMODE_3"
newline
bitfld.long 0x00 12.--13. "SRC_AMODE,Selects the addressing mode on the Read Port of a channel" "SRC_AMODE_0,SRC_AMODE_1,SRC_AMODE_2,SRC_AMODE_3"
newline
rbitfld.long 0x00 10. "WR_ACTIVE,Indicates if the channel write context is active or not" "WR_ACTIVE_0_r,WR_ACTIVE_1_r"
newline
rbitfld.long 0x00 9. "RD_ACTIVE,Indicates if the channel read context is active or not" "RD_ACTIVE_0_r,RD_ACTIVE_1_r"
newline
bitfld.long 0x00 8. "SUSPEND_SENSITIVE,Logical channel suspend enable bit" "SUSPEND_SENSITIVE_0,SUSPEND_SENSITIVE_1"
newline
bitfld.long 0x00 7. "ENABLE,Logical channel enable" "ENABLE_0,ENABLE_1"
newline
bitfld.long 0x00 6. "READ_PRIORITY,Channel priority on the read side" "READ_PRIORITY_0,READ_PRIORITY_1"
newline
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 =" "An entire frame is transferred once a DMA..,A packet is transferred once a DMA request is made"
newline
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)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xA18++0x03
line.long 0x00 "DMA4_CDACi_25,Channel Destination Address Value"
group.long 0xA0C++0x07
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"
line.long 0x04 "DMA4_CDFIi_25,Channel Destination Frame Index (Signed) or 16-bit Packet size"
group.long 0xA30++0x03
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" "FAST_0,FAST_1"
newline
bitfld.long 0x00 8.--9. "TRANSFER_MODE,Enable linked-list transfer mode" "TRANSFER_MODE_0,TRANSFER_MODE_1,TRANSFER_MODE_2,TRANSFER_MODE_3"
newline
bitfld.long 0x00 7. "PAUSE_LINK_LIST,Suspend the linked-list transfer at completion of the current block transfer" "PAUSE_LINK_LIST_0,PAUSE_LINK_LIST_1"
newline
bitfld.long 0x00 4.--6. "NEXT_DESCRIPTOR_TYPE,Next Descriptor Type" "NEXT_DESCRIPTOR_TYPE_0,NEXT_DESCRIPTOR_TYPE_1,NEXT_DESCRIPTOR_TYPE_2,NEXT_DESCRIPTOR_TYPE_3,NEXT_DESCRIPTOR_TYPE_4,NEXT_DESCRIPTOR_TYPE_5,NEXT_DESCRIPTOR_TYPE_6,NEXT_DESCRIPTOR_TYPE_7"
newline
bitfld.long 0x00 2.--3. "SRC_VALID,Source address valid" "SRC_VALID_0,SRC_VALID_1,SRC_VALID_2,SRC_VALID_3"
newline
bitfld.long 0x00 0.--1. "DEST_VALID,Destination address valid" "DEST_VALID_0,DEST_VALID_1,DEST_VALID_2,DEST_VALID_3"
group.long 0xA00++0x03
line.long 0x00 "DMA4_CDSAi_25,Channel Destination Start Address"
group.long 0x9F4++0x07
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"
line.long 0x04 "DMA4_CFNi_25,Channel Frame Number"
hexmask.long.word 0x04 0.--15. 1. "CHANNEL_FRAME_NBR,Number of frames within the block to be transferred (unsigned)"
group.long 0x9E8++0x03
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"
newline
bitfld.long 0x00 12. "DRAIN_IE,Enables the end of draining interrupt" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ERR_IE,Enables the address misaligned error event interrupt" "MISALIGNED_ERR_IE_0,MISALIGNED_ERR_IE_1"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR_IE,Enables the supervisor transaction error event interrupt" "SUPERVISOR_ERR_IE_0,SUPERVISOR_ERR_IE_1"
newline
bitfld.long 0x00 8. "TRANS_ERR_IE,Enables the transaction error event interrupt" "TRANS_ERR_IE_0,TRANS_ERR_IE_1"
newline
bitfld.long 0x00 7. "PKT_IE,Enables the end of Packet interrupt" "PKT_IE_0,PKT_IE_1"
newline
bitfld.long 0x00 5. "BLOCK_IE,Enables the end of block interrupt" "BLOCK_IE_0,BLOCK_IE_1"
newline
bitfld.long 0x00 4. "LAST_IE,Last frame interrupt enable (start of last frame)" "LAST_IE_0,LAST_IE_1"
newline
bitfld.long 0x00 3. "FRAME_IE,Frame interrupt enable (end of frame)" "FRAME_IE_0,FRAME_IE_1"
newline
bitfld.long 0x00 2. "HALF_IE,Enables or disables the half frame interrupt" "HALF_IE_0,HALF_IE_1"
newline
bitfld.long 0x00 1. "DROP_IE,Synchronization event drop interrupt enable (request collision)" "DROP_IE_0,DROP_IE_1"
group.long 0x9E4++0x03
line.long 0x00 "DMA4_CLNK_CTRLi_25,Channel Link Control Register"
bitfld.long 0x00 15. "ENABLE_LNK,Enables or disable the channel linking" "ENABLE_LNK_0,ENABLE_LNK_1"
newline
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++0x03
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++0x03
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"
rgroup.long 0xA14++0x03
line.long 0x00 "DMA4_CSACi_25,Channel Source Address Value"
group.long 0x9F0++0x03
line.long 0x00 "DMA4_CSDPi_25,Channel Source Destination Parameters"
bitfld.long 0x00 21. "SRC_ENDIAN,Channel source endianness control" "SRC_ENDIAN_0,SRC_ENDIAN_1"
newline
bitfld.long 0x00 20. "SRC_ENDIAN_LOCK,Endianness Lock" "SRC_ENDIAN_LOCK_0,SRC_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 19. "DST_ENDIAN,Channel Destination endianness control" "DST_ENDIAN_0,DST_ENDIAN_1"
newline
bitfld.long 0x00 18. "DST_ENDIAN_LOCK,Endianness Lock" "DST_ENDIAN_LOCK_0,DST_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 16.--17. "WRITE_MODE,Used to enable writing mode without posting or with posting" "WRITE_MODE_0,WRITE_MODE_1,WRITE_MODE_2,WRITE_MODE_3"
newline
bitfld.long 0x00 14.--15. "DST_BURST_EN,Used to enable bursting on the Write Port" "DST_BURST_EN_0,DST_BURST_EN_1,DST_BURST_EN_2,DST_BURST_EN_3"
newline
bitfld.long 0x00 13. "DST_PACKED,Destination receives packed data" "DST_PACKED_0,DST_PACKED_1"
newline
bitfld.long 0x00 7.--8. "SRC_BURST_EN,Used to enable bursting on the Read Port" "SRC_BURST_EN_0,SRC_BURST_EN_1,SRC_BURST_EN_2,SRC_BURST_EN_3"
newline
bitfld.long 0x00 6. "SRC_PACKED,Source provides packed data" "SRC_PACKED_0,SRC_PACKED_1"
newline
bitfld.long 0x00 0.--1. "DATA_TYPE,Defines the type of the data moved in the channel" "DATA_TYPE_0,DATA_TYPE_1,DATA_TYPE_2,DATA_TYPE_3"
group.long 0xA04++0x07
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"
line.long 0x04 "DMA4_CSFIi_25,Channel Source Frame Index (Signed) or 16-bit Packet size"
group.long 0x9EC++0x03
line.long 0x00 "DMA4_CSRi_25,Channel Status Register"
bitfld.long 0x00 14. "SUPER_BLOCK,End of Super block event" "0,1"
newline
bitfld.long 0x00 12. "DRAIN_END,End of channel draining" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ADRS_ERR,Misaligned address error event" "MISALIGNED_ADRS_ERR_0_w,MISALIGNED_ADRS_ERR_1_r"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR,Supervisor transaction error event" "SUPERVISOR_ERR_0_w,SUPERVISOR_ERR_1_r"
newline
bitfld.long 0x00 8. "TRANS_ERR,Transaction error event" "TRANS_ERR_0_w,TRANS_ERR_1_r"
newline
bitfld.long 0x00 7. "PKT,End of Packet transfer" "PKT_0_w,PKT_1_r"
newline
bitfld.long 0x00 6. "SYNC,Synchronization status of a channel" "SYNC_0_w,SYNC_1_r"
newline
bitfld.long 0x00 5. "BLOCK,End of block event" "BLOCK_0_w,BLOCK_1_r"
newline
bitfld.long 0x00 4. "LAST,Last frame (start of last frame)" "LAST_0_w,LAST_1_r"
newline
bitfld.long 0x00 3. "FRAME,End of frame event" "FRAME_0_w,FRAME_1_r"
newline
bitfld.long 0x00 2. "HALF,Half of frame event" "HALF_0_w,HALF_1_r"
newline
bitfld.long 0x00 1. "DROP,Synchronization event drop occured during the transfer" "DROP_0_w,DROP_1_r"
group.long 0x9FC++0x03
line.long 0x00 "DMA4_CSSAi_25,Channel Source Start Address"
tree.end
tree "DMA_Channel_26"
group.long 0xA98++0x03
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"
group.long 0xA7C++0x07
line.long 0x00 "DMA4_CCENi_26,Channel Current Transferred Element Number in the current frame"
hexmask.long.tbyte 0x00 0.--23. 1. "CURRENT_ELMNT_NBR,Channel current transferred element number in the current frame"
line.long 0x04 "DMA4_CCFNi_26,Channel Current Transferred Frame Number in the current transfer"
hexmask.long.word 0x04 0.--15. 1. "CURRENT_FRAME_NBR,Channel current transferred frame number in the current transfer"
group.long 0xA40++0x03
line.long 0x00 "DMA4_CCRi_26,Channel Control Register"
bitfld.long 0x00 26. "WRITE_PRIORITY,Channel priority on the Write side" "WRITE_PRIORITY_0,WRITE_PRIORITY_1"
newline
bitfld.long 0x00 25. "BUFFERING_DISABLE,This bit allows to disable the default buffering functionality when transfer is source synchronized" "BUFFERING_DISABLE_0,BUFFERING_DISABLE_1"
newline
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" "SEL_SRC_DST_SYNC_0,SEL_SRC_DST_SYNC_1"
newline
bitfld.long 0x00 23. "PREFETCH,Enables the prefetch mode" "PREFETCH_0,PREFETCH_1"
newline
bitfld.long 0x00 22. "SUPERVISOR,Enables the supervisor mode" "SUPERVISOR_0,SUPERVISOR_1"
newline
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"
newline
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"
newline
bitfld.long 0x00 17. "TRANSPARENT_COPY_ENABLE,Transparent copy enable" "TRANSPARENT_COPY_ENABLE_0,TRANSPARENT_COPY_ENABLE_1"
newline
bitfld.long 0x00 16. "CONST_FILL_ENABLE,Constant fill enable" "CONST_FILL_ENABLE_0,CONST_FILL_ENABLE_1"
newline
bitfld.long 0x00 14.--15. "DST_AMODE,Selects the addressing mode on the Write Port of a channel" "DST_AMODE_0,DST_AMODE_1,DST_AMODE_2,DST_AMODE_3"
newline
bitfld.long 0x00 12.--13. "SRC_AMODE,Selects the addressing mode on the Read Port of a channel" "SRC_AMODE_0,SRC_AMODE_1,SRC_AMODE_2,SRC_AMODE_3"
newline
rbitfld.long 0x00 10. "WR_ACTIVE,Indicates if the channel write context is active or not" "WR_ACTIVE_0_r,WR_ACTIVE_1_r"
newline
rbitfld.long 0x00 9. "RD_ACTIVE,Indicates if the channel read context is active or not" "RD_ACTIVE_0_r,RD_ACTIVE_1_r"
newline
bitfld.long 0x00 8. "SUSPEND_SENSITIVE,Logical channel suspend enable bit" "SUSPEND_SENSITIVE_0,SUSPEND_SENSITIVE_1"
newline
bitfld.long 0x00 7. "ENABLE,Logical channel enable" "ENABLE_0,ENABLE_1"
newline
bitfld.long 0x00 6. "READ_PRIORITY,Channel priority on the read side" "READ_PRIORITY_0,READ_PRIORITY_1"
newline
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 =" "An entire frame is transferred once a DMA..,A packet is transferred once a DMA request is made"
newline
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)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xA78++0x03
line.long 0x00 "DMA4_CDACi_26,Channel Destination Address Value"
group.long 0xA6C++0x07
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"
line.long 0x04 "DMA4_CDFIi_26,Channel Destination Frame Index (Signed) or 16-bit Packet size"
group.long 0xA90++0x03
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" "FAST_0,FAST_1"
newline
bitfld.long 0x00 8.--9. "TRANSFER_MODE,Enable linked-list transfer mode" "TRANSFER_MODE_0,TRANSFER_MODE_1,TRANSFER_MODE_2,TRANSFER_MODE_3"
newline
bitfld.long 0x00 7. "PAUSE_LINK_LIST,Suspend the linked-list transfer at completion of the current block transfer" "PAUSE_LINK_LIST_0,PAUSE_LINK_LIST_1"
newline
bitfld.long 0x00 4.--6. "NEXT_DESCRIPTOR_TYPE,Next Descriptor Type" "NEXT_DESCRIPTOR_TYPE_0,NEXT_DESCRIPTOR_TYPE_1,NEXT_DESCRIPTOR_TYPE_2,NEXT_DESCRIPTOR_TYPE_3,NEXT_DESCRIPTOR_TYPE_4,NEXT_DESCRIPTOR_TYPE_5,NEXT_DESCRIPTOR_TYPE_6,NEXT_DESCRIPTOR_TYPE_7"
newline
bitfld.long 0x00 2.--3. "SRC_VALID,Source address valid" "SRC_VALID_0,SRC_VALID_1,SRC_VALID_2,SRC_VALID_3"
newline
bitfld.long 0x00 0.--1. "DEST_VALID,Destination address valid" "DEST_VALID_0,DEST_VALID_1,DEST_VALID_2,DEST_VALID_3"
group.long 0xA60++0x03
line.long 0x00 "DMA4_CDSAi_26,Channel Destination Start Address"
group.long 0xA54++0x07
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"
line.long 0x04 "DMA4_CFNi_26,Channel Frame Number"
hexmask.long.word 0x04 0.--15. 1. "CHANNEL_FRAME_NBR,Number of frames within the block to be transferred (unsigned)"
group.long 0xA48++0x03
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"
newline
bitfld.long 0x00 12. "DRAIN_IE,Enables the end of draining interrupt" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ERR_IE,Enables the address misaligned error event interrupt" "MISALIGNED_ERR_IE_0,MISALIGNED_ERR_IE_1"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR_IE,Enables the supervisor transaction error event interrupt" "SUPERVISOR_ERR_IE_0,SUPERVISOR_ERR_IE_1"
newline
bitfld.long 0x00 8. "TRANS_ERR_IE,Enables the transaction error event interrupt" "TRANS_ERR_IE_0,TRANS_ERR_IE_1"
newline
bitfld.long 0x00 7. "PKT_IE,Enables the end of Packet interrupt" "PKT_IE_0,PKT_IE_1"
newline
bitfld.long 0x00 5. "BLOCK_IE,Enables the end of block interrupt" "BLOCK_IE_0,BLOCK_IE_1"
newline
bitfld.long 0x00 4. "LAST_IE,Last frame interrupt enable (start of last frame)" "LAST_IE_0,LAST_IE_1"
newline
bitfld.long 0x00 3. "FRAME_IE,Frame interrupt enable (end of frame)" "FRAME_IE_0,FRAME_IE_1"
newline
bitfld.long 0x00 2. "HALF_IE,Enables or disables the half frame interrupt" "HALF_IE_0,HALF_IE_1"
newline
bitfld.long 0x00 1. "DROP_IE,Synchronization event drop interrupt enable (request collision)" "DROP_IE_0,DROP_IE_1"
group.long 0xA44++0x03
line.long 0x00 "DMA4_CLNK_CTRLi_26,Channel Link Control Register"
bitfld.long 0x00 15. "ENABLE_LNK,Enables or disable the channel linking" "ENABLE_LNK_0,ENABLE_LNK_1"
newline
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++0x03
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++0x03
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"
rgroup.long 0xA74++0x03
line.long 0x00 "DMA4_CSACi_26,Channel Source Address Value"
group.long 0xA50++0x03
line.long 0x00 "DMA4_CSDPi_26,Channel Source Destination Parameters"
bitfld.long 0x00 21. "SRC_ENDIAN,Channel source endianness control" "SRC_ENDIAN_0,SRC_ENDIAN_1"
newline
bitfld.long 0x00 20. "SRC_ENDIAN_LOCK,Endianness Lock" "SRC_ENDIAN_LOCK_0,SRC_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 19. "DST_ENDIAN,Channel Destination endianness control" "DST_ENDIAN_0,DST_ENDIAN_1"
newline
bitfld.long 0x00 18. "DST_ENDIAN_LOCK,Endianness Lock" "DST_ENDIAN_LOCK_0,DST_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 16.--17. "WRITE_MODE,Used to enable writing mode without posting or with posting" "WRITE_MODE_0,WRITE_MODE_1,WRITE_MODE_2,WRITE_MODE_3"
newline
bitfld.long 0x00 14.--15. "DST_BURST_EN,Used to enable bursting on the Write Port" "DST_BURST_EN_0,DST_BURST_EN_1,DST_BURST_EN_2,DST_BURST_EN_3"
newline
bitfld.long 0x00 13. "DST_PACKED,Destination receives packed data" "DST_PACKED_0,DST_PACKED_1"
newline
bitfld.long 0x00 7.--8. "SRC_BURST_EN,Used to enable bursting on the Read Port" "SRC_BURST_EN_0,SRC_BURST_EN_1,SRC_BURST_EN_2,SRC_BURST_EN_3"
newline
bitfld.long 0x00 6. "SRC_PACKED,Source provides packed data" "SRC_PACKED_0,SRC_PACKED_1"
newline
bitfld.long 0x00 0.--1. "DATA_TYPE,Defines the type of the data moved in the channel" "DATA_TYPE_0,DATA_TYPE_1,DATA_TYPE_2,DATA_TYPE_3"
group.long 0xA64++0x07
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"
line.long 0x04 "DMA4_CSFIi_26,Channel Source Frame Index (Signed) or 16-bit Packet size"
group.long 0xA4C++0x03
line.long 0x00 "DMA4_CSRi_26,Channel Status Register"
bitfld.long 0x00 14. "SUPER_BLOCK,End of Super block event" "0,1"
newline
bitfld.long 0x00 12. "DRAIN_END,End of channel draining" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ADRS_ERR,Misaligned address error event" "MISALIGNED_ADRS_ERR_0_w,MISALIGNED_ADRS_ERR_1_r"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR,Supervisor transaction error event" "SUPERVISOR_ERR_0_w,SUPERVISOR_ERR_1_r"
newline
bitfld.long 0x00 8. "TRANS_ERR,Transaction error event" "TRANS_ERR_0_w,TRANS_ERR_1_r"
newline
bitfld.long 0x00 7. "PKT,End of Packet transfer" "PKT_0_w,PKT_1_r"
newline
bitfld.long 0x00 6. "SYNC,Synchronization status of a channel" "SYNC_0_w,SYNC_1_r"
newline
bitfld.long 0x00 5. "BLOCK,End of block event" "BLOCK_0_w,BLOCK_1_r"
newline
bitfld.long 0x00 4. "LAST,Last frame (start of last frame)" "LAST_0_w,LAST_1_r"
newline
bitfld.long 0x00 3. "FRAME,End of frame event" "FRAME_0_w,FRAME_1_r"
newline
bitfld.long 0x00 2. "HALF,Half of frame event" "HALF_0_w,HALF_1_r"
newline
bitfld.long 0x00 1. "DROP,Synchronization event drop occured during the transfer" "DROP_0_w,DROP_1_r"
group.long 0xA5C++0x03
line.long 0x00 "DMA4_CSSAi_26,Channel Source Start Address"
tree.end
tree "DMA_Channel_27"
group.long 0xAF8++0x03
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"
group.long 0xADC++0x07
line.long 0x00 "DMA4_CCENi_27,Channel Current Transferred Element Number in the current frame"
hexmask.long.tbyte 0x00 0.--23. 1. "CURRENT_ELMNT_NBR,Channel current transferred element number in the current frame"
line.long 0x04 "DMA4_CCFNi_27,Channel Current Transferred Frame Number in the current transfer"
hexmask.long.word 0x04 0.--15. 1. "CURRENT_FRAME_NBR,Channel current transferred frame number in the current transfer"
group.long 0xAA0++0x03
line.long 0x00 "DMA4_CCRi_27,Channel Control Register"
bitfld.long 0x00 26. "WRITE_PRIORITY,Channel priority on the Write side" "WRITE_PRIORITY_0,WRITE_PRIORITY_1"
newline
bitfld.long 0x00 25. "BUFFERING_DISABLE,This bit allows to disable the default buffering functionality when transfer is source synchronized" "BUFFERING_DISABLE_0,BUFFERING_DISABLE_1"
newline
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" "SEL_SRC_DST_SYNC_0,SEL_SRC_DST_SYNC_1"
newline
bitfld.long 0x00 23. "PREFETCH,Enables the prefetch mode" "PREFETCH_0,PREFETCH_1"
newline
bitfld.long 0x00 22. "SUPERVISOR,Enables the supervisor mode" "SUPERVISOR_0,SUPERVISOR_1"
newline
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"
newline
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"
newline
bitfld.long 0x00 17. "TRANSPARENT_COPY_ENABLE,Transparent copy enable" "TRANSPARENT_COPY_ENABLE_0,TRANSPARENT_COPY_ENABLE_1"
newline
bitfld.long 0x00 16. "CONST_FILL_ENABLE,Constant fill enable" "CONST_FILL_ENABLE_0,CONST_FILL_ENABLE_1"
newline
bitfld.long 0x00 14.--15. "DST_AMODE,Selects the addressing mode on the Write Port of a channel" "DST_AMODE_0,DST_AMODE_1,DST_AMODE_2,DST_AMODE_3"
newline
bitfld.long 0x00 12.--13. "SRC_AMODE,Selects the addressing mode on the Read Port of a channel" "SRC_AMODE_0,SRC_AMODE_1,SRC_AMODE_2,SRC_AMODE_3"
newline
rbitfld.long 0x00 10. "WR_ACTIVE,Indicates if the channel write context is active or not" "WR_ACTIVE_0_r,WR_ACTIVE_1_r"
newline
rbitfld.long 0x00 9. "RD_ACTIVE,Indicates if the channel read context is active or not" "RD_ACTIVE_0_r,RD_ACTIVE_1_r"
newline
bitfld.long 0x00 8. "SUSPEND_SENSITIVE,Logical channel suspend enable bit" "SUSPEND_SENSITIVE_0,SUSPEND_SENSITIVE_1"
newline
bitfld.long 0x00 7. "ENABLE,Logical channel enable" "ENABLE_0,ENABLE_1"
newline
bitfld.long 0x00 6. "READ_PRIORITY,Channel priority on the read side" "READ_PRIORITY_0,READ_PRIORITY_1"
newline
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 =" "An entire frame is transferred once a DMA..,A packet is transferred once a DMA request is made"
newline
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)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xAD8++0x03
line.long 0x00 "DMA4_CDACi_27,Channel Destination Address Value"
group.long 0xACC++0x07
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"
line.long 0x04 "DMA4_CDFIi_27,Channel Destination Frame Index (Signed) or 16-bit Packet size"
group.long 0xAF0++0x03
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" "FAST_0,FAST_1"
newline
bitfld.long 0x00 8.--9. "TRANSFER_MODE,Enable linked-list transfer mode" "TRANSFER_MODE_0,TRANSFER_MODE_1,TRANSFER_MODE_2,TRANSFER_MODE_3"
newline
bitfld.long 0x00 7. "PAUSE_LINK_LIST,Suspend the linked-list transfer at completion of the current block transfer" "PAUSE_LINK_LIST_0,PAUSE_LINK_LIST_1"
newline
bitfld.long 0x00 4.--6. "NEXT_DESCRIPTOR_TYPE,Next Descriptor Type" "NEXT_DESCRIPTOR_TYPE_0,NEXT_DESCRIPTOR_TYPE_1,NEXT_DESCRIPTOR_TYPE_2,NEXT_DESCRIPTOR_TYPE_3,NEXT_DESCRIPTOR_TYPE_4,NEXT_DESCRIPTOR_TYPE_5,NEXT_DESCRIPTOR_TYPE_6,NEXT_DESCRIPTOR_TYPE_7"
newline
bitfld.long 0x00 2.--3. "SRC_VALID,Source address valid" "SRC_VALID_0,SRC_VALID_1,SRC_VALID_2,SRC_VALID_3"
newline
bitfld.long 0x00 0.--1. "DEST_VALID,Destination address valid" "DEST_VALID_0,DEST_VALID_1,DEST_VALID_2,DEST_VALID_3"
group.long 0xAC0++0x03
line.long 0x00 "DMA4_CDSAi_27,Channel Destination Start Address"
group.long 0xAB4++0x07
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"
line.long 0x04 "DMA4_CFNi_27,Channel Frame Number"
hexmask.long.word 0x04 0.--15. 1. "CHANNEL_FRAME_NBR,Number of frames within the block to be transferred (unsigned)"
group.long 0xAA8++0x03
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"
newline
bitfld.long 0x00 12. "DRAIN_IE,Enables the end of draining interrupt" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ERR_IE,Enables the address misaligned error event interrupt" "MISALIGNED_ERR_IE_0,MISALIGNED_ERR_IE_1"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR_IE,Enables the supervisor transaction error event interrupt" "SUPERVISOR_ERR_IE_0,SUPERVISOR_ERR_IE_1"
newline
bitfld.long 0x00 8. "TRANS_ERR_IE,Enables the transaction error event interrupt" "TRANS_ERR_IE_0,TRANS_ERR_IE_1"
newline
bitfld.long 0x00 7. "PKT_IE,Enables the end of Packet interrupt" "PKT_IE_0,PKT_IE_1"
newline
bitfld.long 0x00 5. "BLOCK_IE,Enables the end of block interrupt" "BLOCK_IE_0,BLOCK_IE_1"
newline
bitfld.long 0x00 4. "LAST_IE,Last frame interrupt enable (start of last frame)" "LAST_IE_0,LAST_IE_1"
newline
bitfld.long 0x00 3. "FRAME_IE,Frame interrupt enable (end of frame)" "FRAME_IE_0,FRAME_IE_1"
newline
bitfld.long 0x00 2. "HALF_IE,Enables or disables the half frame interrupt" "HALF_IE_0,HALF_IE_1"
newline
bitfld.long 0x00 1. "DROP_IE,Synchronization event drop interrupt enable (request collision)" "DROP_IE_0,DROP_IE_1"
group.long 0xAA4++0x03
line.long 0x00 "DMA4_CLNK_CTRLi_27,Channel Link Control Register"
bitfld.long 0x00 15. "ENABLE_LNK,Enables or disable the channel linking" "ENABLE_LNK_0,ENABLE_LNK_1"
newline
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++0x03
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++0x03
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"
rgroup.long 0xAD4++0x03
line.long 0x00 "DMA4_CSACi_27,Channel Source Address Value"
group.long 0xAB0++0x03
line.long 0x00 "DMA4_CSDPi_27,Channel Source Destination Parameters"
bitfld.long 0x00 21. "SRC_ENDIAN,Channel source endianness control" "SRC_ENDIAN_0,SRC_ENDIAN_1"
newline
bitfld.long 0x00 20. "SRC_ENDIAN_LOCK,Endianness Lock" "SRC_ENDIAN_LOCK_0,SRC_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 19. "DST_ENDIAN,Channel Destination endianness control" "DST_ENDIAN_0,DST_ENDIAN_1"
newline
bitfld.long 0x00 18. "DST_ENDIAN_LOCK,Endianness Lock" "DST_ENDIAN_LOCK_0,DST_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 16.--17. "WRITE_MODE,Used to enable writing mode without posting or with posting" "WRITE_MODE_0,WRITE_MODE_1,WRITE_MODE_2,WRITE_MODE_3"
newline
bitfld.long 0x00 14.--15. "DST_BURST_EN,Used to enable bursting on the Write Port" "DST_BURST_EN_0,DST_BURST_EN_1,DST_BURST_EN_2,DST_BURST_EN_3"
newline
bitfld.long 0x00 13. "DST_PACKED,Destination receives packed data" "DST_PACKED_0,DST_PACKED_1"
newline
bitfld.long 0x00 7.--8. "SRC_BURST_EN,Used to enable bursting on the Read Port" "SRC_BURST_EN_0,SRC_BURST_EN_1,SRC_BURST_EN_2,SRC_BURST_EN_3"
newline
bitfld.long 0x00 6. "SRC_PACKED,Source provides packed data" "SRC_PACKED_0,SRC_PACKED_1"
newline
bitfld.long 0x00 0.--1. "DATA_TYPE,Defines the type of the data moved in the channel" "DATA_TYPE_0,DATA_TYPE_1,DATA_TYPE_2,DATA_TYPE_3"
group.long 0xAC4++0x07
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"
line.long 0x04 "DMA4_CSFIi_27,Channel Source Frame Index (Signed) or 16-bit Packet size"
group.long 0xAAC++0x03
line.long 0x00 "DMA4_CSRi_27,Channel Status Register"
bitfld.long 0x00 14. "SUPER_BLOCK,End of Super block event" "0,1"
newline
bitfld.long 0x00 12. "DRAIN_END,End of channel draining" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ADRS_ERR,Misaligned address error event" "MISALIGNED_ADRS_ERR_0_w,MISALIGNED_ADRS_ERR_1_r"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR,Supervisor transaction error event" "SUPERVISOR_ERR_0_w,SUPERVISOR_ERR_1_r"
newline
bitfld.long 0x00 8. "TRANS_ERR,Transaction error event" "TRANS_ERR_0_w,TRANS_ERR_1_r"
newline
bitfld.long 0x00 7. "PKT,End of Packet transfer" "PKT_0_w,PKT_1_r"
newline
bitfld.long 0x00 6. "SYNC,Synchronization status of a channel" "SYNC_0_w,SYNC_1_r"
newline
bitfld.long 0x00 5. "BLOCK,End of block event" "BLOCK_0_w,BLOCK_1_r"
newline
bitfld.long 0x00 4. "LAST,Last frame (start of last frame)" "LAST_0_w,LAST_1_r"
newline
bitfld.long 0x00 3. "FRAME,End of frame event" "FRAME_0_w,FRAME_1_r"
newline
bitfld.long 0x00 2. "HALF,Half of frame event" "HALF_0_w,HALF_1_r"
newline
bitfld.long 0x00 1. "DROP,Synchronization event drop occured during the transfer" "DROP_0_w,DROP_1_r"
group.long 0xABC++0x03
line.long 0x00 "DMA4_CSSAi_27,Channel Source Start Address"
tree.end
tree "DMA_Channel_28"
group.long 0xB58++0x03
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"
group.long 0xB3C++0x07
line.long 0x00 "DMA4_CCENi_28,Channel Current Transferred Element Number in the current frame"
hexmask.long.tbyte 0x00 0.--23. 1. "CURRENT_ELMNT_NBR,Channel current transferred element number in the current frame"
line.long 0x04 "DMA4_CCFNi_28,Channel Current Transferred Frame Number in the current transfer"
hexmask.long.word 0x04 0.--15. 1. "CURRENT_FRAME_NBR,Channel current transferred frame number in the current transfer"
group.long 0xB00++0x03
line.long 0x00 "DMA4_CCRi_28,Channel Control Register"
bitfld.long 0x00 26. "WRITE_PRIORITY,Channel priority on the Write side" "WRITE_PRIORITY_0,WRITE_PRIORITY_1"
newline
bitfld.long 0x00 25. "BUFFERING_DISABLE,This bit allows to disable the default buffering functionality when transfer is source synchronized" "BUFFERING_DISABLE_0,BUFFERING_DISABLE_1"
newline
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" "SEL_SRC_DST_SYNC_0,SEL_SRC_DST_SYNC_1"
newline
bitfld.long 0x00 23. "PREFETCH,Enables the prefetch mode" "PREFETCH_0,PREFETCH_1"
newline
bitfld.long 0x00 22. "SUPERVISOR,Enables the supervisor mode" "SUPERVISOR_0,SUPERVISOR_1"
newline
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"
newline
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"
newline
bitfld.long 0x00 17. "TRANSPARENT_COPY_ENABLE,Transparent copy enable" "TRANSPARENT_COPY_ENABLE_0,TRANSPARENT_COPY_ENABLE_1"
newline
bitfld.long 0x00 16. "CONST_FILL_ENABLE,Constant fill enable" "CONST_FILL_ENABLE_0,CONST_FILL_ENABLE_1"
newline
bitfld.long 0x00 14.--15. "DST_AMODE,Selects the addressing mode on the Write Port of a channel" "DST_AMODE_0,DST_AMODE_1,DST_AMODE_2,DST_AMODE_3"
newline
bitfld.long 0x00 12.--13. "SRC_AMODE,Selects the addressing mode on the Read Port of a channel" "SRC_AMODE_0,SRC_AMODE_1,SRC_AMODE_2,SRC_AMODE_3"
newline
rbitfld.long 0x00 10. "WR_ACTIVE,Indicates if the channel write context is active or not" "WR_ACTIVE_0_r,WR_ACTIVE_1_r"
newline
rbitfld.long 0x00 9. "RD_ACTIVE,Indicates if the channel read context is active or not" "RD_ACTIVE_0_r,RD_ACTIVE_1_r"
newline
bitfld.long 0x00 8. "SUSPEND_SENSITIVE,Logical channel suspend enable bit" "SUSPEND_SENSITIVE_0,SUSPEND_SENSITIVE_1"
newline
bitfld.long 0x00 7. "ENABLE,Logical channel enable" "ENABLE_0,ENABLE_1"
newline
bitfld.long 0x00 6. "READ_PRIORITY,Channel priority on the read side" "READ_PRIORITY_0,READ_PRIORITY_1"
newline
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 =" "An entire frame is transferred once a DMA..,A packet is transferred once a DMA request is made"
newline
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)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xB38++0x03
line.long 0x00 "DMA4_CDACi_28,Channel Destination Address Value"
group.long 0xB2C++0x07
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"
line.long 0x04 "DMA4_CDFIi_28,Channel Destination Frame Index (Signed) or 16-bit Packet size"
group.long 0xB50++0x03
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" "FAST_0,FAST_1"
newline
bitfld.long 0x00 8.--9. "TRANSFER_MODE,Enable linked-list transfer mode" "TRANSFER_MODE_0,TRANSFER_MODE_1,TRANSFER_MODE_2,TRANSFER_MODE_3"
newline
bitfld.long 0x00 7. "PAUSE_LINK_LIST,Suspend the linked-list transfer at completion of the current block transfer" "PAUSE_LINK_LIST_0,PAUSE_LINK_LIST_1"
newline
bitfld.long 0x00 4.--6. "NEXT_DESCRIPTOR_TYPE,Next Descriptor Type" "NEXT_DESCRIPTOR_TYPE_0,NEXT_DESCRIPTOR_TYPE_1,NEXT_DESCRIPTOR_TYPE_2,NEXT_DESCRIPTOR_TYPE_3,NEXT_DESCRIPTOR_TYPE_4,NEXT_DESCRIPTOR_TYPE_5,NEXT_DESCRIPTOR_TYPE_6,NEXT_DESCRIPTOR_TYPE_7"
newline
bitfld.long 0x00 2.--3. "SRC_VALID,Source address valid" "SRC_VALID_0,SRC_VALID_1,SRC_VALID_2,SRC_VALID_3"
newline
bitfld.long 0x00 0.--1. "DEST_VALID,Destination address valid" "DEST_VALID_0,DEST_VALID_1,DEST_VALID_2,DEST_VALID_3"
group.long 0xB20++0x03
line.long 0x00 "DMA4_CDSAi_28,Channel Destination Start Address"
group.long 0xB14++0x07
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"
line.long 0x04 "DMA4_CFNi_28,Channel Frame Number"
hexmask.long.word 0x04 0.--15. 1. "CHANNEL_FRAME_NBR,Number of frames within the block to be transferred (unsigned)"
group.long 0xB08++0x03
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"
newline
bitfld.long 0x00 12. "DRAIN_IE,Enables the end of draining interrupt" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ERR_IE,Enables the address misaligned error event interrupt" "MISALIGNED_ERR_IE_0,MISALIGNED_ERR_IE_1"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR_IE,Enables the supervisor transaction error event interrupt" "SUPERVISOR_ERR_IE_0,SUPERVISOR_ERR_IE_1"
newline
bitfld.long 0x00 8. "TRANS_ERR_IE,Enables the transaction error event interrupt" "TRANS_ERR_IE_0,TRANS_ERR_IE_1"
newline
bitfld.long 0x00 7. "PKT_IE,Enables the end of Packet interrupt" "PKT_IE_0,PKT_IE_1"
newline
bitfld.long 0x00 5. "BLOCK_IE,Enables the end of block interrupt" "BLOCK_IE_0,BLOCK_IE_1"
newline
bitfld.long 0x00 4. "LAST_IE,Last frame interrupt enable (start of last frame)" "LAST_IE_0,LAST_IE_1"
newline
bitfld.long 0x00 3. "FRAME_IE,Frame interrupt enable (end of frame)" "FRAME_IE_0,FRAME_IE_1"
newline
bitfld.long 0x00 2. "HALF_IE,Enables or disables the half frame interrupt" "HALF_IE_0,HALF_IE_1"
newline
bitfld.long 0x00 1. "DROP_IE,Synchronization event drop interrupt enable (request collision)" "DROP_IE_0,DROP_IE_1"
group.long 0xB04++0x03
line.long 0x00 "DMA4_CLNK_CTRLi_28,Channel Link Control Register"
bitfld.long 0x00 15. "ENABLE_LNK,Enables or disable the channel linking" "ENABLE_LNK_0,ENABLE_LNK_1"
newline
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++0x03
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++0x03
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"
rgroup.long 0xB34++0x03
line.long 0x00 "DMA4_CSACi_28,Channel Source Address Value"
group.long 0xB10++0x03
line.long 0x00 "DMA4_CSDPi_28,Channel Source Destination Parameters"
bitfld.long 0x00 21. "SRC_ENDIAN,Channel source endianness control" "SRC_ENDIAN_0,SRC_ENDIAN_1"
newline
bitfld.long 0x00 20. "SRC_ENDIAN_LOCK,Endianness Lock" "SRC_ENDIAN_LOCK_0,SRC_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 19. "DST_ENDIAN,Channel Destination endianness control" "DST_ENDIAN_0,DST_ENDIAN_1"
newline
bitfld.long 0x00 18. "DST_ENDIAN_LOCK,Endianness Lock" "DST_ENDIAN_LOCK_0,DST_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 16.--17. "WRITE_MODE,Used to enable writing mode without posting or with posting" "WRITE_MODE_0,WRITE_MODE_1,WRITE_MODE_2,WRITE_MODE_3"
newline
bitfld.long 0x00 14.--15. "DST_BURST_EN,Used to enable bursting on the Write Port" "DST_BURST_EN_0,DST_BURST_EN_1,DST_BURST_EN_2,DST_BURST_EN_3"
newline
bitfld.long 0x00 13. "DST_PACKED,Destination receives packed data" "DST_PACKED_0,DST_PACKED_1"
newline
bitfld.long 0x00 7.--8. "SRC_BURST_EN,Used to enable bursting on the Read Port" "SRC_BURST_EN_0,SRC_BURST_EN_1,SRC_BURST_EN_2,SRC_BURST_EN_3"
newline
bitfld.long 0x00 6. "SRC_PACKED,Source provides packed data" "SRC_PACKED_0,SRC_PACKED_1"
newline
bitfld.long 0x00 0.--1. "DATA_TYPE,Defines the type of the data moved in the channel" "DATA_TYPE_0,DATA_TYPE_1,DATA_TYPE_2,DATA_TYPE_3"
group.long 0xB24++0x07
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"
line.long 0x04 "DMA4_CSFIi_28,Channel Source Frame Index (Signed) or 16-bit Packet size"
group.long 0xB0C++0x03
line.long 0x00 "DMA4_CSRi_28,Channel Status Register"
bitfld.long 0x00 14. "SUPER_BLOCK,End of Super block event" "0,1"
newline
bitfld.long 0x00 12. "DRAIN_END,End of channel draining" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ADRS_ERR,Misaligned address error event" "MISALIGNED_ADRS_ERR_0_w,MISALIGNED_ADRS_ERR_1_r"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR,Supervisor transaction error event" "SUPERVISOR_ERR_0_w,SUPERVISOR_ERR_1_r"
newline
bitfld.long 0x00 8. "TRANS_ERR,Transaction error event" "TRANS_ERR_0_w,TRANS_ERR_1_r"
newline
bitfld.long 0x00 7. "PKT,End of Packet transfer" "PKT_0_w,PKT_1_r"
newline
bitfld.long 0x00 6. "SYNC,Synchronization status of a channel" "SYNC_0_w,SYNC_1_r"
newline
bitfld.long 0x00 5. "BLOCK,End of block event" "BLOCK_0_w,BLOCK_1_r"
newline
bitfld.long 0x00 4. "LAST,Last frame (start of last frame)" "LAST_0_w,LAST_1_r"
newline
bitfld.long 0x00 3. "FRAME,End of frame event" "FRAME_0_w,FRAME_1_r"
newline
bitfld.long 0x00 2. "HALF,Half of frame event" "HALF_0_w,HALF_1_r"
newline
bitfld.long 0x00 1. "DROP,Synchronization event drop occured during the transfer" "DROP_0_w,DROP_1_r"
group.long 0xB1C++0x03
line.long 0x00 "DMA4_CSSAi_28,Channel Source Start Address"
tree.end
tree "DMA_Channel_29"
group.long 0xBB8++0x03
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"
group.long 0xB9C++0x07
line.long 0x00 "DMA4_CCENi_29,Channel Current Transferred Element Number in the current frame"
hexmask.long.tbyte 0x00 0.--23. 1. "CURRENT_ELMNT_NBR,Channel current transferred element number in the current frame"
line.long 0x04 "DMA4_CCFNi_29,Channel Current Transferred Frame Number in the current transfer"
hexmask.long.word 0x04 0.--15. 1. "CURRENT_FRAME_NBR,Channel current transferred frame number in the current transfer"
group.long 0xB60++0x03
line.long 0x00 "DMA4_CCRi_29,Channel Control Register"
bitfld.long 0x00 26. "WRITE_PRIORITY,Channel priority on the Write side" "WRITE_PRIORITY_0,WRITE_PRIORITY_1"
newline
bitfld.long 0x00 25. "BUFFERING_DISABLE,This bit allows to disable the default buffering functionality when transfer is source synchronized" "BUFFERING_DISABLE_0,BUFFERING_DISABLE_1"
newline
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" "SEL_SRC_DST_SYNC_0,SEL_SRC_DST_SYNC_1"
newline
bitfld.long 0x00 23. "PREFETCH,Enables the prefetch mode" "PREFETCH_0,PREFETCH_1"
newline
bitfld.long 0x00 22. "SUPERVISOR,Enables the supervisor mode" "SUPERVISOR_0,SUPERVISOR_1"
newline
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"
newline
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"
newline
bitfld.long 0x00 17. "TRANSPARENT_COPY_ENABLE,Transparent copy enable" "TRANSPARENT_COPY_ENABLE_0,TRANSPARENT_COPY_ENABLE_1"
newline
bitfld.long 0x00 16. "CONST_FILL_ENABLE,Constant fill enable" "CONST_FILL_ENABLE_0,CONST_FILL_ENABLE_1"
newline
bitfld.long 0x00 14.--15. "DST_AMODE,Selects the addressing mode on the Write Port of a channel" "DST_AMODE_0,DST_AMODE_1,DST_AMODE_2,DST_AMODE_3"
newline
bitfld.long 0x00 12.--13. "SRC_AMODE,Selects the addressing mode on the Read Port of a channel" "SRC_AMODE_0,SRC_AMODE_1,SRC_AMODE_2,SRC_AMODE_3"
newline
rbitfld.long 0x00 10. "WR_ACTIVE,Indicates if the channel write context is active or not" "WR_ACTIVE_0_r,WR_ACTIVE_1_r"
newline
rbitfld.long 0x00 9. "RD_ACTIVE,Indicates if the channel read context is active or not" "RD_ACTIVE_0_r,RD_ACTIVE_1_r"
newline
bitfld.long 0x00 8. "SUSPEND_SENSITIVE,Logical channel suspend enable bit" "SUSPEND_SENSITIVE_0,SUSPEND_SENSITIVE_1"
newline
bitfld.long 0x00 7. "ENABLE,Logical channel enable" "ENABLE_0,ENABLE_1"
newline
bitfld.long 0x00 6. "READ_PRIORITY,Channel priority on the read side" "READ_PRIORITY_0,READ_PRIORITY_1"
newline
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 =" "An entire frame is transferred once a DMA..,A packet is transferred once a DMA request is made"
newline
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)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xB98++0x03
line.long 0x00 "DMA4_CDACi_29,Channel Destination Address Value"
group.long 0xB8C++0x07
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"
line.long 0x04 "DMA4_CDFIi_29,Channel Destination Frame Index (Signed) or 16-bit Packet size"
group.long 0xBB0++0x03
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" "FAST_0,FAST_1"
newline
bitfld.long 0x00 8.--9. "TRANSFER_MODE,Enable linked-list transfer mode" "TRANSFER_MODE_0,TRANSFER_MODE_1,TRANSFER_MODE_2,TRANSFER_MODE_3"
newline
bitfld.long 0x00 7. "PAUSE_LINK_LIST,Suspend the linked-list transfer at completion of the current block transfer" "PAUSE_LINK_LIST_0,PAUSE_LINK_LIST_1"
newline
bitfld.long 0x00 4.--6. "NEXT_DESCRIPTOR_TYPE,Next Descriptor Type" "NEXT_DESCRIPTOR_TYPE_0,NEXT_DESCRIPTOR_TYPE_1,NEXT_DESCRIPTOR_TYPE_2,NEXT_DESCRIPTOR_TYPE_3,NEXT_DESCRIPTOR_TYPE_4,NEXT_DESCRIPTOR_TYPE_5,NEXT_DESCRIPTOR_TYPE_6,NEXT_DESCRIPTOR_TYPE_7"
newline
bitfld.long 0x00 2.--3. "SRC_VALID,Source address valid" "SRC_VALID_0,SRC_VALID_1,SRC_VALID_2,SRC_VALID_3"
newline
bitfld.long 0x00 0.--1. "DEST_VALID,Destination address valid" "DEST_VALID_0,DEST_VALID_1,DEST_VALID_2,DEST_VALID_3"
group.long 0xB80++0x03
line.long 0x00 "DMA4_CDSAi_29,Channel Destination Start Address"
group.long 0xB74++0x07
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"
line.long 0x04 "DMA4_CFNi_29,Channel Frame Number"
hexmask.long.word 0x04 0.--15. 1. "CHANNEL_FRAME_NBR,Number of frames within the block to be transferred (unsigned)"
group.long 0xB68++0x03
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"
newline
bitfld.long 0x00 12. "DRAIN_IE,Enables the end of draining interrupt" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ERR_IE,Enables the address misaligned error event interrupt" "MISALIGNED_ERR_IE_0,MISALIGNED_ERR_IE_1"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR_IE,Enables the supervisor transaction error event interrupt" "SUPERVISOR_ERR_IE_0,SUPERVISOR_ERR_IE_1"
newline
bitfld.long 0x00 8. "TRANS_ERR_IE,Enables the transaction error event interrupt" "TRANS_ERR_IE_0,TRANS_ERR_IE_1"
newline
bitfld.long 0x00 7. "PKT_IE,Enables the end of Packet interrupt" "PKT_IE_0,PKT_IE_1"
newline
bitfld.long 0x00 5. "BLOCK_IE,Enables the end of block interrupt" "BLOCK_IE_0,BLOCK_IE_1"
newline
bitfld.long 0x00 4. "LAST_IE,Last frame interrupt enable (start of last frame)" "LAST_IE_0,LAST_IE_1"
newline
bitfld.long 0x00 3. "FRAME_IE,Frame interrupt enable (end of frame)" "FRAME_IE_0,FRAME_IE_1"
newline
bitfld.long 0x00 2. "HALF_IE,Enables or disables the half frame interrupt" "HALF_IE_0,HALF_IE_1"
newline
bitfld.long 0x00 1. "DROP_IE,Synchronization event drop interrupt enable (request collision)" "DROP_IE_0,DROP_IE_1"
group.long 0xB64++0x03
line.long 0x00 "DMA4_CLNK_CTRLi_29,Channel Link Control Register"
bitfld.long 0x00 15. "ENABLE_LNK,Enables or disable the channel linking" "ENABLE_LNK_0,ENABLE_LNK_1"
newline
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++0x03
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++0x03
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"
rgroup.long 0xB94++0x03
line.long 0x00 "DMA4_CSACi_29,Channel Source Address Value"
group.long 0xB70++0x03
line.long 0x00 "DMA4_CSDPi_29,Channel Source Destination Parameters"
bitfld.long 0x00 21. "SRC_ENDIAN,Channel source endianness control" "SRC_ENDIAN_0,SRC_ENDIAN_1"
newline
bitfld.long 0x00 20. "SRC_ENDIAN_LOCK,Endianness Lock" "SRC_ENDIAN_LOCK_0,SRC_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 19. "DST_ENDIAN,Channel Destination endianness control" "DST_ENDIAN_0,DST_ENDIAN_1"
newline
bitfld.long 0x00 18. "DST_ENDIAN_LOCK,Endianness Lock" "DST_ENDIAN_LOCK_0,DST_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 16.--17. "WRITE_MODE,Used to enable writing mode without posting or with posting" "WRITE_MODE_0,WRITE_MODE_1,WRITE_MODE_2,WRITE_MODE_3"
newline
bitfld.long 0x00 14.--15. "DST_BURST_EN,Used to enable bursting on the Write Port" "DST_BURST_EN_0,DST_BURST_EN_1,DST_BURST_EN_2,DST_BURST_EN_3"
newline
bitfld.long 0x00 13. "DST_PACKED,Destination receives packed data" "DST_PACKED_0,DST_PACKED_1"
newline
bitfld.long 0x00 7.--8. "SRC_BURST_EN,Used to enable bursting on the Read Port" "SRC_BURST_EN_0,SRC_BURST_EN_1,SRC_BURST_EN_2,SRC_BURST_EN_3"
newline
bitfld.long 0x00 6. "SRC_PACKED,Source provides packed data" "SRC_PACKED_0,SRC_PACKED_1"
newline
bitfld.long 0x00 0.--1. "DATA_TYPE,Defines the type of the data moved in the channel" "DATA_TYPE_0,DATA_TYPE_1,DATA_TYPE_2,DATA_TYPE_3"
group.long 0xB84++0x07
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"
line.long 0x04 "DMA4_CSFIi_29,Channel Source Frame Index (Signed) or 16-bit Packet size"
group.long 0xB6C++0x03
line.long 0x00 "DMA4_CSRi_29,Channel Status Register"
bitfld.long 0x00 14. "SUPER_BLOCK,End of Super block event" "0,1"
newline
bitfld.long 0x00 12. "DRAIN_END,End of channel draining" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ADRS_ERR,Misaligned address error event" "MISALIGNED_ADRS_ERR_0_w,MISALIGNED_ADRS_ERR_1_r"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR,Supervisor transaction error event" "SUPERVISOR_ERR_0_w,SUPERVISOR_ERR_1_r"
newline
bitfld.long 0x00 8. "TRANS_ERR,Transaction error event" "TRANS_ERR_0_w,TRANS_ERR_1_r"
newline
bitfld.long 0x00 7. "PKT,End of Packet transfer" "PKT_0_w,PKT_1_r"
newline
bitfld.long 0x00 6. "SYNC,Synchronization status of a channel" "SYNC_0_w,SYNC_1_r"
newline
bitfld.long 0x00 5. "BLOCK,End of block event" "BLOCK_0_w,BLOCK_1_r"
newline
bitfld.long 0x00 4. "LAST,Last frame (start of last frame)" "LAST_0_w,LAST_1_r"
newline
bitfld.long 0x00 3. "FRAME,End of frame event" "FRAME_0_w,FRAME_1_r"
newline
bitfld.long 0x00 2. "HALF,Half of frame event" "HALF_0_w,HALF_1_r"
newline
bitfld.long 0x00 1. "DROP,Synchronization event drop occured during the transfer" "DROP_0_w,DROP_1_r"
group.long 0xB7C++0x03
line.long 0x00 "DMA4_CSSAi_29,Channel Source Start Address"
tree.end
tree "DMA_Channel_3"
group.long 0x1F8++0x03
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"
group.long 0x1DC++0x07
line.long 0x00 "DMA4_CCENi_3,Channel Current Transferred Element Number in the current frame"
hexmask.long.tbyte 0x00 0.--23. 1. "CURRENT_ELMNT_NBR,Channel current transferred element number in the current frame"
line.long 0x04 "DMA4_CCFNi_3,Channel Current Transferred Frame Number in the current transfer"
hexmask.long.word 0x04 0.--15. 1. "CURRENT_FRAME_NBR,Channel current transferred frame number in the current transfer"
group.long 0x1A0++0x03
line.long 0x00 "DMA4_CCRi_3,Channel Control Register"
bitfld.long 0x00 26. "WRITE_PRIORITY,Channel priority on the Write side" "WRITE_PRIORITY_0,WRITE_PRIORITY_1"
newline
bitfld.long 0x00 25. "BUFFERING_DISABLE,This bit allows to disable the default buffering functionality when transfer is source synchronized" "BUFFERING_DISABLE_0,BUFFERING_DISABLE_1"
newline
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" "SEL_SRC_DST_SYNC_0,SEL_SRC_DST_SYNC_1"
newline
bitfld.long 0x00 23. "PREFETCH,Enables the prefetch mode" "PREFETCH_0,PREFETCH_1"
newline
bitfld.long 0x00 22. "SUPERVISOR,Enables the supervisor mode" "SUPERVISOR_0,SUPERVISOR_1"
newline
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"
newline
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"
newline
bitfld.long 0x00 17. "TRANSPARENT_COPY_ENABLE,Transparent copy enable" "TRANSPARENT_COPY_ENABLE_0,TRANSPARENT_COPY_ENABLE_1"
newline
bitfld.long 0x00 16. "CONST_FILL_ENABLE,Constant fill enable" "CONST_FILL_ENABLE_0,CONST_FILL_ENABLE_1"
newline
bitfld.long 0x00 14.--15. "DST_AMODE,Selects the addressing mode on the Write Port of a channel" "DST_AMODE_0,DST_AMODE_1,DST_AMODE_2,DST_AMODE_3"
newline
bitfld.long 0x00 12.--13. "SRC_AMODE,Selects the addressing mode on the Read Port of a channel" "SRC_AMODE_0,SRC_AMODE_1,SRC_AMODE_2,SRC_AMODE_3"
newline
rbitfld.long 0x00 10. "WR_ACTIVE,Indicates if the channel write context is active or not" "WR_ACTIVE_0_r,WR_ACTIVE_1_r"
newline
rbitfld.long 0x00 9. "RD_ACTIVE,Indicates if the channel read context is active or not" "RD_ACTIVE_0_r,RD_ACTIVE_1_r"
newline
bitfld.long 0x00 8. "SUSPEND_SENSITIVE,Logical channel suspend enable bit" "SUSPEND_SENSITIVE_0,SUSPEND_SENSITIVE_1"
newline
bitfld.long 0x00 7. "ENABLE,Logical channel enable" "ENABLE_0,ENABLE_1"
newline
bitfld.long 0x00 6. "READ_PRIORITY,Channel priority on the read side" "READ_PRIORITY_0,READ_PRIORITY_1"
newline
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 =" "An entire frame is transferred once a DMA..,A packet is transferred once a DMA request is made"
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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)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x1D8++0x03
line.long 0x00 "DMA4_CDACi_3,Channel Destination Address Value"
group.long 0x1CC++0x07
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"
line.long 0x04 "DMA4_CDFIi_3,Channel Destination Frame Index (Signed) or 16-bit Packet size"
group.long 0x1F0++0x03
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" "FAST_0,FAST_1"
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bitfld.long 0x00 8.--9. "TRANSFER_MODE,Enable linked-list transfer mode" "TRANSFER_MODE_0,TRANSFER_MODE_1,TRANSFER_MODE_2,TRANSFER_MODE_3"
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bitfld.long 0x00 7. "PAUSE_LINK_LIST,Suspend the linked-list transfer at completion of the current block transfer" "PAUSE_LINK_LIST_0,PAUSE_LINK_LIST_1"
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bitfld.long 0x00 4.--6. "NEXT_DESCRIPTOR_TYPE,Next Descriptor Type" "NEXT_DESCRIPTOR_TYPE_0,NEXT_DESCRIPTOR_TYPE_1,NEXT_DESCRIPTOR_TYPE_2,NEXT_DESCRIPTOR_TYPE_3,NEXT_DESCRIPTOR_TYPE_4,NEXT_DESCRIPTOR_TYPE_5,NEXT_DESCRIPTOR_TYPE_6,NEXT_DESCRIPTOR_TYPE_7"
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bitfld.long 0x00 2.--3. "SRC_VALID,Source address valid" "SRC_VALID_0,SRC_VALID_1,SRC_VALID_2,SRC_VALID_3"
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bitfld.long 0x00 0.--1. "DEST_VALID,Destination address valid" "DEST_VALID_0,DEST_VALID_1,DEST_VALID_2,DEST_VALID_3"
group.long 0x1C0++0x03
line.long 0x00 "DMA4_CDSAi_3,Channel Destination Start Address"
group.long 0x1B4++0x07
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"
line.long 0x04 "DMA4_CFNi_3,Channel Frame Number"
hexmask.long.word 0x04 0.--15. 1. "CHANNEL_FRAME_NBR,Number of frames within the block to be transferred (unsigned)"
group.long 0x1A8++0x03
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"
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bitfld.long 0x00 12. "DRAIN_IE,Enables the end of draining interrupt" "0,1"
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bitfld.long 0x00 11. "MISALIGNED_ERR_IE,Enables the address misaligned error event interrupt" "MISALIGNED_ERR_IE_0,MISALIGNED_ERR_IE_1"
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bitfld.long 0x00 10. "SUPERVISOR_ERR_IE,Enables the supervisor transaction error event interrupt" "SUPERVISOR_ERR_IE_0,SUPERVISOR_ERR_IE_1"
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bitfld.long 0x00 8. "TRANS_ERR_IE,Enables the transaction error event interrupt" "TRANS_ERR_IE_0,TRANS_ERR_IE_1"
newline
bitfld.long 0x00 7. "PKT_IE,Enables the end of Packet interrupt" "PKT_IE_0,PKT_IE_1"
newline
bitfld.long 0x00 5. "BLOCK_IE,Enables the end of block interrupt" "BLOCK_IE_0,BLOCK_IE_1"
newline
bitfld.long 0x00 4. "LAST_IE,Last frame interrupt enable (start of last frame)" "LAST_IE_0,LAST_IE_1"
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bitfld.long 0x00 3. "FRAME_IE,Frame interrupt enable (end of frame)" "FRAME_IE_0,FRAME_IE_1"
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bitfld.long 0x00 2. "HALF_IE,Enables or disables the half frame interrupt" "HALF_IE_0,HALF_IE_1"
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bitfld.long 0x00 1. "DROP_IE,Synchronization event drop interrupt enable (request collision)" "DROP_IE_0,DROP_IE_1"
group.long 0x1A4++0x03
line.long 0x00 "DMA4_CLNK_CTRLi_3,Channel Link Control Register"
bitfld.long 0x00 15. "ENABLE_LNK,Enables or disable the channel linking" "ENABLE_LNK_0,ENABLE_LNK_1"
newline
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++0x03
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++0x03
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"
rgroup.long 0x1D4++0x03
line.long 0x00 "DMA4_CSACi_3,Channel Source Address Value"
group.long 0x1B0++0x03
line.long 0x00 "DMA4_CSDPi_3,Channel Source Destination Parameters"
bitfld.long 0x00 21. "SRC_ENDIAN,Channel source endianness control" "SRC_ENDIAN_0,SRC_ENDIAN_1"
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bitfld.long 0x00 20. "SRC_ENDIAN_LOCK,Endianness Lock" "SRC_ENDIAN_LOCK_0,SRC_ENDIAN_LOCK_1"
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bitfld.long 0x00 19. "DST_ENDIAN,Channel Destination endianness control" "DST_ENDIAN_0,DST_ENDIAN_1"
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bitfld.long 0x00 18. "DST_ENDIAN_LOCK,Endianness Lock" "DST_ENDIAN_LOCK_0,DST_ENDIAN_LOCK_1"
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bitfld.long 0x00 16.--17. "WRITE_MODE,Used to enable writing mode without posting or with posting" "WRITE_MODE_0,WRITE_MODE_1,WRITE_MODE_2,WRITE_MODE_3"
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bitfld.long 0x00 14.--15. "DST_BURST_EN,Used to enable bursting on the Write Port" "DST_BURST_EN_0,DST_BURST_EN_1,DST_BURST_EN_2,DST_BURST_EN_3"
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bitfld.long 0x00 13. "DST_PACKED,Destination receives packed data" "DST_PACKED_0,DST_PACKED_1"
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bitfld.long 0x00 7.--8. "SRC_BURST_EN,Used to enable bursting on the Read Port" "SRC_BURST_EN_0,SRC_BURST_EN_1,SRC_BURST_EN_2,SRC_BURST_EN_3"
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bitfld.long 0x00 6. "SRC_PACKED,Source provides packed data" "SRC_PACKED_0,SRC_PACKED_1"
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bitfld.long 0x00 0.--1. "DATA_TYPE,Defines the type of the data moved in the channel" "DATA_TYPE_0,DATA_TYPE_1,DATA_TYPE_2,DATA_TYPE_3"
group.long 0x1C4++0x07
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"
line.long 0x04 "DMA4_CSFIi_3,Channel Source Frame Index (Signed) or 16-bit Packet size"
group.long 0x1AC++0x03
line.long 0x00 "DMA4_CSRi_3,Channel Status Register"
bitfld.long 0x00 14. "SUPER_BLOCK,End of Super block event" "0,1"
newline
bitfld.long 0x00 12. "DRAIN_END,End of channel draining" "0,1"
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bitfld.long 0x00 11. "MISALIGNED_ADRS_ERR,Misaligned address error event" "MISALIGNED_ADRS_ERR_0_w,MISALIGNED_ADRS_ERR_1_r"
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bitfld.long 0x00 10. "SUPERVISOR_ERR,Supervisor transaction error event" "SUPERVISOR_ERR_0_w,SUPERVISOR_ERR_1_r"
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bitfld.long 0x00 8. "TRANS_ERR,Transaction error event" "TRANS_ERR_0_w,TRANS_ERR_1_r"
newline
bitfld.long 0x00 7. "PKT,End of Packet transfer" "PKT_0_w,PKT_1_r"
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bitfld.long 0x00 6. "SYNC,Synchronization status of a channel" "SYNC_0_w,SYNC_1_r"
newline
bitfld.long 0x00 5. "BLOCK,End of block event" "BLOCK_0_w,BLOCK_1_r"
newline
bitfld.long 0x00 4. "LAST,Last frame (start of last frame)" "LAST_0_w,LAST_1_r"
newline
bitfld.long 0x00 3. "FRAME,End of frame event" "FRAME_0_w,FRAME_1_r"
newline
bitfld.long 0x00 2. "HALF,Half of frame event" "HALF_0_w,HALF_1_r"
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bitfld.long 0x00 1. "DROP,Synchronization event drop occured during the transfer" "DROP_0_w,DROP_1_r"
group.long 0x1BC++0x03
line.long 0x00 "DMA4_CSSAi_3,Channel Source Start Address"
group.long 0x24++0x03
line.long 0x00 "DMA4_IRQENABLE_Lj_3,The interrupt enable register allows to mask/unmask the module internal sources of interrupt. on line Lj"
group.long 0x14++0x03
line.long 0x00 "DMA4_IRQSTATUS_Lj_3,The interrupt status register regroups all the status of the DMA4 channels that can generate an interrupt over line Lj"
tree.end
tree "DMA_Channel_30"
group.long 0xC18++0x03
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"
group.long 0xBFC++0x07
line.long 0x00 "DMA4_CCENi_30,Channel Current Transferred Element Number in the current frame"
hexmask.long.tbyte 0x00 0.--23. 1. "CURRENT_ELMNT_NBR,Channel current transferred element number in the current frame"
line.long 0x04 "DMA4_CCFNi_30,Channel Current Transferred Frame Number in the current transfer"
hexmask.long.word 0x04 0.--15. 1. "CURRENT_FRAME_NBR,Channel current transferred frame number in the current transfer"
group.long 0xBC0++0x03
line.long 0x00 "DMA4_CCRi_30,Channel Control Register"
bitfld.long 0x00 26. "WRITE_PRIORITY,Channel priority on the Write side" "WRITE_PRIORITY_0,WRITE_PRIORITY_1"
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bitfld.long 0x00 25. "BUFFERING_DISABLE,This bit allows to disable the default buffering functionality when transfer is source synchronized" "BUFFERING_DISABLE_0,BUFFERING_DISABLE_1"
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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" "SEL_SRC_DST_SYNC_0,SEL_SRC_DST_SYNC_1"
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bitfld.long 0x00 23. "PREFETCH,Enables the prefetch mode" "PREFETCH_0,PREFETCH_1"
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bitfld.long 0x00 22. "SUPERVISOR,Enables the supervisor mode" "SUPERVISOR_0,SUPERVISOR_1"
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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"
newline
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"
newline
bitfld.long 0x00 17. "TRANSPARENT_COPY_ENABLE,Transparent copy enable" "TRANSPARENT_COPY_ENABLE_0,TRANSPARENT_COPY_ENABLE_1"
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bitfld.long 0x00 16. "CONST_FILL_ENABLE,Constant fill enable" "CONST_FILL_ENABLE_0,CONST_FILL_ENABLE_1"
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bitfld.long 0x00 14.--15. "DST_AMODE,Selects the addressing mode on the Write Port of a channel" "DST_AMODE_0,DST_AMODE_1,DST_AMODE_2,DST_AMODE_3"
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bitfld.long 0x00 12.--13. "SRC_AMODE,Selects the addressing mode on the Read Port of a channel" "SRC_AMODE_0,SRC_AMODE_1,SRC_AMODE_2,SRC_AMODE_3"
newline
rbitfld.long 0x00 10. "WR_ACTIVE,Indicates if the channel write context is active or not" "WR_ACTIVE_0_r,WR_ACTIVE_1_r"
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rbitfld.long 0x00 9. "RD_ACTIVE,Indicates if the channel read context is active or not" "RD_ACTIVE_0_r,RD_ACTIVE_1_r"
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bitfld.long 0x00 8. "SUSPEND_SENSITIVE,Logical channel suspend enable bit" "SUSPEND_SENSITIVE_0,SUSPEND_SENSITIVE_1"
newline
bitfld.long 0x00 7. "ENABLE,Logical channel enable" "ENABLE_0,ENABLE_1"
newline
bitfld.long 0x00 6. "READ_PRIORITY,Channel priority on the read side" "READ_PRIORITY_0,READ_PRIORITY_1"
newline
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 =" "An entire frame is transferred once a DMA..,A packet is transferred once a DMA request is made"
newline
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)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xBF8++0x03
line.long 0x00 "DMA4_CDACi_30,Channel Destination Address Value"
group.long 0xBEC++0x07
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"
line.long 0x04 "DMA4_CDFIi_30,Channel Destination Frame Index (Signed) or 16-bit Packet size"
group.long 0xC10++0x03
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" "FAST_0,FAST_1"
newline
bitfld.long 0x00 8.--9. "TRANSFER_MODE,Enable linked-list transfer mode" "TRANSFER_MODE_0,TRANSFER_MODE_1,TRANSFER_MODE_2,TRANSFER_MODE_3"
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bitfld.long 0x00 7. "PAUSE_LINK_LIST,Suspend the linked-list transfer at completion of the current block transfer" "PAUSE_LINK_LIST_0,PAUSE_LINK_LIST_1"
newline
bitfld.long 0x00 4.--6. "NEXT_DESCRIPTOR_TYPE,Next Descriptor Type" "NEXT_DESCRIPTOR_TYPE_0,NEXT_DESCRIPTOR_TYPE_1,NEXT_DESCRIPTOR_TYPE_2,NEXT_DESCRIPTOR_TYPE_3,NEXT_DESCRIPTOR_TYPE_4,NEXT_DESCRIPTOR_TYPE_5,NEXT_DESCRIPTOR_TYPE_6,NEXT_DESCRIPTOR_TYPE_7"
newline
bitfld.long 0x00 2.--3. "SRC_VALID,Source address valid" "SRC_VALID_0,SRC_VALID_1,SRC_VALID_2,SRC_VALID_3"
newline
bitfld.long 0x00 0.--1. "DEST_VALID,Destination address valid" "DEST_VALID_0,DEST_VALID_1,DEST_VALID_2,DEST_VALID_3"
group.long 0xBE0++0x03
line.long 0x00 "DMA4_CDSAi_30,Channel Destination Start Address"
group.long 0xBD4++0x07
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"
line.long 0x04 "DMA4_CFNi_30,Channel Frame Number"
hexmask.long.word 0x04 0.--15. 1. "CHANNEL_FRAME_NBR,Number of frames within the block to be transferred (unsigned)"
group.long 0xBC8++0x03
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"
newline
bitfld.long 0x00 12. "DRAIN_IE,Enables the end of draining interrupt" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ERR_IE,Enables the address misaligned error event interrupt" "MISALIGNED_ERR_IE_0,MISALIGNED_ERR_IE_1"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR_IE,Enables the supervisor transaction error event interrupt" "SUPERVISOR_ERR_IE_0,SUPERVISOR_ERR_IE_1"
newline
bitfld.long 0x00 8. "TRANS_ERR_IE,Enables the transaction error event interrupt" "TRANS_ERR_IE_0,TRANS_ERR_IE_1"
newline
bitfld.long 0x00 7. "PKT_IE,Enables the end of Packet interrupt" "PKT_IE_0,PKT_IE_1"
newline
bitfld.long 0x00 5. "BLOCK_IE,Enables the end of block interrupt" "BLOCK_IE_0,BLOCK_IE_1"
newline
bitfld.long 0x00 4. "LAST_IE,Last frame interrupt enable (start of last frame)" "LAST_IE_0,LAST_IE_1"
newline
bitfld.long 0x00 3. "FRAME_IE,Frame interrupt enable (end of frame)" "FRAME_IE_0,FRAME_IE_1"
newline
bitfld.long 0x00 2. "HALF_IE,Enables or disables the half frame interrupt" "HALF_IE_0,HALF_IE_1"
newline
bitfld.long 0x00 1. "DROP_IE,Synchronization event drop interrupt enable (request collision)" "DROP_IE_0,DROP_IE_1"
group.long 0xBC4++0x03
line.long 0x00 "DMA4_CLNK_CTRLi_30,Channel Link Control Register"
bitfld.long 0x00 15. "ENABLE_LNK,Enables or disable the channel linking" "ENABLE_LNK_0,ENABLE_LNK_1"
newline
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++0x03
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++0x03
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"
rgroup.long 0xBF4++0x03
line.long 0x00 "DMA4_CSACi_30,Channel Source Address Value"
group.long 0xBD0++0x03
line.long 0x00 "DMA4_CSDPi_30,Channel Source Destination Parameters"
bitfld.long 0x00 21. "SRC_ENDIAN,Channel source endianness control" "SRC_ENDIAN_0,SRC_ENDIAN_1"
newline
bitfld.long 0x00 20. "SRC_ENDIAN_LOCK,Endianness Lock" "SRC_ENDIAN_LOCK_0,SRC_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 19. "DST_ENDIAN,Channel Destination endianness control" "DST_ENDIAN_0,DST_ENDIAN_1"
newline
bitfld.long 0x00 18. "DST_ENDIAN_LOCK,Endianness Lock" "DST_ENDIAN_LOCK_0,DST_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 16.--17. "WRITE_MODE,Used to enable writing mode without posting or with posting" "WRITE_MODE_0,WRITE_MODE_1,WRITE_MODE_2,WRITE_MODE_3"
newline
bitfld.long 0x00 14.--15. "DST_BURST_EN,Used to enable bursting on the Write Port" "DST_BURST_EN_0,DST_BURST_EN_1,DST_BURST_EN_2,DST_BURST_EN_3"
newline
bitfld.long 0x00 13. "DST_PACKED,Destination receives packed data" "DST_PACKED_0,DST_PACKED_1"
newline
bitfld.long 0x00 7.--8. "SRC_BURST_EN,Used to enable bursting on the Read Port" "SRC_BURST_EN_0,SRC_BURST_EN_1,SRC_BURST_EN_2,SRC_BURST_EN_3"
newline
bitfld.long 0x00 6. "SRC_PACKED,Source provides packed data" "SRC_PACKED_0,SRC_PACKED_1"
newline
bitfld.long 0x00 0.--1. "DATA_TYPE,Defines the type of the data moved in the channel" "DATA_TYPE_0,DATA_TYPE_1,DATA_TYPE_2,DATA_TYPE_3"
group.long 0xBE4++0x07
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"
line.long 0x04 "DMA4_CSFIi_30,Channel Source Frame Index (Signed) or 16-bit Packet size"
group.long 0xBCC++0x03
line.long 0x00 "DMA4_CSRi_30,Channel Status Register"
bitfld.long 0x00 14. "SUPER_BLOCK,End of Super block event" "0,1"
newline
bitfld.long 0x00 12. "DRAIN_END,End of channel draining" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ADRS_ERR,Misaligned address error event" "MISALIGNED_ADRS_ERR_0_w,MISALIGNED_ADRS_ERR_1_r"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR,Supervisor transaction error event" "SUPERVISOR_ERR_0_w,SUPERVISOR_ERR_1_r"
newline
bitfld.long 0x00 8. "TRANS_ERR,Transaction error event" "TRANS_ERR_0_w,TRANS_ERR_1_r"
newline
bitfld.long 0x00 7. "PKT,End of Packet transfer" "PKT_0_w,PKT_1_r"
newline
bitfld.long 0x00 6. "SYNC,Synchronization status of a channel" "SYNC_0_w,SYNC_1_r"
newline
bitfld.long 0x00 5. "BLOCK,End of block event" "BLOCK_0_w,BLOCK_1_r"
newline
bitfld.long 0x00 4. "LAST,Last frame (start of last frame)" "LAST_0_w,LAST_1_r"
newline
bitfld.long 0x00 3. "FRAME,End of frame event" "FRAME_0_w,FRAME_1_r"
newline
bitfld.long 0x00 2. "HALF,Half of frame event" "HALF_0_w,HALF_1_r"
newline
bitfld.long 0x00 1. "DROP,Synchronization event drop occured during the transfer" "DROP_0_w,DROP_1_r"
group.long 0xBDC++0x03
line.long 0x00 "DMA4_CSSAi_30,Channel Source Start Address"
tree.end
tree "DMA_Channel_31"
group.long 0xC78++0x03
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"
group.long 0xC5C++0x07
line.long 0x00 "DMA4_CCENi_31,Channel Current Transferred Element Number in the current frame"
hexmask.long.tbyte 0x00 0.--23. 1. "CURRENT_ELMNT_NBR,Channel current transferred element number in the current frame"
line.long 0x04 "DMA4_CCFNi_31,Channel Current Transferred Frame Number in the current transfer"
hexmask.long.word 0x04 0.--15. 1. "CURRENT_FRAME_NBR,Channel current transferred frame number in the current transfer"
group.long 0xC20++0x03
line.long 0x00 "DMA4_CCRi_31,Channel Control Register"
bitfld.long 0x00 26. "WRITE_PRIORITY,Channel priority on the Write side" "WRITE_PRIORITY_0,WRITE_PRIORITY_1"
newline
bitfld.long 0x00 25. "BUFFERING_DISABLE,This bit allows to disable the default buffering functionality when transfer is source synchronized" "BUFFERING_DISABLE_0,BUFFERING_DISABLE_1"
newline
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" "SEL_SRC_DST_SYNC_0,SEL_SRC_DST_SYNC_1"
newline
bitfld.long 0x00 23. "PREFETCH,Enables the prefetch mode" "PREFETCH_0,PREFETCH_1"
newline
bitfld.long 0x00 22. "SUPERVISOR,Enables the supervisor mode" "SUPERVISOR_0,SUPERVISOR_1"
newline
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"
newline
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"
newline
bitfld.long 0x00 17. "TRANSPARENT_COPY_ENABLE,Transparent copy enable" "TRANSPARENT_COPY_ENABLE_0,TRANSPARENT_COPY_ENABLE_1"
newline
bitfld.long 0x00 16. "CONST_FILL_ENABLE,Constant fill enable" "CONST_FILL_ENABLE_0,CONST_FILL_ENABLE_1"
newline
bitfld.long 0x00 14.--15. "DST_AMODE,Selects the addressing mode on the Write Port of a channel" "DST_AMODE_0,DST_AMODE_1,DST_AMODE_2,DST_AMODE_3"
newline
bitfld.long 0x00 12.--13. "SRC_AMODE,Selects the addressing mode on the Read Port of a channel" "SRC_AMODE_0,SRC_AMODE_1,SRC_AMODE_2,SRC_AMODE_3"
newline
rbitfld.long 0x00 10. "WR_ACTIVE,Indicates if the channel write context is active or not" "WR_ACTIVE_0_r,WR_ACTIVE_1_r"
newline
rbitfld.long 0x00 9. "RD_ACTIVE,Indicates if the channel read context is active or not" "RD_ACTIVE_0_r,RD_ACTIVE_1_r"
newline
bitfld.long 0x00 8. "SUSPEND_SENSITIVE,Logical channel suspend enable bit" "SUSPEND_SENSITIVE_0,SUSPEND_SENSITIVE_1"
newline
bitfld.long 0x00 7. "ENABLE,Logical channel enable" "ENABLE_0,ENABLE_1"
newline
bitfld.long 0x00 6. "READ_PRIORITY,Channel priority on the read side" "READ_PRIORITY_0,READ_PRIORITY_1"
newline
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 =" "An entire frame is transferred once a DMA..,A packet is transferred once a DMA request is made"
newline
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)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xC58++0x03
line.long 0x00 "DMA4_CDACi_31,Channel Destination Address Value"
group.long 0xC4C++0x07
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"
line.long 0x04 "DMA4_CDFIi_31,Channel Destination Frame Index (Signed) or 16-bit Packet size"
group.long 0xC70++0x03
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" "FAST_0,FAST_1"
newline
bitfld.long 0x00 8.--9. "TRANSFER_MODE,Enable linked-list transfer mode" "TRANSFER_MODE_0,TRANSFER_MODE_1,TRANSFER_MODE_2,TRANSFER_MODE_3"
newline
bitfld.long 0x00 7. "PAUSE_LINK_LIST,Suspend the linked-list transfer at completion of the current block transfer" "PAUSE_LINK_LIST_0,PAUSE_LINK_LIST_1"
newline
bitfld.long 0x00 4.--6. "NEXT_DESCRIPTOR_TYPE,Next Descriptor Type" "NEXT_DESCRIPTOR_TYPE_0,NEXT_DESCRIPTOR_TYPE_1,NEXT_DESCRIPTOR_TYPE_2,NEXT_DESCRIPTOR_TYPE_3,NEXT_DESCRIPTOR_TYPE_4,NEXT_DESCRIPTOR_TYPE_5,NEXT_DESCRIPTOR_TYPE_6,NEXT_DESCRIPTOR_TYPE_7"
newline
bitfld.long 0x00 2.--3. "SRC_VALID,Source address valid" "SRC_VALID_0,SRC_VALID_1,SRC_VALID_2,SRC_VALID_3"
newline
bitfld.long 0x00 0.--1. "DEST_VALID,Destination address valid" "DEST_VALID_0,DEST_VALID_1,DEST_VALID_2,DEST_VALID_3"
group.long 0xC40++0x03
line.long 0x00 "DMA4_CDSAi_31,Channel Destination Start Address"
group.long 0xC34++0x07
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"
line.long 0x04 "DMA4_CFNi_31,Channel Frame Number"
hexmask.long.word 0x04 0.--15. 1. "CHANNEL_FRAME_NBR,Number of frames within the block to be transferred (unsigned)"
group.long 0xC28++0x03
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"
newline
bitfld.long 0x00 12. "DRAIN_IE,Enables the end of draining interrupt" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ERR_IE,Enables the address misaligned error event interrupt" "MISALIGNED_ERR_IE_0,MISALIGNED_ERR_IE_1"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR_IE,Enables the supervisor transaction error event interrupt" "SUPERVISOR_ERR_IE_0,SUPERVISOR_ERR_IE_1"
newline
bitfld.long 0x00 8. "TRANS_ERR_IE,Enables the transaction error event interrupt" "TRANS_ERR_IE_0,TRANS_ERR_IE_1"
newline
bitfld.long 0x00 7. "PKT_IE,Enables the end of Packet interrupt" "PKT_IE_0,PKT_IE_1"
newline
bitfld.long 0x00 5. "BLOCK_IE,Enables the end of block interrupt" "BLOCK_IE_0,BLOCK_IE_1"
newline
bitfld.long 0x00 4. "LAST_IE,Last frame interrupt enable (start of last frame)" "LAST_IE_0,LAST_IE_1"
newline
bitfld.long 0x00 3. "FRAME_IE,Frame interrupt enable (end of frame)" "FRAME_IE_0,FRAME_IE_1"
newline
bitfld.long 0x00 2. "HALF_IE,Enables or disables the half frame interrupt" "HALF_IE_0,HALF_IE_1"
newline
bitfld.long 0x00 1. "DROP_IE,Synchronization event drop interrupt enable (request collision)" "DROP_IE_0,DROP_IE_1"
group.long 0xC24++0x03
line.long 0x00 "DMA4_CLNK_CTRLi_31,Channel Link Control Register"
bitfld.long 0x00 15. "ENABLE_LNK,Enables or disable the channel linking" "ENABLE_LNK_0,ENABLE_LNK_1"
newline
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++0x03
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++0x03
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"
rgroup.long 0xC54++0x03
line.long 0x00 "DMA4_CSACi_31,Channel Source Address Value"
group.long 0xC30++0x03
line.long 0x00 "DMA4_CSDPi_31,Channel Source Destination Parameters"
bitfld.long 0x00 21. "SRC_ENDIAN,Channel source endianness control" "SRC_ENDIAN_0,SRC_ENDIAN_1"
newline
bitfld.long 0x00 20. "SRC_ENDIAN_LOCK,Endianness Lock" "SRC_ENDIAN_LOCK_0,SRC_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 19. "DST_ENDIAN,Channel Destination endianness control" "DST_ENDIAN_0,DST_ENDIAN_1"
newline
bitfld.long 0x00 18. "DST_ENDIAN_LOCK,Endianness Lock" "DST_ENDIAN_LOCK_0,DST_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 16.--17. "WRITE_MODE,Used to enable writing mode without posting or with posting" "WRITE_MODE_0,WRITE_MODE_1,WRITE_MODE_2,WRITE_MODE_3"
newline
bitfld.long 0x00 14.--15. "DST_BURST_EN,Used to enable bursting on the Write Port" "DST_BURST_EN_0,DST_BURST_EN_1,DST_BURST_EN_2,DST_BURST_EN_3"
newline
bitfld.long 0x00 13. "DST_PACKED,Destination receives packed data" "DST_PACKED_0,DST_PACKED_1"
newline
bitfld.long 0x00 7.--8. "SRC_BURST_EN,Used to enable bursting on the Read Port" "SRC_BURST_EN_0,SRC_BURST_EN_1,SRC_BURST_EN_2,SRC_BURST_EN_3"
newline
bitfld.long 0x00 6. "SRC_PACKED,Source provides packed data" "SRC_PACKED_0,SRC_PACKED_1"
newline
bitfld.long 0x00 0.--1. "DATA_TYPE,Defines the type of the data moved in the channel" "DATA_TYPE_0,DATA_TYPE_1,DATA_TYPE_2,DATA_TYPE_3"
group.long 0xC44++0x07
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"
line.long 0x04 "DMA4_CSFIi_31,Channel Source Frame Index (Signed) or 16-bit Packet size"
group.long 0xC2C++0x03
line.long 0x00 "DMA4_CSRi_31,Channel Status Register"
bitfld.long 0x00 14. "SUPER_BLOCK,End of Super block event" "0,1"
newline
bitfld.long 0x00 12. "DRAIN_END,End of channel draining" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ADRS_ERR,Misaligned address error event" "MISALIGNED_ADRS_ERR_0_w,MISALIGNED_ADRS_ERR_1_r"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR,Supervisor transaction error event" "SUPERVISOR_ERR_0_w,SUPERVISOR_ERR_1_r"
newline
bitfld.long 0x00 8. "TRANS_ERR,Transaction error event" "TRANS_ERR_0_w,TRANS_ERR_1_r"
newline
bitfld.long 0x00 7. "PKT,End of Packet transfer" "PKT_0_w,PKT_1_r"
newline
bitfld.long 0x00 6. "SYNC,Synchronization status of a channel" "SYNC_0_w,SYNC_1_r"
newline
bitfld.long 0x00 5. "BLOCK,End of block event" "BLOCK_0_w,BLOCK_1_r"
newline
bitfld.long 0x00 4. "LAST,Last frame (start of last frame)" "LAST_0_w,LAST_1_r"
newline
bitfld.long 0x00 3. "FRAME,End of frame event" "FRAME_0_w,FRAME_1_r"
newline
bitfld.long 0x00 2. "HALF,Half of frame event" "HALF_0_w,HALF_1_r"
newline
bitfld.long 0x00 1. "DROP,Synchronization event drop occured during the transfer" "DROP_0_w,DROP_1_r"
group.long 0xC3C++0x03
line.long 0x00 "DMA4_CSSAi_31,Channel Source Start Address"
tree.end
tree "DMA_Channel_4"
group.long 0x258++0x03
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"
group.long 0x23C++0x07
line.long 0x00 "DMA4_CCENi_4,Channel Current Transferred Element Number in the current frame"
hexmask.long.tbyte 0x00 0.--23. 1. "CURRENT_ELMNT_NBR,Channel current transferred element number in the current frame"
line.long 0x04 "DMA4_CCFNi_4,Channel Current Transferred Frame Number in the current transfer"
hexmask.long.word 0x04 0.--15. 1. "CURRENT_FRAME_NBR,Channel current transferred frame number in the current transfer"
group.long 0x200++0x03
line.long 0x00 "DMA4_CCRi_4,Channel Control Register"
bitfld.long 0x00 26. "WRITE_PRIORITY,Channel priority on the Write side" "WRITE_PRIORITY_0,WRITE_PRIORITY_1"
newline
bitfld.long 0x00 25. "BUFFERING_DISABLE,This bit allows to disable the default buffering functionality when transfer is source synchronized" "BUFFERING_DISABLE_0,BUFFERING_DISABLE_1"
newline
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" "SEL_SRC_DST_SYNC_0,SEL_SRC_DST_SYNC_1"
newline
bitfld.long 0x00 23. "PREFETCH,Enables the prefetch mode" "PREFETCH_0,PREFETCH_1"
newline
bitfld.long 0x00 22. "SUPERVISOR,Enables the supervisor mode" "SUPERVISOR_0,SUPERVISOR_1"
newline
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"
newline
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"
newline
bitfld.long 0x00 17. "TRANSPARENT_COPY_ENABLE,Transparent copy enable" "TRANSPARENT_COPY_ENABLE_0,TRANSPARENT_COPY_ENABLE_1"
newline
bitfld.long 0x00 16. "CONST_FILL_ENABLE,Constant fill enable" "CONST_FILL_ENABLE_0,CONST_FILL_ENABLE_1"
newline
bitfld.long 0x00 14.--15. "DST_AMODE,Selects the addressing mode on the Write Port of a channel" "DST_AMODE_0,DST_AMODE_1,DST_AMODE_2,DST_AMODE_3"
newline
bitfld.long 0x00 12.--13. "SRC_AMODE,Selects the addressing mode on the Read Port of a channel" "SRC_AMODE_0,SRC_AMODE_1,SRC_AMODE_2,SRC_AMODE_3"
newline
rbitfld.long 0x00 10. "WR_ACTIVE,Indicates if the channel write context is active or not" "WR_ACTIVE_0_r,WR_ACTIVE_1_r"
newline
rbitfld.long 0x00 9. "RD_ACTIVE,Indicates if the channel read context is active or not" "RD_ACTIVE_0_r,RD_ACTIVE_1_r"
newline
bitfld.long 0x00 8. "SUSPEND_SENSITIVE,Logical channel suspend enable bit" "SUSPEND_SENSITIVE_0,SUSPEND_SENSITIVE_1"
newline
bitfld.long 0x00 7. "ENABLE,Logical channel enable" "ENABLE_0,ENABLE_1"
newline
bitfld.long 0x00 6. "READ_PRIORITY,Channel priority on the read side" "READ_PRIORITY_0,READ_PRIORITY_1"
newline
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 =" "An entire frame is transferred once a DMA..,A packet is transferred once a DMA request is made"
newline
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)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x238++0x03
line.long 0x00 "DMA4_CDACi_4,Channel Destination Address Value"
group.long 0x22C++0x07
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"
line.long 0x04 "DMA4_CDFIi_4,Channel Destination Frame Index (Signed) or 16-bit Packet size"
group.long 0x250++0x03
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" "FAST_0,FAST_1"
newline
bitfld.long 0x00 8.--9. "TRANSFER_MODE,Enable linked-list transfer mode" "TRANSFER_MODE_0,TRANSFER_MODE_1,TRANSFER_MODE_2,TRANSFER_MODE_3"
newline
bitfld.long 0x00 7. "PAUSE_LINK_LIST,Suspend the linked-list transfer at completion of the current block transfer" "PAUSE_LINK_LIST_0,PAUSE_LINK_LIST_1"
newline
bitfld.long 0x00 4.--6. "NEXT_DESCRIPTOR_TYPE,Next Descriptor Type" "NEXT_DESCRIPTOR_TYPE_0,NEXT_DESCRIPTOR_TYPE_1,NEXT_DESCRIPTOR_TYPE_2,NEXT_DESCRIPTOR_TYPE_3,NEXT_DESCRIPTOR_TYPE_4,NEXT_DESCRIPTOR_TYPE_5,NEXT_DESCRIPTOR_TYPE_6,NEXT_DESCRIPTOR_TYPE_7"
newline
bitfld.long 0x00 2.--3. "SRC_VALID,Source address valid" "SRC_VALID_0,SRC_VALID_1,SRC_VALID_2,SRC_VALID_3"
newline
bitfld.long 0x00 0.--1. "DEST_VALID,Destination address valid" "DEST_VALID_0,DEST_VALID_1,DEST_VALID_2,DEST_VALID_3"
group.long 0x220++0x03
line.long 0x00 "DMA4_CDSAi_4,Channel Destination Start Address"
group.long 0x214++0x07
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"
line.long 0x04 "DMA4_CFNi_4,Channel Frame Number"
hexmask.long.word 0x04 0.--15. 1. "CHANNEL_FRAME_NBR,Number of frames within the block to be transferred (unsigned)"
group.long 0x208++0x03
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"
newline
bitfld.long 0x00 12. "DRAIN_IE,Enables the end of draining interrupt" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ERR_IE,Enables the address misaligned error event interrupt" "MISALIGNED_ERR_IE_0,MISALIGNED_ERR_IE_1"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR_IE,Enables the supervisor transaction error event interrupt" "SUPERVISOR_ERR_IE_0,SUPERVISOR_ERR_IE_1"
newline
bitfld.long 0x00 8. "TRANS_ERR_IE,Enables the transaction error event interrupt" "TRANS_ERR_IE_0,TRANS_ERR_IE_1"
newline
bitfld.long 0x00 7. "PKT_IE,Enables the end of Packet interrupt" "PKT_IE_0,PKT_IE_1"
newline
bitfld.long 0x00 5. "BLOCK_IE,Enables the end of block interrupt" "BLOCK_IE_0,BLOCK_IE_1"
newline
bitfld.long 0x00 4. "LAST_IE,Last frame interrupt enable (start of last frame)" "LAST_IE_0,LAST_IE_1"
newline
bitfld.long 0x00 3. "FRAME_IE,Frame interrupt enable (end of frame)" "FRAME_IE_0,FRAME_IE_1"
newline
bitfld.long 0x00 2. "HALF_IE,Enables or disables the half frame interrupt" "HALF_IE_0,HALF_IE_1"
newline
bitfld.long 0x00 1. "DROP_IE,Synchronization event drop interrupt enable (request collision)" "DROP_IE_0,DROP_IE_1"
group.long 0x204++0x03
line.long 0x00 "DMA4_CLNK_CTRLi_4,Channel Link Control Register"
bitfld.long 0x00 15. "ENABLE_LNK,Enables or disable the channel linking" "ENABLE_LNK_0,ENABLE_LNK_1"
newline
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++0x03
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++0x03
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"
rgroup.long 0x234++0x03
line.long 0x00 "DMA4_CSACi_4,Channel Source Address Value"
group.long 0x210++0x03
line.long 0x00 "DMA4_CSDPi_4,Channel Source Destination Parameters"
bitfld.long 0x00 21. "SRC_ENDIAN,Channel source endianness control" "SRC_ENDIAN_0,SRC_ENDIAN_1"
newline
bitfld.long 0x00 20. "SRC_ENDIAN_LOCK,Endianness Lock" "SRC_ENDIAN_LOCK_0,SRC_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 19. "DST_ENDIAN,Channel Destination endianness control" "DST_ENDIAN_0,DST_ENDIAN_1"
newline
bitfld.long 0x00 18. "DST_ENDIAN_LOCK,Endianness Lock" "DST_ENDIAN_LOCK_0,DST_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 16.--17. "WRITE_MODE,Used to enable writing mode without posting or with posting" "WRITE_MODE_0,WRITE_MODE_1,WRITE_MODE_2,WRITE_MODE_3"
newline
bitfld.long 0x00 14.--15. "DST_BURST_EN,Used to enable bursting on the Write Port" "DST_BURST_EN_0,DST_BURST_EN_1,DST_BURST_EN_2,DST_BURST_EN_3"
newline
bitfld.long 0x00 13. "DST_PACKED,Destination receives packed data" "DST_PACKED_0,DST_PACKED_1"
newline
bitfld.long 0x00 7.--8. "SRC_BURST_EN,Used to enable bursting on the Read Port" "SRC_BURST_EN_0,SRC_BURST_EN_1,SRC_BURST_EN_2,SRC_BURST_EN_3"
newline
bitfld.long 0x00 6. "SRC_PACKED,Source provides packed data" "SRC_PACKED_0,SRC_PACKED_1"
newline
bitfld.long 0x00 0.--1. "DATA_TYPE,Defines the type of the data moved in the channel" "DATA_TYPE_0,DATA_TYPE_1,DATA_TYPE_2,DATA_TYPE_3"
group.long 0x224++0x07
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"
line.long 0x04 "DMA4_CSFIi_4,Channel Source Frame Index (Signed) or 16-bit Packet size"
group.long 0x20C++0x03
line.long 0x00 "DMA4_CSRi_4,Channel Status Register"
bitfld.long 0x00 14. "SUPER_BLOCK,End of Super block event" "0,1"
newline
bitfld.long 0x00 12. "DRAIN_END,End of channel draining" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ADRS_ERR,Misaligned address error event" "MISALIGNED_ADRS_ERR_0_w,MISALIGNED_ADRS_ERR_1_r"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR,Supervisor transaction error event" "SUPERVISOR_ERR_0_w,SUPERVISOR_ERR_1_r"
newline
bitfld.long 0x00 8. "TRANS_ERR,Transaction error event" "TRANS_ERR_0_w,TRANS_ERR_1_r"
newline
bitfld.long 0x00 7. "PKT,End of Packet transfer" "PKT_0_w,PKT_1_r"
newline
bitfld.long 0x00 6. "SYNC,Synchronization status of a channel" "SYNC_0_w,SYNC_1_r"
newline
bitfld.long 0x00 5. "BLOCK,End of block event" "BLOCK_0_w,BLOCK_1_r"
newline
bitfld.long 0x00 4. "LAST,Last frame (start of last frame)" "LAST_0_w,LAST_1_r"
newline
bitfld.long 0x00 3. "FRAME,End of frame event" "FRAME_0_w,FRAME_1_r"
newline
bitfld.long 0x00 2. "HALF,Half of frame event" "HALF_0_w,HALF_1_r"
newline
bitfld.long 0x00 1. "DROP,Synchronization event drop occured during the transfer" "DROP_0_w,DROP_1_r"
group.long 0x21C++0x03
line.long 0x00 "DMA4_CSSAi_4,Channel Source Start Address"
tree.end
tree "DMA_Channel_5"
group.long 0x2B8++0x03
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"
group.long 0x29C++0x07
line.long 0x00 "DMA4_CCENi_5,Channel Current Transferred Element Number in the current frame"
hexmask.long.tbyte 0x00 0.--23. 1. "CURRENT_ELMNT_NBR,Channel current transferred element number in the current frame"
line.long 0x04 "DMA4_CCFNi_5,Channel Current Transferred Frame Number in the current transfer"
hexmask.long.word 0x04 0.--15. 1. "CURRENT_FRAME_NBR,Channel current transferred frame number in the current transfer"
group.long 0x260++0x03
line.long 0x00 "DMA4_CCRi_5,Channel Control Register"
bitfld.long 0x00 26. "WRITE_PRIORITY,Channel priority on the Write side" "WRITE_PRIORITY_0,WRITE_PRIORITY_1"
newline
bitfld.long 0x00 25. "BUFFERING_DISABLE,This bit allows to disable the default buffering functionality when transfer is source synchronized" "BUFFERING_DISABLE_0,BUFFERING_DISABLE_1"
newline
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" "SEL_SRC_DST_SYNC_0,SEL_SRC_DST_SYNC_1"
newline
bitfld.long 0x00 23. "PREFETCH,Enables the prefetch mode" "PREFETCH_0,PREFETCH_1"
newline
bitfld.long 0x00 22. "SUPERVISOR,Enables the supervisor mode" "SUPERVISOR_0,SUPERVISOR_1"
newline
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"
newline
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"
newline
bitfld.long 0x00 17. "TRANSPARENT_COPY_ENABLE,Transparent copy enable" "TRANSPARENT_COPY_ENABLE_0,TRANSPARENT_COPY_ENABLE_1"
newline
bitfld.long 0x00 16. "CONST_FILL_ENABLE,Constant fill enable" "CONST_FILL_ENABLE_0,CONST_FILL_ENABLE_1"
newline
bitfld.long 0x00 14.--15. "DST_AMODE,Selects the addressing mode on the Write Port of a channel" "DST_AMODE_0,DST_AMODE_1,DST_AMODE_2,DST_AMODE_3"
newline
bitfld.long 0x00 12.--13. "SRC_AMODE,Selects the addressing mode on the Read Port of a channel" "SRC_AMODE_0,SRC_AMODE_1,SRC_AMODE_2,SRC_AMODE_3"
newline
rbitfld.long 0x00 10. "WR_ACTIVE,Indicates if the channel write context is active or not" "WR_ACTIVE_0_r,WR_ACTIVE_1_r"
newline
rbitfld.long 0x00 9. "RD_ACTIVE,Indicates if the channel read context is active or not" "RD_ACTIVE_0_r,RD_ACTIVE_1_r"
newline
bitfld.long 0x00 8. "SUSPEND_SENSITIVE,Logical channel suspend enable bit" "SUSPEND_SENSITIVE_0,SUSPEND_SENSITIVE_1"
newline
bitfld.long 0x00 7. "ENABLE,Logical channel enable" "ENABLE_0,ENABLE_1"
newline
bitfld.long 0x00 6. "READ_PRIORITY,Channel priority on the read side" "READ_PRIORITY_0,READ_PRIORITY_1"
newline
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 =" "An entire frame is transferred once a DMA..,A packet is transferred once a DMA request is made"
newline
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)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x298++0x03
line.long 0x00 "DMA4_CDACi_5,Channel Destination Address Value"
group.long 0x28C++0x07
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"
line.long 0x04 "DMA4_CDFIi_5,Channel Destination Frame Index (Signed) or 16-bit Packet size"
group.long 0x2B0++0x03
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" "FAST_0,FAST_1"
newline
bitfld.long 0x00 8.--9. "TRANSFER_MODE,Enable linked-list transfer mode" "TRANSFER_MODE_0,TRANSFER_MODE_1,TRANSFER_MODE_2,TRANSFER_MODE_3"
newline
bitfld.long 0x00 7. "PAUSE_LINK_LIST,Suspend the linked-list transfer at completion of the current block transfer" "PAUSE_LINK_LIST_0,PAUSE_LINK_LIST_1"
newline
bitfld.long 0x00 4.--6. "NEXT_DESCRIPTOR_TYPE,Next Descriptor Type" "NEXT_DESCRIPTOR_TYPE_0,NEXT_DESCRIPTOR_TYPE_1,NEXT_DESCRIPTOR_TYPE_2,NEXT_DESCRIPTOR_TYPE_3,NEXT_DESCRIPTOR_TYPE_4,NEXT_DESCRIPTOR_TYPE_5,NEXT_DESCRIPTOR_TYPE_6,NEXT_DESCRIPTOR_TYPE_7"
newline
bitfld.long 0x00 2.--3. "SRC_VALID,Source address valid" "SRC_VALID_0,SRC_VALID_1,SRC_VALID_2,SRC_VALID_3"
newline
bitfld.long 0x00 0.--1. "DEST_VALID,Destination address valid" "DEST_VALID_0,DEST_VALID_1,DEST_VALID_2,DEST_VALID_3"
group.long 0x280++0x03
line.long 0x00 "DMA4_CDSAi_5,Channel Destination Start Address"
group.long 0x274++0x07
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"
line.long 0x04 "DMA4_CFNi_5,Channel Frame Number"
hexmask.long.word 0x04 0.--15. 1. "CHANNEL_FRAME_NBR,Number of frames within the block to be transferred (unsigned)"
group.long 0x268++0x03
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"
newline
bitfld.long 0x00 12. "DRAIN_IE,Enables the end of draining interrupt" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ERR_IE,Enables the address misaligned error event interrupt" "MISALIGNED_ERR_IE_0,MISALIGNED_ERR_IE_1"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR_IE,Enables the supervisor transaction error event interrupt" "SUPERVISOR_ERR_IE_0,SUPERVISOR_ERR_IE_1"
newline
bitfld.long 0x00 8. "TRANS_ERR_IE,Enables the transaction error event interrupt" "TRANS_ERR_IE_0,TRANS_ERR_IE_1"
newline
bitfld.long 0x00 7. "PKT_IE,Enables the end of Packet interrupt" "PKT_IE_0,PKT_IE_1"
newline
bitfld.long 0x00 5. "BLOCK_IE,Enables the end of block interrupt" "BLOCK_IE_0,BLOCK_IE_1"
newline
bitfld.long 0x00 4. "LAST_IE,Last frame interrupt enable (start of last frame)" "LAST_IE_0,LAST_IE_1"
newline
bitfld.long 0x00 3. "FRAME_IE,Frame interrupt enable (end of frame)" "FRAME_IE_0,FRAME_IE_1"
newline
bitfld.long 0x00 2. "HALF_IE,Enables or disables the half frame interrupt" "HALF_IE_0,HALF_IE_1"
newline
bitfld.long 0x00 1. "DROP_IE,Synchronization event drop interrupt enable (request collision)" "DROP_IE_0,DROP_IE_1"
group.long 0x264++0x03
line.long 0x00 "DMA4_CLNK_CTRLi_5,Channel Link Control Register"
bitfld.long 0x00 15. "ENABLE_LNK,Enables or disable the channel linking" "ENABLE_LNK_0,ENABLE_LNK_1"
newline
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++0x03
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++0x03
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"
rgroup.long 0x294++0x03
line.long 0x00 "DMA4_CSACi_5,Channel Source Address Value"
group.long 0x270++0x03
line.long 0x00 "DMA4_CSDPi_5,Channel Source Destination Parameters"
bitfld.long 0x00 21. "SRC_ENDIAN,Channel source endianness control" "SRC_ENDIAN_0,SRC_ENDIAN_1"
newline
bitfld.long 0x00 20. "SRC_ENDIAN_LOCK,Endianness Lock" "SRC_ENDIAN_LOCK_0,SRC_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 19. "DST_ENDIAN,Channel Destination endianness control" "DST_ENDIAN_0,DST_ENDIAN_1"
newline
bitfld.long 0x00 18. "DST_ENDIAN_LOCK,Endianness Lock" "DST_ENDIAN_LOCK_0,DST_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 16.--17. "WRITE_MODE,Used to enable writing mode without posting or with posting" "WRITE_MODE_0,WRITE_MODE_1,WRITE_MODE_2,WRITE_MODE_3"
newline
bitfld.long 0x00 14.--15. "DST_BURST_EN,Used to enable bursting on the Write Port" "DST_BURST_EN_0,DST_BURST_EN_1,DST_BURST_EN_2,DST_BURST_EN_3"
newline
bitfld.long 0x00 13. "DST_PACKED,Destination receives packed data" "DST_PACKED_0,DST_PACKED_1"
newline
bitfld.long 0x00 7.--8. "SRC_BURST_EN,Used to enable bursting on the Read Port" "SRC_BURST_EN_0,SRC_BURST_EN_1,SRC_BURST_EN_2,SRC_BURST_EN_3"
newline
bitfld.long 0x00 6. "SRC_PACKED,Source provides packed data" "SRC_PACKED_0,SRC_PACKED_1"
newline
bitfld.long 0x00 0.--1. "DATA_TYPE,Defines the type of the data moved in the channel" "DATA_TYPE_0,DATA_TYPE_1,DATA_TYPE_2,DATA_TYPE_3"
group.long 0x284++0x07
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"
line.long 0x04 "DMA4_CSFIi_5,Channel Source Frame Index (Signed) or 16-bit Packet size"
group.long 0x26C++0x03
line.long 0x00 "DMA4_CSRi_5,Channel Status Register"
bitfld.long 0x00 14. "SUPER_BLOCK,End of Super block event" "0,1"
newline
bitfld.long 0x00 12. "DRAIN_END,End of channel draining" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ADRS_ERR,Misaligned address error event" "MISALIGNED_ADRS_ERR_0_w,MISALIGNED_ADRS_ERR_1_r"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR,Supervisor transaction error event" "SUPERVISOR_ERR_0_w,SUPERVISOR_ERR_1_r"
newline
bitfld.long 0x00 8. "TRANS_ERR,Transaction error event" "TRANS_ERR_0_w,TRANS_ERR_1_r"
newline
bitfld.long 0x00 7. "PKT,End of Packet transfer" "PKT_0_w,PKT_1_r"
newline
bitfld.long 0x00 6. "SYNC,Synchronization status of a channel" "SYNC_0_w,SYNC_1_r"
newline
bitfld.long 0x00 5. "BLOCK,End of block event" "BLOCK_0_w,BLOCK_1_r"
newline
bitfld.long 0x00 4. "LAST,Last frame (start of last frame)" "LAST_0_w,LAST_1_r"
newline
bitfld.long 0x00 3. "FRAME,End of frame event" "FRAME_0_w,FRAME_1_r"
newline
bitfld.long 0x00 2. "HALF,Half of frame event" "HALF_0_w,HALF_1_r"
newline
bitfld.long 0x00 1. "DROP,Synchronization event drop occured during the transfer" "DROP_0_w,DROP_1_r"
group.long 0x27C++0x03
line.long 0x00 "DMA4_CSSAi_5,Channel Source Start Address"
tree.end
tree "DMA_Channel_6"
group.long 0x318++0x03
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"
group.long 0x2FC++0x07
line.long 0x00 "DMA4_CCENi_6,Channel Current Transferred Element Number in the current frame"
hexmask.long.tbyte 0x00 0.--23. 1. "CURRENT_ELMNT_NBR,Channel current transferred element number in the current frame"
line.long 0x04 "DMA4_CCFNi_6,Channel Current Transferred Frame Number in the current transfer"
hexmask.long.word 0x04 0.--15. 1. "CURRENT_FRAME_NBR,Channel current transferred frame number in the current transfer"
group.long 0x2C0++0x03
line.long 0x00 "DMA4_CCRi_6,Channel Control Register"
bitfld.long 0x00 26. "WRITE_PRIORITY,Channel priority on the Write side" "WRITE_PRIORITY_0,WRITE_PRIORITY_1"
newline
bitfld.long 0x00 25. "BUFFERING_DISABLE,This bit allows to disable the default buffering functionality when transfer is source synchronized" "BUFFERING_DISABLE_0,BUFFERING_DISABLE_1"
newline
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" "SEL_SRC_DST_SYNC_0,SEL_SRC_DST_SYNC_1"
newline
bitfld.long 0x00 23. "PREFETCH,Enables the prefetch mode" "PREFETCH_0,PREFETCH_1"
newline
bitfld.long 0x00 22. "SUPERVISOR,Enables the supervisor mode" "SUPERVISOR_0,SUPERVISOR_1"
newline
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"
newline
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"
newline
bitfld.long 0x00 17. "TRANSPARENT_COPY_ENABLE,Transparent copy enable" "TRANSPARENT_COPY_ENABLE_0,TRANSPARENT_COPY_ENABLE_1"
newline
bitfld.long 0x00 16. "CONST_FILL_ENABLE,Constant fill enable" "CONST_FILL_ENABLE_0,CONST_FILL_ENABLE_1"
newline
bitfld.long 0x00 14.--15. "DST_AMODE,Selects the addressing mode on the Write Port of a channel" "DST_AMODE_0,DST_AMODE_1,DST_AMODE_2,DST_AMODE_3"
newline
bitfld.long 0x00 12.--13. "SRC_AMODE,Selects the addressing mode on the Read Port of a channel" "SRC_AMODE_0,SRC_AMODE_1,SRC_AMODE_2,SRC_AMODE_3"
newline
rbitfld.long 0x00 10. "WR_ACTIVE,Indicates if the channel write context is active or not" "WR_ACTIVE_0_r,WR_ACTIVE_1_r"
newline
rbitfld.long 0x00 9. "RD_ACTIVE,Indicates if the channel read context is active or not" "RD_ACTIVE_0_r,RD_ACTIVE_1_r"
newline
bitfld.long 0x00 8. "SUSPEND_SENSITIVE,Logical channel suspend enable bit" "SUSPEND_SENSITIVE_0,SUSPEND_SENSITIVE_1"
newline
bitfld.long 0x00 7. "ENABLE,Logical channel enable" "ENABLE_0,ENABLE_1"
newline
bitfld.long 0x00 6. "READ_PRIORITY,Channel priority on the read side" "READ_PRIORITY_0,READ_PRIORITY_1"
newline
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 =" "An entire frame is transferred once a DMA..,A packet is transferred once a DMA request is made"
newline
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)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x2F8++0x03
line.long 0x00 "DMA4_CDACi_6,Channel Destination Address Value"
group.long 0x2EC++0x07
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"
line.long 0x04 "DMA4_CDFIi_6,Channel Destination Frame Index (Signed) or 16-bit Packet size"
group.long 0x310++0x03
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" "FAST_0,FAST_1"
newline
bitfld.long 0x00 8.--9. "TRANSFER_MODE,Enable linked-list transfer mode" "TRANSFER_MODE_0,TRANSFER_MODE_1,TRANSFER_MODE_2,TRANSFER_MODE_3"
newline
bitfld.long 0x00 7. "PAUSE_LINK_LIST,Suspend the linked-list transfer at completion of the current block transfer" "PAUSE_LINK_LIST_0,PAUSE_LINK_LIST_1"
newline
bitfld.long 0x00 4.--6. "NEXT_DESCRIPTOR_TYPE,Next Descriptor Type" "NEXT_DESCRIPTOR_TYPE_0,NEXT_DESCRIPTOR_TYPE_1,NEXT_DESCRIPTOR_TYPE_2,NEXT_DESCRIPTOR_TYPE_3,NEXT_DESCRIPTOR_TYPE_4,NEXT_DESCRIPTOR_TYPE_5,NEXT_DESCRIPTOR_TYPE_6,NEXT_DESCRIPTOR_TYPE_7"
newline
bitfld.long 0x00 2.--3. "SRC_VALID,Source address valid" "SRC_VALID_0,SRC_VALID_1,SRC_VALID_2,SRC_VALID_3"
newline
bitfld.long 0x00 0.--1. "DEST_VALID,Destination address valid" "DEST_VALID_0,DEST_VALID_1,DEST_VALID_2,DEST_VALID_3"
group.long 0x2E0++0x03
line.long 0x00 "DMA4_CDSAi_6,Channel Destination Start Address"
group.long 0x2D4++0x07
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"
line.long 0x04 "DMA4_CFNi_6,Channel Frame Number"
hexmask.long.word 0x04 0.--15. 1. "CHANNEL_FRAME_NBR,Number of frames within the block to be transferred (unsigned)"
group.long 0x2C8++0x03
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"
newline
bitfld.long 0x00 12. "DRAIN_IE,Enables the end of draining interrupt" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ERR_IE,Enables the address misaligned error event interrupt" "MISALIGNED_ERR_IE_0,MISALIGNED_ERR_IE_1"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR_IE,Enables the supervisor transaction error event interrupt" "SUPERVISOR_ERR_IE_0,SUPERVISOR_ERR_IE_1"
newline
bitfld.long 0x00 8. "TRANS_ERR_IE,Enables the transaction error event interrupt" "TRANS_ERR_IE_0,TRANS_ERR_IE_1"
newline
bitfld.long 0x00 7. "PKT_IE,Enables the end of Packet interrupt" "PKT_IE_0,PKT_IE_1"
newline
bitfld.long 0x00 5. "BLOCK_IE,Enables the end of block interrupt" "BLOCK_IE_0,BLOCK_IE_1"
newline
bitfld.long 0x00 4. "LAST_IE,Last frame interrupt enable (start of last frame)" "LAST_IE_0,LAST_IE_1"
newline
bitfld.long 0x00 3. "FRAME_IE,Frame interrupt enable (end of frame)" "FRAME_IE_0,FRAME_IE_1"
newline
bitfld.long 0x00 2. "HALF_IE,Enables or disables the half frame interrupt" "HALF_IE_0,HALF_IE_1"
newline
bitfld.long 0x00 1. "DROP_IE,Synchronization event drop interrupt enable (request collision)" "DROP_IE_0,DROP_IE_1"
group.long 0x2C4++0x03
line.long 0x00 "DMA4_CLNK_CTRLi_6,Channel Link Control Register"
bitfld.long 0x00 15. "ENABLE_LNK,Enables or disable the channel linking" "ENABLE_LNK_0,ENABLE_LNK_1"
newline
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++0x03
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++0x03
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"
rgroup.long 0x2F4++0x03
line.long 0x00 "DMA4_CSACi_6,Channel Source Address Value"
group.long 0x2D0++0x03
line.long 0x00 "DMA4_CSDPi_6,Channel Source Destination Parameters"
bitfld.long 0x00 21. "SRC_ENDIAN,Channel source endianness control" "SRC_ENDIAN_0,SRC_ENDIAN_1"
newline
bitfld.long 0x00 20. "SRC_ENDIAN_LOCK,Endianness Lock" "SRC_ENDIAN_LOCK_0,SRC_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 19. "DST_ENDIAN,Channel Destination endianness control" "DST_ENDIAN_0,DST_ENDIAN_1"
newline
bitfld.long 0x00 18. "DST_ENDIAN_LOCK,Endianness Lock" "DST_ENDIAN_LOCK_0,DST_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 16.--17. "WRITE_MODE,Used to enable writing mode without posting or with posting" "WRITE_MODE_0,WRITE_MODE_1,WRITE_MODE_2,WRITE_MODE_3"
newline
bitfld.long 0x00 14.--15. "DST_BURST_EN,Used to enable bursting on the Write Port" "DST_BURST_EN_0,DST_BURST_EN_1,DST_BURST_EN_2,DST_BURST_EN_3"
newline
bitfld.long 0x00 13. "DST_PACKED,Destination receives packed data" "DST_PACKED_0,DST_PACKED_1"
newline
bitfld.long 0x00 7.--8. "SRC_BURST_EN,Used to enable bursting on the Read Port" "SRC_BURST_EN_0,SRC_BURST_EN_1,SRC_BURST_EN_2,SRC_BURST_EN_3"
newline
bitfld.long 0x00 6. "SRC_PACKED,Source provides packed data" "SRC_PACKED_0,SRC_PACKED_1"
newline
bitfld.long 0x00 0.--1. "DATA_TYPE,Defines the type of the data moved in the channel" "DATA_TYPE_0,DATA_TYPE_1,DATA_TYPE_2,DATA_TYPE_3"
group.long 0x2E4++0x07
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"
line.long 0x04 "DMA4_CSFIi_6,Channel Source Frame Index (Signed) or 16-bit Packet size"
group.long 0x2CC++0x03
line.long 0x00 "DMA4_CSRi_6,Channel Status Register"
bitfld.long 0x00 14. "SUPER_BLOCK,End of Super block event" "0,1"
newline
bitfld.long 0x00 12. "DRAIN_END,End of channel draining" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ADRS_ERR,Misaligned address error event" "MISALIGNED_ADRS_ERR_0_w,MISALIGNED_ADRS_ERR_1_r"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR,Supervisor transaction error event" "SUPERVISOR_ERR_0_w,SUPERVISOR_ERR_1_r"
newline
bitfld.long 0x00 8. "TRANS_ERR,Transaction error event" "TRANS_ERR_0_w,TRANS_ERR_1_r"
newline
bitfld.long 0x00 7. "PKT,End of Packet transfer" "PKT_0_w,PKT_1_r"
newline
bitfld.long 0x00 6. "SYNC,Synchronization status of a channel" "SYNC_0_w,SYNC_1_r"
newline
bitfld.long 0x00 5. "BLOCK,End of block event" "BLOCK_0_w,BLOCK_1_r"
newline
bitfld.long 0x00 4. "LAST,Last frame (start of last frame)" "LAST_0_w,LAST_1_r"
newline
bitfld.long 0x00 3. "FRAME,End of frame event" "FRAME_0_w,FRAME_1_r"
newline
bitfld.long 0x00 2. "HALF,Half of frame event" "HALF_0_w,HALF_1_r"
newline
bitfld.long 0x00 1. "DROP,Synchronization event drop occured during the transfer" "DROP_0_w,DROP_1_r"
group.long 0x2DC++0x03
line.long 0x00 "DMA4_CSSAi_6,Channel Source Start Address"
tree.end
tree "DMA_Channel_7"
group.long 0x378++0x03
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"
group.long 0x35C++0x07
line.long 0x00 "DMA4_CCENi_7,Channel Current Transferred Element Number in the current frame"
hexmask.long.tbyte 0x00 0.--23. 1. "CURRENT_ELMNT_NBR,Channel current transferred element number in the current frame"
line.long 0x04 "DMA4_CCFNi_7,Channel Current Transferred Frame Number in the current transfer"
hexmask.long.word 0x04 0.--15. 1. "CURRENT_FRAME_NBR,Channel current transferred frame number in the current transfer"
group.long 0x320++0x03
line.long 0x00 "DMA4_CCRi_7,Channel Control Register"
bitfld.long 0x00 26. "WRITE_PRIORITY,Channel priority on the Write side" "WRITE_PRIORITY_0,WRITE_PRIORITY_1"
newline
bitfld.long 0x00 25. "BUFFERING_DISABLE,This bit allows to disable the default buffering functionality when transfer is source synchronized" "BUFFERING_DISABLE_0,BUFFERING_DISABLE_1"
newline
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" "SEL_SRC_DST_SYNC_0,SEL_SRC_DST_SYNC_1"
newline
bitfld.long 0x00 23. "PREFETCH,Enables the prefetch mode" "PREFETCH_0,PREFETCH_1"
newline
bitfld.long 0x00 22. "SUPERVISOR,Enables the supervisor mode" "SUPERVISOR_0,SUPERVISOR_1"
newline
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"
newline
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"
newline
bitfld.long 0x00 17. "TRANSPARENT_COPY_ENABLE,Transparent copy enable" "TRANSPARENT_COPY_ENABLE_0,TRANSPARENT_COPY_ENABLE_1"
newline
bitfld.long 0x00 16. "CONST_FILL_ENABLE,Constant fill enable" "CONST_FILL_ENABLE_0,CONST_FILL_ENABLE_1"
newline
bitfld.long 0x00 14.--15. "DST_AMODE,Selects the addressing mode on the Write Port of a channel" "DST_AMODE_0,DST_AMODE_1,DST_AMODE_2,DST_AMODE_3"
newline
bitfld.long 0x00 12.--13. "SRC_AMODE,Selects the addressing mode on the Read Port of a channel" "SRC_AMODE_0,SRC_AMODE_1,SRC_AMODE_2,SRC_AMODE_3"
newline
rbitfld.long 0x00 10. "WR_ACTIVE,Indicates if the channel write context is active or not" "WR_ACTIVE_0_r,WR_ACTIVE_1_r"
newline
rbitfld.long 0x00 9. "RD_ACTIVE,Indicates if the channel read context is active or not" "RD_ACTIVE_0_r,RD_ACTIVE_1_r"
newline
bitfld.long 0x00 8. "SUSPEND_SENSITIVE,Logical channel suspend enable bit" "SUSPEND_SENSITIVE_0,SUSPEND_SENSITIVE_1"
newline
bitfld.long 0x00 7. "ENABLE,Logical channel enable" "ENABLE_0,ENABLE_1"
newline
bitfld.long 0x00 6. "READ_PRIORITY,Channel priority on the read side" "READ_PRIORITY_0,READ_PRIORITY_1"
newline
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 =" "An entire frame is transferred once a DMA..,A packet is transferred once a DMA request is made"
newline
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)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x358++0x03
line.long 0x00 "DMA4_CDACi_7,Channel Destination Address Value"
group.long 0x34C++0x07
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"
line.long 0x04 "DMA4_CDFIi_7,Channel Destination Frame Index (Signed) or 16-bit Packet size"
group.long 0x370++0x03
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" "FAST_0,FAST_1"
newline
bitfld.long 0x00 8.--9. "TRANSFER_MODE,Enable linked-list transfer mode" "TRANSFER_MODE_0,TRANSFER_MODE_1,TRANSFER_MODE_2,TRANSFER_MODE_3"
newline
bitfld.long 0x00 7. "PAUSE_LINK_LIST,Suspend the linked-list transfer at completion of the current block transfer" "PAUSE_LINK_LIST_0,PAUSE_LINK_LIST_1"
newline
bitfld.long 0x00 4.--6. "NEXT_DESCRIPTOR_TYPE,Next Descriptor Type" "NEXT_DESCRIPTOR_TYPE_0,NEXT_DESCRIPTOR_TYPE_1,NEXT_DESCRIPTOR_TYPE_2,NEXT_DESCRIPTOR_TYPE_3,NEXT_DESCRIPTOR_TYPE_4,NEXT_DESCRIPTOR_TYPE_5,NEXT_DESCRIPTOR_TYPE_6,NEXT_DESCRIPTOR_TYPE_7"
newline
bitfld.long 0x00 2.--3. "SRC_VALID,Source address valid" "SRC_VALID_0,SRC_VALID_1,SRC_VALID_2,SRC_VALID_3"
newline
bitfld.long 0x00 0.--1. "DEST_VALID,Destination address valid" "DEST_VALID_0,DEST_VALID_1,DEST_VALID_2,DEST_VALID_3"
group.long 0x340++0x03
line.long 0x00 "DMA4_CDSAi_7,Channel Destination Start Address"
group.long 0x334++0x07
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"
line.long 0x04 "DMA4_CFNi_7,Channel Frame Number"
hexmask.long.word 0x04 0.--15. 1. "CHANNEL_FRAME_NBR,Number of frames within the block to be transferred (unsigned)"
group.long 0x328++0x03
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"
newline
bitfld.long 0x00 12. "DRAIN_IE,Enables the end of draining interrupt" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ERR_IE,Enables the address misaligned error event interrupt" "MISALIGNED_ERR_IE_0,MISALIGNED_ERR_IE_1"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR_IE,Enables the supervisor transaction error event interrupt" "SUPERVISOR_ERR_IE_0,SUPERVISOR_ERR_IE_1"
newline
bitfld.long 0x00 8. "TRANS_ERR_IE,Enables the transaction error event interrupt" "TRANS_ERR_IE_0,TRANS_ERR_IE_1"
newline
bitfld.long 0x00 7. "PKT_IE,Enables the end of Packet interrupt" "PKT_IE_0,PKT_IE_1"
newline
bitfld.long 0x00 5. "BLOCK_IE,Enables the end of block interrupt" "BLOCK_IE_0,BLOCK_IE_1"
newline
bitfld.long 0x00 4. "LAST_IE,Last frame interrupt enable (start of last frame)" "LAST_IE_0,LAST_IE_1"
newline
bitfld.long 0x00 3. "FRAME_IE,Frame interrupt enable (end of frame)" "FRAME_IE_0,FRAME_IE_1"
newline
bitfld.long 0x00 2. "HALF_IE,Enables or disables the half frame interrupt" "HALF_IE_0,HALF_IE_1"
newline
bitfld.long 0x00 1. "DROP_IE,Synchronization event drop interrupt enable (request collision)" "DROP_IE_0,DROP_IE_1"
group.long 0x324++0x03
line.long 0x00 "DMA4_CLNK_CTRLi_7,Channel Link Control Register"
bitfld.long 0x00 15. "ENABLE_LNK,Enables or disable the channel linking" "ENABLE_LNK_0,ENABLE_LNK_1"
newline
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++0x03
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++0x03
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"
rgroup.long 0x354++0x03
line.long 0x00 "DMA4_CSACi_7,Channel Source Address Value"
group.long 0x330++0x03
line.long 0x00 "DMA4_CSDPi_7,Channel Source Destination Parameters"
bitfld.long 0x00 21. "SRC_ENDIAN,Channel source endianness control" "SRC_ENDIAN_0,SRC_ENDIAN_1"
newline
bitfld.long 0x00 20. "SRC_ENDIAN_LOCK,Endianness Lock" "SRC_ENDIAN_LOCK_0,SRC_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 19. "DST_ENDIAN,Channel Destination endianness control" "DST_ENDIAN_0,DST_ENDIAN_1"
newline
bitfld.long 0x00 18. "DST_ENDIAN_LOCK,Endianness Lock" "DST_ENDIAN_LOCK_0,DST_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 16.--17. "WRITE_MODE,Used to enable writing mode without posting or with posting" "WRITE_MODE_0,WRITE_MODE_1,WRITE_MODE_2,WRITE_MODE_3"
newline
bitfld.long 0x00 14.--15. "DST_BURST_EN,Used to enable bursting on the Write Port" "DST_BURST_EN_0,DST_BURST_EN_1,DST_BURST_EN_2,DST_BURST_EN_3"
newline
bitfld.long 0x00 13. "DST_PACKED,Destination receives packed data" "DST_PACKED_0,DST_PACKED_1"
newline
bitfld.long 0x00 7.--8. "SRC_BURST_EN,Used to enable bursting on the Read Port" "SRC_BURST_EN_0,SRC_BURST_EN_1,SRC_BURST_EN_2,SRC_BURST_EN_3"
newline
bitfld.long 0x00 6. "SRC_PACKED,Source provides packed data" "SRC_PACKED_0,SRC_PACKED_1"
newline
bitfld.long 0x00 0.--1. "DATA_TYPE,Defines the type of the data moved in the channel" "DATA_TYPE_0,DATA_TYPE_1,DATA_TYPE_2,DATA_TYPE_3"
group.long 0x344++0x07
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"
line.long 0x04 "DMA4_CSFIi_7,Channel Source Frame Index (Signed) or 16-bit Packet size"
group.long 0x32C++0x03
line.long 0x00 "DMA4_CSRi_7,Channel Status Register"
bitfld.long 0x00 14. "SUPER_BLOCK,End of Super block event" "0,1"
newline
bitfld.long 0x00 12. "DRAIN_END,End of channel draining" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ADRS_ERR,Misaligned address error event" "MISALIGNED_ADRS_ERR_0_w,MISALIGNED_ADRS_ERR_1_r"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR,Supervisor transaction error event" "SUPERVISOR_ERR_0_w,SUPERVISOR_ERR_1_r"
newline
bitfld.long 0x00 8. "TRANS_ERR,Transaction error event" "TRANS_ERR_0_w,TRANS_ERR_1_r"
newline
bitfld.long 0x00 7. "PKT,End of Packet transfer" "PKT_0_w,PKT_1_r"
newline
bitfld.long 0x00 6. "SYNC,Synchronization status of a channel" "SYNC_0_w,SYNC_1_r"
newline
bitfld.long 0x00 5. "BLOCK,End of block event" "BLOCK_0_w,BLOCK_1_r"
newline
bitfld.long 0x00 4. "LAST,Last frame (start of last frame)" "LAST_0_w,LAST_1_r"
newline
bitfld.long 0x00 3. "FRAME,End of frame event" "FRAME_0_w,FRAME_1_r"
newline
bitfld.long 0x00 2. "HALF,Half of frame event" "HALF_0_w,HALF_1_r"
newline
bitfld.long 0x00 1. "DROP,Synchronization event drop occured during the transfer" "DROP_0_w,DROP_1_r"
group.long 0x33C++0x03
line.long 0x00 "DMA4_CSSAi_7,Channel Source Start Address"
tree.end
tree "DMA_Channel_8"
group.long 0x3D8++0x03
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"
group.long 0x3BC++0x07
line.long 0x00 "DMA4_CCENi_8,Channel Current Transferred Element Number in the current frame"
hexmask.long.tbyte 0x00 0.--23. 1. "CURRENT_ELMNT_NBR,Channel current transferred element number in the current frame"
line.long 0x04 "DMA4_CCFNi_8,Channel Current Transferred Frame Number in the current transfer"
hexmask.long.word 0x04 0.--15. 1. "CURRENT_FRAME_NBR,Channel current transferred frame number in the current transfer"
group.long 0x380++0x03
line.long 0x00 "DMA4_CCRi_8,Channel Control Register"
bitfld.long 0x00 26. "WRITE_PRIORITY,Channel priority on the Write side" "WRITE_PRIORITY_0,WRITE_PRIORITY_1"
newline
bitfld.long 0x00 25. "BUFFERING_DISABLE,This bit allows to disable the default buffering functionality when transfer is source synchronized" "BUFFERING_DISABLE_0,BUFFERING_DISABLE_1"
newline
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" "SEL_SRC_DST_SYNC_0,SEL_SRC_DST_SYNC_1"
newline
bitfld.long 0x00 23. "PREFETCH,Enables the prefetch mode" "PREFETCH_0,PREFETCH_1"
newline
bitfld.long 0x00 22. "SUPERVISOR,Enables the supervisor mode" "SUPERVISOR_0,SUPERVISOR_1"
newline
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"
newline
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"
newline
bitfld.long 0x00 17. "TRANSPARENT_COPY_ENABLE,Transparent copy enable" "TRANSPARENT_COPY_ENABLE_0,TRANSPARENT_COPY_ENABLE_1"
newline
bitfld.long 0x00 16. "CONST_FILL_ENABLE,Constant fill enable" "CONST_FILL_ENABLE_0,CONST_FILL_ENABLE_1"
newline
bitfld.long 0x00 14.--15. "DST_AMODE,Selects the addressing mode on the Write Port of a channel" "DST_AMODE_0,DST_AMODE_1,DST_AMODE_2,DST_AMODE_3"
newline
bitfld.long 0x00 12.--13. "SRC_AMODE,Selects the addressing mode on the Read Port of a channel" "SRC_AMODE_0,SRC_AMODE_1,SRC_AMODE_2,SRC_AMODE_3"
newline
rbitfld.long 0x00 10. "WR_ACTIVE,Indicates if the channel write context is active or not" "WR_ACTIVE_0_r,WR_ACTIVE_1_r"
newline
rbitfld.long 0x00 9. "RD_ACTIVE,Indicates if the channel read context is active or not" "RD_ACTIVE_0_r,RD_ACTIVE_1_r"
newline
bitfld.long 0x00 8. "SUSPEND_SENSITIVE,Logical channel suspend enable bit" "SUSPEND_SENSITIVE_0,SUSPEND_SENSITIVE_1"
newline
bitfld.long 0x00 7. "ENABLE,Logical channel enable" "ENABLE_0,ENABLE_1"
newline
bitfld.long 0x00 6. "READ_PRIORITY,Channel priority on the read side" "READ_PRIORITY_0,READ_PRIORITY_1"
newline
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 =" "An entire frame is transferred once a DMA..,A packet is transferred once a DMA request is made"
newline
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)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x3B8++0x03
line.long 0x00 "DMA4_CDACi_8,Channel Destination Address Value"
group.long 0x3AC++0x07
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"
line.long 0x04 "DMA4_CDFIi_8,Channel Destination Frame Index (Signed) or 16-bit Packet size"
group.long 0x3D0++0x03
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" "FAST_0,FAST_1"
newline
bitfld.long 0x00 8.--9. "TRANSFER_MODE,Enable linked-list transfer mode" "TRANSFER_MODE_0,TRANSFER_MODE_1,TRANSFER_MODE_2,TRANSFER_MODE_3"
newline
bitfld.long 0x00 7. "PAUSE_LINK_LIST,Suspend the linked-list transfer at completion of the current block transfer" "PAUSE_LINK_LIST_0,PAUSE_LINK_LIST_1"
newline
bitfld.long 0x00 4.--6. "NEXT_DESCRIPTOR_TYPE,Next Descriptor Type" "NEXT_DESCRIPTOR_TYPE_0,NEXT_DESCRIPTOR_TYPE_1,NEXT_DESCRIPTOR_TYPE_2,NEXT_DESCRIPTOR_TYPE_3,NEXT_DESCRIPTOR_TYPE_4,NEXT_DESCRIPTOR_TYPE_5,NEXT_DESCRIPTOR_TYPE_6,NEXT_DESCRIPTOR_TYPE_7"
newline
bitfld.long 0x00 2.--3. "SRC_VALID,Source address valid" "SRC_VALID_0,SRC_VALID_1,SRC_VALID_2,SRC_VALID_3"
newline
bitfld.long 0x00 0.--1. "DEST_VALID,Destination address valid" "DEST_VALID_0,DEST_VALID_1,DEST_VALID_2,DEST_VALID_3"
group.long 0x3A0++0x03
line.long 0x00 "DMA4_CDSAi_8,Channel Destination Start Address"
group.long 0x394++0x07
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"
line.long 0x04 "DMA4_CFNi_8,Channel Frame Number"
hexmask.long.word 0x04 0.--15. 1. "CHANNEL_FRAME_NBR,Number of frames within the block to be transferred (unsigned)"
group.long 0x388++0x03
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"
newline
bitfld.long 0x00 12. "DRAIN_IE,Enables the end of draining interrupt" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ERR_IE,Enables the address misaligned error event interrupt" "MISALIGNED_ERR_IE_0,MISALIGNED_ERR_IE_1"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR_IE,Enables the supervisor transaction error event interrupt" "SUPERVISOR_ERR_IE_0,SUPERVISOR_ERR_IE_1"
newline
bitfld.long 0x00 8. "TRANS_ERR_IE,Enables the transaction error event interrupt" "TRANS_ERR_IE_0,TRANS_ERR_IE_1"
newline
bitfld.long 0x00 7. "PKT_IE,Enables the end of Packet interrupt" "PKT_IE_0,PKT_IE_1"
newline
bitfld.long 0x00 5. "BLOCK_IE,Enables the end of block interrupt" "BLOCK_IE_0,BLOCK_IE_1"
newline
bitfld.long 0x00 4. "LAST_IE,Last frame interrupt enable (start of last frame)" "LAST_IE_0,LAST_IE_1"
newline
bitfld.long 0x00 3. "FRAME_IE,Frame interrupt enable (end of frame)" "FRAME_IE_0,FRAME_IE_1"
newline
bitfld.long 0x00 2. "HALF_IE,Enables or disables the half frame interrupt" "HALF_IE_0,HALF_IE_1"
newline
bitfld.long 0x00 1. "DROP_IE,Synchronization event drop interrupt enable (request collision)" "DROP_IE_0,DROP_IE_1"
group.long 0x384++0x03
line.long 0x00 "DMA4_CLNK_CTRLi_8,Channel Link Control Register"
bitfld.long 0x00 15. "ENABLE_LNK,Enables or disable the channel linking" "ENABLE_LNK_0,ENABLE_LNK_1"
newline
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++0x03
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++0x03
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"
rgroup.long 0x3B4++0x03
line.long 0x00 "DMA4_CSACi_8,Channel Source Address Value"
group.long 0x390++0x03
line.long 0x00 "DMA4_CSDPi_8,Channel Source Destination Parameters"
bitfld.long 0x00 21. "SRC_ENDIAN,Channel source endianness control" "SRC_ENDIAN_0,SRC_ENDIAN_1"
newline
bitfld.long 0x00 20. "SRC_ENDIAN_LOCK,Endianness Lock" "SRC_ENDIAN_LOCK_0,SRC_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 19. "DST_ENDIAN,Channel Destination endianness control" "DST_ENDIAN_0,DST_ENDIAN_1"
newline
bitfld.long 0x00 18. "DST_ENDIAN_LOCK,Endianness Lock" "DST_ENDIAN_LOCK_0,DST_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 16.--17. "WRITE_MODE,Used to enable writing mode without posting or with posting" "WRITE_MODE_0,WRITE_MODE_1,WRITE_MODE_2,WRITE_MODE_3"
newline
bitfld.long 0x00 14.--15. "DST_BURST_EN,Used to enable bursting on the Write Port" "DST_BURST_EN_0,DST_BURST_EN_1,DST_BURST_EN_2,DST_BURST_EN_3"
newline
bitfld.long 0x00 13. "DST_PACKED,Destination receives packed data" "DST_PACKED_0,DST_PACKED_1"
newline
bitfld.long 0x00 7.--8. "SRC_BURST_EN,Used to enable bursting on the Read Port" "SRC_BURST_EN_0,SRC_BURST_EN_1,SRC_BURST_EN_2,SRC_BURST_EN_3"
newline
bitfld.long 0x00 6. "SRC_PACKED,Source provides packed data" "SRC_PACKED_0,SRC_PACKED_1"
newline
bitfld.long 0x00 0.--1. "DATA_TYPE,Defines the type of the data moved in the channel" "DATA_TYPE_0,DATA_TYPE_1,DATA_TYPE_2,DATA_TYPE_3"
group.long 0x3A4++0x07
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"
line.long 0x04 "DMA4_CSFIi_8,Channel Source Frame Index (Signed) or 16-bit Packet size"
group.long 0x38C++0x03
line.long 0x00 "DMA4_CSRi_8,Channel Status Register"
bitfld.long 0x00 14. "SUPER_BLOCK,End of Super block event" "0,1"
newline
bitfld.long 0x00 12. "DRAIN_END,End of channel draining" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ADRS_ERR,Misaligned address error event" "MISALIGNED_ADRS_ERR_0_w,MISALIGNED_ADRS_ERR_1_r"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR,Supervisor transaction error event" "SUPERVISOR_ERR_0_w,SUPERVISOR_ERR_1_r"
newline
bitfld.long 0x00 8. "TRANS_ERR,Transaction error event" "TRANS_ERR_0_w,TRANS_ERR_1_r"
newline
bitfld.long 0x00 7. "PKT,End of Packet transfer" "PKT_0_w,PKT_1_r"
newline
bitfld.long 0x00 6. "SYNC,Synchronization status of a channel" "SYNC_0_w,SYNC_1_r"
newline
bitfld.long 0x00 5. "BLOCK,End of block event" "BLOCK_0_w,BLOCK_1_r"
newline
bitfld.long 0x00 4. "LAST,Last frame (start of last frame)" "LAST_0_w,LAST_1_r"
newline
bitfld.long 0x00 3. "FRAME,End of frame event" "FRAME_0_w,FRAME_1_r"
newline
bitfld.long 0x00 2. "HALF,Half of frame event" "HALF_0_w,HALF_1_r"
newline
bitfld.long 0x00 1. "DROP,Synchronization event drop occured during the transfer" "DROP_0_w,DROP_1_r"
group.long 0x39C++0x03
line.long 0x00 "DMA4_CSSAi_8,Channel Source Start Address"
tree.end
tree "DMA_Channel_9"
group.long 0x438++0x03
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"
group.long 0x41C++0x07
line.long 0x00 "DMA4_CCENi_9,Channel Current Transferred Element Number in the current frame"
hexmask.long.tbyte 0x00 0.--23. 1. "CURRENT_ELMNT_NBR,Channel current transferred element number in the current frame"
line.long 0x04 "DMA4_CCFNi_9,Channel Current Transferred Frame Number in the current transfer"
hexmask.long.word 0x04 0.--15. 1. "CURRENT_FRAME_NBR,Channel current transferred frame number in the current transfer"
group.long 0x3E0++0x03
line.long 0x00 "DMA4_CCRi_9,Channel Control Register"
bitfld.long 0x00 26. "WRITE_PRIORITY,Channel priority on the Write side" "WRITE_PRIORITY_0,WRITE_PRIORITY_1"
newline
bitfld.long 0x00 25. "BUFFERING_DISABLE,This bit allows to disable the default buffering functionality when transfer is source synchronized" "BUFFERING_DISABLE_0,BUFFERING_DISABLE_1"
newline
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" "SEL_SRC_DST_SYNC_0,SEL_SRC_DST_SYNC_1"
newline
bitfld.long 0x00 23. "PREFETCH,Enables the prefetch mode" "PREFETCH_0,PREFETCH_1"
newline
bitfld.long 0x00 22. "SUPERVISOR,Enables the supervisor mode" "SUPERVISOR_0,SUPERVISOR_1"
newline
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"
newline
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"
newline
bitfld.long 0x00 17. "TRANSPARENT_COPY_ENABLE,Transparent copy enable" "TRANSPARENT_COPY_ENABLE_0,TRANSPARENT_COPY_ENABLE_1"
newline
bitfld.long 0x00 16. "CONST_FILL_ENABLE,Constant fill enable" "CONST_FILL_ENABLE_0,CONST_FILL_ENABLE_1"
newline
bitfld.long 0x00 14.--15. "DST_AMODE,Selects the addressing mode on the Write Port of a channel" "DST_AMODE_0,DST_AMODE_1,DST_AMODE_2,DST_AMODE_3"
newline
bitfld.long 0x00 12.--13. "SRC_AMODE,Selects the addressing mode on the Read Port of a channel" "SRC_AMODE_0,SRC_AMODE_1,SRC_AMODE_2,SRC_AMODE_3"
newline
rbitfld.long 0x00 10. "WR_ACTIVE,Indicates if the channel write context is active or not" "WR_ACTIVE_0_r,WR_ACTIVE_1_r"
newline
rbitfld.long 0x00 9. "RD_ACTIVE,Indicates if the channel read context is active or not" "RD_ACTIVE_0_r,RD_ACTIVE_1_r"
newline
bitfld.long 0x00 8. "SUSPEND_SENSITIVE,Logical channel suspend enable bit" "SUSPEND_SENSITIVE_0,SUSPEND_SENSITIVE_1"
newline
bitfld.long 0x00 7. "ENABLE,Logical channel enable" "ENABLE_0,ENABLE_1"
newline
bitfld.long 0x00 6. "READ_PRIORITY,Channel priority on the read side" "READ_PRIORITY_0,READ_PRIORITY_1"
newline
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 =" "An entire frame is transferred once a DMA..,A packet is transferred once a DMA request is made"
newline
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)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x418++0x03
line.long 0x00 "DMA4_CDACi_9,Channel Destination Address Value"
group.long 0x40C++0x07
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"
line.long 0x04 "DMA4_CDFIi_9,Channel Destination Frame Index (Signed) or 16-bit Packet size"
group.long 0x430++0x03
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" "FAST_0,FAST_1"
newline
bitfld.long 0x00 8.--9. "TRANSFER_MODE,Enable linked-list transfer mode" "TRANSFER_MODE_0,TRANSFER_MODE_1,TRANSFER_MODE_2,TRANSFER_MODE_3"
newline
bitfld.long 0x00 7. "PAUSE_LINK_LIST,Suspend the linked-list transfer at completion of the current block transfer" "PAUSE_LINK_LIST_0,PAUSE_LINK_LIST_1"
newline
bitfld.long 0x00 4.--6. "NEXT_DESCRIPTOR_TYPE,Next Descriptor Type" "NEXT_DESCRIPTOR_TYPE_0,NEXT_DESCRIPTOR_TYPE_1,NEXT_DESCRIPTOR_TYPE_2,NEXT_DESCRIPTOR_TYPE_3,NEXT_DESCRIPTOR_TYPE_4,NEXT_DESCRIPTOR_TYPE_5,NEXT_DESCRIPTOR_TYPE_6,NEXT_DESCRIPTOR_TYPE_7"
newline
bitfld.long 0x00 2.--3. "SRC_VALID,Source address valid" "SRC_VALID_0,SRC_VALID_1,SRC_VALID_2,SRC_VALID_3"
newline
bitfld.long 0x00 0.--1. "DEST_VALID,Destination address valid" "DEST_VALID_0,DEST_VALID_1,DEST_VALID_2,DEST_VALID_3"
group.long 0x400++0x03
line.long 0x00 "DMA4_CDSAi_9,Channel Destination Start Address"
group.long 0x3F4++0x07
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"
line.long 0x04 "DMA4_CFNi_9,Channel Frame Number"
hexmask.long.word 0x04 0.--15. 1. "CHANNEL_FRAME_NBR,Number of frames within the block to be transferred (unsigned)"
group.long 0x3E8++0x03
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"
newline
bitfld.long 0x00 12. "DRAIN_IE,Enables the end of draining interrupt" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ERR_IE,Enables the address misaligned error event interrupt" "MISALIGNED_ERR_IE_0,MISALIGNED_ERR_IE_1"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR_IE,Enables the supervisor transaction error event interrupt" "SUPERVISOR_ERR_IE_0,SUPERVISOR_ERR_IE_1"
newline
bitfld.long 0x00 8. "TRANS_ERR_IE,Enables the transaction error event interrupt" "TRANS_ERR_IE_0,TRANS_ERR_IE_1"
newline
bitfld.long 0x00 7. "PKT_IE,Enables the end of Packet interrupt" "PKT_IE_0,PKT_IE_1"
newline
bitfld.long 0x00 5. "BLOCK_IE,Enables the end of block interrupt" "BLOCK_IE_0,BLOCK_IE_1"
newline
bitfld.long 0x00 4. "LAST_IE,Last frame interrupt enable (start of last frame)" "LAST_IE_0,LAST_IE_1"
newline
bitfld.long 0x00 3. "FRAME_IE,Frame interrupt enable (end of frame)" "FRAME_IE_0,FRAME_IE_1"
newline
bitfld.long 0x00 2. "HALF_IE,Enables or disables the half frame interrupt" "HALF_IE_0,HALF_IE_1"
newline
bitfld.long 0x00 1. "DROP_IE,Synchronization event drop interrupt enable (request collision)" "DROP_IE_0,DROP_IE_1"
group.long 0x3E4++0x03
line.long 0x00 "DMA4_CLNK_CTRLi_9,Channel Link Control Register"
bitfld.long 0x00 15. "ENABLE_LNK,Enables or disable the channel linking" "ENABLE_LNK_0,ENABLE_LNK_1"
newline
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++0x03
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++0x03
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"
rgroup.long 0x414++0x03
line.long 0x00 "DMA4_CSACi_9,Channel Source Address Value"
group.long 0x3F0++0x03
line.long 0x00 "DMA4_CSDPi_9,Channel Source Destination Parameters"
bitfld.long 0x00 21. "SRC_ENDIAN,Channel source endianness control" "SRC_ENDIAN_0,SRC_ENDIAN_1"
newline
bitfld.long 0x00 20. "SRC_ENDIAN_LOCK,Endianness Lock" "SRC_ENDIAN_LOCK_0,SRC_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 19. "DST_ENDIAN,Channel Destination endianness control" "DST_ENDIAN_0,DST_ENDIAN_1"
newline
bitfld.long 0x00 18. "DST_ENDIAN_LOCK,Endianness Lock" "DST_ENDIAN_LOCK_0,DST_ENDIAN_LOCK_1"
newline
bitfld.long 0x00 16.--17. "WRITE_MODE,Used to enable writing mode without posting or with posting" "WRITE_MODE_0,WRITE_MODE_1,WRITE_MODE_2,WRITE_MODE_3"
newline
bitfld.long 0x00 14.--15. "DST_BURST_EN,Used to enable bursting on the Write Port" "DST_BURST_EN_0,DST_BURST_EN_1,DST_BURST_EN_2,DST_BURST_EN_3"
newline
bitfld.long 0x00 13. "DST_PACKED,Destination receives packed data" "DST_PACKED_0,DST_PACKED_1"
newline
bitfld.long 0x00 7.--8. "SRC_BURST_EN,Used to enable bursting on the Read Port" "SRC_BURST_EN_0,SRC_BURST_EN_1,SRC_BURST_EN_2,SRC_BURST_EN_3"
newline
bitfld.long 0x00 6. "SRC_PACKED,Source provides packed data" "SRC_PACKED_0,SRC_PACKED_1"
newline
bitfld.long 0x00 0.--1. "DATA_TYPE,Defines the type of the data moved in the channel" "DATA_TYPE_0,DATA_TYPE_1,DATA_TYPE_2,DATA_TYPE_3"
group.long 0x404++0x07
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"
line.long 0x04 "DMA4_CSFIi_9,Channel Source Frame Index (Signed) or 16-bit Packet size"
group.long 0x3EC++0x03
line.long 0x00 "DMA4_CSRi_9,Channel Status Register"
bitfld.long 0x00 14. "SUPER_BLOCK,End of Super block event" "0,1"
newline
bitfld.long 0x00 12. "DRAIN_END,End of channel draining" "0,1"
newline
bitfld.long 0x00 11. "MISALIGNED_ADRS_ERR,Misaligned address error event" "MISALIGNED_ADRS_ERR_0_w,MISALIGNED_ADRS_ERR_1_r"
newline
bitfld.long 0x00 10. "SUPERVISOR_ERR,Supervisor transaction error event" "SUPERVISOR_ERR_0_w,SUPERVISOR_ERR_1_r"
newline
bitfld.long 0x00 8. "TRANS_ERR,Transaction error event" "TRANS_ERR_0_w,TRANS_ERR_1_r"
newline
bitfld.long 0x00 7. "PKT,End of Packet transfer" "PKT_0_w,PKT_1_r"
newline
bitfld.long 0x00 6. "SYNC,Synchronization status of a channel" "SYNC_0_w,SYNC_1_r"
newline
bitfld.long 0x00 5. "BLOCK,End of block event" "BLOCK_0_w,BLOCK_1_r"
newline
bitfld.long 0x00 4. "LAST,Last frame (start of last frame)" "LAST_0_w,LAST_1_r"
newline
bitfld.long 0x00 3. "FRAME,End of frame event" "FRAME_0_w,FRAME_1_r"
newline
bitfld.long 0x00 2. "HALF,Half of frame event" "HALF_0_w,HALF_1_r"
newline
bitfld.long 0x00 1. "DROP,Synchronization event drop occured during the transfer" "DROP_0_w,DROP_1_r"
group.long 0x3FC++0x03
line.long 0x00 "DMA4_CSSAi_9,Channel Source Start Address"
tree.end
tree.end
tree.end
tree "Serial_Low_Power_Inter_Chip_Media_Bus_Controller"
tree "SLIMBUS1_Cortex_A9"
base ansd:0x4012C000
tree "Channel_0"
group.long 0x314++0x0B
line.long 0x00 "SLIMBUS_DCR_CONFIG1_j_0,RX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0,ENABLE_1"
bitfld.long 0x00 30. "CTS_FORCE_VALUE,Value to force the CTS TAG bit value when in asynchronous TP and secondary channel owner (that is receiver) and CTS is forced (CTS_force_en=1) Don't care in all other cases" "CTS_FORCE_VALUE_0,CTS_FORCE_VALUE_1"
bitfld.long 0x00 29. "CTS_FORCE_EN,Forces the CTS TAG bit value when in an asynchronous TP and secondary owner (that is receiver) of the channel" "CTS_FORCE_EN_0,CTS_FORCE_EN_1"
newline
bitfld.long 0x00 28. "DT_LPCM,OSAM-to-unsigned decoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Channel index 0 should have CL=0 since there is no 'previous' channel in that case" "CL_0,CL_1"
newline
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
newline
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCR_CONFIG2_j_0,RX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution"
line.long 0x08 "SLIMBUS_DCR_DATA_j_0,RX data agent DATA FIFO output"
group.long 0x304++0x0B
line.long 0x00 "SLIMBUS_DCR_FIFO_SETUP1_j_0,RX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,RX data agent FIFO base address within shared RX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in read accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCR_FIFO_SETUP2_j_0,RX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO output (read) RX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side RX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side RX data agent FIFO threshold used for SLIMbus reception"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCR_FIFO_STATUS_j_0,RX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCR_DATA read accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "RD_LEVEL,Number of segment words stored in FIFO that can be read out"
rbitfld.long 0x08 1. "HILEVEL,Indicator of read level (RD_LEVEL: number of readable segment words) with respect to (read) threshold (DMA_THRESHOLD)" "HILEVEL_0_r,HILEVEL_1_r"
rbitfld.long 0x08 0. "EMPTY,FIFO empty indicator" "EMPTY_0_r,EMPTY_1_r"
group.long 0x300++0x03
line.long 0x00 "SLIMBUS_DCR_INFO_j_0,RX data agent status"
bitfld.long 0x00 3. "HILEVEL,Read level of RX data agent FIFO has gone above DMA threshold (that is reads required to empty FIFO)" "HILEVEL_0_r,HILEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in RX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in RX data agent FIFO Note: never asserted in pulled or async TPs by construction" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in RX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x310++0x03
line.long 0x00 "SLIMBUS_DCR_MAP_j_0,Associates a device and port to the RX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
group.long 0x214++0x0B
line.long 0x00 "SLIMBUS_DCT_CONFIG1_j_0,TX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0_r,ENABLE_1_r"
rbitfld.long 0x00 30. "CTS_LAST_VALUE,Last received value of the CTS TAG bit" "CTS_LAST_VALUE_0_r,CTS_LAST_VALUE_1_r"
bitfld.long 0x00 28. "DT_LPCM,Unsigned-to-OSAM encoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
newline
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Tied-0 read-only field for channel index 0 since there is no 'previous' channel in that case" "CL_0,CL_1"
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCT_CONFIG2_j_0,TX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution (see)"
line.long 0x08 "SLIMBUS_DCT_DATA_j_0,TX data agent DATA FIFO input"
group.long 0x204++0x0B
line.long 0x00 "SLIMBUS_DCT_FIFO_SETUP1_j_0,TX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,TX data agent FIFO base address within shared TX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in write accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCT_FIFO_SETUP2_j_0,TX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO input (write) TX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side TX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side TX data agent FIFO threshold used for SLIMbus transmission"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCT_FIFO_STATUS_j_0,TX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCT_DATA write accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "WR_LEVEL,Number of free segment words in FIFO that could be filled by writes"
rbitfld.long 0x08 1. "LOLEVEL,Indicator of write level (WR_LEVEL: number of free words in FIFO) with respect to (write) threshold (DMA_threshold)" "LOLEVEL_0_r,LOLEVEL_1_r"
rbitfld.long 0x08 0. "FULL,FIFO full indicator" "FULL_0_r,FULL_1_r"
group.long 0x200++0x03
line.long 0x00 "SLIMBUS_DCT_INFO_j_0,TX data agent status"
bitfld.long 0x00 3. "LOLEVEL,Write level of TX data agent FIFO has gone above DMA threshold (that is writes required to fill FIFO) Note: Defaults to 0 (even though FIFO is then empty) as it sets to 1 only when read-only status bit DCT_FIFO_STATUS.LOLEVEL transitions from 0.." "LOLEVEL_0_r,LOLEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in TX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in TX data agent FIFO" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in TX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x210++0x03
line.long 0x00 "SLIMBUS_DCT_MAP_j_0,Associates a device and port to the TX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
rgroup.long 0x108++0x03
line.long 0x00 "SLIMBUS_DEV_EA_HI_i_0,Device's Enumeration Address (EA[47:0]). upper 16 bits"
hexmask.long.word 0x00 0.--15. 1. "EA_MI,Manufacturer Index (MI[15:0]) shared by all devices"
rgroup.long 0x104++0x03
line.long 0x00 "SLIMBUS_DEV_EA_LO_i_0,Device's Enumeration Address (EA[47:0]). lower 32 bits"
hexmask.long.word 0x00 16.--31. 1. "EA_PC,Product Code (PC[15:0]) shared by all devices of the component"
hexmask.long.byte 0x00 8.--15. 1. "EA_DI,Device Index (DI[15:0]) hardcoded from 0 upwards (0x00 0x01 0x02 etc...) each device of the component"
hexmask.long.byte 0x00 0.--7. 1. "EA_IV,Component's Instance Value (IV[7:0]) shared by all devices of the component"
group.long 0x100++0x03
line.long 0x00 "SLIMBUS_DEV_LA_i_0,Device Logical Address control"
bitfld.long 0x00 9. "EA_ENABLE,Enables the reception of 'long-header' messages to the device's hardwired Enumeration Address (EA)" "EA_ENABLE_0,EA_ENABLE_1"
bitfld.long 0x00 8. "LA_ENABLE,Enables the reception of 'short-header' messages to the device's Logical Address (LA)" "LA_ENABLE_0,LA_ENABLE_1"
hexmask.long.byte 0x00 0.--7. 1. "LA,Device Logical Address assigned by manager device at enumeration (0x00 through 0xEF)"
tree.end
tree "Channel_1"
group.long 0x334++0x0B
line.long 0x00 "SLIMBUS_DCR_CONFIG1_j_1,RX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0,ENABLE_1"
bitfld.long 0x00 30. "CTS_FORCE_VALUE,Value to force the CTS TAG bit value when in asynchronous TP and secondary channel owner (that is receiver) and CTS is forced (CTS_force_en=1) Don't care in all other cases" "CTS_FORCE_VALUE_0,CTS_FORCE_VALUE_1"
bitfld.long 0x00 29. "CTS_FORCE_EN,Forces the CTS TAG bit value when in an asynchronous TP and secondary owner (that is receiver) of the channel" "CTS_FORCE_EN_0,CTS_FORCE_EN_1"
newline
bitfld.long 0x00 28. "DT_LPCM,OSAM-to-unsigned decoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Channel index 0 should have CL=0 since there is no 'previous' channel in that case" "CL_0,CL_1"
newline
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
newline
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCR_CONFIG2_j_1,RX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution"
line.long 0x08 "SLIMBUS_DCR_DATA_j_1,RX data agent DATA FIFO output"
group.long 0x324++0x0B
line.long 0x00 "SLIMBUS_DCR_FIFO_SETUP1_j_1,RX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,RX data agent FIFO base address within shared RX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in read accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCR_FIFO_SETUP2_j_1,RX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO output (read) RX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side RX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side RX data agent FIFO threshold used for SLIMbus reception"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCR_FIFO_STATUS_j_1,RX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCR_DATA read accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "RD_LEVEL,Number of segment words stored in FIFO that can be read out"
rbitfld.long 0x08 1. "HILEVEL,Indicator of read level (RD_LEVEL: number of readable segment words) with respect to (read) threshold (DMA_THRESHOLD)" "HILEVEL_0_r,HILEVEL_1_r"
rbitfld.long 0x08 0. "EMPTY,FIFO empty indicator" "EMPTY_0_r,EMPTY_1_r"
group.long 0x320++0x03
line.long 0x00 "SLIMBUS_DCR_INFO_j_1,RX data agent status"
bitfld.long 0x00 3. "HILEVEL,Read level of RX data agent FIFO has gone above DMA threshold (that is reads required to empty FIFO)" "HILEVEL_0_r,HILEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in RX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in RX data agent FIFO Note: never asserted in pulled or async TPs by construction" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in RX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x330++0x03
line.long 0x00 "SLIMBUS_DCR_MAP_j_1,Associates a device and port to the RX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
group.long 0x234++0x0B
line.long 0x00 "SLIMBUS_DCT_CONFIG1_j_1,TX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0_r,ENABLE_1_r"
rbitfld.long 0x00 30. "CTS_LAST_VALUE,Last received value of the CTS TAG bit" "CTS_LAST_VALUE_0_r,CTS_LAST_VALUE_1_r"
bitfld.long 0x00 28. "DT_LPCM,Unsigned-to-OSAM encoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
newline
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Tied-0 read-only field for channel index 0 since there is no 'previous' channel in that case" "CL_0,CL_1"
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCT_CONFIG2_j_1,TX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution (see)"
line.long 0x08 "SLIMBUS_DCT_DATA_j_1,TX data agent DATA FIFO input"
group.long 0x224++0x0B
line.long 0x00 "SLIMBUS_DCT_FIFO_SETUP1_j_1,TX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,TX data agent FIFO base address within shared TX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in write accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCT_FIFO_SETUP2_j_1,TX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO input (write) TX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side TX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side TX data agent FIFO threshold used for SLIMbus transmission"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCT_FIFO_STATUS_j_1,TX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCT_DATA write accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "WR_LEVEL,Number of free segment words in FIFO that could be filled by writes"
rbitfld.long 0x08 1. "LOLEVEL,Indicator of write level (WR_LEVEL: number of free words in FIFO) with respect to (write) threshold (DMA_threshold)" "LOLEVEL_0_r,LOLEVEL_1_r"
rbitfld.long 0x08 0. "FULL,FIFO full indicator" "FULL_0_r,FULL_1_r"
group.long 0x220++0x03
line.long 0x00 "SLIMBUS_DCT_INFO_j_1,TX data agent status"
bitfld.long 0x00 3. "LOLEVEL,Write level of TX data agent FIFO has gone above DMA threshold (that is writes required to fill FIFO) Note: Defaults to 0 (even though FIFO is then empty) as it sets to 1 only when read-only status bit DCT_FIFO_STATUS.LOLEVEL transitions from 0.." "LOLEVEL_0_r,LOLEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in TX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in TX data agent FIFO" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in TX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x230++0x03
line.long 0x00 "SLIMBUS_DCT_MAP_j_1,Associates a device and port to the TX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
rgroup.long 0x118++0x03
line.long 0x00 "SLIMBUS_DEV_EA_HI_i_1,Device's Enumeration Address (EA[47:0]). upper 16 bits"
hexmask.long.word 0x00 0.--15. 1. "EA_MI,Manufacturer Index (MI[15:0]) shared by all devices"
rgroup.long 0x114++0x03
line.long 0x00 "SLIMBUS_DEV_EA_LO_i_1,Device's Enumeration Address (EA[47:0]). lower 32 bits"
hexmask.long.word 0x00 16.--31. 1. "EA_PC,Product Code (PC[15:0]) shared by all devices of the component"
hexmask.long.byte 0x00 8.--15. 1. "EA_DI,Device Index (DI[15:0]) hardcoded from 0 upwards (0x00 0x01 0x02 etc...) each device of the component"
hexmask.long.byte 0x00 0.--7. 1. "EA_IV,Component's Instance Value (IV[7:0]) shared by all devices of the component"
group.long 0x110++0x03
line.long 0x00 "SLIMBUS_DEV_LA_i_1,Device Logical Address control"
bitfld.long 0x00 9. "EA_ENABLE,Enables the reception of 'long-header' messages to the device's hardwired Enumeration Address (EA)" "EA_ENABLE_0,EA_ENABLE_1"
bitfld.long 0x00 8. "LA_ENABLE,Enables the reception of 'short-header' messages to the device's Logical Address (LA)" "LA_ENABLE_0,LA_ENABLE_1"
hexmask.long.byte 0x00 0.--7. 1. "LA,Device Logical Address assigned by manager device at enumeration (0x00 through 0xEF)"
tree.end
tree "Channel_2"
group.long 0x354++0x0B
line.long 0x00 "SLIMBUS_DCR_CONFIG1_j_2,RX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0,ENABLE_1"
bitfld.long 0x00 30. "CTS_FORCE_VALUE,Value to force the CTS TAG bit value when in asynchronous TP and secondary channel owner (that is receiver) and CTS is forced (CTS_force_en=1) Don't care in all other cases" "CTS_FORCE_VALUE_0,CTS_FORCE_VALUE_1"
bitfld.long 0x00 29. "CTS_FORCE_EN,Forces the CTS TAG bit value when in an asynchronous TP and secondary owner (that is receiver) of the channel" "CTS_FORCE_EN_0,CTS_FORCE_EN_1"
newline
bitfld.long 0x00 28. "DT_LPCM,OSAM-to-unsigned decoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Channel index 0 should have CL=0 since there is no 'previous' channel in that case" "CL_0,CL_1"
newline
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
newline
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCR_CONFIG2_j_2,RX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution"
line.long 0x08 "SLIMBUS_DCR_DATA_j_2,RX data agent DATA FIFO output"
group.long 0x344++0x0B
line.long 0x00 "SLIMBUS_DCR_FIFO_SETUP1_j_2,RX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,RX data agent FIFO base address within shared RX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in read accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCR_FIFO_SETUP2_j_2,RX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO output (read) RX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side RX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side RX data agent FIFO threshold used for SLIMbus reception"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCR_FIFO_STATUS_j_2,RX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCR_DATA read accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "RD_LEVEL,Number of segment words stored in FIFO that can be read out"
rbitfld.long 0x08 1. "HILEVEL,Indicator of read level (RD_LEVEL: number of readable segment words) with respect to (read) threshold (DMA_THRESHOLD)" "HILEVEL_0_r,HILEVEL_1_r"
rbitfld.long 0x08 0. "EMPTY,FIFO empty indicator" "EMPTY_0_r,EMPTY_1_r"
group.long 0x340++0x03
line.long 0x00 "SLIMBUS_DCR_INFO_j_2,RX data agent status"
bitfld.long 0x00 3. "HILEVEL,Read level of RX data agent FIFO has gone above DMA threshold (that is reads required to empty FIFO)" "HILEVEL_0_r,HILEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in RX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in RX data agent FIFO Note: never asserted in pulled or async TPs by construction" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in RX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x350++0x03
line.long 0x00 "SLIMBUS_DCR_MAP_j_2,Associates a device and port to the RX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
group.long 0x254++0x0B
line.long 0x00 "SLIMBUS_DCT_CONFIG1_j_2,TX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0_r,ENABLE_1_r"
rbitfld.long 0x00 30. "CTS_LAST_VALUE,Last received value of the CTS TAG bit" "CTS_LAST_VALUE_0_r,CTS_LAST_VALUE_1_r"
bitfld.long 0x00 28. "DT_LPCM,Unsigned-to-OSAM encoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
newline
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Tied-0 read-only field for channel index 0 since there is no 'previous' channel in that case" "CL_0,CL_1"
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCT_CONFIG2_j_2,TX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution (see)"
line.long 0x08 "SLIMBUS_DCT_DATA_j_2,TX data agent DATA FIFO input"
group.long 0x244++0x0B
line.long 0x00 "SLIMBUS_DCT_FIFO_SETUP1_j_2,TX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,TX data agent FIFO base address within shared TX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in write accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCT_FIFO_SETUP2_j_2,TX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO input (write) TX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side TX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side TX data agent FIFO threshold used for SLIMbus transmission"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCT_FIFO_STATUS_j_2,TX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCT_DATA write accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "WR_LEVEL,Number of free segment words in FIFO that could be filled by writes"
rbitfld.long 0x08 1. "LOLEVEL,Indicator of write level (WR_LEVEL: number of free words in FIFO) with respect to (write) threshold (DMA_threshold)" "LOLEVEL_0_r,LOLEVEL_1_r"
rbitfld.long 0x08 0. "FULL,FIFO full indicator" "FULL_0_r,FULL_1_r"
group.long 0x240++0x03
line.long 0x00 "SLIMBUS_DCT_INFO_j_2,TX data agent status"
bitfld.long 0x00 3. "LOLEVEL,Write level of TX data agent FIFO has gone above DMA threshold (that is writes required to fill FIFO) Note: Defaults to 0 (even though FIFO is then empty) as it sets to 1 only when read-only status bit DCT_FIFO_STATUS.LOLEVEL transitions from 0.." "LOLEVEL_0_r,LOLEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in TX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in TX data agent FIFO" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in TX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x250++0x03
line.long 0x00 "SLIMBUS_DCT_MAP_j_2,Associates a device and port to the TX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
rgroup.long 0x128++0x03
line.long 0x00 "SLIMBUS_DEV_EA_HI_i_2,Device's Enumeration Address (EA[47:0]). upper 16 bits"
hexmask.long.word 0x00 0.--15. 1. "EA_MI,Manufacturer Index (MI[15:0]) shared by all devices"
rgroup.long 0x124++0x03
line.long 0x00 "SLIMBUS_DEV_EA_LO_i_2,Device's Enumeration Address (EA[47:0]). lower 32 bits"
hexmask.long.word 0x00 16.--31. 1. "EA_PC,Product Code (PC[15:0]) shared by all devices of the component"
hexmask.long.byte 0x00 8.--15. 1. "EA_DI,Device Index (DI[15:0]) hardcoded from 0 upwards (0x00 0x01 0x02 etc...) each device of the component"
hexmask.long.byte 0x00 0.--7. 1. "EA_IV,Component's Instance Value (IV[7:0]) shared by all devices of the component"
group.long 0x120++0x03
line.long 0x00 "SLIMBUS_DEV_LA_i_2,Device Logical Address control"
bitfld.long 0x00 9. "EA_ENABLE,Enables the reception of 'long-header' messages to the device's hardwired Enumeration Address (EA)" "EA_ENABLE_0,EA_ENABLE_1"
bitfld.long 0x00 8. "LA_ENABLE,Enables the reception of 'short-header' messages to the device's Logical Address (LA)" "LA_ENABLE_0,LA_ENABLE_1"
hexmask.long.byte 0x00 0.--7. 1. "LA,Device Logical Address assigned by manager device at enumeration (0x00 through 0xEF)"
tree.end
tree "Channel_3"
group.long 0x374++0x0B
line.long 0x00 "SLIMBUS_DCR_CONFIG1_j_3,RX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0,ENABLE_1"
bitfld.long 0x00 30. "CTS_FORCE_VALUE,Value to force the CTS TAG bit value when in asynchronous TP and secondary channel owner (that is receiver) and CTS is forced (CTS_force_en=1) Don't care in all other cases" "CTS_FORCE_VALUE_0,CTS_FORCE_VALUE_1"
bitfld.long 0x00 29. "CTS_FORCE_EN,Forces the CTS TAG bit value when in an asynchronous TP and secondary owner (that is receiver) of the channel" "CTS_FORCE_EN_0,CTS_FORCE_EN_1"
newline
bitfld.long 0x00 28. "DT_LPCM,OSAM-to-unsigned decoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Channel index 0 should have CL=0 since there is no 'previous' channel in that case" "CL_0,CL_1"
newline
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
newline
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCR_CONFIG2_j_3,RX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution"
line.long 0x08 "SLIMBUS_DCR_DATA_j_3,RX data agent DATA FIFO output"
group.long 0x364++0x0B
line.long 0x00 "SLIMBUS_DCR_FIFO_SETUP1_j_3,RX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,RX data agent FIFO base address within shared RX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in read accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCR_FIFO_SETUP2_j_3,RX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO output (read) RX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side RX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side RX data agent FIFO threshold used for SLIMbus reception"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCR_FIFO_STATUS_j_3,RX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCR_DATA read accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "RD_LEVEL,Number of segment words stored in FIFO that can be read out"
rbitfld.long 0x08 1. "HILEVEL,Indicator of read level (RD_LEVEL: number of readable segment words) with respect to (read) threshold (DMA_THRESHOLD)" "HILEVEL_0_r,HILEVEL_1_r"
rbitfld.long 0x08 0. "EMPTY,FIFO empty indicator" "EMPTY_0_r,EMPTY_1_r"
group.long 0x360++0x03
line.long 0x00 "SLIMBUS_DCR_INFO_j_3,RX data agent status"
bitfld.long 0x00 3. "HILEVEL,Read level of RX data agent FIFO has gone above DMA threshold (that is reads required to empty FIFO)" "HILEVEL_0_r,HILEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in RX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in RX data agent FIFO Note: never asserted in pulled or async TPs by construction" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in RX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x370++0x03
line.long 0x00 "SLIMBUS_DCR_MAP_j_3,Associates a device and port to the RX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
group.long 0x274++0x0B
line.long 0x00 "SLIMBUS_DCT_CONFIG1_j_3,TX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0_r,ENABLE_1_r"
rbitfld.long 0x00 30. "CTS_LAST_VALUE,Last received value of the CTS TAG bit" "CTS_LAST_VALUE_0_r,CTS_LAST_VALUE_1_r"
bitfld.long 0x00 28. "DT_LPCM,Unsigned-to-OSAM encoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
newline
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Tied-0 read-only field for channel index 0 since there is no 'previous' channel in that case" "CL_0,CL_1"
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCT_CONFIG2_j_3,TX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution (see)"
line.long 0x08 "SLIMBUS_DCT_DATA_j_3,TX data agent DATA FIFO input"
group.long 0x264++0x0B
line.long 0x00 "SLIMBUS_DCT_FIFO_SETUP1_j_3,TX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,TX data agent FIFO base address within shared TX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in write accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCT_FIFO_SETUP2_j_3,TX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO input (write) TX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side TX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side TX data agent FIFO threshold used for SLIMbus transmission"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCT_FIFO_STATUS_j_3,TX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCT_DATA write accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "WR_LEVEL,Number of free segment words in FIFO that could be filled by writes"
rbitfld.long 0x08 1. "LOLEVEL,Indicator of write level (WR_LEVEL: number of free words in FIFO) with respect to (write) threshold (DMA_threshold)" "LOLEVEL_0_r,LOLEVEL_1_r"
rbitfld.long 0x08 0. "FULL,FIFO full indicator" "FULL_0_r,FULL_1_r"
group.long 0x260++0x03
line.long 0x00 "SLIMBUS_DCT_INFO_j_3,TX data agent status"
bitfld.long 0x00 3. "LOLEVEL,Write level of TX data agent FIFO has gone above DMA threshold (that is writes required to fill FIFO) Note: Defaults to 0 (even though FIFO is then empty) as it sets to 1 only when read-only status bit DCT_FIFO_STATUS.LOLEVEL transitions from 0.." "LOLEVEL_0_r,LOLEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in TX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in TX data agent FIFO" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in TX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x270++0x03
line.long 0x00 "SLIMBUS_DCT_MAP_j_3,Associates a device and port to the TX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
rgroup.long 0x138++0x03
line.long 0x00 "SLIMBUS_DEV_EA_HI_i_3,Device's Enumeration Address (EA[47:0]). upper 16 bits"
hexmask.long.word 0x00 0.--15. 1. "EA_MI,Manufacturer Index (MI[15:0]) shared by all devices"
rgroup.long 0x134++0x03
line.long 0x00 "SLIMBUS_DEV_EA_LO_i_3,Device's Enumeration Address (EA[47:0]). lower 32 bits"
hexmask.long.word 0x00 16.--31. 1. "EA_PC,Product Code (PC[15:0]) shared by all devices of the component"
hexmask.long.byte 0x00 8.--15. 1. "EA_DI,Device Index (DI[15:0]) hardcoded from 0 upwards (0x00 0x01 0x02 etc...) each device of the component"
hexmask.long.byte 0x00 0.--7. 1. "EA_IV,Component's Instance Value (IV[7:0]) shared by all devices of the component"
group.long 0x130++0x03
line.long 0x00 "SLIMBUS_DEV_LA_i_3,Device Logical Address control"
bitfld.long 0x00 9. "EA_ENABLE,Enables the reception of 'long-header' messages to the device's hardwired Enumeration Address (EA)" "EA_ENABLE_0,EA_ENABLE_1"
bitfld.long 0x00 8. "LA_ENABLE,Enables the reception of 'short-header' messages to the device's Logical Address (LA)" "LA_ENABLE_0,LA_ENABLE_1"
hexmask.long.byte 0x00 0.--7. 1. "LA,Device Logical Address assigned by manager device at enumeration (0x00 through 0xEF)"
tree.end
tree "Channel_4"
group.long 0x394++0x0B
line.long 0x00 "SLIMBUS_DCR_CONFIG1_j_4,RX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0,ENABLE_1"
bitfld.long 0x00 30. "CTS_FORCE_VALUE,Value to force the CTS TAG bit value when in asynchronous TP and secondary channel owner (that is receiver) and CTS is forced (CTS_force_en=1) Don't care in all other cases" "CTS_FORCE_VALUE_0,CTS_FORCE_VALUE_1"
bitfld.long 0x00 29. "CTS_FORCE_EN,Forces the CTS TAG bit value when in an asynchronous TP and secondary owner (that is receiver) of the channel" "CTS_FORCE_EN_0,CTS_FORCE_EN_1"
newline
bitfld.long 0x00 28. "DT_LPCM,OSAM-to-unsigned decoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Channel index 0 should have CL=0 since there is no 'previous' channel in that case" "CL_0,CL_1"
newline
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
newline
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCR_CONFIG2_j_4,RX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution"
line.long 0x08 "SLIMBUS_DCR_DATA_j_4,RX data agent DATA FIFO output"
group.long 0x384++0x0B
line.long 0x00 "SLIMBUS_DCR_FIFO_SETUP1_j_4,RX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,RX data agent FIFO base address within shared RX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in read accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCR_FIFO_SETUP2_j_4,RX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO output (read) RX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side RX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side RX data agent FIFO threshold used for SLIMbus reception"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCR_FIFO_STATUS_j_4,RX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCR_DATA read accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "RD_LEVEL,Number of segment words stored in FIFO that can be read out"
rbitfld.long 0x08 1. "HILEVEL,Indicator of read level (RD_LEVEL: number of readable segment words) with respect to (read) threshold (DMA_THRESHOLD)" "HILEVEL_0_r,HILEVEL_1_r"
rbitfld.long 0x08 0. "EMPTY,FIFO empty indicator" "EMPTY_0_r,EMPTY_1_r"
group.long 0x380++0x03
line.long 0x00 "SLIMBUS_DCR_INFO_j_4,RX data agent status"
bitfld.long 0x00 3. "HILEVEL,Read level of RX data agent FIFO has gone above DMA threshold (that is reads required to empty FIFO)" "HILEVEL_0_r,HILEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in RX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in RX data agent FIFO Note: never asserted in pulled or async TPs by construction" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in RX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x390++0x03
line.long 0x00 "SLIMBUS_DCR_MAP_j_4,Associates a device and port to the RX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
group.long 0x294++0x0B
line.long 0x00 "SLIMBUS_DCT_CONFIG1_j_4,TX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0_r,ENABLE_1_r"
rbitfld.long 0x00 30. "CTS_LAST_VALUE,Last received value of the CTS TAG bit" "CTS_LAST_VALUE_0_r,CTS_LAST_VALUE_1_r"
bitfld.long 0x00 28. "DT_LPCM,Unsigned-to-OSAM encoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
newline
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Tied-0 read-only field for channel index 0 since there is no 'previous' channel in that case" "CL_0,CL_1"
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCT_CONFIG2_j_4,TX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution (see)"
line.long 0x08 "SLIMBUS_DCT_DATA_j_4,TX data agent DATA FIFO input"
group.long 0x284++0x0B
line.long 0x00 "SLIMBUS_DCT_FIFO_SETUP1_j_4,TX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,TX data agent FIFO base address within shared TX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in write accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCT_FIFO_SETUP2_j_4,TX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO input (write) TX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side TX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side TX data agent FIFO threshold used for SLIMbus transmission"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCT_FIFO_STATUS_j_4,TX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCT_DATA write accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "WR_LEVEL,Number of free segment words in FIFO that could be filled by writes"
rbitfld.long 0x08 1. "LOLEVEL,Indicator of write level (WR_LEVEL: number of free words in FIFO) with respect to (write) threshold (DMA_threshold)" "LOLEVEL_0_r,LOLEVEL_1_r"
rbitfld.long 0x08 0. "FULL,FIFO full indicator" "FULL_0_r,FULL_1_r"
group.long 0x280++0x03
line.long 0x00 "SLIMBUS_DCT_INFO_j_4,TX data agent status"
bitfld.long 0x00 3. "LOLEVEL,Write level of TX data agent FIFO has gone above DMA threshold (that is writes required to fill FIFO) Note: Defaults to 0 (even though FIFO is then empty) as it sets to 1 only when read-only status bit DCT_FIFO_STATUS.LOLEVEL transitions from 0.." "LOLEVEL_0_r,LOLEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in TX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in TX data agent FIFO" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in TX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x290++0x03
line.long 0x00 "SLIMBUS_DCT_MAP_j_4,Associates a device and port to the TX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
rgroup.long 0x148++0x03
line.long 0x00 "SLIMBUS_DEV_EA_HI_i_4,Device's Enumeration Address (EA[47:0]). upper 16 bits"
hexmask.long.word 0x00 0.--15. 1. "EA_MI,Manufacturer Index (MI[15:0]) shared by all devices"
rgroup.long 0x144++0x03
line.long 0x00 "SLIMBUS_DEV_EA_LO_i_4,Device's Enumeration Address (EA[47:0]). lower 32 bits"
hexmask.long.word 0x00 16.--31. 1. "EA_PC,Product Code (PC[15:0]) shared by all devices of the component"
hexmask.long.byte 0x00 8.--15. 1. "EA_DI,Device Index (DI[15:0]) hardcoded from 0 upwards (0x00 0x01 0x02 etc...) each device of the component"
hexmask.long.byte 0x00 0.--7. 1. "EA_IV,Component's Instance Value (IV[7:0]) shared by all devices of the component"
group.long 0x140++0x03
line.long 0x00 "SLIMBUS_DEV_LA_i_4,Device Logical Address control"
bitfld.long 0x00 9. "EA_ENABLE,Enables the reception of 'long-header' messages to the device's hardwired Enumeration Address (EA)" "EA_ENABLE_0,EA_ENABLE_1"
bitfld.long 0x00 8. "LA_ENABLE,Enables the reception of 'short-header' messages to the device's Logical Address (LA)" "LA_ENABLE_0,LA_ENABLE_1"
hexmask.long.byte 0x00 0.--7. 1. "LA,Device Logical Address assigned by manager device at enumeration (0x00 through 0xEF)"
tree.end
tree "Channel_5"
group.long 0x3B4++0x0B
line.long 0x00 "SLIMBUS_DCR_CONFIG1_j_5,RX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0,ENABLE_1"
bitfld.long 0x00 30. "CTS_FORCE_VALUE,Value to force the CTS TAG bit value when in asynchronous TP and secondary channel owner (that is receiver) and CTS is forced (CTS_force_en=1) Don't care in all other cases" "CTS_FORCE_VALUE_0,CTS_FORCE_VALUE_1"
bitfld.long 0x00 29. "CTS_FORCE_EN,Forces the CTS TAG bit value when in an asynchronous TP and secondary owner (that is receiver) of the channel" "CTS_FORCE_EN_0,CTS_FORCE_EN_1"
newline
bitfld.long 0x00 28. "DT_LPCM,OSAM-to-unsigned decoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Channel index 0 should have CL=0 since there is no 'previous' channel in that case" "CL_0,CL_1"
newline
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
newline
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCR_CONFIG2_j_5,RX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution"
line.long 0x08 "SLIMBUS_DCR_DATA_j_5,RX data agent DATA FIFO output"
group.long 0x3A4++0x0B
line.long 0x00 "SLIMBUS_DCR_FIFO_SETUP1_j_5,RX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,RX data agent FIFO base address within shared RX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in read accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCR_FIFO_SETUP2_j_5,RX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO output (read) RX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side RX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side RX data agent FIFO threshold used for SLIMbus reception"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCR_FIFO_STATUS_j_5,RX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCR_DATA read accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "RD_LEVEL,Number of segment words stored in FIFO that can be read out"
rbitfld.long 0x08 1. "HILEVEL,Indicator of read level (RD_LEVEL: number of readable segment words) with respect to (read) threshold (DMA_THRESHOLD)" "HILEVEL_0_r,HILEVEL_1_r"
rbitfld.long 0x08 0. "EMPTY,FIFO empty indicator" "EMPTY_0_r,EMPTY_1_r"
group.long 0x3A0++0x03
line.long 0x00 "SLIMBUS_DCR_INFO_j_5,RX data agent status"
bitfld.long 0x00 3. "HILEVEL,Read level of RX data agent FIFO has gone above DMA threshold (that is reads required to empty FIFO)" "HILEVEL_0_r,HILEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in RX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in RX data agent FIFO Note: never asserted in pulled or async TPs by construction" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in RX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x3B0++0x03
line.long 0x00 "SLIMBUS_DCR_MAP_j_5,Associates a device and port to the RX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
group.long 0x2B4++0x0B
line.long 0x00 "SLIMBUS_DCT_CONFIG1_j_5,TX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0_r,ENABLE_1_r"
rbitfld.long 0x00 30. "CTS_LAST_VALUE,Last received value of the CTS TAG bit" "CTS_LAST_VALUE_0_r,CTS_LAST_VALUE_1_r"
bitfld.long 0x00 28. "DT_LPCM,Unsigned-to-OSAM encoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
newline
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Tied-0 read-only field for channel index 0 since there is no 'previous' channel in that case" "CL_0,CL_1"
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCT_CONFIG2_j_5,TX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution (see)"
line.long 0x08 "SLIMBUS_DCT_DATA_j_5,TX data agent DATA FIFO input"
group.long 0x2A4++0x0B
line.long 0x00 "SLIMBUS_DCT_FIFO_SETUP1_j_5,TX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,TX data agent FIFO base address within shared TX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in write accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCT_FIFO_SETUP2_j_5,TX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO input (write) TX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side TX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side TX data agent FIFO threshold used for SLIMbus transmission"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCT_FIFO_STATUS_j_5,TX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCT_DATA write accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "WR_LEVEL,Number of free segment words in FIFO that could be filled by writes"
rbitfld.long 0x08 1. "LOLEVEL,Indicator of write level (WR_LEVEL: number of free words in FIFO) with respect to (write) threshold (DMA_threshold)" "LOLEVEL_0_r,LOLEVEL_1_r"
rbitfld.long 0x08 0. "FULL,FIFO full indicator" "FULL_0_r,FULL_1_r"
group.long 0x2A0++0x03
line.long 0x00 "SLIMBUS_DCT_INFO_j_5,TX data agent status"
bitfld.long 0x00 3. "LOLEVEL,Write level of TX data agent FIFO has gone above DMA threshold (that is writes required to fill FIFO) Note: Defaults to 0 (even though FIFO is then empty) as it sets to 1 only when read-only status bit DCT_FIFO_STATUS.LOLEVEL transitions from 0.." "LOLEVEL_0_r,LOLEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in TX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in TX data agent FIFO" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in TX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x2B0++0x03
line.long 0x00 "SLIMBUS_DCT_MAP_j_5,Associates a device and port to the TX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
rgroup.long 0x158++0x03
line.long 0x00 "SLIMBUS_DEV_EA_HI_i_5,Device's Enumeration Address (EA[47:0]). upper 16 bits"
hexmask.long.word 0x00 0.--15. 1. "EA_MI,Manufacturer Index (MI[15:0]) shared by all devices"
rgroup.long 0x154++0x03
line.long 0x00 "SLIMBUS_DEV_EA_LO_i_5,Device's Enumeration Address (EA[47:0]). lower 32 bits"
hexmask.long.word 0x00 16.--31. 1. "EA_PC,Product Code (PC[15:0]) shared by all devices of the component"
hexmask.long.byte 0x00 8.--15. 1. "EA_DI,Device Index (DI[15:0]) hardcoded from 0 upwards (0x00 0x01 0x02 etc...) each device of the component"
hexmask.long.byte 0x00 0.--7. 1. "EA_IV,Component's Instance Value (IV[7:0]) shared by all devices of the component"
group.long 0x150++0x03
line.long 0x00 "SLIMBUS_DEV_LA_i_5,Device Logical Address control"
bitfld.long 0x00 9. "EA_ENABLE,Enables the reception of 'long-header' messages to the device's hardwired Enumeration Address (EA)" "EA_ENABLE_0,EA_ENABLE_1"
bitfld.long 0x00 8. "LA_ENABLE,Enables the reception of 'short-header' messages to the device's Logical Address (LA)" "LA_ENABLE_0,LA_ENABLE_1"
hexmask.long.byte 0x00 0.--7. 1. "LA,Device Logical Address assigned by manager device at enumeration (0x00 through 0xEF)"
tree.end
tree "Channel_6"
group.long 0x3D4++0x0B
line.long 0x00 "SLIMBUS_DCR_CONFIG1_j_6,RX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0,ENABLE_1"
bitfld.long 0x00 30. "CTS_FORCE_VALUE,Value to force the CTS TAG bit value when in asynchronous TP and secondary channel owner (that is receiver) and CTS is forced (CTS_force_en=1) Don't care in all other cases" "CTS_FORCE_VALUE_0,CTS_FORCE_VALUE_1"
bitfld.long 0x00 29. "CTS_FORCE_EN,Forces the CTS TAG bit value when in an asynchronous TP and secondary owner (that is receiver) of the channel" "CTS_FORCE_EN_0,CTS_FORCE_EN_1"
newline
bitfld.long 0x00 28. "DT_LPCM,OSAM-to-unsigned decoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Channel index 0 should have CL=0 since there is no 'previous' channel in that case" "CL_0,CL_1"
newline
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
newline
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCR_CONFIG2_j_6,RX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution"
line.long 0x08 "SLIMBUS_DCR_DATA_j_6,RX data agent DATA FIFO output"
group.long 0x3C4++0x0B
line.long 0x00 "SLIMBUS_DCR_FIFO_SETUP1_j_6,RX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,RX data agent FIFO base address within shared RX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in read accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCR_FIFO_SETUP2_j_6,RX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO output (read) RX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side RX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side RX data agent FIFO threshold used for SLIMbus reception"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCR_FIFO_STATUS_j_6,RX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCR_DATA read accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "RD_LEVEL,Number of segment words stored in FIFO that can be read out"
rbitfld.long 0x08 1. "HILEVEL,Indicator of read level (RD_LEVEL: number of readable segment words) with respect to (read) threshold (DMA_THRESHOLD)" "HILEVEL_0_r,HILEVEL_1_r"
rbitfld.long 0x08 0. "EMPTY,FIFO empty indicator" "EMPTY_0_r,EMPTY_1_r"
group.long 0x3C0++0x03
line.long 0x00 "SLIMBUS_DCR_INFO_j_6,RX data agent status"
bitfld.long 0x00 3. "HILEVEL,Read level of RX data agent FIFO has gone above DMA threshold (that is reads required to empty FIFO)" "HILEVEL_0_r,HILEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in RX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in RX data agent FIFO Note: never asserted in pulled or async TPs by construction" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in RX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x3D0++0x03
line.long 0x00 "SLIMBUS_DCR_MAP_j_6,Associates a device and port to the RX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
group.long 0x2D4++0x0B
line.long 0x00 "SLIMBUS_DCT_CONFIG1_j_6,TX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0_r,ENABLE_1_r"
rbitfld.long 0x00 30. "CTS_LAST_VALUE,Last received value of the CTS TAG bit" "CTS_LAST_VALUE_0_r,CTS_LAST_VALUE_1_r"
bitfld.long 0x00 28. "DT_LPCM,Unsigned-to-OSAM encoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
newline
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Tied-0 read-only field for channel index 0 since there is no 'previous' channel in that case" "CL_0,CL_1"
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCT_CONFIG2_j_6,TX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution (see)"
line.long 0x08 "SLIMBUS_DCT_DATA_j_6,TX data agent DATA FIFO input"
group.long 0x2C4++0x0B
line.long 0x00 "SLIMBUS_DCT_FIFO_SETUP1_j_6,TX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,TX data agent FIFO base address within shared TX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in write accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCT_FIFO_SETUP2_j_6,TX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO input (write) TX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side TX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side TX data agent FIFO threshold used for SLIMbus transmission"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCT_FIFO_STATUS_j_6,TX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCT_DATA write accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "WR_LEVEL,Number of free segment words in FIFO that could be filled by writes"
rbitfld.long 0x08 1. "LOLEVEL,Indicator of write level (WR_LEVEL: number of free words in FIFO) with respect to (write) threshold (DMA_threshold)" "LOLEVEL_0_r,LOLEVEL_1_r"
rbitfld.long 0x08 0. "FULL,FIFO full indicator" "FULL_0_r,FULL_1_r"
group.long 0x2C0++0x03
line.long 0x00 "SLIMBUS_DCT_INFO_j_6,TX data agent status"
bitfld.long 0x00 3. "LOLEVEL,Write level of TX data agent FIFO has gone above DMA threshold (that is writes required to fill FIFO) Note: Defaults to 0 (even though FIFO is then empty) as it sets to 1 only when read-only status bit DCT_FIFO_STATUS.LOLEVEL transitions from 0.." "LOLEVEL_0_r,LOLEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in TX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in TX data agent FIFO" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in TX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x2D0++0x03
line.long 0x00 "SLIMBUS_DCT_MAP_j_6,Associates a device and port to the TX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
rgroup.long 0x168++0x03
line.long 0x00 "SLIMBUS_DEV_EA_HI_i_6,Device's Enumeration Address (EA[47:0]). upper 16 bits"
hexmask.long.word 0x00 0.--15. 1. "EA_MI,Manufacturer Index (MI[15:0]) shared by all devices"
rgroup.long 0x164++0x03
line.long 0x00 "SLIMBUS_DEV_EA_LO_i_6,Device's Enumeration Address (EA[47:0]). lower 32 bits"
hexmask.long.word 0x00 16.--31. 1. "EA_PC,Product Code (PC[15:0]) shared by all devices of the component"
hexmask.long.byte 0x00 8.--15. 1. "EA_DI,Device Index (DI[15:0]) hardcoded from 0 upwards (0x00 0x01 0x02 etc...) each device of the component"
hexmask.long.byte 0x00 0.--7. 1. "EA_IV,Component's Instance Value (IV[7:0]) shared by all devices of the component"
group.long 0x160++0x03
line.long 0x00 "SLIMBUS_DEV_LA_i_6,Device Logical Address control"
bitfld.long 0x00 9. "EA_ENABLE,Enables the reception of 'long-header' messages to the device's hardwired Enumeration Address (EA)" "EA_ENABLE_0,EA_ENABLE_1"
bitfld.long 0x00 8. "LA_ENABLE,Enables the reception of 'short-header' messages to the device's Logical Address (LA)" "LA_ENABLE_0,LA_ENABLE_1"
hexmask.long.byte 0x00 0.--7. 1. "LA,Device Logical Address assigned by manager device at enumeration (0x00 through 0xEF)"
tree.end
tree "Channel_7"
group.long 0x3F4++0x0B
line.long 0x00 "SLIMBUS_DCR_CONFIG1_j_7,RX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0,ENABLE_1"
bitfld.long 0x00 30. "CTS_FORCE_VALUE,Value to force the CTS TAG bit value when in asynchronous TP and secondary channel owner (that is receiver) and CTS is forced (CTS_force_en=1) Don't care in all other cases" "CTS_FORCE_VALUE_0,CTS_FORCE_VALUE_1"
bitfld.long 0x00 29. "CTS_FORCE_EN,Forces the CTS TAG bit value when in an asynchronous TP and secondary owner (that is receiver) of the channel" "CTS_FORCE_EN_0,CTS_FORCE_EN_1"
newline
bitfld.long 0x00 28. "DT_LPCM,OSAM-to-unsigned decoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Channel index 0 should have CL=0 since there is no 'previous' channel in that case" "CL_0,CL_1"
newline
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
newline
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCR_CONFIG2_j_7,RX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution"
line.long 0x08 "SLIMBUS_DCR_DATA_j_7,RX data agent DATA FIFO output"
group.long 0x3E4++0x0B
line.long 0x00 "SLIMBUS_DCR_FIFO_SETUP1_j_7,RX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,RX data agent FIFO base address within shared RX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in read accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCR_FIFO_SETUP2_j_7,RX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO output (read) RX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side RX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side RX data agent FIFO threshold used for SLIMbus reception"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCR_FIFO_STATUS_j_7,RX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCR_DATA read accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "RD_LEVEL,Number of segment words stored in FIFO that can be read out"
rbitfld.long 0x08 1. "HILEVEL,Indicator of read level (RD_LEVEL: number of readable segment words) with respect to (read) threshold (DMA_THRESHOLD)" "HILEVEL_0_r,HILEVEL_1_r"
rbitfld.long 0x08 0. "EMPTY,FIFO empty indicator" "EMPTY_0_r,EMPTY_1_r"
group.long 0x3E0++0x03
line.long 0x00 "SLIMBUS_DCR_INFO_j_7,RX data agent status"
bitfld.long 0x00 3. "HILEVEL,Read level of RX data agent FIFO has gone above DMA threshold (that is reads required to empty FIFO)" "HILEVEL_0_r,HILEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in RX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in RX data agent FIFO Note: never asserted in pulled or async TPs by construction" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in RX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x3F0++0x03
line.long 0x00 "SLIMBUS_DCR_MAP_j_7,Associates a device and port to the RX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
group.long 0x2F4++0x0B
line.long 0x00 "SLIMBUS_DCT_CONFIG1_j_7,TX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0_r,ENABLE_1_r"
rbitfld.long 0x00 30. "CTS_LAST_VALUE,Last received value of the CTS TAG bit" "CTS_LAST_VALUE_0_r,CTS_LAST_VALUE_1_r"
bitfld.long 0x00 28. "DT_LPCM,Unsigned-to-OSAM encoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
newline
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Tied-0 read-only field for channel index 0 since there is no 'previous' channel in that case" "CL_0,CL_1"
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCT_CONFIG2_j_7,TX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution (see)"
line.long 0x08 "SLIMBUS_DCT_DATA_j_7,TX data agent DATA FIFO input"
group.long 0x2E4++0x0B
line.long 0x00 "SLIMBUS_DCT_FIFO_SETUP1_j_7,TX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,TX data agent FIFO base address within shared TX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in write accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCT_FIFO_SETUP2_j_7,TX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO input (write) TX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side TX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side TX data agent FIFO threshold used for SLIMbus transmission"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCT_FIFO_STATUS_j_7,TX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCT_DATA write accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "WR_LEVEL,Number of free segment words in FIFO that could be filled by writes"
rbitfld.long 0x08 1. "LOLEVEL,Indicator of write level (WR_LEVEL: number of free words in FIFO) with respect to (write) threshold (DMA_threshold)" "LOLEVEL_0_r,LOLEVEL_1_r"
rbitfld.long 0x08 0. "FULL,FIFO full indicator" "FULL_0_r,FULL_1_r"
group.long 0x2E0++0x03
line.long 0x00 "SLIMBUS_DCT_INFO_j_7,TX data agent status"
bitfld.long 0x00 3. "LOLEVEL,Write level of TX data agent FIFO has gone above DMA threshold (that is writes required to fill FIFO) Note: Defaults to 0 (even though FIFO is then empty) as it sets to 1 only when read-only status bit DCT_FIFO_STATUS.LOLEVEL transitions from 0.." "LOLEVEL_0_r,LOLEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in TX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in TX data agent FIFO" "OVERFLOW_0_r,OVERFLOW_1_r"
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bitfld.long 0x00 0. "DATA_TX_COL,TX collision in TX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x2F0++0x03
line.long 0x00 "SLIMBUS_DCT_MAP_j_7,Associates a device and port to the TX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
tree.end
group.long 0x38++0x03
line.long 0x00 "SLIMBUS_CMP_DMAENABLE_CLR,Components DMA enable (1 bit per DMA-capable channel) Write 1 to clear (disable DMA)"
bitfld.long 0x00 19. "DCR_DMA_7_EN,DMA enable for RX Data agent 7" "DCR_DMA_7_EN_0_r,DCR_DMA_7_EN_1_r"
bitfld.long 0x00 18. "DCR_DMA_6_EN,DMA enable for RX Data agent 6" "DCR_DMA_6_EN_0_r,DCR_DMA_6_EN_1_r"
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bitfld.long 0x00 17. "DCR_DMA_5_EN,DMA enable for RX Data agent 5" "DCR_DMA_5_EN_0_r,DCR_DMA_5_EN_1_r"
bitfld.long 0x00 16. "DCR_DMA_4_EN,DMA enable for RX Data agent 4" "DCR_DMA_4_EN_0_r,DCR_DMA_4_EN_1_r"
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bitfld.long 0x00 15. "DCR_DMA_3_EN,DMA enable for RX Data agent 3" "DCR_DMA_3_EN_0_r,DCR_DMA_3_EN_1_r"
bitfld.long 0x00 14. "DCR_DMA_2_EN,DMA enable for RX Data agent 2" "DCR_DMA_2_EN_0_r,DCR_DMA_2_EN_1_r"
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bitfld.long 0x00 13. "DCR_DMA_1_EN,DMA enable for RX Data agent 1" "DCR_DMA_1_EN_0_r,DCR_DMA_1_EN_1_r"
bitfld.long 0x00 12. "DCR_DMA_0_EN,DMA enable for RX Data agent 0" "DCR_DMA_0_EN_0_r,DCR_DMA_0_EN_1_r"
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bitfld.long 0x00 11. "DCT_DMA_7_EN,DMA enable for TX Data agent" "DCT_DMA_7_EN_0_r,DCT_DMA_7_EN_1_r"
bitfld.long 0x00 10. "DCT_DMA_6_EN,DMA enable for TX Data agent" "DCT_DMA_6_EN_0_r,DCT_DMA_6_EN_1_r"
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bitfld.long 0x00 9. "DCT_DMA_5_EN,DMA enable for TX Data agent" "DCT_DMA_5_EN_0_r,DCT_DMA_5_EN_1_r"
bitfld.long 0x00 8. "DCT_DMA_4_EN,DMA enable for TX Data agent" "DCT_DMA_4_EN_0_r,DCT_DMA_4_EN_1_r"
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bitfld.long 0x00 7. "DCT_DMA_3_EN,DMA enable for TX Data agent" "DCT_DMA_3_EN_0_r,DCT_DMA_3_EN_1_r"
bitfld.long 0x00 6. "DCT_DMA_2_EN,DMA enable for TX Data agent" "DCT_DMA_2_EN_0_r,DCT_DMA_2_EN_1_r"
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bitfld.long 0x00 5. "DCT_DMA_1_EN,DMA enable for TX Data agent" "DCT_DMA_1_EN_0_r,DCT_DMA_1_EN_1_r"
bitfld.long 0x00 4. "DCT_DMA_0_EN,DMA enable for TX Data agent" "DCT_DMA_0_EN_0_r,DCT_DMA_0_EN_1_r"
group.long 0x34++0x03
line.long 0x00 "SLIMBUS_CMP_DMAENABLE_SET,Components DMA enable (1 bit per DMA-capable channel) Write 1 to set (enable DMA)"
bitfld.long 0x00 19. "DCR_DMA_7_EN,DMA enable for RX Data agent 7" "DCR_DMA_7_EN_0_r,DCR_DMA_7_EN_1_r"
bitfld.long 0x00 18. "DCR_DMA_6_EN,DMA enable for RX Data agent 6" "DCR_DMA_6_EN_0_r,DCR_DMA_6_EN_1_r"
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bitfld.long 0x00 17. "DCR_DMA_5_EN,DMA enable for RX Data agent 5" "DCR_DMA_5_EN_0_r,DCR_DMA_5_EN_1_r"
bitfld.long 0x00 16. "DCR_DMA_4_EN,DMA enable for RX Data agent 4" "DCR_DMA_4_EN_0_r,DCR_DMA_4_EN_1_r"
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bitfld.long 0x00 15. "DCR_DMA_3_EN,DMA enable for RX Data agent 3" "DCR_DMA_3_EN_0_r,DCR_DMA_3_EN_1_r"
bitfld.long 0x00 14. "DCR_DMA_2_EN,DMA enable for RX Data agent 2" "DCR_DMA_2_EN_0_r,DCR_DMA_2_EN_1_r"
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bitfld.long 0x00 13. "DCR_DMA_1_EN,DMA enable for RX Data agent 1" "DCR_DMA_1_EN_0_r,DCR_DMA_1_EN_1_r"
bitfld.long 0x00 12. "DCR_DMA_0_EN,DMA enable for RX Data agent 0" "DCR_DMA_0_EN_0_r,DCR_DMA_0_EN_1_r"
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bitfld.long 0x00 11. "DCT_DMA_7_EN,DMA enable for TX Data agent" "DCT_DMA_7_EN_0_r,DCT_DMA_7_EN_1_r"
bitfld.long 0x00 10. "DCT_DMA_6_EN,DMA enable for TX Data agent" "DCT_DMA_6_EN_0_r,DCT_DMA_6_EN_1_r"
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bitfld.long 0x00 9. "DCT_DMA_5_EN,DMA enable for TX Data agent" "DCT_DMA_5_EN_0_r,DCT_DMA_5_EN_1_r"
bitfld.long 0x00 8. "DCT_DMA_4_EN,DMA enable for TX Data agent" "DCT_DMA_4_EN_0_r,DCT_DMA_4_EN_1_r"
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bitfld.long 0x00 7. "DCT_DMA_3_EN,DMA enable for TX Data agent" "DCT_DMA_3_EN_0_r,DCT_DMA_3_EN_1_r"
bitfld.long 0x00 6. "DCT_DMA_2_EN,DMA enable for TX Data agent" "DCT_DMA_2_EN_0_r,DCT_DMA_2_EN_1_r"
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bitfld.long 0x00 5. "DCT_DMA_1_EN,DMA enable for TX Data agent" "DCT_DMA_1_EN_0_r,DCT_DMA_1_EN_1_r"
bitfld.long 0x00 4. "DCT_DMA_0_EN,DMA enable for TX Data agent" "DCT_DMA_0_EN_0_r,DCT_DMA_0_EN_1_r"
rgroup.long 0x04++0x03
line.long 0x00 "SLIMBUS_CMP_HWINFO,Those read-only. hardcoded fields display the values of the eponymous hardware configuration depending on module instantiation - SLIMBUS1 or SLIMBUS2"
bitfld.long 0x00 28.--31. "DEV,Device count: number of devices supported by the component most notably through the automatically reception of the messages addressed to them" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "TDC,Transmit Data agent Count: Number of transmit hardware data agents (FIFO and associated logic) Sets the number of instances of the 'DCT_XYZ' registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
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bitfld.long 0x00 20.--23. "RDC,Receive Data agent Count: Number of receive hardware data agents (FIFO and associated logic) Sets the number of instances of the 'DCR_XYZ' registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 12.--19. 1. "RRSZ,Size of receive FIFO RAM in 32-bit words"
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hexmask.long.byte 0x00 4.--11. 1. "TRSZ,Size of transmit FIFO RAM in 32-bit words"
bitfld.long 0x00 0.--3. "PSZ,Size of (both TX and RX) FIFO segment word pointers in bits" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x30++0x03
line.long 0x00 "SLIMBUS_CMP_IRQENABLE_CLR,Component (that is. main) interrupt request enable Write 1 to clear (disable interrupt)"
bitfld.long 0x00 19. "DCR_INFO_7_EN,IRQ enable for RX data agent 7" "DCR_INFO_7_EN_0_r,DCR_INFO_7_EN_1_r"
bitfld.long 0x00 18. "DCR_INFO_6_EN,IRQ enable for RX data agent 6" "DCR_INFO_6_EN_0_r,DCR_INFO_6_EN_1_r"
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bitfld.long 0x00 17. "DCR_INFO_5_EN,IRQ enable for RX data agent 5" "DCR_INFO_5_EN_0_r,DCR_INFO_5_EN_1_r"
bitfld.long 0x00 16. "DCR_INFO_4_EN,IRQ enable for RX data agent 4" "DCR_INFO_4_EN_0_r,DCR_INFO_4_EN_1_r"
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bitfld.long 0x00 15. "DCR_INFO_3_EN,IRQ enable for RX data agent 3" "DCR_INFO_3_EN_0_r,DCR_INFO_3_EN_1_r"
bitfld.long 0x00 14. "DCR_INFO_2_EN,IRQ enable for RX data agent 2" "DCR_INFO_2_EN_0_r,DCR_INFO_2_EN_1_r"
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bitfld.long 0x00 13. "DCR_INFO_1_EN,IRQ enable for RX data agent 1" "DCR_INFO_1_EN_0_r,DCR_INFO_1_EN_1_r"
bitfld.long 0x00 12. "DCR_INFO_0_EN,IRQ enable for RX data agent 0" "DCR_INFO_0_EN_0_r,DCR_INFO_0_EN_1_r"
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bitfld.long 0x00 11. "DCT_INFO_7_EN,IRQ enable for TX Data agent" "DCT_INFO_7_EN_0_r,DCT_INFO_7_EN_1_r"
bitfld.long 0x00 10. "DCT_INFO_6_EN,IRQ enable for TX Data agent" "DCT_INFO_6_EN_0_r,DCT_INFO_6_EN_1_r"
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bitfld.long 0x00 9. "DCT_INFO_5_EN,IRQ enable for TX Data agent" "DCT_INFO_5_EN_0_r,DCT_INFO_5_EN_1_r"
bitfld.long 0x00 8. "DCT_INFO_4_EN,IRQ enable for TX Data agent" "DCT_INFO_4_EN_0_r,DCT_INFO_4_EN_1_r"
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bitfld.long 0x00 7. "DCT_INFO_3_EN,IRQ enable for TX Data agent" "DCT_INFO_3_EN_0_r,DCT_INFO_3_EN_1_r"
bitfld.long 0x00 6. "DCT_INFO_2_EN,IRQ enable for TX Data agent" "DCT_INFO_2_EN_0_r,DCT_INFO_2_EN_1_r"
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bitfld.long 0x00 5. "DCT_INFO_1_EN,IRQ enable for TX Data agent" "DCT_INFO_1_EN_0_r,DCT_INFO_1_EN_1_r"
bitfld.long 0x00 4. "DCT_INFO_0_EN,IRQ enable for TX Data agent" "DCT_INFO_0_EN_0_r,DCT_INFO_0_EN_1_r"
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bitfld.long 0x00 3. "SMR_INFO_EN,IRQ enable for message receive" "SMR_INFO_EN_0_r,SMR_INFO_EN_1_r"
bitfld.long 0x00 2. "SMT_INFO_EN,IRQ enable for message transmit" "SMT_INFO_EN_0_r,SMT_INFO_EN_1_r"
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bitfld.long 0x00 1. "FR_INFO_EN,IRQ enable for Framer device when active" "FR_INFO_EN_0_r,FR_INFO_EN_1_r"
bitfld.long 0x00 0. "FL_INFO_EN,IRQ enable for Frame Layer" "FL_INFO_EN_0_r,FL_INFO_EN_1_r"
group.long 0x2C++0x03
line.long 0x00 "SLIMBUS_CMP_IRQENABLE_SET,Component (that is. main) interrupt request enable Write 1 to set (enable interrupt)"
bitfld.long 0x00 19. "DCR_INFO_7_EN,IRQ enable for RX Data agent 7" "DCR_INFO_7_EN_0_r,DCR_INFO_7_EN_1_r"
bitfld.long 0x00 18. "DCR_INFO_6_EN,IRQ enable for RX Data agent 6" "DCR_INFO_6_EN_0_r,DCR_INFO_6_EN_1_r"
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bitfld.long 0x00 17. "DCR_INFO_5_EN,IRQ enable for RX Data agent 5" "DCR_INFO_5_EN_0_r,DCR_INFO_5_EN_1_r"
bitfld.long 0x00 16. "DCR_INFO_4_EN,IRQ enable for RX Data agent 4" "DCR_INFO_4_EN_0_r,DCR_INFO_4_EN_1_r"
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bitfld.long 0x00 15. "DCR_INFO_3_EN,IRQ enable for RX Data agent 3" "DCR_INFO_3_EN_0_r,DCR_INFO_3_EN_1_r"
bitfld.long 0x00 14. "DCR_INFO_2_EN,IRQ enable for RX Data agent 2" "DCR_INFO_2_EN_0_r,DCR_INFO_2_EN_1_r"
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bitfld.long 0x00 13. "DCR_INFO_1_EN,IRQ enable for RX Data agent 1" "DCR_INFO_1_EN_0_r,DCR_INFO_1_EN_1_r"
bitfld.long 0x00 12. "DCR_INFO_0_EN,IRQ enable for RX Data agent 0" "DCR_INFO_0_EN_0_r,DCR_INFO_0_EN_1_r"
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bitfld.long 0x00 11. "DCT_INFO_7_EN,IRQ enable for TX Data agent" "DCT_INFO_7_EN_0_r,DCT_INFO_7_EN_1_r"
bitfld.long 0x00 10. "DCT_INFO_6_EN,IRQ enable for TX Data agent" "DCT_INFO_6_EN_0_r,DCT_INFO_6_EN_1_r"
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bitfld.long 0x00 9. "DCT_INFO_5_EN,IRQ enable for TX Data agent" "DCT_INFO_5_EN_0_r,DCT_INFO_5_EN_1_r"
bitfld.long 0x00 8. "DCT_INFO_4_EN,IRQ enable for TX Data agent" "DCT_INFO_4_EN_0_r,DCT_INFO_4_EN_1_r"
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bitfld.long 0x00 7. "DCT_INFO_3_EN,IRQ enable for TX Data agent" "DCT_INFO_3_EN_0_r,DCT_INFO_3_EN_1_r"
bitfld.long 0x00 6. "DCT_INFO_2_EN,IRQ enable for TX Data agent" "DCT_INFO_2_EN_0_r,DCT_INFO_2_EN_1_r"
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bitfld.long 0x00 5. "DCT_INFO_1_EN,IRQ enable for TX Data agent" "DCT_INFO_1_EN_0_r,DCT_INFO_1_EN_1_r"
bitfld.long 0x00 4. "DCT_INFO_0_EN,IRQ enable for TX Data agent" "DCT_INFO_0_EN_0_r,DCT_INFO_0_EN_1_r"
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bitfld.long 0x00 3. "SMR_INFO_EN,IRQ enable for message receive" "SMR_INFO_EN_0_r,SMR_INFO_EN_1_r"
bitfld.long 0x00 2. "SMT_INFO_EN,IRQ enable for message transmit" "SMT_INFO_EN_0_r,SMT_INFO_EN_1_r"
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bitfld.long 0x00 1. "FR_INFO_EN,IRQ enable for Framer device when active" "FR_INFO_EN_0_r,FR_INFO_EN_1_r"
bitfld.long 0x00 0. "FL_INFO_EN,IRQ enable for Frame Layer" "FL_INFO_EN_0_r,FL_INFO_EN_1_r"
group.long 0x28++0x03
line.long 0x00 "SLIMBUS_CMP_IRQSTATUS,Component (that is. main) interrupt request status"
bitfld.long 0x00 19. "DCR_INFO_7,IRQ status for RX Data agent 7" "DCR_INFO_7_0_r,DCR_INFO_7_1_r"
bitfld.long 0x00 18. "DCR_INFO_6,IRQ status for RX Data agent 6" "DCR_INFO_6_0_r,DCR_INFO_6_1_r"
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bitfld.long 0x00 17. "DCR_INFO_5,IRQ status for RX Data agent 5" "DCR_INFO_5_0_r,DCR_INFO_5_1_r"
bitfld.long 0x00 16. "DCR_INFO_4,IRQ status for RX Data agent 4" "DCR_INFO_4_0_r,DCR_INFO_4_1_r"
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bitfld.long 0x00 15. "DCR_INFO_3,IRQ status for RX Data agent 3" "DCR_INFO_3_0_r,DCR_INFO_3_1_r"
bitfld.long 0x00 14. "DCR_INFO_2,IRQ status for RX Data agent 2" "DCR_INFO_2_0_r,DCR_INFO_2_1_r"
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bitfld.long 0x00 13. "DCR_INFO_1,IRQ status for RX Data agent 1" "DCR_INFO_1_0_r,DCR_INFO_1_1_r"
bitfld.long 0x00 12. "DCR_INFO_0,IRQ status for RX Data agent 0" "DCR_INFO_0_0_r,DCR_INFO_0_1_r"
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bitfld.long 0x00 11. "DCT_INFO_7,IRQ status for TX Data agent" "DCT_INFO_7_0_r,DCT_INFO_7_1_r"
bitfld.long 0x00 10. "DCT_INFO_6,IRQ status for TX Data agent" "DCT_INFO_6_0_r,DCT_INFO_6_1_r"
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bitfld.long 0x00 9. "DCT_INFO_5,IRQ status for TX Data agent" "DCT_INFO_5_0_r,DCT_INFO_5_1_r"
bitfld.long 0x00 8. "DCT_INFO_4,IRQ status for TX Data agent" "DCT_INFO_4_0_r,DCT_INFO_4_1_r"
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bitfld.long 0x00 7. "DCT_INFO_3,IRQ status for TX Data agent" "DCT_INFO_3_0_r,DCT_INFO_3_1_r"
bitfld.long 0x00 6. "DCT_INFO_2,IRQ status for TX Data agent" "DCT_INFO_2_0_r,DCT_INFO_2_1_r"
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bitfld.long 0x00 5. "DCT_INFO_1,IRQ status for TX Data agent" "DCT_INFO_1_0_r,DCT_INFO_1_1_r"
bitfld.long 0x00 4. "DCT_INFO_0,IRQ status for TX Data agent" "DCT_INFO_0_0_r,DCT_INFO_0_1_r"
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bitfld.long 0x00 3. "SMR_INFO,IRQ status for message receive" "SMR_INFO_0_r,SMR_INFO_1_r"
bitfld.long 0x00 2. "SMT_INFO,IRQ status for message transmit" "SMT_INFO_0_r,SMT_INFO_1_r"
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bitfld.long 0x00 1. "FR_INFO,IRQ status for Framer device when active" "FR_INFO_0_r,FR_INFO_1_r"
bitfld.long 0x00 0. "FL_INFO,IRQ status for Frame Layer" "FL_INFO_0_r,FL_INFO_1_r"
group.long 0x24++0x03
line.long 0x00 "SLIMBUS_CMP_IRQSTATUS_RAW,Component (that is. main) interrupt request status"
bitfld.long 0x00 19. "DCR_INFO_7,IRQ status for RX Data agent 7 If implemented" "DCR_INFO_7_0_r,DCR_INFO_7_1_r"
bitfld.long 0x00 18. "DCR_INFO_6,IRQ status for RX Data agent 6 If implemented" "DCR_INFO_6_0_r,DCR_INFO_6_1_r"
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bitfld.long 0x00 17. "DCR_INFO_5,IRQ status for RX Data agent 5 If implemented" "DCR_INFO_5_0_r,DCR_INFO_5_1_r"
bitfld.long 0x00 16. "DCR_INFO_4,IRQ status for RX Data agent 4 If implemented" "DCR_INFO_4_0_r,DCR_INFO_4_1_r"
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bitfld.long 0x00 15. "DCR_INFO_3,IRQ status for RX Data agent 3 If implemented" "DCR_INFO_3_0_r,DCR_INFO_3_1_r"
bitfld.long 0x00 14. "DCR_INFO_2,IRQ status for RX Data agent 2 If implemented" "DCR_INFO_2_0_r,DCR_INFO_2_1_r"
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bitfld.long 0x00 13. "DCR_INFO_1,IRQ status for RX Data agent 1 If implemented" "DCR_INFO_1_0_r,DCR_INFO_1_1_r"
bitfld.long 0x00 12. "DCR_INFO_0,IRQ status for RX Data agent 0 If implemented" "DCR_INFO_0_0_r,DCR_INFO_0_1_r"
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bitfld.long 0x00 11. "DCT_INFO_7,IRQ status for TX Data agent" "DCT_INFO_7_0_r,DCT_INFO_7_1_r"
bitfld.long 0x00 10. "DCT_INFO_6,IRQ status for TX Data agent" "DCT_INFO_6_0_r,DCT_INFO_6_1_r"
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bitfld.long 0x00 9. "DCT_INFO_5,IRQ status for TX Data agent" "DCT_INFO_5_0_r,DCT_INFO_5_1_r"
bitfld.long 0x00 8. "DCT_INFO_4,IRQ status for TX Data agent" "DCT_INFO_4_0_r,DCT_INFO_4_1_r"
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bitfld.long 0x00 7. "DCT_INFO_3,IRQ status for TX Data agent" "DCT_INFO_3_0_r,DCT_INFO_3_1_r"
bitfld.long 0x00 6. "DCT_INFO_2,IRQ status for TX Data agent" "DCT_INFO_2_0_r,DCT_INFO_2_1_r"
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bitfld.long 0x00 5. "DCT_INFO_1,IRQ status for TX Data agent" "DCT_INFO_1_0_r,DCT_INFO_1_1_r"
bitfld.long 0x00 4. "DCT_INFO_0,IRQ status for TX Data agent" "DCT_INFO_0_0_r,DCT_INFO_0_1_r"
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bitfld.long 0x00 3. "SMR_INFO,IRQ status for message receive" "SMR_INFO_0_r,SMR_INFO_1_r"
bitfld.long 0x00 2. "SMT_INFO,IRQ status for message transmit" "SMT_INFO_0_r,SMT_INFO_1_r"
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bitfld.long 0x00 1. "FR_INFO,IRQ status for Framer device when active" "FR_INFO_0_r,FR_INFO_1_r"
bitfld.long 0x00 0. "FL_INFO,IRQ status for Frame Layer" "FL_INFO_0_r,FL_INFO_1_r"
group.long 0x40++0x07
line.long 0x00 "SLIMBUS_CMP_IV,Component IV field. used as lower 8 bits of the devices' Enumeration Address (EA[47:0])"
hexmask.long.byte 0x00 0.--7. 1. "IV,Device component's Instance Value (IV[7:0])"
line.long 0x04 "SLIMBUS_CMP_MI_PC,Component MI and PC fields. used as upper 32 bits of the devices' Enumeration Address (EA[47:0])"
hexmask.long.word 0x04 16.--31. 1. "PC,Device component's Product Code (PC[15:0])"
hexmask.long.word 0x04 0.--15. 1. "MI,Device component's Manufacturer Index (MI[15:0])"
rgroup.long 0x00++0x03
line.long 0x00 "SLIMBUS_CMP_REVISION,IP Revision Identifier Used by software to track features. bugs. and compatibility"
group.long 0x10++0x03
line.long 0x00 "SLIMBUS_CMP_SYSCONFIG,This register allows controlling various parameters of the interconnect interface"
bitfld.long 0x00 8. "AUTOGATINGDISABLE,Control of the internal clock autogating for safety / debug only" "AUTOGATINGDISABLE_0,AUTOGATINGDISABLE_1"
bitfld.long 0x00 2.--3. "IDLEMODE,Configuration of the local target state management mode" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
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bitfld.long 0x00 0. "SOFTRESET,Software reset" "SOFTRESET_0_r,SOFTRESET_1_r"
group.long 0x7C++0x03
line.long 0x00 "SLIMBUS_FL_CG,Clock Gear (CG) control and status Software must write in values : a) to use when booting in active framer mode. b) extracted from NEXT_CLOCK_GEAR(CG). to use at following reconfiguration boundary. Hardware-updated upon superframe sync.."
bitfld.long 0x00 0.--3. "CG,Clock Gear (CG) to be used after the next reconfiguration boundary" "?,CG_1,CG_2,CG_3,CG_4,CG_5,CG_6,CG_7,CG_8,CG_9,CG_10,?,?,?,?,?"
group.long 0x74++0x03
line.long 0x00 "SLIMBUS_FL_CONTROL,Frame Layer control"
bitfld.long 0x00 8. "VALIDATE_DCMAP,Validates the mapping of data channels on devices: to be used after modifying the DC*_MAP* fields (DI and PN)" "VALIDATE_DCMAP_0_w,VALIDATE_DCMAP_1_w"
bitfld.long 0x00 7. "CLEAR_RECONFIGURATION,Clear all updates cumulated since the last reconfiguration return reconfiguration fields to currently active value" "CLEAR_RECONFIGURATION_0_w,CLEAR_RECONFIGURATION_1_w"
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bitfld.long 0x00 6. "BUS_SHUTDOWN,Sets both the clock source or the clock receiver FSMs back to 'Undefined' state at the next reconfiguration boundary" "BUS_SHUTDOWN_0_r,BUS_SHUTDOWN_1_r"
bitfld.long 0x00 5. "KILL_FS,Force immediate Frame Synchronization loss (implying as well message and superframe sync) When in 'Operational' 'SeekingMessageSync' or 'SeekingSuperFrameSync' states component shall go to 'SeekingFrameSync' and start reaquiring frame sync" "KILL_FS_0_r,KILL_FS_1_w"
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bitfld.long 0x00 4. "KILL_SFS,Force SuperFrame Synchronization loss at next reconfiguration boundary (implying as well message sync loss)" "KILL_SFS_0_r,KILL_SFS_1_r"
bitfld.long 0x00 3. "KILL_MS,Force an immediate Message Synchronization loss" "KILL_MS_0_r,KILL_MS_1_w"
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bitfld.long 0x00 2. "FORCE_RECONFIGURE,Force a reconfiguration boundary at next superframe boundary rather than wait for a RECONFIGURE_NOW() message" "FORCE_RECONFIGURE_0_r,FORCE_RECONFIGURE_1_r"
bitfld.long 0x00 1. "COMPONENT_RESET,Component reset request control: Transitions clock receiver FSM to state 'Reset' (from any other state)" "?,COMPONENT_RESET_1_w"
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bitfld.long 0x00 0. "BOOT,Boot the component when not in active framer mode (don't care when in active framer mode)" "BOOT_0,BOOT_1"
group.long 0x70++0x03
line.long 0x00 "SLIMBUS_FL_INFO,Frame Layer IRQ status"
bitfld.long 0x00 6. "RECONFIGURED,Reconfiguration boundary crossed" "RECONFIGURED_0_r,RECONFIGURED_1_r"
bitfld.long 0x00 5. "SAW_BUS_RESET,Bus reset sequence detected on the bus: no activity on DATA line (all-zero) for 2 to 4 frames" "SAW_BUS_RESET_0_r,SAW_BUS_RESET_1_r"
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bitfld.long 0x00 3. "FOUND_MS,Message sync was acquired: operational state reached" "FOUND_MS_0_r,FOUND_MS_1_r"
bitfld.long 0x00 2. "LOST_MS,Message Synchronization was lost Interface device class-specific information element (IE) Note: Not asserted in case of FS or SFS loss" "LOST_MS_0_r,LOST_MS_1_r"
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bitfld.long 0x00 1. "LOST_SFS,Super Frame Synchronization was lost Interface device class-specific information element (IE) Note: Not asserted in case of FS loss" "LOST_SFS_0_r,LOST_SFS_1_r"
bitfld.long 0x00 0. "LOST_FS,Frame Synchronization was lost Interface device class-specific information element (IE)" "LOST_FS_0_r,LOST_FS_1_r"
group.long 0x80++0x03
line.long 0x00 "SLIMBUS_FL_RF,Root frequency (RF = SLIMbus clock frequency when in gear 10) control and status Software must write in values : a) to use when booting in active framer mode. b) extracted from NEXT_ROOT_FREQUENCY(RF). to use at following reconfiguration.."
bitfld.long 0x00 0.--3. "RF,Root frequency" "RF_0,RF_1,RF_2,RF_3,RF_4,RF_5,RF_6,RF_7,RF_8,RF_9,?,?,?,?,?,?"
group.long 0x78++0x03
line.long 0x00 "SLIMBUS_FL_SM,Subframe mode (SM: defines control vs. data space partition) control and status Software must write in values : a) to use when booting in active framer mode. b) extracted from NEXT_SUBFRAME_MODE(SM). to use at following reconfiguration.."
bitfld.long 0x00 0.--4. "SM,Subframe Mode which sets Control Space Width (CSW) and Subframe Length (SFL) both expressed in slots" "SM_0,SM_1,SM_2,SM_3,SM_4,SM_5,SM_6,SM_7,SM_8,SM_9,SM_10,SM_11,SM_12,SM_13,SM_14,SM_15,SM_16,SM_17,SM_18,SM_19,SM_20,SM_21,SM_22,SM_23,SM_24,SM_25,SM_26,SM_27,SM_28,SM_29,SM_30,SM_31"
group.long 0xA0++0x03
line.long 0x00 "SLIMBUS_FR_CLOCK_PAUSE,Clock and pause restart control"
rbitfld.long 0x00 3.--8. "RT_HI,MSBs of 8-bit SLIMbus parameter" "RT_HI_0_r,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 1.--2. "RT,Restart Time (RT) for recovery after clock pause as extracted from NEXT_PAUSE_CLOCK(RT) LSBs of 8-bit SLIMbus parameter" "RT_0,RT_1,RT_2,?"
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bitfld.long 0x00 0. "CLOCK_PAUSE,Control clock pause / restart" "CLOCK_PAUSE_0,CLOCK_PAUSE_1"
group.long 0x94++0x0B
line.long 0x00 "SLIMBUS_FR_CLOCK_SOURCE,Root clock configuration for active framer mode. used at next reconfiguration boundary"
bitfld.long 0x00 4.--6. "CLKSEL,SLIMbus clock selection" "CLKSEL_0,CLKSEL_1,CLKSEL_2,?,?,?,?,?"
bitfld.long 0x00 0.--3. "CLKDIV,Root divider ratio applied on clock input to obtain root clock to be used at next reconfiguration boundary" "CLKDIV_0,CLKDIV_1,CLKDIV_2,CLKDIV_3,CLKDIV_4,CLKDIV_5,CLKDIV_6,CLKDIV_7,CLKDIV_8,CLKDIV_9,CLKDIV_10,?,?,?,?,?"
line.long 0x04 "SLIMBUS_FR_CONTROL,Framer Device control"
bitfld.long 0x04 1. "BUS_RESET,Bus reset request control when framer is already active" "BUS_RESET_0_r,BUS_RESET_1_r"
bitfld.long 0x04 0. "BOOT,Initiate an active framer (clock source) boot sequence for the component that is when component is default active framer" "BOOT_0_r,BOOT_1_r"
line.long 0x08 "SLIMBUS_FR_FRAMER_HANDOVER,Framer handover control (outgoing if currently active. incoming if currently inactive)"
bitfld.long 0x08 12. "HANDOVER_ENABLE,Enable framer handover upon NEXT_ACTIVE_FRAMER(NCi NCo) reception" "HANDOVER_ENABLE_0,HANDOVER_ENABLE_1"
hexmask.long.word 0x08 0.--11. 1. "NCO_NCI,NCo[11:0] / NCi[11:0] for outgoing / incoming framer respectively as extracted from NEXT_ACTIVE_FRAMER(NCi NCo) Used on framer handover at next reconfiguration boundary"
group.long 0x90++0x03
line.long 0x00 "SLIMBUS_FR_INFO,Framer device status (when active)"
bitfld.long 0x00 5. "CLOCK_RESTART,Clock restart request event detected (that is asynchronous DATA line transition during clock pause)" "CLOCK_RESTART_0,CLOCK_RESTART_1"
bitfld.long 0x00 4. "FRAMER_UNACTIVATED,Framer has left clock source operational state" "FRAMER_UNACTIVATED_0,FRAMER_UNACTIVATED_1"
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bitfld.long 0x00 3. "FRAMER_ACTIVATED,Framer has reached clock source operational state" "FRAMER_ACTIVATED_0,FRAMER_ACTIVATED_1"
bitfld.long 0x00 2. "GC_TX_COL,Collision during guide byte transmit (Guide Channel) Framer device class-specific information element (IE)" "GC_TX_COL_0,GC_TX_COL_1"
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bitfld.long 0x00 1. "FI_TX_COL,Collision during Framing Information transmit (framing channel) Framer device class-specific information element (IE)" "FI_TX_COL_0,FI_TX_COL_1"
bitfld.long 0x00 0. "FS_TX_COL,Collision during Frame Sync symbol transmit (framing channel) Framer device class-specific information element (IE)" "FS_TX_COL_0,FS_TX_COL_1"
group.long 0x68++0x07
line.long 0x00 "SLIMBUS_SMR_CONTROL,Control of Shared Message channel Reception"
bitfld.long 0x00 0. "MESSAGE_DISABLE,Disables the reception of incoming messages (that is broadcast or locally addressed) into the RX Message FIFO" "MESSAGE_DISABLE_0,MESSAGE_DISABLE_1"
line.long 0x04 "SLIMBUS_SMR_FIFO_SETUP,Shared Message Receive channel setup"
bitfld.long 0x04 7. "PACKING,Packing enable control for RX message FIFO" "PACKING_0,PACKING_1"
bitfld.long 0x04 5.--6. "SIZE_HI,(Upper bits of the) capacity of shared RX message FIFO in bytes minus one" "SIZE_HI_0,SIZE_HI_1,SIZE_HI_2,SIZE_HI_3"
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rbitfld.long 0x04 1.--4. "SIZE_LO,(Lower bits of the) capacity of shared RX message FIFO in bytes minus one" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x04 0. "FIFO_CLEAR,Returns message FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
group.long 0x60++0x07
line.long 0x00 "SLIMBUS_SMR_INFO,IRQ status for Shared Message Receive channel"
bitfld.long 0x00 4. "OVERFLOW,Overflow in RX message FIFO: received message is larger than the FIFO" "OVERFLOW_0_r,OVERFLOW_1_r"
bitfld.long 0x00 3. "RECEIVED_RECONFIGURE,RECONFIGURE_NOW message received available in RX message FIFO" "RECEIVED_RECONFIGURE_0_r,RECEIVED_RECONFIGURE_1_r"
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bitfld.long 0x00 2. "RECEIVED_MESSAGE,Message available in the RX message FIFO" "RECEIVED_MESSAGE_0_r,RECEIVED_MESSAGE_1_r"
bitfld.long 0x00 1. "UNDERFLOW,Underflow in RX message FIFO: Software tried to read out more bytes than available" "UNDERFLOW_0_r,UNDERFLOW_1_r"
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bitfld.long 0x00 0. "MC_TX_COL,Transmit collision in Message Channel (MC) during RX message during message reception" "MC_TX_COL_0_r,MC_TX_COL_1_r"
line.long 0x04 "SLIMBUS_SMR_MESSAGE,Shared Message Receive channel FIFO output"
group.long 0x58++0x07
line.long 0x00 "SLIMBUS_SMT_CONTROL,Control of Shared Message channel Transmission"
bitfld.long 0x00 0. "MESSAGE_ENABLE,Enable the transmission of the message(s) previously written into the TX Message FIFO with unlimited arbitration auto-retries" "MESSAGE_ENABLE_0_r,MESSAGE_ENABLE_1_r"
line.long 0x04 "SLIMBUS_SMT_FIFO_SETUP,Shared Message Transmit channel configuration"
bitfld.long 0x04 7. "PACKING,Packing enable control for TX message FIFO" "PACKING_0,PACKING_1"
bitfld.long 0x04 5.--6. "SIZE_HI,(Upper bits of the) capacity of shared TX message FIFO in bytes minus one" "SIZE_HI_0,SIZE_HI_1,SIZE_HI_2,SIZE_HI_3"
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rbitfld.long 0x04 1.--4. "SIZE_LO,(Lower bits of the) capacity of shared TX message FIFO in bytes minus one" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x04 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
group.long 0x50++0x07
line.long 0x00 "SLIMBUS_SMT_INFO,IRQ status for Shared Message Transmit channel"
bitfld.long 0x00 7. "ABORT,TX message was aborted before completion because of message sync loss" "ABORT_0_r,ABORT_1_r"
bitfld.long 0x00 5. "UDEF,TX message was UDEF'ed: undefined response protocol error" "UDEF_0_r,UDEF_1_r"
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bitfld.long 0x00 4. "NORE,TX message was NORE'ed: no or all-zero message response" "NORE_0_r,NORE_1_r"
bitfld.long 0x00 3. "NACK,TX message was NACK'ed: at least one of the recipient devices requested message retransmission" "NACK_0_r,NACK_1_r"
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bitfld.long 0x00 2. "PACK,TX message was PACK'ed: all recipient devices accepted the message" "PACK_0_r,PACK_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in TX message FIFO: Software tried to write more bytes than available in the FIFO" "OVERFLOW_0_r,OVERFLOW_1_r"
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bitfld.long 0x00 0. "MC_TX_COL,Transmit collision in Message Channel (MC) during message transmission" "MC_TX_COL_0_r,MC_TX_COL_1_r"
line.long 0x04 "SLIMBUS_SMT_MESSAGE,Shared Message Transmit FIFO input"
tree.end
tree "SLIMBUS1_L3Interconnect"
base ansd:0x4902C000
tree "Channel_0"
group.long 0x314++0x0B
line.long 0x00 "SLIMBUS_DCR_CONFIG1_j_0,RX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0,ENABLE_1"
bitfld.long 0x00 30. "CTS_FORCE_VALUE,Value to force the CTS TAG bit value when in asynchronous TP and secondary channel owner (that is receiver) and CTS is forced (CTS_force_en=1) Don't care in all other cases" "CTS_FORCE_VALUE_0,CTS_FORCE_VALUE_1"
bitfld.long 0x00 29. "CTS_FORCE_EN,Forces the CTS TAG bit value when in an asynchronous TP and secondary owner (that is receiver) of the channel" "CTS_FORCE_EN_0,CTS_FORCE_EN_1"
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bitfld.long 0x00 28. "DT_LPCM,OSAM-to-unsigned decoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Channel index 0 should have CL=0 since there is no 'previous' channel in that case" "CL_0,CL_1"
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bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
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bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCR_CONFIG2_j_0,RX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution"
line.long 0x08 "SLIMBUS_DCR_DATA_j_0,RX data agent DATA FIFO output"
group.long 0x304++0x0B
line.long 0x00 "SLIMBUS_DCR_FIFO_SETUP1_j_0,RX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,RX data agent FIFO base address within shared RX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in read accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCR_FIFO_SETUP2_j_0,RX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO output (read) RX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side RX data agent FIFO threshold"
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hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side RX data agent FIFO threshold used for SLIMbus reception"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCR_FIFO_STATUS_j_0,RX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCR_DATA read accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "RD_LEVEL,Number of segment words stored in FIFO that can be read out"
rbitfld.long 0x08 1. "HILEVEL,Indicator of read level (RD_LEVEL: number of readable segment words) with respect to (read) threshold (DMA_THRESHOLD)" "HILEVEL_0_r,HILEVEL_1_r"
rbitfld.long 0x08 0. "EMPTY,FIFO empty indicator" "EMPTY_0_r,EMPTY_1_r"
group.long 0x300++0x03
line.long 0x00 "SLIMBUS_DCR_INFO_j_0,RX data agent status"
bitfld.long 0x00 3. "HILEVEL,Read level of RX data agent FIFO has gone above DMA threshold (that is reads required to empty FIFO)" "HILEVEL_0_r,HILEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in RX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in RX data agent FIFO Note: never asserted in pulled or async TPs by construction" "OVERFLOW_0_r,OVERFLOW_1_r"
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bitfld.long 0x00 0. "DATA_TX_COL,TX collision in RX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x310++0x03
line.long 0x00 "SLIMBUS_DCR_MAP_j_0,Associates a device and port to the RX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
group.long 0x214++0x0B
line.long 0x00 "SLIMBUS_DCT_CONFIG1_j_0,TX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0_r,ENABLE_1_r"
rbitfld.long 0x00 30. "CTS_LAST_VALUE,Last received value of the CTS TAG bit" "CTS_LAST_VALUE_0_r,CTS_LAST_VALUE_1_r"
bitfld.long 0x00 28. "DT_LPCM,Unsigned-to-OSAM encoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
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bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Tied-0 read-only field for channel index 0 since there is no 'previous' channel in that case" "CL_0,CL_1"
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCT_CONFIG2_j_0,TX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution (see)"
line.long 0x08 "SLIMBUS_DCT_DATA_j_0,TX data agent DATA FIFO input"
group.long 0x204++0x0B
line.long 0x00 "SLIMBUS_DCT_FIFO_SETUP1_j_0,TX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,TX data agent FIFO base address within shared TX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in write accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCT_FIFO_SETUP2_j_0,TX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO input (write) TX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side TX data agent FIFO threshold"
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hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side TX data agent FIFO threshold used for SLIMbus transmission"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCT_FIFO_STATUS_j_0,TX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCT_DATA write accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
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hexmask.long.word 0x08 2.--10. 1. "WR_LEVEL,Number of free segment words in FIFO that could be filled by writes"
rbitfld.long 0x08 1. "LOLEVEL,Indicator of write level (WR_LEVEL: number of free words in FIFO) with respect to (write) threshold (DMA_threshold)" "LOLEVEL_0_r,LOLEVEL_1_r"
rbitfld.long 0x08 0. "FULL,FIFO full indicator" "FULL_0_r,FULL_1_r"
group.long 0x200++0x03
line.long 0x00 "SLIMBUS_DCT_INFO_j_0,TX data agent status"
bitfld.long 0x00 3. "LOLEVEL,Write level of TX data agent FIFO has gone above DMA threshold (that is writes required to fill FIFO) Note: Defaults to 0 (even though FIFO is then empty) as it sets to 1 only when read-only status bit DCT_FIFO_STATUS.LOLEVEL transitions from 0.." "LOLEVEL_0_r,LOLEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in TX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in TX data agent FIFO" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in TX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x210++0x03
line.long 0x00 "SLIMBUS_DCT_MAP_j_0,Associates a device and port to the TX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
rgroup.long 0x108++0x03
line.long 0x00 "SLIMBUS_DEV_EA_HI_i_0,Device's Enumeration Address (EA[47:0]). upper 16 bits"
hexmask.long.word 0x00 0.--15. 1. "EA_MI,Manufacturer Index (MI[15:0]) shared by all devices"
rgroup.long 0x104++0x03
line.long 0x00 "SLIMBUS_DEV_EA_LO_i_0,Device's Enumeration Address (EA[47:0]). lower 32 bits"
hexmask.long.word 0x00 16.--31. 1. "EA_PC,Product Code (PC[15:0]) shared by all devices of the component"
hexmask.long.byte 0x00 8.--15. 1. "EA_DI,Device Index (DI[15:0]) hardcoded from 0 upwards (0x00 0x01 0x02 etc...) each device of the component"
hexmask.long.byte 0x00 0.--7. 1. "EA_IV,Component's Instance Value (IV[7:0]) shared by all devices of the component"
group.long 0x100++0x03
line.long 0x00 "SLIMBUS_DEV_LA_i_0,Device Logical Address control"
bitfld.long 0x00 9. "EA_ENABLE,Enables the reception of 'long-header' messages to the device's hardwired Enumeration Address (EA)" "EA_ENABLE_0,EA_ENABLE_1"
bitfld.long 0x00 8. "LA_ENABLE,Enables the reception of 'short-header' messages to the device's Logical Address (LA)" "LA_ENABLE_0,LA_ENABLE_1"
hexmask.long.byte 0x00 0.--7. 1. "LA,Device Logical Address assigned by manager device at enumeration (0x00 through 0xEF)"
tree.end
tree "Channel_1"
group.long 0x334++0x0B
line.long 0x00 "SLIMBUS_DCR_CONFIG1_j_1,RX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0,ENABLE_1"
bitfld.long 0x00 30. "CTS_FORCE_VALUE,Value to force the CTS TAG bit value when in asynchronous TP and secondary channel owner (that is receiver) and CTS is forced (CTS_force_en=1) Don't care in all other cases" "CTS_FORCE_VALUE_0,CTS_FORCE_VALUE_1"
bitfld.long 0x00 29. "CTS_FORCE_EN,Forces the CTS TAG bit value when in an asynchronous TP and secondary owner (that is receiver) of the channel" "CTS_FORCE_EN_0,CTS_FORCE_EN_1"
newline
bitfld.long 0x00 28. "DT_LPCM,OSAM-to-unsigned decoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Channel index 0 should have CL=0 since there is no 'previous' channel in that case" "CL_0,CL_1"
newline
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
newline
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCR_CONFIG2_j_1,RX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution"
line.long 0x08 "SLIMBUS_DCR_DATA_j_1,RX data agent DATA FIFO output"
group.long 0x324++0x0B
line.long 0x00 "SLIMBUS_DCR_FIFO_SETUP1_j_1,RX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,RX data agent FIFO base address within shared RX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in read accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCR_FIFO_SETUP2_j_1,RX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO output (read) RX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side RX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side RX data agent FIFO threshold used for SLIMbus reception"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCR_FIFO_STATUS_j_1,RX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCR_DATA read accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "RD_LEVEL,Number of segment words stored in FIFO that can be read out"
rbitfld.long 0x08 1. "HILEVEL,Indicator of read level (RD_LEVEL: number of readable segment words) with respect to (read) threshold (DMA_THRESHOLD)" "HILEVEL_0_r,HILEVEL_1_r"
rbitfld.long 0x08 0. "EMPTY,FIFO empty indicator" "EMPTY_0_r,EMPTY_1_r"
group.long 0x320++0x03
line.long 0x00 "SLIMBUS_DCR_INFO_j_1,RX data agent status"
bitfld.long 0x00 3. "HILEVEL,Read level of RX data agent FIFO has gone above DMA threshold (that is reads required to empty FIFO)" "HILEVEL_0_r,HILEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in RX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in RX data agent FIFO Note: never asserted in pulled or async TPs by construction" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in RX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x330++0x03
line.long 0x00 "SLIMBUS_DCR_MAP_j_1,Associates a device and port to the RX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
group.long 0x234++0x0B
line.long 0x00 "SLIMBUS_DCT_CONFIG1_j_1,TX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0_r,ENABLE_1_r"
rbitfld.long 0x00 30. "CTS_LAST_VALUE,Last received value of the CTS TAG bit" "CTS_LAST_VALUE_0_r,CTS_LAST_VALUE_1_r"
bitfld.long 0x00 28. "DT_LPCM,Unsigned-to-OSAM encoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
newline
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Tied-0 read-only field for channel index 0 since there is no 'previous' channel in that case" "CL_0,CL_1"
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCT_CONFIG2_j_1,TX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution (see)"
line.long 0x08 "SLIMBUS_DCT_DATA_j_1,TX data agent DATA FIFO input"
group.long 0x224++0x0B
line.long 0x00 "SLIMBUS_DCT_FIFO_SETUP1_j_1,TX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,TX data agent FIFO base address within shared TX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in write accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCT_FIFO_SETUP2_j_1,TX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO input (write) TX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side TX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side TX data agent FIFO threshold used for SLIMbus transmission"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCT_FIFO_STATUS_j_1,TX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCT_DATA write accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "WR_LEVEL,Number of free segment words in FIFO that could be filled by writes"
rbitfld.long 0x08 1. "LOLEVEL,Indicator of write level (WR_LEVEL: number of free words in FIFO) with respect to (write) threshold (DMA_threshold)" "LOLEVEL_0_r,LOLEVEL_1_r"
rbitfld.long 0x08 0. "FULL,FIFO full indicator" "FULL_0_r,FULL_1_r"
group.long 0x220++0x03
line.long 0x00 "SLIMBUS_DCT_INFO_j_1,TX data agent status"
bitfld.long 0x00 3. "LOLEVEL,Write level of TX data agent FIFO has gone above DMA threshold (that is writes required to fill FIFO) Note: Defaults to 0 (even though FIFO is then empty) as it sets to 1 only when read-only status bit DCT_FIFO_STATUS.LOLEVEL transitions from 0.." "LOLEVEL_0_r,LOLEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in TX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in TX data agent FIFO" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in TX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x230++0x03
line.long 0x00 "SLIMBUS_DCT_MAP_j_1,Associates a device and port to the TX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
rgroup.long 0x118++0x03
line.long 0x00 "SLIMBUS_DEV_EA_HI_i_1,Device's Enumeration Address (EA[47:0]). upper 16 bits"
hexmask.long.word 0x00 0.--15. 1. "EA_MI,Manufacturer Index (MI[15:0]) shared by all devices"
rgroup.long 0x114++0x03
line.long 0x00 "SLIMBUS_DEV_EA_LO_i_1,Device's Enumeration Address (EA[47:0]). lower 32 bits"
hexmask.long.word 0x00 16.--31. 1. "EA_PC,Product Code (PC[15:0]) shared by all devices of the component"
hexmask.long.byte 0x00 8.--15. 1. "EA_DI,Device Index (DI[15:0]) hardcoded from 0 upwards (0x00 0x01 0x02 etc...) each device of the component"
hexmask.long.byte 0x00 0.--7. 1. "EA_IV,Component's Instance Value (IV[7:0]) shared by all devices of the component"
group.long 0x110++0x03
line.long 0x00 "SLIMBUS_DEV_LA_i_1,Device Logical Address control"
bitfld.long 0x00 9. "EA_ENABLE,Enables the reception of 'long-header' messages to the device's hardwired Enumeration Address (EA)" "EA_ENABLE_0,EA_ENABLE_1"
bitfld.long 0x00 8. "LA_ENABLE,Enables the reception of 'short-header' messages to the device's Logical Address (LA)" "LA_ENABLE_0,LA_ENABLE_1"
hexmask.long.byte 0x00 0.--7. 1. "LA,Device Logical Address assigned by manager device at enumeration (0x00 through 0xEF)"
tree.end
tree "Channel_2"
group.long 0x354++0x0B
line.long 0x00 "SLIMBUS_DCR_CONFIG1_j_2,RX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0,ENABLE_1"
bitfld.long 0x00 30. "CTS_FORCE_VALUE,Value to force the CTS TAG bit value when in asynchronous TP and secondary channel owner (that is receiver) and CTS is forced (CTS_force_en=1) Don't care in all other cases" "CTS_FORCE_VALUE_0,CTS_FORCE_VALUE_1"
bitfld.long 0x00 29. "CTS_FORCE_EN,Forces the CTS TAG bit value when in an asynchronous TP and secondary owner (that is receiver) of the channel" "CTS_FORCE_EN_0,CTS_FORCE_EN_1"
newline
bitfld.long 0x00 28. "DT_LPCM,OSAM-to-unsigned decoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Channel index 0 should have CL=0 since there is no 'previous' channel in that case" "CL_0,CL_1"
newline
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
newline
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCR_CONFIG2_j_2,RX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution"
line.long 0x08 "SLIMBUS_DCR_DATA_j_2,RX data agent DATA FIFO output"
group.long 0x344++0x0B
line.long 0x00 "SLIMBUS_DCR_FIFO_SETUP1_j_2,RX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,RX data agent FIFO base address within shared RX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in read accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCR_FIFO_SETUP2_j_2,RX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO output (read) RX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side RX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side RX data agent FIFO threshold used for SLIMbus reception"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCR_FIFO_STATUS_j_2,RX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCR_DATA read accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "RD_LEVEL,Number of segment words stored in FIFO that can be read out"
rbitfld.long 0x08 1. "HILEVEL,Indicator of read level (RD_LEVEL: number of readable segment words) with respect to (read) threshold (DMA_THRESHOLD)" "HILEVEL_0_r,HILEVEL_1_r"
rbitfld.long 0x08 0. "EMPTY,FIFO empty indicator" "EMPTY_0_r,EMPTY_1_r"
group.long 0x340++0x03
line.long 0x00 "SLIMBUS_DCR_INFO_j_2,RX data agent status"
bitfld.long 0x00 3. "HILEVEL,Read level of RX data agent FIFO has gone above DMA threshold (that is reads required to empty FIFO)" "HILEVEL_0_r,HILEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in RX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in RX data agent FIFO Note: never asserted in pulled or async TPs by construction" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in RX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x350++0x03
line.long 0x00 "SLIMBUS_DCR_MAP_j_2,Associates a device and port to the RX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
group.long 0x254++0x0B
line.long 0x00 "SLIMBUS_DCT_CONFIG1_j_2,TX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0_r,ENABLE_1_r"
rbitfld.long 0x00 30. "CTS_LAST_VALUE,Last received value of the CTS TAG bit" "CTS_LAST_VALUE_0_r,CTS_LAST_VALUE_1_r"
bitfld.long 0x00 28. "DT_LPCM,Unsigned-to-OSAM encoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
newline
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Tied-0 read-only field for channel index 0 since there is no 'previous' channel in that case" "CL_0,CL_1"
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCT_CONFIG2_j_2,TX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution (see)"
line.long 0x08 "SLIMBUS_DCT_DATA_j_2,TX data agent DATA FIFO input"
group.long 0x244++0x0B
line.long 0x00 "SLIMBUS_DCT_FIFO_SETUP1_j_2,TX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,TX data agent FIFO base address within shared TX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in write accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCT_FIFO_SETUP2_j_2,TX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO input (write) TX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side TX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side TX data agent FIFO threshold used for SLIMbus transmission"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCT_FIFO_STATUS_j_2,TX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCT_DATA write accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "WR_LEVEL,Number of free segment words in FIFO that could be filled by writes"
rbitfld.long 0x08 1. "LOLEVEL,Indicator of write level (WR_LEVEL: number of free words in FIFO) with respect to (write) threshold (DMA_threshold)" "LOLEVEL_0_r,LOLEVEL_1_r"
rbitfld.long 0x08 0. "FULL,FIFO full indicator" "FULL_0_r,FULL_1_r"
group.long 0x240++0x03
line.long 0x00 "SLIMBUS_DCT_INFO_j_2,TX data agent status"
bitfld.long 0x00 3. "LOLEVEL,Write level of TX data agent FIFO has gone above DMA threshold (that is writes required to fill FIFO) Note: Defaults to 0 (even though FIFO is then empty) as it sets to 1 only when read-only status bit DCT_FIFO_STATUS.LOLEVEL transitions from 0.." "LOLEVEL_0_r,LOLEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in TX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in TX data agent FIFO" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in TX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x250++0x03
line.long 0x00 "SLIMBUS_DCT_MAP_j_2,Associates a device and port to the TX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
rgroup.long 0x128++0x03
line.long 0x00 "SLIMBUS_DEV_EA_HI_i_2,Device's Enumeration Address (EA[47:0]). upper 16 bits"
hexmask.long.word 0x00 0.--15. 1. "EA_MI,Manufacturer Index (MI[15:0]) shared by all devices"
rgroup.long 0x124++0x03
line.long 0x00 "SLIMBUS_DEV_EA_LO_i_2,Device's Enumeration Address (EA[47:0]). lower 32 bits"
hexmask.long.word 0x00 16.--31. 1. "EA_PC,Product Code (PC[15:0]) shared by all devices of the component"
hexmask.long.byte 0x00 8.--15. 1. "EA_DI,Device Index (DI[15:0]) hardcoded from 0 upwards (0x00 0x01 0x02 etc...) each device of the component"
hexmask.long.byte 0x00 0.--7. 1. "EA_IV,Component's Instance Value (IV[7:0]) shared by all devices of the component"
group.long 0x120++0x03
line.long 0x00 "SLIMBUS_DEV_LA_i_2,Device Logical Address control"
bitfld.long 0x00 9. "EA_ENABLE,Enables the reception of 'long-header' messages to the device's hardwired Enumeration Address (EA)" "EA_ENABLE_0,EA_ENABLE_1"
bitfld.long 0x00 8. "LA_ENABLE,Enables the reception of 'short-header' messages to the device's Logical Address (LA)" "LA_ENABLE_0,LA_ENABLE_1"
hexmask.long.byte 0x00 0.--7. 1. "LA,Device Logical Address assigned by manager device at enumeration (0x00 through 0xEF)"
tree.end
tree "Channel_3"
group.long 0x374++0x0B
line.long 0x00 "SLIMBUS_DCR_CONFIG1_j_3,RX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0,ENABLE_1"
bitfld.long 0x00 30. "CTS_FORCE_VALUE,Value to force the CTS TAG bit value when in asynchronous TP and secondary channel owner (that is receiver) and CTS is forced (CTS_force_en=1) Don't care in all other cases" "CTS_FORCE_VALUE_0,CTS_FORCE_VALUE_1"
bitfld.long 0x00 29. "CTS_FORCE_EN,Forces the CTS TAG bit value when in an asynchronous TP and secondary owner (that is receiver) of the channel" "CTS_FORCE_EN_0,CTS_FORCE_EN_1"
newline
bitfld.long 0x00 28. "DT_LPCM,OSAM-to-unsigned decoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Channel index 0 should have CL=0 since there is no 'previous' channel in that case" "CL_0,CL_1"
newline
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
newline
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCR_CONFIG2_j_3,RX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution"
line.long 0x08 "SLIMBUS_DCR_DATA_j_3,RX data agent DATA FIFO output"
group.long 0x364++0x0B
line.long 0x00 "SLIMBUS_DCR_FIFO_SETUP1_j_3,RX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,RX data agent FIFO base address within shared RX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in read accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCR_FIFO_SETUP2_j_3,RX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO output (read) RX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side RX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side RX data agent FIFO threshold used for SLIMbus reception"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCR_FIFO_STATUS_j_3,RX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCR_DATA read accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "RD_LEVEL,Number of segment words stored in FIFO that can be read out"
rbitfld.long 0x08 1. "HILEVEL,Indicator of read level (RD_LEVEL: number of readable segment words) with respect to (read) threshold (DMA_THRESHOLD)" "HILEVEL_0_r,HILEVEL_1_r"
rbitfld.long 0x08 0. "EMPTY,FIFO empty indicator" "EMPTY_0_r,EMPTY_1_r"
group.long 0x360++0x03
line.long 0x00 "SLIMBUS_DCR_INFO_j_3,RX data agent status"
bitfld.long 0x00 3. "HILEVEL,Read level of RX data agent FIFO has gone above DMA threshold (that is reads required to empty FIFO)" "HILEVEL_0_r,HILEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in RX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in RX data agent FIFO Note: never asserted in pulled or async TPs by construction" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in RX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x370++0x03
line.long 0x00 "SLIMBUS_DCR_MAP_j_3,Associates a device and port to the RX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
group.long 0x274++0x0B
line.long 0x00 "SLIMBUS_DCT_CONFIG1_j_3,TX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0_r,ENABLE_1_r"
rbitfld.long 0x00 30. "CTS_LAST_VALUE,Last received value of the CTS TAG bit" "CTS_LAST_VALUE_0_r,CTS_LAST_VALUE_1_r"
bitfld.long 0x00 28. "DT_LPCM,Unsigned-to-OSAM encoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
newline
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Tied-0 read-only field for channel index 0 since there is no 'previous' channel in that case" "CL_0,CL_1"
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCT_CONFIG2_j_3,TX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution (see)"
line.long 0x08 "SLIMBUS_DCT_DATA_j_3,TX data agent DATA FIFO input"
group.long 0x264++0x0B
line.long 0x00 "SLIMBUS_DCT_FIFO_SETUP1_j_3,TX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,TX data agent FIFO base address within shared TX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in write accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCT_FIFO_SETUP2_j_3,TX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO input (write) TX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side TX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side TX data agent FIFO threshold used for SLIMbus transmission"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCT_FIFO_STATUS_j_3,TX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCT_DATA write accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "WR_LEVEL,Number of free segment words in FIFO that could be filled by writes"
rbitfld.long 0x08 1. "LOLEVEL,Indicator of write level (WR_LEVEL: number of free words in FIFO) with respect to (write) threshold (DMA_threshold)" "LOLEVEL_0_r,LOLEVEL_1_r"
rbitfld.long 0x08 0. "FULL,FIFO full indicator" "FULL_0_r,FULL_1_r"
group.long 0x260++0x03
line.long 0x00 "SLIMBUS_DCT_INFO_j_3,TX data agent status"
bitfld.long 0x00 3. "LOLEVEL,Write level of TX data agent FIFO has gone above DMA threshold (that is writes required to fill FIFO) Note: Defaults to 0 (even though FIFO is then empty) as it sets to 1 only when read-only status bit DCT_FIFO_STATUS.LOLEVEL transitions from 0.." "LOLEVEL_0_r,LOLEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in TX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in TX data agent FIFO" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in TX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x270++0x03
line.long 0x00 "SLIMBUS_DCT_MAP_j_3,Associates a device and port to the TX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
rgroup.long 0x138++0x03
line.long 0x00 "SLIMBUS_DEV_EA_HI_i_3,Device's Enumeration Address (EA[47:0]). upper 16 bits"
hexmask.long.word 0x00 0.--15. 1. "EA_MI,Manufacturer Index (MI[15:0]) shared by all devices"
rgroup.long 0x134++0x03
line.long 0x00 "SLIMBUS_DEV_EA_LO_i_3,Device's Enumeration Address (EA[47:0]). lower 32 bits"
hexmask.long.word 0x00 16.--31. 1. "EA_PC,Product Code (PC[15:0]) shared by all devices of the component"
hexmask.long.byte 0x00 8.--15. 1. "EA_DI,Device Index (DI[15:0]) hardcoded from 0 upwards (0x00 0x01 0x02 etc...) each device of the component"
hexmask.long.byte 0x00 0.--7. 1. "EA_IV,Component's Instance Value (IV[7:0]) shared by all devices of the component"
group.long 0x130++0x03
line.long 0x00 "SLIMBUS_DEV_LA_i_3,Device Logical Address control"
bitfld.long 0x00 9. "EA_ENABLE,Enables the reception of 'long-header' messages to the device's hardwired Enumeration Address (EA)" "EA_ENABLE_0,EA_ENABLE_1"
bitfld.long 0x00 8. "LA_ENABLE,Enables the reception of 'short-header' messages to the device's Logical Address (LA)" "LA_ENABLE_0,LA_ENABLE_1"
hexmask.long.byte 0x00 0.--7. 1. "LA,Device Logical Address assigned by manager device at enumeration (0x00 through 0xEF)"
tree.end
tree "Channel_4"
group.long 0x394++0x0B
line.long 0x00 "SLIMBUS_DCR_CONFIG1_j_4,RX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0,ENABLE_1"
bitfld.long 0x00 30. "CTS_FORCE_VALUE,Value to force the CTS TAG bit value when in asynchronous TP and secondary channel owner (that is receiver) and CTS is forced (CTS_force_en=1) Don't care in all other cases" "CTS_FORCE_VALUE_0,CTS_FORCE_VALUE_1"
bitfld.long 0x00 29. "CTS_FORCE_EN,Forces the CTS TAG bit value when in an asynchronous TP and secondary owner (that is receiver) of the channel" "CTS_FORCE_EN_0,CTS_FORCE_EN_1"
newline
bitfld.long 0x00 28. "DT_LPCM,OSAM-to-unsigned decoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Channel index 0 should have CL=0 since there is no 'previous' channel in that case" "CL_0,CL_1"
newline
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
newline
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCR_CONFIG2_j_4,RX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution"
line.long 0x08 "SLIMBUS_DCR_DATA_j_4,RX data agent DATA FIFO output"
group.long 0x384++0x0B
line.long 0x00 "SLIMBUS_DCR_FIFO_SETUP1_j_4,RX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,RX data agent FIFO base address within shared RX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in read accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCR_FIFO_SETUP2_j_4,RX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO output (read) RX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side RX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side RX data agent FIFO threshold used for SLIMbus reception"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCR_FIFO_STATUS_j_4,RX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCR_DATA read accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "RD_LEVEL,Number of segment words stored in FIFO that can be read out"
rbitfld.long 0x08 1. "HILEVEL,Indicator of read level (RD_LEVEL: number of readable segment words) with respect to (read) threshold (DMA_THRESHOLD)" "HILEVEL_0_r,HILEVEL_1_r"
rbitfld.long 0x08 0. "EMPTY,FIFO empty indicator" "EMPTY_0_r,EMPTY_1_r"
group.long 0x380++0x03
line.long 0x00 "SLIMBUS_DCR_INFO_j_4,RX data agent status"
bitfld.long 0x00 3. "HILEVEL,Read level of RX data agent FIFO has gone above DMA threshold (that is reads required to empty FIFO)" "HILEVEL_0_r,HILEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in RX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in RX data agent FIFO Note: never asserted in pulled or async TPs by construction" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in RX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x390++0x03
line.long 0x00 "SLIMBUS_DCR_MAP_j_4,Associates a device and port to the RX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
group.long 0x294++0x0B
line.long 0x00 "SLIMBUS_DCT_CONFIG1_j_4,TX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0_r,ENABLE_1_r"
rbitfld.long 0x00 30. "CTS_LAST_VALUE,Last received value of the CTS TAG bit" "CTS_LAST_VALUE_0_r,CTS_LAST_VALUE_1_r"
bitfld.long 0x00 28. "DT_LPCM,Unsigned-to-OSAM encoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
newline
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Tied-0 read-only field for channel index 0 since there is no 'previous' channel in that case" "CL_0,CL_1"
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCT_CONFIG2_j_4,TX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution (see)"
line.long 0x08 "SLIMBUS_DCT_DATA_j_4,TX data agent DATA FIFO input"
group.long 0x284++0x0B
line.long 0x00 "SLIMBUS_DCT_FIFO_SETUP1_j_4,TX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,TX data agent FIFO base address within shared TX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in write accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCT_FIFO_SETUP2_j_4,TX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO input (write) TX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side TX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side TX data agent FIFO threshold used for SLIMbus transmission"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCT_FIFO_STATUS_j_4,TX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCT_DATA write accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "WR_LEVEL,Number of free segment words in FIFO that could be filled by writes"
rbitfld.long 0x08 1. "LOLEVEL,Indicator of write level (WR_LEVEL: number of free words in FIFO) with respect to (write) threshold (DMA_threshold)" "LOLEVEL_0_r,LOLEVEL_1_r"
rbitfld.long 0x08 0. "FULL,FIFO full indicator" "FULL_0_r,FULL_1_r"
group.long 0x280++0x03
line.long 0x00 "SLIMBUS_DCT_INFO_j_4,TX data agent status"
bitfld.long 0x00 3. "LOLEVEL,Write level of TX data agent FIFO has gone above DMA threshold (that is writes required to fill FIFO) Note: Defaults to 0 (even though FIFO is then empty) as it sets to 1 only when read-only status bit DCT_FIFO_STATUS.LOLEVEL transitions from 0.." "LOLEVEL_0_r,LOLEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in TX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in TX data agent FIFO" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in TX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x290++0x03
line.long 0x00 "SLIMBUS_DCT_MAP_j_4,Associates a device and port to the TX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
rgroup.long 0x148++0x03
line.long 0x00 "SLIMBUS_DEV_EA_HI_i_4,Device's Enumeration Address (EA[47:0]). upper 16 bits"
hexmask.long.word 0x00 0.--15. 1. "EA_MI,Manufacturer Index (MI[15:0]) shared by all devices"
rgroup.long 0x144++0x03
line.long 0x00 "SLIMBUS_DEV_EA_LO_i_4,Device's Enumeration Address (EA[47:0]). lower 32 bits"
hexmask.long.word 0x00 16.--31. 1. "EA_PC,Product Code (PC[15:0]) shared by all devices of the component"
hexmask.long.byte 0x00 8.--15. 1. "EA_DI,Device Index (DI[15:0]) hardcoded from 0 upwards (0x00 0x01 0x02 etc...) each device of the component"
hexmask.long.byte 0x00 0.--7. 1. "EA_IV,Component's Instance Value (IV[7:0]) shared by all devices of the component"
group.long 0x140++0x03
line.long 0x00 "SLIMBUS_DEV_LA_i_4,Device Logical Address control"
bitfld.long 0x00 9. "EA_ENABLE,Enables the reception of 'long-header' messages to the device's hardwired Enumeration Address (EA)" "EA_ENABLE_0,EA_ENABLE_1"
bitfld.long 0x00 8. "LA_ENABLE,Enables the reception of 'short-header' messages to the device's Logical Address (LA)" "LA_ENABLE_0,LA_ENABLE_1"
hexmask.long.byte 0x00 0.--7. 1. "LA,Device Logical Address assigned by manager device at enumeration (0x00 through 0xEF)"
tree.end
tree "Channel_5"
group.long 0x3B4++0x0B
line.long 0x00 "SLIMBUS_DCR_CONFIG1_j_5,RX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0,ENABLE_1"
bitfld.long 0x00 30. "CTS_FORCE_VALUE,Value to force the CTS TAG bit value when in asynchronous TP and secondary channel owner (that is receiver) and CTS is forced (CTS_force_en=1) Don't care in all other cases" "CTS_FORCE_VALUE_0,CTS_FORCE_VALUE_1"
bitfld.long 0x00 29. "CTS_FORCE_EN,Forces the CTS TAG bit value when in an asynchronous TP and secondary owner (that is receiver) of the channel" "CTS_FORCE_EN_0,CTS_FORCE_EN_1"
newline
bitfld.long 0x00 28. "DT_LPCM,OSAM-to-unsigned decoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Channel index 0 should have CL=0 since there is no 'previous' channel in that case" "CL_0,CL_1"
newline
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
newline
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCR_CONFIG2_j_5,RX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution"
line.long 0x08 "SLIMBUS_DCR_DATA_j_5,RX data agent DATA FIFO output"
group.long 0x3A4++0x0B
line.long 0x00 "SLIMBUS_DCR_FIFO_SETUP1_j_5,RX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,RX data agent FIFO base address within shared RX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in read accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCR_FIFO_SETUP2_j_5,RX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO output (read) RX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side RX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side RX data agent FIFO threshold used for SLIMbus reception"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCR_FIFO_STATUS_j_5,RX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCR_DATA read accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "RD_LEVEL,Number of segment words stored in FIFO that can be read out"
rbitfld.long 0x08 1. "HILEVEL,Indicator of read level (RD_LEVEL: number of readable segment words) with respect to (read) threshold (DMA_THRESHOLD)" "HILEVEL_0_r,HILEVEL_1_r"
rbitfld.long 0x08 0. "EMPTY,FIFO empty indicator" "EMPTY_0_r,EMPTY_1_r"
group.long 0x3A0++0x03
line.long 0x00 "SLIMBUS_DCR_INFO_j_5,RX data agent status"
bitfld.long 0x00 3. "HILEVEL,Read level of RX data agent FIFO has gone above DMA threshold (that is reads required to empty FIFO)" "HILEVEL_0_r,HILEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in RX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in RX data agent FIFO Note: never asserted in pulled or async TPs by construction" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in RX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x3B0++0x03
line.long 0x00 "SLIMBUS_DCR_MAP_j_5,Associates a device and port to the RX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
group.long 0x2B4++0x0B
line.long 0x00 "SLIMBUS_DCT_CONFIG1_j_5,TX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0_r,ENABLE_1_r"
rbitfld.long 0x00 30. "CTS_LAST_VALUE,Last received value of the CTS TAG bit" "CTS_LAST_VALUE_0_r,CTS_LAST_VALUE_1_r"
bitfld.long 0x00 28. "DT_LPCM,Unsigned-to-OSAM encoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
newline
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Tied-0 read-only field for channel index 0 since there is no 'previous' channel in that case" "CL_0,CL_1"
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCT_CONFIG2_j_5,TX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution (see)"
line.long 0x08 "SLIMBUS_DCT_DATA_j_5,TX data agent DATA FIFO input"
group.long 0x2A4++0x0B
line.long 0x00 "SLIMBUS_DCT_FIFO_SETUP1_j_5,TX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,TX data agent FIFO base address within shared TX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in write accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCT_FIFO_SETUP2_j_5,TX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO input (write) TX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side TX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side TX data agent FIFO threshold used for SLIMbus transmission"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCT_FIFO_STATUS_j_5,TX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCT_DATA write accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "WR_LEVEL,Number of free segment words in FIFO that could be filled by writes"
rbitfld.long 0x08 1. "LOLEVEL,Indicator of write level (WR_LEVEL: number of free words in FIFO) with respect to (write) threshold (DMA_threshold)" "LOLEVEL_0_r,LOLEVEL_1_r"
rbitfld.long 0x08 0. "FULL,FIFO full indicator" "FULL_0_r,FULL_1_r"
group.long 0x2A0++0x03
line.long 0x00 "SLIMBUS_DCT_INFO_j_5,TX data agent status"
bitfld.long 0x00 3. "LOLEVEL,Write level of TX data agent FIFO has gone above DMA threshold (that is writes required to fill FIFO) Note: Defaults to 0 (even though FIFO is then empty) as it sets to 1 only when read-only status bit DCT_FIFO_STATUS.LOLEVEL transitions from 0.." "LOLEVEL_0_r,LOLEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in TX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in TX data agent FIFO" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in TX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x2B0++0x03
line.long 0x00 "SLIMBUS_DCT_MAP_j_5,Associates a device and port to the TX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
rgroup.long 0x158++0x03
line.long 0x00 "SLIMBUS_DEV_EA_HI_i_5,Device's Enumeration Address (EA[47:0]). upper 16 bits"
hexmask.long.word 0x00 0.--15. 1. "EA_MI,Manufacturer Index (MI[15:0]) shared by all devices"
rgroup.long 0x154++0x03
line.long 0x00 "SLIMBUS_DEV_EA_LO_i_5,Device's Enumeration Address (EA[47:0]). lower 32 bits"
hexmask.long.word 0x00 16.--31. 1. "EA_PC,Product Code (PC[15:0]) shared by all devices of the component"
hexmask.long.byte 0x00 8.--15. 1. "EA_DI,Device Index (DI[15:0]) hardcoded from 0 upwards (0x00 0x01 0x02 etc...) each device of the component"
hexmask.long.byte 0x00 0.--7. 1. "EA_IV,Component's Instance Value (IV[7:0]) shared by all devices of the component"
group.long 0x150++0x03
line.long 0x00 "SLIMBUS_DEV_LA_i_5,Device Logical Address control"
bitfld.long 0x00 9. "EA_ENABLE,Enables the reception of 'long-header' messages to the device's hardwired Enumeration Address (EA)" "EA_ENABLE_0,EA_ENABLE_1"
bitfld.long 0x00 8. "LA_ENABLE,Enables the reception of 'short-header' messages to the device's Logical Address (LA)" "LA_ENABLE_0,LA_ENABLE_1"
hexmask.long.byte 0x00 0.--7. 1. "LA,Device Logical Address assigned by manager device at enumeration (0x00 through 0xEF)"
tree.end
tree "Channel_6"
group.long 0x3D4++0x0B
line.long 0x00 "SLIMBUS_DCR_CONFIG1_j_6,RX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0,ENABLE_1"
bitfld.long 0x00 30. "CTS_FORCE_VALUE,Value to force the CTS TAG bit value when in asynchronous TP and secondary channel owner (that is receiver) and CTS is forced (CTS_force_en=1) Don't care in all other cases" "CTS_FORCE_VALUE_0,CTS_FORCE_VALUE_1"
bitfld.long 0x00 29. "CTS_FORCE_EN,Forces the CTS TAG bit value when in an asynchronous TP and secondary owner (that is receiver) of the channel" "CTS_FORCE_EN_0,CTS_FORCE_EN_1"
newline
bitfld.long 0x00 28. "DT_LPCM,OSAM-to-unsigned decoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Channel index 0 should have CL=0 since there is no 'previous' channel in that case" "CL_0,CL_1"
newline
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
newline
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCR_CONFIG2_j_6,RX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution"
line.long 0x08 "SLIMBUS_DCR_DATA_j_6,RX data agent DATA FIFO output"
group.long 0x3C4++0x0B
line.long 0x00 "SLIMBUS_DCR_FIFO_SETUP1_j_6,RX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,RX data agent FIFO base address within shared RX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in read accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCR_FIFO_SETUP2_j_6,RX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO output (read) RX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side RX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side RX data agent FIFO threshold used for SLIMbus reception"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCR_FIFO_STATUS_j_6,RX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCR_DATA read accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "RD_LEVEL,Number of segment words stored in FIFO that can be read out"
rbitfld.long 0x08 1. "HILEVEL,Indicator of read level (RD_LEVEL: number of readable segment words) with respect to (read) threshold (DMA_THRESHOLD)" "HILEVEL_0_r,HILEVEL_1_r"
rbitfld.long 0x08 0. "EMPTY,FIFO empty indicator" "EMPTY_0_r,EMPTY_1_r"
group.long 0x3C0++0x03
line.long 0x00 "SLIMBUS_DCR_INFO_j_6,RX data agent status"
bitfld.long 0x00 3. "HILEVEL,Read level of RX data agent FIFO has gone above DMA threshold (that is reads required to empty FIFO)" "HILEVEL_0_r,HILEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in RX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in RX data agent FIFO Note: never asserted in pulled or async TPs by construction" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in RX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x3D0++0x03
line.long 0x00 "SLIMBUS_DCR_MAP_j_6,Associates a device and port to the RX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
group.long 0x2D4++0x0B
line.long 0x00 "SLIMBUS_DCT_CONFIG1_j_6,TX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0_r,ENABLE_1_r"
rbitfld.long 0x00 30. "CTS_LAST_VALUE,Last received value of the CTS TAG bit" "CTS_LAST_VALUE_0_r,CTS_LAST_VALUE_1_r"
bitfld.long 0x00 28. "DT_LPCM,Unsigned-to-OSAM encoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
newline
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Tied-0 read-only field for channel index 0 since there is no 'previous' channel in that case" "CL_0,CL_1"
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCT_CONFIG2_j_6,TX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution (see)"
line.long 0x08 "SLIMBUS_DCT_DATA_j_6,TX data agent DATA FIFO input"
group.long 0x2C4++0x0B
line.long 0x00 "SLIMBUS_DCT_FIFO_SETUP1_j_6,TX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,TX data agent FIFO base address within shared TX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in write accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCT_FIFO_SETUP2_j_6,TX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO input (write) TX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side TX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side TX data agent FIFO threshold used for SLIMbus transmission"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCT_FIFO_STATUS_j_6,TX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCT_DATA write accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "WR_LEVEL,Number of free segment words in FIFO that could be filled by writes"
rbitfld.long 0x08 1. "LOLEVEL,Indicator of write level (WR_LEVEL: number of free words in FIFO) with respect to (write) threshold (DMA_threshold)" "LOLEVEL_0_r,LOLEVEL_1_r"
rbitfld.long 0x08 0. "FULL,FIFO full indicator" "FULL_0_r,FULL_1_r"
group.long 0x2C0++0x03
line.long 0x00 "SLIMBUS_DCT_INFO_j_6,TX data agent status"
bitfld.long 0x00 3. "LOLEVEL,Write level of TX data agent FIFO has gone above DMA threshold (that is writes required to fill FIFO) Note: Defaults to 0 (even though FIFO is then empty) as it sets to 1 only when read-only status bit DCT_FIFO_STATUS.LOLEVEL transitions from 0.." "LOLEVEL_0_r,LOLEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in TX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in TX data agent FIFO" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in TX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x2D0++0x03
line.long 0x00 "SLIMBUS_DCT_MAP_j_6,Associates a device and port to the TX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
rgroup.long 0x168++0x03
line.long 0x00 "SLIMBUS_DEV_EA_HI_i_6,Device's Enumeration Address (EA[47:0]). upper 16 bits"
hexmask.long.word 0x00 0.--15. 1. "EA_MI,Manufacturer Index (MI[15:0]) shared by all devices"
rgroup.long 0x164++0x03
line.long 0x00 "SLIMBUS_DEV_EA_LO_i_6,Device's Enumeration Address (EA[47:0]). lower 32 bits"
hexmask.long.word 0x00 16.--31. 1. "EA_PC,Product Code (PC[15:0]) shared by all devices of the component"
hexmask.long.byte 0x00 8.--15. 1. "EA_DI,Device Index (DI[15:0]) hardcoded from 0 upwards (0x00 0x01 0x02 etc...) each device of the component"
hexmask.long.byte 0x00 0.--7. 1. "EA_IV,Component's Instance Value (IV[7:0]) shared by all devices of the component"
group.long 0x160++0x03
line.long 0x00 "SLIMBUS_DEV_LA_i_6,Device Logical Address control"
bitfld.long 0x00 9. "EA_ENABLE,Enables the reception of 'long-header' messages to the device's hardwired Enumeration Address (EA)" "EA_ENABLE_0,EA_ENABLE_1"
bitfld.long 0x00 8. "LA_ENABLE,Enables the reception of 'short-header' messages to the device's Logical Address (LA)" "LA_ENABLE_0,LA_ENABLE_1"
hexmask.long.byte 0x00 0.--7. 1. "LA,Device Logical Address assigned by manager device at enumeration (0x00 through 0xEF)"
tree.end
tree "Channel_7"
group.long 0x3F4++0x0B
line.long 0x00 "SLIMBUS_DCR_CONFIG1_j_7,RX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0,ENABLE_1"
bitfld.long 0x00 30. "CTS_FORCE_VALUE,Value to force the CTS TAG bit value when in asynchronous TP and secondary channel owner (that is receiver) and CTS is forced (CTS_force_en=1) Don't care in all other cases" "CTS_FORCE_VALUE_0,CTS_FORCE_VALUE_1"
bitfld.long 0x00 29. "CTS_FORCE_EN,Forces the CTS TAG bit value when in an asynchronous TP and secondary owner (that is receiver) of the channel" "CTS_FORCE_EN_0,CTS_FORCE_EN_1"
newline
bitfld.long 0x00 28. "DT_LPCM,OSAM-to-unsigned decoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Channel index 0 should have CL=0 since there is no 'previous' channel in that case" "CL_0,CL_1"
newline
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
newline
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCR_CONFIG2_j_7,RX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution"
line.long 0x08 "SLIMBUS_DCR_DATA_j_7,RX data agent DATA FIFO output"
group.long 0x3E4++0x0B
line.long 0x00 "SLIMBUS_DCR_FIFO_SETUP1_j_7,RX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,RX data agent FIFO base address within shared RX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in read accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCR_FIFO_SETUP2_j_7,RX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO output (read) RX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side RX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side RX data agent FIFO threshold used for SLIMbus reception"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCR_FIFO_STATUS_j_7,RX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCR_DATA read accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "RD_LEVEL,Number of segment words stored in FIFO that can be read out"
rbitfld.long 0x08 1. "HILEVEL,Indicator of read level (RD_LEVEL: number of readable segment words) with respect to (read) threshold (DMA_THRESHOLD)" "HILEVEL_0_r,HILEVEL_1_r"
rbitfld.long 0x08 0. "EMPTY,FIFO empty indicator" "EMPTY_0_r,EMPTY_1_r"
group.long 0x3E0++0x03
line.long 0x00 "SLIMBUS_DCR_INFO_j_7,RX data agent status"
bitfld.long 0x00 3. "HILEVEL,Read level of RX data agent FIFO has gone above DMA threshold (that is reads required to empty FIFO)" "HILEVEL_0_r,HILEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in RX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in RX data agent FIFO Note: never asserted in pulled or async TPs by construction" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in RX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x3F0++0x03
line.long 0x00 "SLIMBUS_DCR_MAP_j_7,Associates a device and port to the RX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
group.long 0x2F4++0x0B
line.long 0x00 "SLIMBUS_DCT_CONFIG1_j_7,TX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0_r,ENABLE_1_r"
rbitfld.long 0x00 30. "CTS_LAST_VALUE,Last received value of the CTS TAG bit" "CTS_LAST_VALUE_0_r,CTS_LAST_VALUE_1_r"
bitfld.long 0x00 28. "DT_LPCM,Unsigned-to-OSAM encoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
newline
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Tied-0 read-only field for channel index 0 since there is no 'previous' channel in that case" "CL_0,CL_1"
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCT_CONFIG2_j_7,TX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution (see)"
line.long 0x08 "SLIMBUS_DCT_DATA_j_7,TX data agent DATA FIFO input"
group.long 0x2E4++0x0B
line.long 0x00 "SLIMBUS_DCT_FIFO_SETUP1_j_7,TX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,TX data agent FIFO base address within shared TX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in write accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCT_FIFO_SETUP2_j_7,TX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO input (write) TX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side TX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side TX data agent FIFO threshold used for SLIMbus transmission"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCT_FIFO_STATUS_j_7,TX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCT_DATA write accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "WR_LEVEL,Number of free segment words in FIFO that could be filled by writes"
rbitfld.long 0x08 1. "LOLEVEL,Indicator of write level (WR_LEVEL: number of free words in FIFO) with respect to (write) threshold (DMA_threshold)" "LOLEVEL_0_r,LOLEVEL_1_r"
rbitfld.long 0x08 0. "FULL,FIFO full indicator" "FULL_0_r,FULL_1_r"
group.long 0x2E0++0x03
line.long 0x00 "SLIMBUS_DCT_INFO_j_7,TX data agent status"
bitfld.long 0x00 3. "LOLEVEL,Write level of TX data agent FIFO has gone above DMA threshold (that is writes required to fill FIFO) Note: Defaults to 0 (even though FIFO is then empty) as it sets to 1 only when read-only status bit DCT_FIFO_STATUS.LOLEVEL transitions from 0.." "LOLEVEL_0_r,LOLEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in TX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in TX data agent FIFO" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in TX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x2F0++0x03
line.long 0x00 "SLIMBUS_DCT_MAP_j_7,Associates a device and port to the TX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
tree.end
group.long 0x38++0x03
line.long 0x00 "SLIMBUS_CMP_DMAENABLE_CLR,Components DMA enable (1 bit per DMA-capable channel) Write 1 to clear (disable DMA)"
bitfld.long 0x00 19. "DCR_DMA_7_EN,DMA enable for RX Data agent 7" "DCR_DMA_7_EN_0_r,DCR_DMA_7_EN_1_r"
bitfld.long 0x00 18. "DCR_DMA_6_EN,DMA enable for RX Data agent 6" "DCR_DMA_6_EN_0_r,DCR_DMA_6_EN_1_r"
newline
bitfld.long 0x00 17. "DCR_DMA_5_EN,DMA enable for RX Data agent 5" "DCR_DMA_5_EN_0_r,DCR_DMA_5_EN_1_r"
bitfld.long 0x00 16. "DCR_DMA_4_EN,DMA enable for RX Data agent 4" "DCR_DMA_4_EN_0_r,DCR_DMA_4_EN_1_r"
newline
bitfld.long 0x00 15. "DCR_DMA_3_EN,DMA enable for RX Data agent 3" "DCR_DMA_3_EN_0_r,DCR_DMA_3_EN_1_r"
bitfld.long 0x00 14. "DCR_DMA_2_EN,DMA enable for RX Data agent 2" "DCR_DMA_2_EN_0_r,DCR_DMA_2_EN_1_r"
newline
bitfld.long 0x00 13. "DCR_DMA_1_EN,DMA enable for RX Data agent 1" "DCR_DMA_1_EN_0_r,DCR_DMA_1_EN_1_r"
bitfld.long 0x00 12. "DCR_DMA_0_EN,DMA enable for RX Data agent 0" "DCR_DMA_0_EN_0_r,DCR_DMA_0_EN_1_r"
newline
bitfld.long 0x00 11. "DCT_DMA_7_EN,DMA enable for TX Data agent" "DCT_DMA_7_EN_0_r,DCT_DMA_7_EN_1_r"
bitfld.long 0x00 10. "DCT_DMA_6_EN,DMA enable for TX Data agent" "DCT_DMA_6_EN_0_r,DCT_DMA_6_EN_1_r"
newline
bitfld.long 0x00 9. "DCT_DMA_5_EN,DMA enable for TX Data agent" "DCT_DMA_5_EN_0_r,DCT_DMA_5_EN_1_r"
bitfld.long 0x00 8. "DCT_DMA_4_EN,DMA enable for TX Data agent" "DCT_DMA_4_EN_0_r,DCT_DMA_4_EN_1_r"
newline
bitfld.long 0x00 7. "DCT_DMA_3_EN,DMA enable for TX Data agent" "DCT_DMA_3_EN_0_r,DCT_DMA_3_EN_1_r"
bitfld.long 0x00 6. "DCT_DMA_2_EN,DMA enable for TX Data agent" "DCT_DMA_2_EN_0_r,DCT_DMA_2_EN_1_r"
newline
bitfld.long 0x00 5. "DCT_DMA_1_EN,DMA enable for TX Data agent" "DCT_DMA_1_EN_0_r,DCT_DMA_1_EN_1_r"
bitfld.long 0x00 4. "DCT_DMA_0_EN,DMA enable for TX Data agent" "DCT_DMA_0_EN_0_r,DCT_DMA_0_EN_1_r"
group.long 0x34++0x03
line.long 0x00 "SLIMBUS_CMP_DMAENABLE_SET,Components DMA enable (1 bit per DMA-capable channel) Write 1 to set (enable DMA)"
bitfld.long 0x00 19. "DCR_DMA_7_EN,DMA enable for RX Data agent 7" "DCR_DMA_7_EN_0_r,DCR_DMA_7_EN_1_r"
bitfld.long 0x00 18. "DCR_DMA_6_EN,DMA enable for RX Data agent 6" "DCR_DMA_6_EN_0_r,DCR_DMA_6_EN_1_r"
newline
bitfld.long 0x00 17. "DCR_DMA_5_EN,DMA enable for RX Data agent 5" "DCR_DMA_5_EN_0_r,DCR_DMA_5_EN_1_r"
bitfld.long 0x00 16. "DCR_DMA_4_EN,DMA enable for RX Data agent 4" "DCR_DMA_4_EN_0_r,DCR_DMA_4_EN_1_r"
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bitfld.long 0x00 15. "DCR_DMA_3_EN,DMA enable for RX Data agent 3" "DCR_DMA_3_EN_0_r,DCR_DMA_3_EN_1_r"
bitfld.long 0x00 14. "DCR_DMA_2_EN,DMA enable for RX Data agent 2" "DCR_DMA_2_EN_0_r,DCR_DMA_2_EN_1_r"
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bitfld.long 0x00 13. "DCR_DMA_1_EN,DMA enable for RX Data agent 1" "DCR_DMA_1_EN_0_r,DCR_DMA_1_EN_1_r"
bitfld.long 0x00 12. "DCR_DMA_0_EN,DMA enable for RX Data agent 0" "DCR_DMA_0_EN_0_r,DCR_DMA_0_EN_1_r"
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bitfld.long 0x00 11. "DCT_DMA_7_EN,DMA enable for TX Data agent" "DCT_DMA_7_EN_0_r,DCT_DMA_7_EN_1_r"
bitfld.long 0x00 10. "DCT_DMA_6_EN,DMA enable for TX Data agent" "DCT_DMA_6_EN_0_r,DCT_DMA_6_EN_1_r"
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bitfld.long 0x00 9. "DCT_DMA_5_EN,DMA enable for TX Data agent" "DCT_DMA_5_EN_0_r,DCT_DMA_5_EN_1_r"
bitfld.long 0x00 8. "DCT_DMA_4_EN,DMA enable for TX Data agent" "DCT_DMA_4_EN_0_r,DCT_DMA_4_EN_1_r"
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bitfld.long 0x00 7. "DCT_DMA_3_EN,DMA enable for TX Data agent" "DCT_DMA_3_EN_0_r,DCT_DMA_3_EN_1_r"
bitfld.long 0x00 6. "DCT_DMA_2_EN,DMA enable for TX Data agent" "DCT_DMA_2_EN_0_r,DCT_DMA_2_EN_1_r"
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bitfld.long 0x00 5. "DCT_DMA_1_EN,DMA enable for TX Data agent" "DCT_DMA_1_EN_0_r,DCT_DMA_1_EN_1_r"
bitfld.long 0x00 4. "DCT_DMA_0_EN,DMA enable for TX Data agent" "DCT_DMA_0_EN_0_r,DCT_DMA_0_EN_1_r"
rgroup.long 0x04++0x03
line.long 0x00 "SLIMBUS_CMP_HWINFO,Those read-only. hardcoded fields display the values of the eponymous hardware configuration depending on module instantiation - SLIMBUS1 or SLIMBUS2"
bitfld.long 0x00 28.--31. "DEV,Device count: number of devices supported by the component most notably through the automatically reception of the messages addressed to them" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "TDC,Transmit Data agent Count: Number of transmit hardware data agents (FIFO and associated logic) Sets the number of instances of the 'DCT_XYZ' registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
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bitfld.long 0x00 20.--23. "RDC,Receive Data agent Count: Number of receive hardware data agents (FIFO and associated logic) Sets the number of instances of the 'DCR_XYZ' registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 12.--19. 1. "RRSZ,Size of receive FIFO RAM in 32-bit words"
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hexmask.long.byte 0x00 4.--11. 1. "TRSZ,Size of transmit FIFO RAM in 32-bit words"
bitfld.long 0x00 0.--3. "PSZ,Size of (both TX and RX) FIFO segment word pointers in bits" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x30++0x03
line.long 0x00 "SLIMBUS_CMP_IRQENABLE_CLR,Component (that is. main) interrupt request enable Write 1 to clear (disable interrupt)"
bitfld.long 0x00 19. "DCR_INFO_7_EN,IRQ enable for RX data agent 7" "DCR_INFO_7_EN_0_r,DCR_INFO_7_EN_1_r"
bitfld.long 0x00 18. "DCR_INFO_6_EN,IRQ enable for RX data agent 6" "DCR_INFO_6_EN_0_r,DCR_INFO_6_EN_1_r"
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bitfld.long 0x00 17. "DCR_INFO_5_EN,IRQ enable for RX data agent 5" "DCR_INFO_5_EN_0_r,DCR_INFO_5_EN_1_r"
bitfld.long 0x00 16. "DCR_INFO_4_EN,IRQ enable for RX data agent 4" "DCR_INFO_4_EN_0_r,DCR_INFO_4_EN_1_r"
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bitfld.long 0x00 15. "DCR_INFO_3_EN,IRQ enable for RX data agent 3" "DCR_INFO_3_EN_0_r,DCR_INFO_3_EN_1_r"
bitfld.long 0x00 14. "DCR_INFO_2_EN,IRQ enable for RX data agent 2" "DCR_INFO_2_EN_0_r,DCR_INFO_2_EN_1_r"
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bitfld.long 0x00 13. "DCR_INFO_1_EN,IRQ enable for RX data agent 1" "DCR_INFO_1_EN_0_r,DCR_INFO_1_EN_1_r"
bitfld.long 0x00 12. "DCR_INFO_0_EN,IRQ enable for RX data agent 0" "DCR_INFO_0_EN_0_r,DCR_INFO_0_EN_1_r"
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bitfld.long 0x00 11. "DCT_INFO_7_EN,IRQ enable for TX Data agent" "DCT_INFO_7_EN_0_r,DCT_INFO_7_EN_1_r"
bitfld.long 0x00 10. "DCT_INFO_6_EN,IRQ enable for TX Data agent" "DCT_INFO_6_EN_0_r,DCT_INFO_6_EN_1_r"
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bitfld.long 0x00 9. "DCT_INFO_5_EN,IRQ enable for TX Data agent" "DCT_INFO_5_EN_0_r,DCT_INFO_5_EN_1_r"
bitfld.long 0x00 8. "DCT_INFO_4_EN,IRQ enable for TX Data agent" "DCT_INFO_4_EN_0_r,DCT_INFO_4_EN_1_r"
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bitfld.long 0x00 7. "DCT_INFO_3_EN,IRQ enable for TX Data agent" "DCT_INFO_3_EN_0_r,DCT_INFO_3_EN_1_r"
bitfld.long 0x00 6. "DCT_INFO_2_EN,IRQ enable for TX Data agent" "DCT_INFO_2_EN_0_r,DCT_INFO_2_EN_1_r"
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bitfld.long 0x00 5. "DCT_INFO_1_EN,IRQ enable for TX Data agent" "DCT_INFO_1_EN_0_r,DCT_INFO_1_EN_1_r"
bitfld.long 0x00 4. "DCT_INFO_0_EN,IRQ enable for TX Data agent" "DCT_INFO_0_EN_0_r,DCT_INFO_0_EN_1_r"
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bitfld.long 0x00 3. "SMR_INFO_EN,IRQ enable for message receive" "SMR_INFO_EN_0_r,SMR_INFO_EN_1_r"
bitfld.long 0x00 2. "SMT_INFO_EN,IRQ enable for message transmit" "SMT_INFO_EN_0_r,SMT_INFO_EN_1_r"
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bitfld.long 0x00 1. "FR_INFO_EN,IRQ enable for Framer device when active" "FR_INFO_EN_0_r,FR_INFO_EN_1_r"
bitfld.long 0x00 0. "FL_INFO_EN,IRQ enable for Frame Layer" "FL_INFO_EN_0_r,FL_INFO_EN_1_r"
group.long 0x2C++0x03
line.long 0x00 "SLIMBUS_CMP_IRQENABLE_SET,Component (that is. main) interrupt request enable Write 1 to set (enable interrupt)"
bitfld.long 0x00 19. "DCR_INFO_7_EN,IRQ enable for RX Data agent 7" "DCR_INFO_7_EN_0_r,DCR_INFO_7_EN_1_r"
bitfld.long 0x00 18. "DCR_INFO_6_EN,IRQ enable for RX Data agent 6" "DCR_INFO_6_EN_0_r,DCR_INFO_6_EN_1_r"
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bitfld.long 0x00 17. "DCR_INFO_5_EN,IRQ enable for RX Data agent 5" "DCR_INFO_5_EN_0_r,DCR_INFO_5_EN_1_r"
bitfld.long 0x00 16. "DCR_INFO_4_EN,IRQ enable for RX Data agent 4" "DCR_INFO_4_EN_0_r,DCR_INFO_4_EN_1_r"
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bitfld.long 0x00 15. "DCR_INFO_3_EN,IRQ enable for RX Data agent 3" "DCR_INFO_3_EN_0_r,DCR_INFO_3_EN_1_r"
bitfld.long 0x00 14. "DCR_INFO_2_EN,IRQ enable for RX Data agent 2" "DCR_INFO_2_EN_0_r,DCR_INFO_2_EN_1_r"
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bitfld.long 0x00 13. "DCR_INFO_1_EN,IRQ enable for RX Data agent 1" "DCR_INFO_1_EN_0_r,DCR_INFO_1_EN_1_r"
bitfld.long 0x00 12. "DCR_INFO_0_EN,IRQ enable for RX Data agent 0" "DCR_INFO_0_EN_0_r,DCR_INFO_0_EN_1_r"
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bitfld.long 0x00 11. "DCT_INFO_7_EN,IRQ enable for TX Data agent" "DCT_INFO_7_EN_0_r,DCT_INFO_7_EN_1_r"
bitfld.long 0x00 10. "DCT_INFO_6_EN,IRQ enable for TX Data agent" "DCT_INFO_6_EN_0_r,DCT_INFO_6_EN_1_r"
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bitfld.long 0x00 9. "DCT_INFO_5_EN,IRQ enable for TX Data agent" "DCT_INFO_5_EN_0_r,DCT_INFO_5_EN_1_r"
bitfld.long 0x00 8. "DCT_INFO_4_EN,IRQ enable for TX Data agent" "DCT_INFO_4_EN_0_r,DCT_INFO_4_EN_1_r"
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bitfld.long 0x00 7. "DCT_INFO_3_EN,IRQ enable for TX Data agent" "DCT_INFO_3_EN_0_r,DCT_INFO_3_EN_1_r"
bitfld.long 0x00 6. "DCT_INFO_2_EN,IRQ enable for TX Data agent" "DCT_INFO_2_EN_0_r,DCT_INFO_2_EN_1_r"
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bitfld.long 0x00 5. "DCT_INFO_1_EN,IRQ enable for TX Data agent" "DCT_INFO_1_EN_0_r,DCT_INFO_1_EN_1_r"
bitfld.long 0x00 4. "DCT_INFO_0_EN,IRQ enable for TX Data agent" "DCT_INFO_0_EN_0_r,DCT_INFO_0_EN_1_r"
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bitfld.long 0x00 3. "SMR_INFO_EN,IRQ enable for message receive" "SMR_INFO_EN_0_r,SMR_INFO_EN_1_r"
bitfld.long 0x00 2. "SMT_INFO_EN,IRQ enable for message transmit" "SMT_INFO_EN_0_r,SMT_INFO_EN_1_r"
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bitfld.long 0x00 1. "FR_INFO_EN,IRQ enable for Framer device when active" "FR_INFO_EN_0_r,FR_INFO_EN_1_r"
bitfld.long 0x00 0. "FL_INFO_EN,IRQ enable for Frame Layer" "FL_INFO_EN_0_r,FL_INFO_EN_1_r"
group.long 0x28++0x03
line.long 0x00 "SLIMBUS_CMP_IRQSTATUS,Component (that is. main) interrupt request status"
bitfld.long 0x00 19. "DCR_INFO_7,IRQ status for RX Data agent 7" "DCR_INFO_7_0_r,DCR_INFO_7_1_r"
bitfld.long 0x00 18. "DCR_INFO_6,IRQ status for RX Data agent 6" "DCR_INFO_6_0_r,DCR_INFO_6_1_r"
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bitfld.long 0x00 17. "DCR_INFO_5,IRQ status for RX Data agent 5" "DCR_INFO_5_0_r,DCR_INFO_5_1_r"
bitfld.long 0x00 16. "DCR_INFO_4,IRQ status for RX Data agent 4" "DCR_INFO_4_0_r,DCR_INFO_4_1_r"
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bitfld.long 0x00 15. "DCR_INFO_3,IRQ status for RX Data agent 3" "DCR_INFO_3_0_r,DCR_INFO_3_1_r"
bitfld.long 0x00 14. "DCR_INFO_2,IRQ status for RX Data agent 2" "DCR_INFO_2_0_r,DCR_INFO_2_1_r"
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bitfld.long 0x00 13. "DCR_INFO_1,IRQ status for RX Data agent 1" "DCR_INFO_1_0_r,DCR_INFO_1_1_r"
bitfld.long 0x00 12. "DCR_INFO_0,IRQ status for RX Data agent 0" "DCR_INFO_0_0_r,DCR_INFO_0_1_r"
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bitfld.long 0x00 11. "DCT_INFO_7,IRQ status for TX Data agent" "DCT_INFO_7_0_r,DCT_INFO_7_1_r"
bitfld.long 0x00 10. "DCT_INFO_6,IRQ status for TX Data agent" "DCT_INFO_6_0_r,DCT_INFO_6_1_r"
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bitfld.long 0x00 9. "DCT_INFO_5,IRQ status for TX Data agent" "DCT_INFO_5_0_r,DCT_INFO_5_1_r"
bitfld.long 0x00 8. "DCT_INFO_4,IRQ status for TX Data agent" "DCT_INFO_4_0_r,DCT_INFO_4_1_r"
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bitfld.long 0x00 7. "DCT_INFO_3,IRQ status for TX Data agent" "DCT_INFO_3_0_r,DCT_INFO_3_1_r"
bitfld.long 0x00 6. "DCT_INFO_2,IRQ status for TX Data agent" "DCT_INFO_2_0_r,DCT_INFO_2_1_r"
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bitfld.long 0x00 5. "DCT_INFO_1,IRQ status for TX Data agent" "DCT_INFO_1_0_r,DCT_INFO_1_1_r"
bitfld.long 0x00 4. "DCT_INFO_0,IRQ status for TX Data agent" "DCT_INFO_0_0_r,DCT_INFO_0_1_r"
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bitfld.long 0x00 3. "SMR_INFO,IRQ status for message receive" "SMR_INFO_0_r,SMR_INFO_1_r"
bitfld.long 0x00 2. "SMT_INFO,IRQ status for message transmit" "SMT_INFO_0_r,SMT_INFO_1_r"
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bitfld.long 0x00 1. "FR_INFO,IRQ status for Framer device when active" "FR_INFO_0_r,FR_INFO_1_r"
bitfld.long 0x00 0. "FL_INFO,IRQ status for Frame Layer" "FL_INFO_0_r,FL_INFO_1_r"
group.long 0x24++0x03
line.long 0x00 "SLIMBUS_CMP_IRQSTATUS_RAW,Component (that is. main) interrupt request status"
bitfld.long 0x00 19. "DCR_INFO_7,IRQ status for RX Data agent 7 If implemented" "DCR_INFO_7_0_r,DCR_INFO_7_1_r"
bitfld.long 0x00 18. "DCR_INFO_6,IRQ status for RX Data agent 6 If implemented" "DCR_INFO_6_0_r,DCR_INFO_6_1_r"
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bitfld.long 0x00 17. "DCR_INFO_5,IRQ status for RX Data agent 5 If implemented" "DCR_INFO_5_0_r,DCR_INFO_5_1_r"
bitfld.long 0x00 16. "DCR_INFO_4,IRQ status for RX Data agent 4 If implemented" "DCR_INFO_4_0_r,DCR_INFO_4_1_r"
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bitfld.long 0x00 15. "DCR_INFO_3,IRQ status for RX Data agent 3 If implemented" "DCR_INFO_3_0_r,DCR_INFO_3_1_r"
bitfld.long 0x00 14. "DCR_INFO_2,IRQ status for RX Data agent 2 If implemented" "DCR_INFO_2_0_r,DCR_INFO_2_1_r"
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bitfld.long 0x00 13. "DCR_INFO_1,IRQ status for RX Data agent 1 If implemented" "DCR_INFO_1_0_r,DCR_INFO_1_1_r"
bitfld.long 0x00 12. "DCR_INFO_0,IRQ status for RX Data agent 0 If implemented" "DCR_INFO_0_0_r,DCR_INFO_0_1_r"
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bitfld.long 0x00 11. "DCT_INFO_7,IRQ status for TX Data agent" "DCT_INFO_7_0_r,DCT_INFO_7_1_r"
bitfld.long 0x00 10. "DCT_INFO_6,IRQ status for TX Data agent" "DCT_INFO_6_0_r,DCT_INFO_6_1_r"
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bitfld.long 0x00 9. "DCT_INFO_5,IRQ status for TX Data agent" "DCT_INFO_5_0_r,DCT_INFO_5_1_r"
bitfld.long 0x00 8. "DCT_INFO_4,IRQ status for TX Data agent" "DCT_INFO_4_0_r,DCT_INFO_4_1_r"
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bitfld.long 0x00 7. "DCT_INFO_3,IRQ status for TX Data agent" "DCT_INFO_3_0_r,DCT_INFO_3_1_r"
bitfld.long 0x00 6. "DCT_INFO_2,IRQ status for TX Data agent" "DCT_INFO_2_0_r,DCT_INFO_2_1_r"
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bitfld.long 0x00 5. "DCT_INFO_1,IRQ status for TX Data agent" "DCT_INFO_1_0_r,DCT_INFO_1_1_r"
bitfld.long 0x00 4. "DCT_INFO_0,IRQ status for TX Data agent" "DCT_INFO_0_0_r,DCT_INFO_0_1_r"
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bitfld.long 0x00 3. "SMR_INFO,IRQ status for message receive" "SMR_INFO_0_r,SMR_INFO_1_r"
bitfld.long 0x00 2. "SMT_INFO,IRQ status for message transmit" "SMT_INFO_0_r,SMT_INFO_1_r"
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bitfld.long 0x00 1. "FR_INFO,IRQ status for Framer device when active" "FR_INFO_0_r,FR_INFO_1_r"
bitfld.long 0x00 0. "FL_INFO,IRQ status for Frame Layer" "FL_INFO_0_r,FL_INFO_1_r"
group.long 0x40++0x07
line.long 0x00 "SLIMBUS_CMP_IV,Component IV field. used as lower 8 bits of the devices' Enumeration Address (EA[47:0])"
hexmask.long.byte 0x00 0.--7. 1. "IV,Device component's Instance Value (IV[7:0])"
line.long 0x04 "SLIMBUS_CMP_MI_PC,Component MI and PC fields. used as upper 32 bits of the devices' Enumeration Address (EA[47:0])"
hexmask.long.word 0x04 16.--31. 1. "PC,Device component's Product Code (PC[15:0])"
hexmask.long.word 0x04 0.--15. 1. "MI,Device component's Manufacturer Index (MI[15:0])"
rgroup.long 0x00++0x03
line.long 0x00 "SLIMBUS_CMP_REVISION,IP Revision Identifier Used by software to track features. bugs. and compatibility"
group.long 0x10++0x03
line.long 0x00 "SLIMBUS_CMP_SYSCONFIG,This register allows controlling various parameters of the interconnect interface"
bitfld.long 0x00 8. "AUTOGATINGDISABLE,Control of the internal clock autogating for safety / debug only" "AUTOGATINGDISABLE_0,AUTOGATINGDISABLE_1"
bitfld.long 0x00 2.--3. "IDLEMODE,Configuration of the local target state management mode" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
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bitfld.long 0x00 0. "SOFTRESET,Software reset" "SOFTRESET_0_r,SOFTRESET_1_r"
group.long 0x7C++0x03
line.long 0x00 "SLIMBUS_FL_CG,Clock Gear (CG) control and status Software must write in values : a) to use when booting in active framer mode. b) extracted from NEXT_CLOCK_GEAR(CG). to use at following reconfiguration boundary. Hardware-updated upon superframe sync.."
bitfld.long 0x00 0.--3. "CG,Clock Gear (CG) to be used after the next reconfiguration boundary" "?,CG_1,CG_2,CG_3,CG_4,CG_5,CG_6,CG_7,CG_8,CG_9,CG_10,?,?,?,?,?"
group.long 0x74++0x03
line.long 0x00 "SLIMBUS_FL_CONTROL,Frame Layer control"
bitfld.long 0x00 8. "VALIDATE_DCMAP,Validates the mapping of data channels on devices: to be used after modifying the DC*_MAP* fields (DI and PN)" "VALIDATE_DCMAP_0_w,VALIDATE_DCMAP_1_w"
bitfld.long 0x00 7. "CLEAR_RECONFIGURATION,Clear all updates cumulated since the last reconfiguration return reconfiguration fields to currently active value" "CLEAR_RECONFIGURATION_0_w,CLEAR_RECONFIGURATION_1_w"
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bitfld.long 0x00 6. "BUS_SHUTDOWN,Sets both the clock source or the clock receiver FSMs back to 'Undefined' state at the next reconfiguration boundary" "BUS_SHUTDOWN_0_r,BUS_SHUTDOWN_1_r"
bitfld.long 0x00 5. "KILL_FS,Force immediate Frame Synchronization loss (implying as well message and superframe sync) When in 'Operational' 'SeekingMessageSync' or 'SeekingSuperFrameSync' states component shall go to 'SeekingFrameSync' and start reaquiring frame sync" "KILL_FS_0_r,KILL_FS_1_w"
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bitfld.long 0x00 4. "KILL_SFS,Force SuperFrame Synchronization loss at next reconfiguration boundary (implying as well message sync loss)" "KILL_SFS_0_r,KILL_SFS_1_r"
bitfld.long 0x00 3. "KILL_MS,Force an immediate Message Synchronization loss" "KILL_MS_0_r,KILL_MS_1_w"
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bitfld.long 0x00 2. "FORCE_RECONFIGURE,Force a reconfiguration boundary at next superframe boundary rather than wait for a RECONFIGURE_NOW() message" "FORCE_RECONFIGURE_0_r,FORCE_RECONFIGURE_1_r"
bitfld.long 0x00 1. "COMPONENT_RESET,Component reset request control: Transitions clock receiver FSM to state 'Reset' (from any other state)" "?,COMPONENT_RESET_1_w"
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bitfld.long 0x00 0. "BOOT,Boot the component when not in active framer mode (don't care when in active framer mode)" "BOOT_0,BOOT_1"
group.long 0x70++0x03
line.long 0x00 "SLIMBUS_FL_INFO,Frame Layer IRQ status"
bitfld.long 0x00 6. "RECONFIGURED,Reconfiguration boundary crossed" "RECONFIGURED_0_r,RECONFIGURED_1_r"
bitfld.long 0x00 5. "SAW_BUS_RESET,Bus reset sequence detected on the bus: no activity on DATA line (all-zero) for 2 to 4 frames" "SAW_BUS_RESET_0_r,SAW_BUS_RESET_1_r"
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bitfld.long 0x00 3. "FOUND_MS,Message sync was acquired: operational state reached" "FOUND_MS_0_r,FOUND_MS_1_r"
bitfld.long 0x00 2. "LOST_MS,Message Synchronization was lost Interface device class-specific information element (IE) Note: Not asserted in case of FS or SFS loss" "LOST_MS_0_r,LOST_MS_1_r"
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bitfld.long 0x00 1. "LOST_SFS,Super Frame Synchronization was lost Interface device class-specific information element (IE) Note: Not asserted in case of FS loss" "LOST_SFS_0_r,LOST_SFS_1_r"
bitfld.long 0x00 0. "LOST_FS,Frame Synchronization was lost Interface device class-specific information element (IE)" "LOST_FS_0_r,LOST_FS_1_r"
group.long 0x80++0x03
line.long 0x00 "SLIMBUS_FL_RF,Root frequency (RF = SLIMbus clock frequency when in gear 10) control and status Software must write in values : a) to use when booting in active framer mode. b) extracted from NEXT_ROOT_FREQUENCY(RF). to use at following reconfiguration.."
bitfld.long 0x00 0.--3. "RF,Root frequency" "RF_0,RF_1,RF_2,RF_3,RF_4,RF_5,RF_6,RF_7,RF_8,RF_9,?,?,?,?,?,?"
group.long 0x78++0x03
line.long 0x00 "SLIMBUS_FL_SM,Subframe mode (SM: defines control vs. data space partition) control and status Software must write in values : a) to use when booting in active framer mode. b) extracted from NEXT_SUBFRAME_MODE(SM). to use at following reconfiguration.."
bitfld.long 0x00 0.--4. "SM,Subframe Mode which sets Control Space Width (CSW) and Subframe Length (SFL) both expressed in slots" "SM_0,SM_1,SM_2,SM_3,SM_4,SM_5,SM_6,SM_7,SM_8,SM_9,SM_10,SM_11,SM_12,SM_13,SM_14,SM_15,SM_16,SM_17,SM_18,SM_19,SM_20,SM_21,SM_22,SM_23,SM_24,SM_25,SM_26,SM_27,SM_28,SM_29,SM_30,SM_31"
group.long 0xA0++0x03
line.long 0x00 "SLIMBUS_FR_CLOCK_PAUSE,Clock and pause restart control"
rbitfld.long 0x00 3.--8. "RT_HI,MSBs of 8-bit SLIMbus parameter" "RT_HI_0_r,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 1.--2. "RT,Restart Time (RT) for recovery after clock pause as extracted from NEXT_PAUSE_CLOCK(RT) LSBs of 8-bit SLIMbus parameter" "RT_0,RT_1,RT_2,?"
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bitfld.long 0x00 0. "CLOCK_PAUSE,Control clock pause / restart" "CLOCK_PAUSE_0,CLOCK_PAUSE_1"
group.long 0x94++0x0B
line.long 0x00 "SLIMBUS_FR_CLOCK_SOURCE,Root clock configuration for active framer mode. used at next reconfiguration boundary"
bitfld.long 0x00 4.--6. "CLKSEL,SLIMbus clock selection" "CLKSEL_0,CLKSEL_1,CLKSEL_2,?,?,?,?,?"
bitfld.long 0x00 0.--3. "CLKDIV,Root divider ratio applied on clock input to obtain root clock to be used at next reconfiguration boundary" "CLKDIV_0,CLKDIV_1,CLKDIV_2,CLKDIV_3,CLKDIV_4,CLKDIV_5,CLKDIV_6,CLKDIV_7,CLKDIV_8,CLKDIV_9,CLKDIV_10,?,?,?,?,?"
line.long 0x04 "SLIMBUS_FR_CONTROL,Framer Device control"
bitfld.long 0x04 1. "BUS_RESET,Bus reset request control when framer is already active" "BUS_RESET_0_r,BUS_RESET_1_r"
bitfld.long 0x04 0. "BOOT,Initiate an active framer (clock source) boot sequence for the component that is when component is default active framer" "BOOT_0_r,BOOT_1_r"
line.long 0x08 "SLIMBUS_FR_FRAMER_HANDOVER,Framer handover control (outgoing if currently active. incoming if currently inactive)"
bitfld.long 0x08 12. "HANDOVER_ENABLE,Enable framer handover upon NEXT_ACTIVE_FRAMER(NCi NCo) reception" "HANDOVER_ENABLE_0,HANDOVER_ENABLE_1"
hexmask.long.word 0x08 0.--11. 1. "NCO_NCI,NCo[11:0] / NCi[11:0] for outgoing / incoming framer respectively as extracted from NEXT_ACTIVE_FRAMER(NCi NCo) Used on framer handover at next reconfiguration boundary"
group.long 0x90++0x03
line.long 0x00 "SLIMBUS_FR_INFO,Framer device status (when active)"
bitfld.long 0x00 5. "CLOCK_RESTART,Clock restart request event detected (that is asynchronous DATA line transition during clock pause)" "CLOCK_RESTART_0,CLOCK_RESTART_1"
bitfld.long 0x00 4. "FRAMER_UNACTIVATED,Framer has left clock source operational state" "FRAMER_UNACTIVATED_0,FRAMER_UNACTIVATED_1"
newline
bitfld.long 0x00 3. "FRAMER_ACTIVATED,Framer has reached clock source operational state" "FRAMER_ACTIVATED_0,FRAMER_ACTIVATED_1"
bitfld.long 0x00 2. "GC_TX_COL,Collision during guide byte transmit (Guide Channel) Framer device class-specific information element (IE)" "GC_TX_COL_0,GC_TX_COL_1"
newline
bitfld.long 0x00 1. "FI_TX_COL,Collision during Framing Information transmit (framing channel) Framer device class-specific information element (IE)" "FI_TX_COL_0,FI_TX_COL_1"
bitfld.long 0x00 0. "FS_TX_COL,Collision during Frame Sync symbol transmit (framing channel) Framer device class-specific information element (IE)" "FS_TX_COL_0,FS_TX_COL_1"
group.long 0x68++0x07
line.long 0x00 "SLIMBUS_SMR_CONTROL,Control of Shared Message channel Reception"
bitfld.long 0x00 0. "MESSAGE_DISABLE,Disables the reception of incoming messages (that is broadcast or locally addressed) into the RX Message FIFO" "MESSAGE_DISABLE_0,MESSAGE_DISABLE_1"
line.long 0x04 "SLIMBUS_SMR_FIFO_SETUP,Shared Message Receive channel setup"
bitfld.long 0x04 7. "PACKING,Packing enable control for RX message FIFO" "PACKING_0,PACKING_1"
bitfld.long 0x04 5.--6. "SIZE_HI,(Upper bits of the) capacity of shared RX message FIFO in bytes minus one" "SIZE_HI_0,SIZE_HI_1,SIZE_HI_2,SIZE_HI_3"
newline
rbitfld.long 0x04 1.--4. "SIZE_LO,(Lower bits of the) capacity of shared RX message FIFO in bytes minus one" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x04 0. "FIFO_CLEAR,Returns message FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
group.long 0x60++0x07
line.long 0x00 "SLIMBUS_SMR_INFO,IRQ status for Shared Message Receive channel"
bitfld.long 0x00 4. "OVERFLOW,Overflow in RX message FIFO: received message is larger than the FIFO" "OVERFLOW_0_r,OVERFLOW_1_r"
bitfld.long 0x00 3. "RECEIVED_RECONFIGURE,RECONFIGURE_NOW message received available in RX message FIFO" "RECEIVED_RECONFIGURE_0_r,RECEIVED_RECONFIGURE_1_r"
newline
bitfld.long 0x00 2. "RECEIVED_MESSAGE,Message available in the RX message FIFO" "RECEIVED_MESSAGE_0_r,RECEIVED_MESSAGE_1_r"
bitfld.long 0x00 1. "UNDERFLOW,Underflow in RX message FIFO: Software tried to read out more bytes than available" "UNDERFLOW_0_r,UNDERFLOW_1_r"
newline
bitfld.long 0x00 0. "MC_TX_COL,Transmit collision in Message Channel (MC) during RX message during message reception" "MC_TX_COL_0_r,MC_TX_COL_1_r"
line.long 0x04 "SLIMBUS_SMR_MESSAGE,Shared Message Receive channel FIFO output"
group.long 0x58++0x07
line.long 0x00 "SLIMBUS_SMT_CONTROL,Control of Shared Message channel Transmission"
bitfld.long 0x00 0. "MESSAGE_ENABLE,Enable the transmission of the message(s) previously written into the TX Message FIFO with unlimited arbitration auto-retries" "MESSAGE_ENABLE_0_r,MESSAGE_ENABLE_1_r"
line.long 0x04 "SLIMBUS_SMT_FIFO_SETUP,Shared Message Transmit channel configuration"
bitfld.long 0x04 7. "PACKING,Packing enable control for TX message FIFO" "PACKING_0,PACKING_1"
bitfld.long 0x04 5.--6. "SIZE_HI,(Upper bits of the) capacity of shared TX message FIFO in bytes minus one" "SIZE_HI_0,SIZE_HI_1,SIZE_HI_2,SIZE_HI_3"
newline
rbitfld.long 0x04 1.--4. "SIZE_LO,(Lower bits of the) capacity of shared TX message FIFO in bytes minus one" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x04 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
group.long 0x50++0x07
line.long 0x00 "SLIMBUS_SMT_INFO,IRQ status for Shared Message Transmit channel"
bitfld.long 0x00 7. "ABORT,TX message was aborted before completion because of message sync loss" "ABORT_0_r,ABORT_1_r"
bitfld.long 0x00 5. "UDEF,TX message was UDEF'ed: undefined response protocol error" "UDEF_0_r,UDEF_1_r"
newline
bitfld.long 0x00 4. "NORE,TX message was NORE'ed: no or all-zero message response" "NORE_0_r,NORE_1_r"
bitfld.long 0x00 3. "NACK,TX message was NACK'ed: at least one of the recipient devices requested message retransmission" "NACK_0_r,NACK_1_r"
newline
bitfld.long 0x00 2. "PACK,TX message was PACK'ed: all recipient devices accepted the message" "PACK_0_r,PACK_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in TX message FIFO: Software tried to write more bytes than available in the FIFO" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "MC_TX_COL,Transmit collision in Message Channel (MC) during message transmission" "MC_TX_COL_0_r,MC_TX_COL_1_r"
line.long 0x04 "SLIMBUS_SMT_MESSAGE,Shared Message Transmit FIFO input"
tree.end
tree "SLIMBUS2_L3Interconnect"
base ansd:0x48076000
tree "Channel_0"
group.long 0x294++0x0B
line.long 0x00 "SLIMBUS_DCR_CONFIG1_j_0,RX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0,ENABLE_1"
bitfld.long 0x00 30. "CTS_FORCE_VALUE,Value to force the CTS TAG bit value when in asynchronous TP and secondary channel owner (that is receiver) and CTS is forced (CTS_force_en=1) Don't care in all other cases" "CTS_FORCE_VALUE_0,CTS_FORCE_VALUE_1"
bitfld.long 0x00 29. "CTS_FORCE_EN,Forces the CTS TAG bit value when in an asynchronous TP and secondary owner (that is receiver) of the channel" "CTS_FORCE_EN_0,CTS_FORCE_EN_1"
newline
bitfld.long 0x00 28. "DT_LPCM,OSAM-to-unsigned decoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Channel index 0 should have CL=0 since there is no 'previous' channel in that case" "CL_0,CL_1"
newline
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
newline
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCR_CONFIG2_j_0,RX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution"
line.long 0x08 "SLIMBUS_DCR_DATA_j_0,RX data agent DATA FIFO output"
group.long 0x284++0x0B
line.long 0x00 "SLIMBUS_DCR_FIFO_SETUP1_j_0,RX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,RX data agent FIFO base address within shared RX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in read accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCR_FIFO_SETUP2_j_0,RX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO output (read) RX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side RX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side RX data agent FIFO threshold used for SLIMbus reception"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCR_FIFO_STATUS_j_0,RX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCR_DATA read accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "RD_LEVEL,Number of segment words stored in FIFO that can be read out"
rbitfld.long 0x08 1. "HILEVEL,Indicator of read level (RD_LEVEL: number of readable segment words) with respect to (read) threshold (DMA_THRESHOLD)" "HILEVEL_0_r,HILEVEL_1_r"
rbitfld.long 0x08 0. "EMPTY,FIFO empty indicator" "EMPTY_0_r,EMPTY_1_r"
group.long 0x280++0x03
line.long 0x00 "SLIMBUS_DCR_INFO_j_0,RX data agent status"
bitfld.long 0x00 3. "HILEVEL,Read level of RX data agent FIFO has gone above DMA threshold (that is reads required to empty FIFO)" "HILEVEL_0_r,HILEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in RX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in RX data agent FIFO Note: never asserted in pulled or async TPs by construction" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in RX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x290++0x03
line.long 0x00 "SLIMBUS_DCR_MAP_j_0,Associates a device and port to the RX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
group.long 0x214++0x0B
line.long 0x00 "SLIMBUS_DCT_CONFIG1_j_0,TX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0_r,ENABLE_1_r"
rbitfld.long 0x00 30. "CTS_LAST_VALUE,Last received value of the CTS TAG bit" "CTS_LAST_VALUE_0_r,CTS_LAST_VALUE_1_r"
bitfld.long 0x00 28. "DT_LPCM,Unsigned-to-OSAM encoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
newline
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Tied-0 read-only field for channel index 0 since there is no 'previous' channel in that case" "CL_0,CL_1"
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCT_CONFIG2_j_0,TX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution (see)"
line.long 0x08 "SLIMBUS_DCT_DATA_j_0,TX data agent DATA FIFO input"
group.long 0x204++0x0B
line.long 0x00 "SLIMBUS_DCT_FIFO_SETUP1_j_0,TX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,TX data agent FIFO base address within shared TX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in write accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCT_FIFO_SETUP2_j_0,TX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO input (write) TX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side TX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side TX data agent FIFO threshold used for SLIMbus transmission"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCT_FIFO_STATUS_j_0,TX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCT_DATA write accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "WR_LEVEL,Number of free segment words in FIFO that could be filled by writes"
rbitfld.long 0x08 1. "LOLEVEL,Indicator of write level (WR_LEVEL: number of free words in FIFO) with respect to (write) threshold (DMA_threshold)" "LOLEVEL_0_r,LOLEVEL_1_r"
rbitfld.long 0x08 0. "FULL,FIFO full indicator" "FULL_0_r,FULL_1_r"
group.long 0x200++0x03
line.long 0x00 "SLIMBUS_DCT_INFO_j_0,TX data agent status"
bitfld.long 0x00 3. "LOLEVEL,Write level of TX data agent FIFO has gone above DMA threshold (that is writes required to fill FIFO) Note: Defaults to 0 (even though FIFO is then empty) as it sets to 1 only when read-only status bit DCT_FIFO_STATUS.LOLEVEL transitions from 0.." "LOLEVEL_0_r,LOLEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in TX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in TX data agent FIFO" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in TX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x210++0x03
line.long 0x00 "SLIMBUS_DCT_MAP_j_0,Associates a device and port to the TX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
rgroup.long 0x108++0x03
line.long 0x00 "SLIMBUS_DEV_EA_HI_i_0,Device's Enumeration Address (EA[47:0]). upper 16 bits"
hexmask.long.word 0x00 0.--15. 1. "EA_MI,Manufacturer Index (MI[15:0]) shared by all devices"
rgroup.long 0x104++0x03
line.long 0x00 "SLIMBUS_DEV_EA_LO_i_0,Device's Enumeration Address (EA[47:0]). lower 32 bits"
hexmask.long.word 0x00 16.--31. 1. "EA_PC,Product Code (PC[15:0]) shared by all devices of the component"
hexmask.long.byte 0x00 8.--15. 1. "EA_DI,Device Index (DI[15:0]) hardcoded from 0 upwards (0x00 0x01 0x02 etc...) each device of the component"
hexmask.long.byte 0x00 0.--7. 1. "EA_IV,Component's Instance Value (IV[7:0]) shared by all devices of the component"
group.long 0x100++0x03
line.long 0x00 "SLIMBUS_DEV_LA_i_0,Device Logical Address control"
bitfld.long 0x00 9. "EA_ENABLE,Enables the reception of 'long-header' messages to the device's hardwired Enumeration Address (EA)" "EA_ENABLE_0,EA_ENABLE_1"
bitfld.long 0x00 8. "LA_ENABLE,Enables the reception of 'short-header' messages to the device's Logical Address (LA)" "LA_ENABLE_0,LA_ENABLE_1"
hexmask.long.byte 0x00 0.--7. 1. "LA,Device Logical Address assigned by manager device at enumeration (0x00 through 0xEF)"
tree.end
tree "Channel_1"
group.long 0x2B4++0x0B
line.long 0x00 "SLIMBUS_DCR_CONFIG1_j_1,RX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0,ENABLE_1"
bitfld.long 0x00 30. "CTS_FORCE_VALUE,Value to force the CTS TAG bit value when in asynchronous TP and secondary channel owner (that is receiver) and CTS is forced (CTS_force_en=1) Don't care in all other cases" "CTS_FORCE_VALUE_0,CTS_FORCE_VALUE_1"
bitfld.long 0x00 29. "CTS_FORCE_EN,Forces the CTS TAG bit value when in an asynchronous TP and secondary owner (that is receiver) of the channel" "CTS_FORCE_EN_0,CTS_FORCE_EN_1"
newline
bitfld.long 0x00 28. "DT_LPCM,OSAM-to-unsigned decoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Channel index 0 should have CL=0 since there is no 'previous' channel in that case" "CL_0,CL_1"
newline
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
newline
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCR_CONFIG2_j_1,RX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution"
line.long 0x08 "SLIMBUS_DCR_DATA_j_1,RX data agent DATA FIFO output"
group.long 0x2A4++0x0B
line.long 0x00 "SLIMBUS_DCR_FIFO_SETUP1_j_1,RX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,RX data agent FIFO base address within shared RX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in read accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCR_FIFO_SETUP2_j_1,RX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO output (read) RX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side RX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side RX data agent FIFO threshold used for SLIMbus reception"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCR_FIFO_STATUS_j_1,RX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCR_DATA read accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "RD_LEVEL,Number of segment words stored in FIFO that can be read out"
rbitfld.long 0x08 1. "HILEVEL,Indicator of read level (RD_LEVEL: number of readable segment words) with respect to (read) threshold (DMA_THRESHOLD)" "HILEVEL_0_r,HILEVEL_1_r"
rbitfld.long 0x08 0. "EMPTY,FIFO empty indicator" "EMPTY_0_r,EMPTY_1_r"
group.long 0x2A0++0x03
line.long 0x00 "SLIMBUS_DCR_INFO_j_1,RX data agent status"
bitfld.long 0x00 3. "HILEVEL,Read level of RX data agent FIFO has gone above DMA threshold (that is reads required to empty FIFO)" "HILEVEL_0_r,HILEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in RX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in RX data agent FIFO Note: never asserted in pulled or async TPs by construction" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in RX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x2B0++0x03
line.long 0x00 "SLIMBUS_DCR_MAP_j_1,Associates a device and port to the RX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
group.long 0x234++0x0B
line.long 0x00 "SLIMBUS_DCT_CONFIG1_j_1,TX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0_r,ENABLE_1_r"
rbitfld.long 0x00 30. "CTS_LAST_VALUE,Last received value of the CTS TAG bit" "CTS_LAST_VALUE_0_r,CTS_LAST_VALUE_1_r"
bitfld.long 0x00 28. "DT_LPCM,Unsigned-to-OSAM encoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
newline
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Tied-0 read-only field for channel index 0 since there is no 'previous' channel in that case" "CL_0,CL_1"
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCT_CONFIG2_j_1,TX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution (see)"
line.long 0x08 "SLIMBUS_DCT_DATA_j_1,TX data agent DATA FIFO input"
group.long 0x224++0x0B
line.long 0x00 "SLIMBUS_DCT_FIFO_SETUP1_j_1,TX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,TX data agent FIFO base address within shared TX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in write accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCT_FIFO_SETUP2_j_1,TX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO input (write) TX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side TX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side TX data agent FIFO threshold used for SLIMbus transmission"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCT_FIFO_STATUS_j_1,TX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCT_DATA write accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "WR_LEVEL,Number of free segment words in FIFO that could be filled by writes"
rbitfld.long 0x08 1. "LOLEVEL,Indicator of write level (WR_LEVEL: number of free words in FIFO) with respect to (write) threshold (DMA_threshold)" "LOLEVEL_0_r,LOLEVEL_1_r"
rbitfld.long 0x08 0. "FULL,FIFO full indicator" "FULL_0_r,FULL_1_r"
group.long 0x220++0x03
line.long 0x00 "SLIMBUS_DCT_INFO_j_1,TX data agent status"
bitfld.long 0x00 3. "LOLEVEL,Write level of TX data agent FIFO has gone above DMA threshold (that is writes required to fill FIFO) Note: Defaults to 0 (even though FIFO is then empty) as it sets to 1 only when read-only status bit DCT_FIFO_STATUS.LOLEVEL transitions from 0.." "LOLEVEL_0_r,LOLEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in TX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in TX data agent FIFO" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in TX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x230++0x03
line.long 0x00 "SLIMBUS_DCT_MAP_j_1,Associates a device and port to the TX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
rgroup.long 0x118++0x03
line.long 0x00 "SLIMBUS_DEV_EA_HI_i_1,Device's Enumeration Address (EA[47:0]). upper 16 bits"
hexmask.long.word 0x00 0.--15. 1. "EA_MI,Manufacturer Index (MI[15:0]) shared by all devices"
rgroup.long 0x114++0x03
line.long 0x00 "SLIMBUS_DEV_EA_LO_i_1,Device's Enumeration Address (EA[47:0]). lower 32 bits"
hexmask.long.word 0x00 16.--31. 1. "EA_PC,Product Code (PC[15:0]) shared by all devices of the component"
hexmask.long.byte 0x00 8.--15. 1. "EA_DI,Device Index (DI[15:0]) hardcoded from 0 upwards (0x00 0x01 0x02 etc...) each device of the component"
hexmask.long.byte 0x00 0.--7. 1. "EA_IV,Component's Instance Value (IV[7:0]) shared by all devices of the component"
group.long 0x110++0x03
line.long 0x00 "SLIMBUS_DEV_LA_i_1,Device Logical Address control"
bitfld.long 0x00 9. "EA_ENABLE,Enables the reception of 'long-header' messages to the device's hardwired Enumeration Address (EA)" "EA_ENABLE_0,EA_ENABLE_1"
bitfld.long 0x00 8. "LA_ENABLE,Enables the reception of 'short-header' messages to the device's Logical Address (LA)" "LA_ENABLE_0,LA_ENABLE_1"
hexmask.long.byte 0x00 0.--7. 1. "LA,Device Logical Address assigned by manager device at enumeration (0x00 through 0xEF)"
tree.end
tree "Channel_2"
group.long 0x2D4++0x0B
line.long 0x00 "SLIMBUS_DCR_CONFIG1_j_2,RX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0,ENABLE_1"
bitfld.long 0x00 30. "CTS_FORCE_VALUE,Value to force the CTS TAG bit value when in asynchronous TP and secondary channel owner (that is receiver) and CTS is forced (CTS_force_en=1) Don't care in all other cases" "CTS_FORCE_VALUE_0,CTS_FORCE_VALUE_1"
bitfld.long 0x00 29. "CTS_FORCE_EN,Forces the CTS TAG bit value when in an asynchronous TP and secondary owner (that is receiver) of the channel" "CTS_FORCE_EN_0,CTS_FORCE_EN_1"
newline
bitfld.long 0x00 28. "DT_LPCM,OSAM-to-unsigned decoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Channel index 0 should have CL=0 since there is no 'previous' channel in that case" "CL_0,CL_1"
newline
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
newline
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCR_CONFIG2_j_2,RX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution"
line.long 0x08 "SLIMBUS_DCR_DATA_j_2,RX data agent DATA FIFO output"
group.long 0x2C4++0x0B
line.long 0x00 "SLIMBUS_DCR_FIFO_SETUP1_j_2,RX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,RX data agent FIFO base address within shared RX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in read accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCR_FIFO_SETUP2_j_2,RX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO output (read) RX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side RX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side RX data agent FIFO threshold used for SLIMbus reception"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCR_FIFO_STATUS_j_2,RX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCR_DATA read accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "RD_LEVEL,Number of segment words stored in FIFO that can be read out"
rbitfld.long 0x08 1. "HILEVEL,Indicator of read level (RD_LEVEL: number of readable segment words) with respect to (read) threshold (DMA_THRESHOLD)" "HILEVEL_0_r,HILEVEL_1_r"
rbitfld.long 0x08 0. "EMPTY,FIFO empty indicator" "EMPTY_0_r,EMPTY_1_r"
group.long 0x2C0++0x03
line.long 0x00 "SLIMBUS_DCR_INFO_j_2,RX data agent status"
bitfld.long 0x00 3. "HILEVEL,Read level of RX data agent FIFO has gone above DMA threshold (that is reads required to empty FIFO)" "HILEVEL_0_r,HILEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in RX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in RX data agent FIFO Note: never asserted in pulled or async TPs by construction" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in RX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x2D0++0x03
line.long 0x00 "SLIMBUS_DCR_MAP_j_2,Associates a device and port to the RX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
group.long 0x254++0x0B
line.long 0x00 "SLIMBUS_DCT_CONFIG1_j_2,TX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0_r,ENABLE_1_r"
rbitfld.long 0x00 30. "CTS_LAST_VALUE,Last received value of the CTS TAG bit" "CTS_LAST_VALUE_0_r,CTS_LAST_VALUE_1_r"
bitfld.long 0x00 28. "DT_LPCM,Unsigned-to-OSAM encoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
newline
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Tied-0 read-only field for channel index 0 since there is no 'previous' channel in that case" "CL_0,CL_1"
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
newline
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCT_CONFIG2_j_2,TX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution (see)"
line.long 0x08 "SLIMBUS_DCT_DATA_j_2,TX data agent DATA FIFO input"
group.long 0x244++0x0B
line.long 0x00 "SLIMBUS_DCT_FIFO_SETUP1_j_2,TX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,TX data agent FIFO base address within shared TX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in write accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCT_FIFO_SETUP2_j_2,TX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO input (write) TX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side TX data agent FIFO threshold"
newline
hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side TX data agent FIFO threshold used for SLIMbus transmission"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCT_FIFO_STATUS_j_2,TX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCT_DATA write accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
newline
hexmask.long.word 0x08 2.--10. 1. "WR_LEVEL,Number of free segment words in FIFO that could be filled by writes"
rbitfld.long 0x08 1. "LOLEVEL,Indicator of write level (WR_LEVEL: number of free words in FIFO) with respect to (write) threshold (DMA_threshold)" "LOLEVEL_0_r,LOLEVEL_1_r"
rbitfld.long 0x08 0. "FULL,FIFO full indicator" "FULL_0_r,FULL_1_r"
group.long 0x240++0x03
line.long 0x00 "SLIMBUS_DCT_INFO_j_2,TX data agent status"
bitfld.long 0x00 3. "LOLEVEL,Write level of TX data agent FIFO has gone above DMA threshold (that is writes required to fill FIFO) Note: Defaults to 0 (even though FIFO is then empty) as it sets to 1 only when read-only status bit DCT_FIFO_STATUS.LOLEVEL transitions from 0.." "LOLEVEL_0_r,LOLEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in TX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in TX data agent FIFO" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "DATA_TX_COL,TX collision in TX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x250++0x03
line.long 0x00 "SLIMBUS_DCT_MAP_j_2,Associates a device and port to the TX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
rgroup.long 0x128++0x03
line.long 0x00 "SLIMBUS_DEV_EA_HI_i_2,Device's Enumeration Address (EA[47:0]). upper 16 bits"
hexmask.long.word 0x00 0.--15. 1. "EA_MI,Manufacturer Index (MI[15:0]) shared by all devices"
rgroup.long 0x124++0x03
line.long 0x00 "SLIMBUS_DEV_EA_LO_i_2,Device's Enumeration Address (EA[47:0]). lower 32 bits"
hexmask.long.word 0x00 16.--31. 1. "EA_PC,Product Code (PC[15:0]) shared by all devices of the component"
hexmask.long.byte 0x00 8.--15. 1. "EA_DI,Device Index (DI[15:0]) hardcoded from 0 upwards (0x00 0x01 0x02 etc...) each device of the component"
hexmask.long.byte 0x00 0.--7. 1. "EA_IV,Component's Instance Value (IV[7:0]) shared by all devices of the component"
group.long 0x120++0x03
line.long 0x00 "SLIMBUS_DEV_LA_i_2,Device Logical Address control"
bitfld.long 0x00 9. "EA_ENABLE,Enables the reception of 'long-header' messages to the device's hardwired Enumeration Address (EA)" "EA_ENABLE_0,EA_ENABLE_1"
bitfld.long 0x00 8. "LA_ENABLE,Enables the reception of 'short-header' messages to the device's Logical Address (LA)" "LA_ENABLE_0,LA_ENABLE_1"
hexmask.long.byte 0x00 0.--7. 1. "LA,Device Logical Address assigned by manager device at enumeration (0x00 through 0xEF)"
tree.end
tree "Channel_3"
group.long 0x2F4++0x0B
line.long 0x00 "SLIMBUS_DCR_CONFIG1_j_3,RX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0,ENABLE_1"
bitfld.long 0x00 30. "CTS_FORCE_VALUE,Value to force the CTS TAG bit value when in asynchronous TP and secondary channel owner (that is receiver) and CTS is forced (CTS_force_en=1) Don't care in all other cases" "CTS_FORCE_VALUE_0,CTS_FORCE_VALUE_1"
bitfld.long 0x00 29. "CTS_FORCE_EN,Forces the CTS TAG bit value when in an asynchronous TP and secondary owner (that is receiver) of the channel" "CTS_FORCE_EN_0,CTS_FORCE_EN_1"
newline
bitfld.long 0x00 28. "DT_LPCM,OSAM-to-unsigned decoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Channel index 0 should have CL=0 since there is no 'previous' channel in that case" "CL_0,CL_1"
newline
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
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bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCR_CONFIG2_j_3,RX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution"
line.long 0x08 "SLIMBUS_DCR_DATA_j_3,RX data agent DATA FIFO output"
group.long 0x2E4++0x0B
line.long 0x00 "SLIMBUS_DCR_FIFO_SETUP1_j_3,RX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,RX data agent FIFO base address within shared RX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in read accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCR_FIFO_SETUP2_j_3,RX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO output (read) RX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side RX data agent FIFO threshold"
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hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side RX data agent FIFO threshold used for SLIMbus reception"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCR_FIFO_STATUS_j_3,RX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCR_DATA read accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
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hexmask.long.word 0x08 2.--10. 1. "RD_LEVEL,Number of segment words stored in FIFO that can be read out"
rbitfld.long 0x08 1. "HILEVEL,Indicator of read level (RD_LEVEL: number of readable segment words) with respect to (read) threshold (DMA_THRESHOLD)" "HILEVEL_0_r,HILEVEL_1_r"
rbitfld.long 0x08 0. "EMPTY,FIFO empty indicator" "EMPTY_0_r,EMPTY_1_r"
group.long 0x2E0++0x03
line.long 0x00 "SLIMBUS_DCR_INFO_j_3,RX data agent status"
bitfld.long 0x00 3. "HILEVEL,Read level of RX data agent FIFO has gone above DMA threshold (that is reads required to empty FIFO)" "HILEVEL_0_r,HILEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in RX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in RX data agent FIFO Note: never asserted in pulled or async TPs by construction" "OVERFLOW_0_r,OVERFLOW_1_r"
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bitfld.long 0x00 0. "DATA_TX_COL,TX collision in RX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x2F0++0x03
line.long 0x00 "SLIMBUS_DCR_MAP_j_3,Associates a device and port to the RX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
group.long 0x274++0x0B
line.long 0x00 "SLIMBUS_DCT_CONFIG1_j_3,TX data agent configuration. applied at the next reconfiguration boundary"
bitfld.long 0x00 31. "ENABLE,Data agent enabling control" "ENABLE_0_r,ENABLE_1_r"
rbitfld.long 0x00 30. "CTS_LAST_VALUE,Last received value of the CTS TAG bit" "CTS_LAST_VALUE_0_r,CTS_LAST_VALUE_1_r"
bitfld.long 0x00 28. "DT_LPCM,Unsigned-to-OSAM encoding enable for Data Type (DT) = LPCM audio (0x1)" "DT_LPCM_0,DT_LPCM_1"
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bitfld.long 0x00 16.--19. "AF,Auxillairy Format (AF) used in segment word size calculation" "AF_0,AF_1,?,?,?,?,?,?,?,?,?,AF_11,?,?,?,AF_15"
bitfld.long 0x00 15. "CL,Channel Link (CL) enable: Pairing up of current channel with previous one (that is channel index below) Tied-0 read-only field for channel index 0 since there is no 'previous' channel in that case" "CL_0,CL_1"
bitfld.long 0x00 10.--14. "DL,Segment Data Length (DL) in 4-bit slots (except when 0)" "DL_0,DL_1,DL_2,DL_3,DL_4,DL_5,DL_6,DL_7,DL_8,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
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bitfld.long 0x00 5.--9. "SL,total Segment Length (SL) in 4-bit slots" "SL_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 4. "TP_QUALIFIER,Qualifier for plain/extended half-duplex asynchronous TPs (owner ID)" "TP_QUALIFIER_0,TP_QUALIFIER_1"
bitfld.long 0x00 0.--3. "TP,Transport Protocol (TP) Determines also the TAG length (from 0 to 2 slots)" "TP_0,TP_1,TP_2,TP_3,TP_4,TP_5,TP_6,TP_7,?,?,?,?,?,?,TP_14,TP_15"
line.long 0x04 "SLIMBUS_DCT_CONFIG2_j_3,TX data agent configuration (continued). applied at the next reconfiguration boundary"
hexmask.long.word 0x04 0.--11. 1. "SD,Segment Distribution (see)"
line.long 0x08 "SLIMBUS_DCT_DATA_j_3,TX data agent DATA FIFO input"
group.long 0x264++0x0B
line.long 0x00 "SLIMBUS_DCT_FIFO_SETUP1_j_3,TX data agent FIFO setup"
hexmask.long.byte 0x00 5.--12. 1. "BASE_ADDR,TX data agent FIFO base address within shared TX RAM"
bitfld.long 0x00 1.--4. "DMA_REQ_SIZE,DMA request size minus 1 in write accesses" "DMA_REQ_SIZE_0,?,?,?,?,?,?,?,?,?,?,?,?,?,?,DMA_REQ_SIZE_15"
bitfld.long 0x00 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
line.long 0x04 "SLIMBUS_DCT_FIFO_SETUP2_j_3,TX data agent FIFO setup. continued"
bitfld.long 0x04 31. "PACKING,Packing enable control" "PACKING_0,PACKING_1"
bitfld.long 0x04 30. "MSB_ALIGNED,PLACEHOLDER NO EFFECT: DATA ALWAYS LSB-aligned LSB/MSB-alignment of FIFO input (write) TX data" "MSB_ALIGNED_0,MSB_ALIGNED_1"
hexmask.long.byte 0x04 16.--23. 1. "DMA_THRESHOLD,SW-side TX data agent FIFO threshold"
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hexmask.long.byte 0x04 8.--15. 1. "SB_THRESHOLD,SLIMbus-side TX data agent FIFO threshold used for SLIMbus transmission"
hexmask.long.byte 0x04 0.--7. 1. "SIZE,Capacity of FIFO in segment words minus one"
line.long 0x08 "SLIMBUS_DCT_FIFO_STATUS_j_3,TX data agent FIFO status. for software (non-DMA) FIFO management"
bitfld.long 0x08 31. "COUNT_EN,Down-counter mode control" "COUNT_EN_0_r,COUNT_EN_1_r"
hexmask.long.word 0x08 16.--30. 1. "ACC_CNT,'Packet mode' down-counter of segment words decremented on DCT_DATA write accesses"
bitfld.long 0x08 15. "IMPRECISE_EN,Precise vs" "IMPRECISE_EN_0,IMPRECISE_EN_1"
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hexmask.long.word 0x08 2.--10. 1. "WR_LEVEL,Number of free segment words in FIFO that could be filled by writes"
rbitfld.long 0x08 1. "LOLEVEL,Indicator of write level (WR_LEVEL: number of free words in FIFO) with respect to (write) threshold (DMA_threshold)" "LOLEVEL_0_r,LOLEVEL_1_r"
rbitfld.long 0x08 0. "FULL,FIFO full indicator" "FULL_0_r,FULL_1_r"
group.long 0x260++0x03
line.long 0x00 "SLIMBUS_DCT_INFO_j_3,TX data agent status"
bitfld.long 0x00 3. "LOLEVEL,Write level of TX data agent FIFO has gone above DMA threshold (that is writes required to fill FIFO) Note: Defaults to 0 (even though FIFO is then empty) as it sets to 1 only when read-only status bit DCT_FIFO_STATUS.LOLEVEL transitions from 0.." "LOLEVEL_0_r,LOLEVEL_1_r"
bitfld.long 0x00 2. "UNDERFLOW,Underflow in TX data agent FIFO" "UNDERFLOW_0_r,UNDERFLOW_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in TX data agent FIFO" "OVERFLOW_0_r,OVERFLOW_1_r"
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bitfld.long 0x00 0. "DATA_TX_COL,TX collision in TX data agent" "DATA_TX_COL_0_r,DATA_TX_COL_1_r"
group.long 0x270++0x03
line.long 0x00 "SLIMBUS_DCT_MAP_j_3,Associates a device and port to the TX data agent"
bitfld.long 0x00 8.--13. "PN,Port Number (PN) identifies the data channel's port for the device" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
hexmask.long.byte 0x00 0.--7. 1. "DI,Index (DI) of the device this data agent belongs to"
rgroup.long 0x138++0x03
line.long 0x00 "SLIMBUS_DEV_EA_HI_i_3,Device's Enumeration Address (EA[47:0]). upper 16 bits"
hexmask.long.word 0x00 0.--15. 1. "EA_MI,Manufacturer Index (MI[15:0]) shared by all devices"
rgroup.long 0x134++0x03
line.long 0x00 "SLIMBUS_DEV_EA_LO_i_3,Device's Enumeration Address (EA[47:0]). lower 32 bits"
hexmask.long.word 0x00 16.--31. 1. "EA_PC,Product Code (PC[15:0]) shared by all devices of the component"
hexmask.long.byte 0x00 8.--15. 1. "EA_DI,Device Index (DI[15:0]) hardcoded from 0 upwards (0x00 0x01 0x02 etc...) each device of the component"
hexmask.long.byte 0x00 0.--7. 1. "EA_IV,Component's Instance Value (IV[7:0]) shared by all devices of the component"
group.long 0x130++0x03
line.long 0x00 "SLIMBUS_DEV_LA_i_3,Device Logical Address control"
bitfld.long 0x00 9. "EA_ENABLE,Enables the reception of 'long-header' messages to the device's hardwired Enumeration Address (EA)" "EA_ENABLE_0,EA_ENABLE_1"
bitfld.long 0x00 8. "LA_ENABLE,Enables the reception of 'short-header' messages to the device's Logical Address (LA)" "LA_ENABLE_0,LA_ENABLE_1"
hexmask.long.byte 0x00 0.--7. 1. "LA,Device Logical Address assigned by manager device at enumeration (0x00 through 0xEF)"
tree.end
tree "Channel_4"
rgroup.long 0x148++0x03
line.long 0x00 "SLIMBUS_DEV_EA_HI_i_4,Device's Enumeration Address (EA[47:0]). upper 16 bits"
hexmask.long.word 0x00 0.--15. 1. "EA_MI,Manufacturer Index (MI[15:0]) shared by all devices"
rgroup.long 0x144++0x03
line.long 0x00 "SLIMBUS_DEV_EA_LO_i_4,Device's Enumeration Address (EA[47:0]). lower 32 bits"
hexmask.long.word 0x00 16.--31. 1. "EA_PC,Product Code (PC[15:0]) shared by all devices of the component"
hexmask.long.byte 0x00 8.--15. 1. "EA_DI,Device Index (DI[15:0]) hardcoded from 0 upwards (0x00 0x01 0x02 etc...) each device of the component"
hexmask.long.byte 0x00 0.--7. 1. "EA_IV,Component's Instance Value (IV[7:0]) shared by all devices of the component"
group.long 0x140++0x03
line.long 0x00 "SLIMBUS_DEV_LA_i_4,Device Logical Address control"
bitfld.long 0x00 9. "EA_ENABLE,Enables the reception of 'long-header' messages to the device's hardwired Enumeration Address (EA)" "EA_ENABLE_0,EA_ENABLE_1"
bitfld.long 0x00 8. "LA_ENABLE,Enables the reception of 'short-header' messages to the device's Logical Address (LA)" "LA_ENABLE_0,LA_ENABLE_1"
hexmask.long.byte 0x00 0.--7. 1. "LA,Device Logical Address assigned by manager device at enumeration (0x00 through 0xEF)"
tree.end
tree "Channel_5"
rgroup.long 0x158++0x03
line.long 0x00 "SLIMBUS_DEV_EA_HI_i_5,Device's Enumeration Address (EA[47:0]). upper 16 bits"
hexmask.long.word 0x00 0.--15. 1. "EA_MI,Manufacturer Index (MI[15:0]) shared by all devices"
rgroup.long 0x154++0x03
line.long 0x00 "SLIMBUS_DEV_EA_LO_i_5,Device's Enumeration Address (EA[47:0]). lower 32 bits"
hexmask.long.word 0x00 16.--31. 1. "EA_PC,Product Code (PC[15:0]) shared by all devices of the component"
hexmask.long.byte 0x00 8.--15. 1. "EA_DI,Device Index (DI[15:0]) hardcoded from 0 upwards (0x00 0x01 0x02 etc...) each device of the component"
hexmask.long.byte 0x00 0.--7. 1. "EA_IV,Component's Instance Value (IV[7:0]) shared by all devices of the component"
group.long 0x150++0x03
line.long 0x00 "SLIMBUS_DEV_LA_i_5,Device Logical Address control"
bitfld.long 0x00 9. "EA_ENABLE,Enables the reception of 'long-header' messages to the device's hardwired Enumeration Address (EA)" "EA_ENABLE_0,EA_ENABLE_1"
bitfld.long 0x00 8. "LA_ENABLE,Enables the reception of 'short-header' messages to the device's Logical Address (LA)" "LA_ENABLE_0,LA_ENABLE_1"
hexmask.long.byte 0x00 0.--7. 1. "LA,Device Logical Address assigned by manager device at enumeration (0x00 through 0xEF)"
tree.end
tree "Channel_6"
rgroup.long 0x168++0x03
line.long 0x00 "SLIMBUS_DEV_EA_HI_i_6,Device's Enumeration Address (EA[47:0]). upper 16 bits"
hexmask.long.word 0x00 0.--15. 1. "EA_MI,Manufacturer Index (MI[15:0]) shared by all devices"
rgroup.long 0x164++0x03
line.long 0x00 "SLIMBUS_DEV_EA_LO_i_6,Device's Enumeration Address (EA[47:0]). lower 32 bits"
hexmask.long.word 0x00 16.--31. 1. "EA_PC,Product Code (PC[15:0]) shared by all devices of the component"
hexmask.long.byte 0x00 8.--15. 1. "EA_DI,Device Index (DI[15:0]) hardcoded from 0 upwards (0x00 0x01 0x02 etc...) each device of the component"
hexmask.long.byte 0x00 0.--7. 1. "EA_IV,Component's Instance Value (IV[7:0]) shared by all devices of the component"
group.long 0x160++0x03
line.long 0x00 "SLIMBUS_DEV_LA_i_6,Device Logical Address control"
bitfld.long 0x00 9. "EA_ENABLE,Enables the reception of 'long-header' messages to the device's hardwired Enumeration Address (EA)" "EA_ENABLE_0,EA_ENABLE_1"
bitfld.long 0x00 8. "LA_ENABLE,Enables the reception of 'short-header' messages to the device's Logical Address (LA)" "LA_ENABLE_0,LA_ENABLE_1"
hexmask.long.byte 0x00 0.--7. 1. "LA,Device Logical Address assigned by manager device at enumeration (0x00 through 0xEF)"
tree.end
group.long 0x38++0x03
line.long 0x00 "SLIMBUS_CMP_DMAENABLE_CLR,Components DMA enable (1 bit per DMA-capable channel) Write 1 to clear (disable DMA)"
bitfld.long 0x00 19. "DCR_DMA_7_EN,DMA enable for RX Data agent 7" "DCR_DMA_7_EN_0_r,DCR_DMA_7_EN_1_r"
bitfld.long 0x00 18. "DCR_DMA_6_EN,DMA enable for RX Data agent 6" "DCR_DMA_6_EN_0_r,DCR_DMA_6_EN_1_r"
newline
bitfld.long 0x00 17. "DCR_DMA_5_EN,DMA enable for RX Data agent 5" "DCR_DMA_5_EN_0_r,DCR_DMA_5_EN_1_r"
bitfld.long 0x00 16. "DCR_DMA_4_EN,DMA enable for RX Data agent 4" "DCR_DMA_4_EN_0_r,DCR_DMA_4_EN_1_r"
newline
bitfld.long 0x00 15. "DCR_DMA_3_EN,DMA enable for RX Data agent 3" "DCR_DMA_3_EN_0_r,DCR_DMA_3_EN_1_r"
bitfld.long 0x00 14. "DCR_DMA_2_EN,DMA enable for RX Data agent 2" "DCR_DMA_2_EN_0_r,DCR_DMA_2_EN_1_r"
newline
bitfld.long 0x00 13. "DCR_DMA_1_EN,DMA enable for RX Data agent 1" "DCR_DMA_1_EN_0_r,DCR_DMA_1_EN_1_r"
bitfld.long 0x00 12. "DCR_DMA_0_EN,DMA enable for RX Data agent 0" "DCR_DMA_0_EN_0_r,DCR_DMA_0_EN_1_r"
newline
bitfld.long 0x00 11. "DCT_DMA_7_EN,DMA enable for TX Data agent" "DCT_DMA_7_EN_0_r,DCT_DMA_7_EN_1_r"
bitfld.long 0x00 10. "DCT_DMA_6_EN,DMA enable for TX Data agent" "DCT_DMA_6_EN_0_r,DCT_DMA_6_EN_1_r"
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bitfld.long 0x00 9. "DCT_DMA_5_EN,DMA enable for TX Data agent" "DCT_DMA_5_EN_0_r,DCT_DMA_5_EN_1_r"
bitfld.long 0x00 8. "DCT_DMA_4_EN,DMA enable for TX Data agent" "DCT_DMA_4_EN_0_r,DCT_DMA_4_EN_1_r"
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bitfld.long 0x00 7. "DCT_DMA_3_EN,DMA enable for TX Data agent" "DCT_DMA_3_EN_0_r,DCT_DMA_3_EN_1_r"
bitfld.long 0x00 6. "DCT_DMA_2_EN,DMA enable for TX Data agent" "DCT_DMA_2_EN_0_r,DCT_DMA_2_EN_1_r"
newline
bitfld.long 0x00 5. "DCT_DMA_1_EN,DMA enable for TX Data agent" "DCT_DMA_1_EN_0_r,DCT_DMA_1_EN_1_r"
bitfld.long 0x00 4. "DCT_DMA_0_EN,DMA enable for TX Data agent" "DCT_DMA_0_EN_0_r,DCT_DMA_0_EN_1_r"
group.long 0x34++0x03
line.long 0x00 "SLIMBUS_CMP_DMAENABLE_SET,Components DMA enable (1 bit per DMA-capable channel) Write 1 to set (enable DMA)"
bitfld.long 0x00 19. "DCR_DMA_7_EN,DMA enable for RX Data agent 7" "DCR_DMA_7_EN_0_r,DCR_DMA_7_EN_1_r"
bitfld.long 0x00 18. "DCR_DMA_6_EN,DMA enable for RX Data agent 6" "DCR_DMA_6_EN_0_r,DCR_DMA_6_EN_1_r"
newline
bitfld.long 0x00 17. "DCR_DMA_5_EN,DMA enable for RX Data agent 5" "DCR_DMA_5_EN_0_r,DCR_DMA_5_EN_1_r"
bitfld.long 0x00 16. "DCR_DMA_4_EN,DMA enable for RX Data agent 4" "DCR_DMA_4_EN_0_r,DCR_DMA_4_EN_1_r"
newline
bitfld.long 0x00 15. "DCR_DMA_3_EN,DMA enable for RX Data agent 3" "DCR_DMA_3_EN_0_r,DCR_DMA_3_EN_1_r"
bitfld.long 0x00 14. "DCR_DMA_2_EN,DMA enable for RX Data agent 2" "DCR_DMA_2_EN_0_r,DCR_DMA_2_EN_1_r"
newline
bitfld.long 0x00 13. "DCR_DMA_1_EN,DMA enable for RX Data agent 1" "DCR_DMA_1_EN_0_r,DCR_DMA_1_EN_1_r"
bitfld.long 0x00 12. "DCR_DMA_0_EN,DMA enable for RX Data agent 0" "DCR_DMA_0_EN_0_r,DCR_DMA_0_EN_1_r"
newline
bitfld.long 0x00 11. "DCT_DMA_7_EN,DMA enable for TX Data agent" "DCT_DMA_7_EN_0_r,DCT_DMA_7_EN_1_r"
bitfld.long 0x00 10. "DCT_DMA_6_EN,DMA enable for TX Data agent" "DCT_DMA_6_EN_0_r,DCT_DMA_6_EN_1_r"
newline
bitfld.long 0x00 9. "DCT_DMA_5_EN,DMA enable for TX Data agent" "DCT_DMA_5_EN_0_r,DCT_DMA_5_EN_1_r"
bitfld.long 0x00 8. "DCT_DMA_4_EN,DMA enable for TX Data agent" "DCT_DMA_4_EN_0_r,DCT_DMA_4_EN_1_r"
newline
bitfld.long 0x00 7. "DCT_DMA_3_EN,DMA enable for TX Data agent" "DCT_DMA_3_EN_0_r,DCT_DMA_3_EN_1_r"
bitfld.long 0x00 6. "DCT_DMA_2_EN,DMA enable for TX Data agent" "DCT_DMA_2_EN_0_r,DCT_DMA_2_EN_1_r"
newline
bitfld.long 0x00 5. "DCT_DMA_1_EN,DMA enable for TX Data agent" "DCT_DMA_1_EN_0_r,DCT_DMA_1_EN_1_r"
bitfld.long 0x00 4. "DCT_DMA_0_EN,DMA enable for TX Data agent" "DCT_DMA_0_EN_0_r,DCT_DMA_0_EN_1_r"
rgroup.long 0x04++0x03
line.long 0x00 "SLIMBUS_CMP_HWINFO,Those read-only. hardcoded fields display the values of the eponymous hardware configuration depending on module instantiation - SLIMBUS1 or SLIMBUS2"
bitfld.long 0x00 28.--31. "DEV,Device count: number of devices supported by the component most notably through the automatically reception of the messages addressed to them" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "TDC,Transmit Data agent Count: Number of transmit hardware data agents (FIFO and associated logic) Sets the number of instances of the 'DCT_XYZ' registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
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bitfld.long 0x00 20.--23. "RDC,Receive Data agent Count: Number of receive hardware data agents (FIFO and associated logic) Sets the number of instances of the 'DCR_XYZ' registers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 12.--19. 1. "RRSZ,Size of receive FIFO RAM in 32-bit words"
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hexmask.long.byte 0x00 4.--11. 1. "TRSZ,Size of transmit FIFO RAM in 32-bit words"
bitfld.long 0x00 0.--3. "PSZ,Size of (both TX and RX) FIFO segment word pointers in bits" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x30++0x03
line.long 0x00 "SLIMBUS_CMP_IRQENABLE_CLR,Component (that is. main) interrupt request enable Write 1 to clear (disable interrupt)"
bitfld.long 0x00 19. "DCR_INFO_7_EN,IRQ enable for RX data agent 7" "DCR_INFO_7_EN_0_r,DCR_INFO_7_EN_1_r"
bitfld.long 0x00 18. "DCR_INFO_6_EN,IRQ enable for RX data agent 6" "DCR_INFO_6_EN_0_r,DCR_INFO_6_EN_1_r"
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bitfld.long 0x00 17. "DCR_INFO_5_EN,IRQ enable for RX data agent 5" "DCR_INFO_5_EN_0_r,DCR_INFO_5_EN_1_r"
bitfld.long 0x00 16. "DCR_INFO_4_EN,IRQ enable for RX data agent 4" "DCR_INFO_4_EN_0_r,DCR_INFO_4_EN_1_r"
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bitfld.long 0x00 15. "DCR_INFO_3_EN,IRQ enable for RX data agent 3" "DCR_INFO_3_EN_0_r,DCR_INFO_3_EN_1_r"
bitfld.long 0x00 14. "DCR_INFO_2_EN,IRQ enable for RX data agent 2" "DCR_INFO_2_EN_0_r,DCR_INFO_2_EN_1_r"
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bitfld.long 0x00 13. "DCR_INFO_1_EN,IRQ enable for RX data agent 1" "DCR_INFO_1_EN_0_r,DCR_INFO_1_EN_1_r"
bitfld.long 0x00 12. "DCR_INFO_0_EN,IRQ enable for RX data agent 0" "DCR_INFO_0_EN_0_r,DCR_INFO_0_EN_1_r"
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bitfld.long 0x00 11. "DCT_INFO_7_EN,IRQ enable for TX Data agent" "DCT_INFO_7_EN_0_r,DCT_INFO_7_EN_1_r"
bitfld.long 0x00 10. "DCT_INFO_6_EN,IRQ enable for TX Data agent" "DCT_INFO_6_EN_0_r,DCT_INFO_6_EN_1_r"
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bitfld.long 0x00 9. "DCT_INFO_5_EN,IRQ enable for TX Data agent" "DCT_INFO_5_EN_0_r,DCT_INFO_5_EN_1_r"
bitfld.long 0x00 8. "DCT_INFO_4_EN,IRQ enable for TX Data agent" "DCT_INFO_4_EN_0_r,DCT_INFO_4_EN_1_r"
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bitfld.long 0x00 7. "DCT_INFO_3_EN,IRQ enable for TX Data agent" "DCT_INFO_3_EN_0_r,DCT_INFO_3_EN_1_r"
bitfld.long 0x00 6. "DCT_INFO_2_EN,IRQ enable for TX Data agent" "DCT_INFO_2_EN_0_r,DCT_INFO_2_EN_1_r"
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bitfld.long 0x00 5. "DCT_INFO_1_EN,IRQ enable for TX Data agent" "DCT_INFO_1_EN_0_r,DCT_INFO_1_EN_1_r"
bitfld.long 0x00 4. "DCT_INFO_0_EN,IRQ enable for TX Data agent" "DCT_INFO_0_EN_0_r,DCT_INFO_0_EN_1_r"
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bitfld.long 0x00 3. "SMR_INFO_EN,IRQ enable for message receive" "SMR_INFO_EN_0_r,SMR_INFO_EN_1_r"
bitfld.long 0x00 2. "SMT_INFO_EN,IRQ enable for message transmit" "SMT_INFO_EN_0_r,SMT_INFO_EN_1_r"
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bitfld.long 0x00 1. "FR_INFO_EN,IRQ enable for Framer device when active" "FR_INFO_EN_0_r,FR_INFO_EN_1_r"
bitfld.long 0x00 0. "FL_INFO_EN,IRQ enable for Frame Layer" "FL_INFO_EN_0_r,FL_INFO_EN_1_r"
group.long 0x2C++0x03
line.long 0x00 "SLIMBUS_CMP_IRQENABLE_SET,Component (that is. main) interrupt request enable Write 1 to set (enable interrupt)"
bitfld.long 0x00 19. "DCR_INFO_7_EN,IRQ enable for RX Data agent 7" "DCR_INFO_7_EN_0_r,DCR_INFO_7_EN_1_r"
bitfld.long 0x00 18. "DCR_INFO_6_EN,IRQ enable for RX Data agent 6" "DCR_INFO_6_EN_0_r,DCR_INFO_6_EN_1_r"
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bitfld.long 0x00 17. "DCR_INFO_5_EN,IRQ enable for RX Data agent 5" "DCR_INFO_5_EN_0_r,DCR_INFO_5_EN_1_r"
bitfld.long 0x00 16. "DCR_INFO_4_EN,IRQ enable for RX Data agent 4" "DCR_INFO_4_EN_0_r,DCR_INFO_4_EN_1_r"
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bitfld.long 0x00 15. "DCR_INFO_3_EN,IRQ enable for RX Data agent 3" "DCR_INFO_3_EN_0_r,DCR_INFO_3_EN_1_r"
bitfld.long 0x00 14. "DCR_INFO_2_EN,IRQ enable for RX Data agent 2" "DCR_INFO_2_EN_0_r,DCR_INFO_2_EN_1_r"
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bitfld.long 0x00 13. "DCR_INFO_1_EN,IRQ enable for RX Data agent 1" "DCR_INFO_1_EN_0_r,DCR_INFO_1_EN_1_r"
bitfld.long 0x00 12. "DCR_INFO_0_EN,IRQ enable for RX Data agent 0" "DCR_INFO_0_EN_0_r,DCR_INFO_0_EN_1_r"
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bitfld.long 0x00 11. "DCT_INFO_7_EN,IRQ enable for TX Data agent" "DCT_INFO_7_EN_0_r,DCT_INFO_7_EN_1_r"
bitfld.long 0x00 10. "DCT_INFO_6_EN,IRQ enable for TX Data agent" "DCT_INFO_6_EN_0_r,DCT_INFO_6_EN_1_r"
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bitfld.long 0x00 9. "DCT_INFO_5_EN,IRQ enable for TX Data agent" "DCT_INFO_5_EN_0_r,DCT_INFO_5_EN_1_r"
bitfld.long 0x00 8. "DCT_INFO_4_EN,IRQ enable for TX Data agent" "DCT_INFO_4_EN_0_r,DCT_INFO_4_EN_1_r"
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bitfld.long 0x00 7. "DCT_INFO_3_EN,IRQ enable for TX Data agent" "DCT_INFO_3_EN_0_r,DCT_INFO_3_EN_1_r"
bitfld.long 0x00 6. "DCT_INFO_2_EN,IRQ enable for TX Data agent" "DCT_INFO_2_EN_0_r,DCT_INFO_2_EN_1_r"
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bitfld.long 0x00 5. "DCT_INFO_1_EN,IRQ enable for TX Data agent" "DCT_INFO_1_EN_0_r,DCT_INFO_1_EN_1_r"
bitfld.long 0x00 4. "DCT_INFO_0_EN,IRQ enable for TX Data agent" "DCT_INFO_0_EN_0_r,DCT_INFO_0_EN_1_r"
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bitfld.long 0x00 3. "SMR_INFO_EN,IRQ enable for message receive" "SMR_INFO_EN_0_r,SMR_INFO_EN_1_r"
bitfld.long 0x00 2. "SMT_INFO_EN,IRQ enable for message transmit" "SMT_INFO_EN_0_r,SMT_INFO_EN_1_r"
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bitfld.long 0x00 1. "FR_INFO_EN,IRQ enable for Framer device when active" "FR_INFO_EN_0_r,FR_INFO_EN_1_r"
bitfld.long 0x00 0. "FL_INFO_EN,IRQ enable for Frame Layer" "FL_INFO_EN_0_r,FL_INFO_EN_1_r"
group.long 0x28++0x03
line.long 0x00 "SLIMBUS_CMP_IRQSTATUS,Component (that is. main) interrupt request status"
bitfld.long 0x00 19. "DCR_INFO_7,IRQ status for RX Data agent 7" "DCR_INFO_7_0_r,DCR_INFO_7_1_r"
bitfld.long 0x00 18. "DCR_INFO_6,IRQ status for RX Data agent 6" "DCR_INFO_6_0_r,DCR_INFO_6_1_r"
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bitfld.long 0x00 17. "DCR_INFO_5,IRQ status for RX Data agent 5" "DCR_INFO_5_0_r,DCR_INFO_5_1_r"
bitfld.long 0x00 16. "DCR_INFO_4,IRQ status for RX Data agent 4" "DCR_INFO_4_0_r,DCR_INFO_4_1_r"
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bitfld.long 0x00 15. "DCR_INFO_3,IRQ status for RX Data agent 3" "DCR_INFO_3_0_r,DCR_INFO_3_1_r"
bitfld.long 0x00 14. "DCR_INFO_2,IRQ status for RX Data agent 2" "DCR_INFO_2_0_r,DCR_INFO_2_1_r"
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bitfld.long 0x00 13. "DCR_INFO_1,IRQ status for RX Data agent 1" "DCR_INFO_1_0_r,DCR_INFO_1_1_r"
bitfld.long 0x00 12. "DCR_INFO_0,IRQ status for RX Data agent 0" "DCR_INFO_0_0_r,DCR_INFO_0_1_r"
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bitfld.long 0x00 11. "DCT_INFO_7,IRQ status for TX Data agent" "DCT_INFO_7_0_r,DCT_INFO_7_1_r"
bitfld.long 0x00 10. "DCT_INFO_6,IRQ status for TX Data agent" "DCT_INFO_6_0_r,DCT_INFO_6_1_r"
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bitfld.long 0x00 9. "DCT_INFO_5,IRQ status for TX Data agent" "DCT_INFO_5_0_r,DCT_INFO_5_1_r"
bitfld.long 0x00 8. "DCT_INFO_4,IRQ status for TX Data agent" "DCT_INFO_4_0_r,DCT_INFO_4_1_r"
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bitfld.long 0x00 7. "DCT_INFO_3,IRQ status for TX Data agent" "DCT_INFO_3_0_r,DCT_INFO_3_1_r"
bitfld.long 0x00 6. "DCT_INFO_2,IRQ status for TX Data agent" "DCT_INFO_2_0_r,DCT_INFO_2_1_r"
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bitfld.long 0x00 5. "DCT_INFO_1,IRQ status for TX Data agent" "DCT_INFO_1_0_r,DCT_INFO_1_1_r"
bitfld.long 0x00 4. "DCT_INFO_0,IRQ status for TX Data agent" "DCT_INFO_0_0_r,DCT_INFO_0_1_r"
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bitfld.long 0x00 3. "SMR_INFO,IRQ status for message receive" "SMR_INFO_0_r,SMR_INFO_1_r"
bitfld.long 0x00 2. "SMT_INFO,IRQ status for message transmit" "SMT_INFO_0_r,SMT_INFO_1_r"
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bitfld.long 0x00 1. "FR_INFO,IRQ status for Framer device when active" "FR_INFO_0_r,FR_INFO_1_r"
bitfld.long 0x00 0. "FL_INFO,IRQ status for Frame Layer" "FL_INFO_0_r,FL_INFO_1_r"
group.long 0x24++0x03
line.long 0x00 "SLIMBUS_CMP_IRQSTATUS_RAW,Component (that is. main) interrupt request status"
bitfld.long 0x00 19. "DCR_INFO_7,IRQ status for RX Data agent 7 If implemented" "DCR_INFO_7_0_r,DCR_INFO_7_1_r"
bitfld.long 0x00 18. "DCR_INFO_6,IRQ status for RX Data agent 6 If implemented" "DCR_INFO_6_0_r,DCR_INFO_6_1_r"
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bitfld.long 0x00 17. "DCR_INFO_5,IRQ status for RX Data agent 5 If implemented" "DCR_INFO_5_0_r,DCR_INFO_5_1_r"
bitfld.long 0x00 16. "DCR_INFO_4,IRQ status for RX Data agent 4 If implemented" "DCR_INFO_4_0_r,DCR_INFO_4_1_r"
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bitfld.long 0x00 15. "DCR_INFO_3,IRQ status for RX Data agent 3 If implemented" "DCR_INFO_3_0_r,DCR_INFO_3_1_r"
bitfld.long 0x00 14. "DCR_INFO_2,IRQ status for RX Data agent 2 If implemented" "DCR_INFO_2_0_r,DCR_INFO_2_1_r"
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bitfld.long 0x00 13. "DCR_INFO_1,IRQ status for RX Data agent 1 If implemented" "DCR_INFO_1_0_r,DCR_INFO_1_1_r"
bitfld.long 0x00 12. "DCR_INFO_0,IRQ status for RX Data agent 0 If implemented" "DCR_INFO_0_0_r,DCR_INFO_0_1_r"
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bitfld.long 0x00 11. "DCT_INFO_7,IRQ status for TX Data agent" "DCT_INFO_7_0_r,DCT_INFO_7_1_r"
bitfld.long 0x00 10. "DCT_INFO_6,IRQ status for TX Data agent" "DCT_INFO_6_0_r,DCT_INFO_6_1_r"
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bitfld.long 0x00 9. "DCT_INFO_5,IRQ status for TX Data agent" "DCT_INFO_5_0_r,DCT_INFO_5_1_r"
bitfld.long 0x00 8. "DCT_INFO_4,IRQ status for TX Data agent" "DCT_INFO_4_0_r,DCT_INFO_4_1_r"
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bitfld.long 0x00 7. "DCT_INFO_3,IRQ status for TX Data agent" "DCT_INFO_3_0_r,DCT_INFO_3_1_r"
bitfld.long 0x00 6. "DCT_INFO_2,IRQ status for TX Data agent" "DCT_INFO_2_0_r,DCT_INFO_2_1_r"
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bitfld.long 0x00 5. "DCT_INFO_1,IRQ status for TX Data agent" "DCT_INFO_1_0_r,DCT_INFO_1_1_r"
bitfld.long 0x00 4. "DCT_INFO_0,IRQ status for TX Data agent" "DCT_INFO_0_0_r,DCT_INFO_0_1_r"
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bitfld.long 0x00 3. "SMR_INFO,IRQ status for message receive" "SMR_INFO_0_r,SMR_INFO_1_r"
bitfld.long 0x00 2. "SMT_INFO,IRQ status for message transmit" "SMT_INFO_0_r,SMT_INFO_1_r"
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bitfld.long 0x00 1. "FR_INFO,IRQ status for Framer device when active" "FR_INFO_0_r,FR_INFO_1_r"
bitfld.long 0x00 0. "FL_INFO,IRQ status for Frame Layer" "FL_INFO_0_r,FL_INFO_1_r"
group.long 0x40++0x07
line.long 0x00 "SLIMBUS_CMP_IV,Component IV field. used as lower 8 bits of the devices' Enumeration Address (EA[47:0])"
hexmask.long.byte 0x00 0.--7. 1. "IV,Device component's Instance Value (IV[7:0])"
line.long 0x04 "SLIMBUS_CMP_MI_PC,Component MI and PC fields. used as upper 32 bits of the devices' Enumeration Address (EA[47:0])"
hexmask.long.word 0x04 16.--31. 1. "PC,Device component's Product Code (PC[15:0])"
hexmask.long.word 0x04 0.--15. 1. "MI,Device component's Manufacturer Index (MI[15:0])"
rgroup.long 0x00++0x03
line.long 0x00 "SLIMBUS_CMP_REVISION,IP Revision Identifier Used by software to track features. bugs. and compatibility"
group.long 0x10++0x03
line.long 0x00 "SLIMBUS_CMP_SYSCONFIG,This register allows controlling various parameters of the interconnect interface"
bitfld.long 0x00 8. "AUTOGATINGDISABLE,Control of the internal clock autogating for safety / debug only" "AUTOGATINGDISABLE_0,AUTOGATINGDISABLE_1"
bitfld.long 0x00 2.--3. "IDLEMODE,Configuration of the local target state management mode" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
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bitfld.long 0x00 0. "SOFTRESET,Software reset" "SOFTRESET_0_r,SOFTRESET_1_r"
group.long 0x7C++0x03
line.long 0x00 "SLIMBUS_FL_CG,Clock Gear (CG) control and status Software must write in values : a) to use when booting in active framer mode. b) extracted from NEXT_CLOCK_GEAR(CG). to use at following reconfiguration boundary. Hardware-updated upon superframe sync.."
bitfld.long 0x00 0.--3. "CG,Clock Gear (CG) to be used after the next reconfiguration boundary" "?,CG_1,CG_2,CG_3,CG_4,CG_5,CG_6,CG_7,CG_8,CG_9,CG_10,?,?,?,?,?"
group.long 0x74++0x03
line.long 0x00 "SLIMBUS_FL_CONTROL,Frame Layer control"
bitfld.long 0x00 8. "VALIDATE_DCMAP,Validates the mapping of data channels on devices: to be used after modifying the DC*_MAP* fields (DI and PN)" "VALIDATE_DCMAP_0_w,VALIDATE_DCMAP_1_w"
bitfld.long 0x00 7. "CLEAR_RECONFIGURATION,Clear all updates cumulated since the last reconfiguration return reconfiguration fields to currently active value" "CLEAR_RECONFIGURATION_0_w,CLEAR_RECONFIGURATION_1_w"
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bitfld.long 0x00 6. "BUS_SHUTDOWN,Sets both the clock source or the clock receiver FSMs back to 'Undefined' state at the next reconfiguration boundary" "BUS_SHUTDOWN_0_r,BUS_SHUTDOWN_1_r"
bitfld.long 0x00 5. "KILL_FS,Force immediate Frame Synchronization loss (implying as well message and superframe sync) When in 'Operational' 'SeekingMessageSync' or 'SeekingSuperFrameSync' states component shall go to 'SeekingFrameSync' and start reaquiring frame sync" "KILL_FS_0_r,KILL_FS_1_w"
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bitfld.long 0x00 4. "KILL_SFS,Force SuperFrame Synchronization loss at next reconfiguration boundary (implying as well message sync loss)" "KILL_SFS_0_r,KILL_SFS_1_r"
bitfld.long 0x00 3. "KILL_MS,Force an immediate Message Synchronization loss" "KILL_MS_0_r,KILL_MS_1_w"
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bitfld.long 0x00 2. "FORCE_RECONFIGURE,Force a reconfiguration boundary at next superframe boundary rather than wait for a RECONFIGURE_NOW() message" "FORCE_RECONFIGURE_0_r,FORCE_RECONFIGURE_1_r"
bitfld.long 0x00 1. "COMPONENT_RESET,Component reset request control: Transitions clock receiver FSM to state 'Reset' (from any other state)" "?,COMPONENT_RESET_1_w"
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bitfld.long 0x00 0. "BOOT,Boot the component when not in active framer mode (don't care when in active framer mode)" "BOOT_0,BOOT_1"
group.long 0x70++0x03
line.long 0x00 "SLIMBUS_FL_INFO,Frame Layer IRQ status"
bitfld.long 0x00 6. "RECONFIGURED,Reconfiguration boundary crossed" "RECONFIGURED_0_r,RECONFIGURED_1_r"
bitfld.long 0x00 5. "SAW_BUS_RESET,Bus reset sequence detected on the bus: no activity on DATA line (all-zero) for 2 to 4 frames" "SAW_BUS_RESET_0_r,SAW_BUS_RESET_1_r"
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bitfld.long 0x00 3. "FOUND_MS,Message sync was acquired: operational state reached" "FOUND_MS_0_r,FOUND_MS_1_r"
bitfld.long 0x00 2. "LOST_MS,Message Synchronization was lost Interface device class-specific information element (IE) Note: Not asserted in case of FS or SFS loss" "LOST_MS_0_r,LOST_MS_1_r"
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bitfld.long 0x00 1. "LOST_SFS,Super Frame Synchronization was lost Interface device class-specific information element (IE) Note: Not asserted in case of FS loss" "LOST_SFS_0_r,LOST_SFS_1_r"
bitfld.long 0x00 0. "LOST_FS,Frame Synchronization was lost Interface device class-specific information element (IE)" "LOST_FS_0_r,LOST_FS_1_r"
group.long 0x80++0x03
line.long 0x00 "SLIMBUS_FL_RF,Root frequency (RF = SLIMbus clock frequency when in gear 10) control and status Software must write in values : a) to use when booting in active framer mode. b) extracted from NEXT_ROOT_FREQUENCY(RF). to use at following reconfiguration.."
bitfld.long 0x00 0.--3. "RF,Root frequency" "RF_0,RF_1,RF_2,RF_3,RF_4,RF_5,RF_6,RF_7,RF_8,RF_9,?,?,?,?,?,?"
group.long 0x78++0x03
line.long 0x00 "SLIMBUS_FL_SM,Subframe mode (SM: defines control vs. data space partition) control and status Software must write in values : a) to use when booting in active framer mode. b) extracted from NEXT_SUBFRAME_MODE(SM). to use at following reconfiguration.."
bitfld.long 0x00 0.--4. "SM,Subframe Mode which sets Control Space Width (CSW) and Subframe Length (SFL) both expressed in slots" "SM_0,SM_1,SM_2,SM_3,SM_4,SM_5,SM_6,SM_7,SM_8,SM_9,SM_10,SM_11,SM_12,SM_13,SM_14,SM_15,SM_16,SM_17,SM_18,SM_19,SM_20,SM_21,SM_22,SM_23,SM_24,SM_25,SM_26,SM_27,SM_28,SM_29,SM_30,SM_31"
group.long 0xA0++0x03
line.long 0x00 "SLIMBUS_FR_CLOCK_PAUSE,Clock and pause restart control"
rbitfld.long 0x00 3.--8. "RT_HI,MSBs of 8-bit SLIMbus parameter" "RT_HI_0_r,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
bitfld.long 0x00 1.--2. "RT,Restart Time (RT) for recovery after clock pause as extracted from NEXT_PAUSE_CLOCK(RT) LSBs of 8-bit SLIMbus parameter" "RT_0,RT_1,RT_2,?"
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bitfld.long 0x00 0. "CLOCK_PAUSE,Control clock pause / restart" "CLOCK_PAUSE_0,CLOCK_PAUSE_1"
group.long 0x94++0x0B
line.long 0x00 "SLIMBUS_FR_CLOCK_SOURCE,Root clock configuration for active framer mode. used at next reconfiguration boundary"
bitfld.long 0x00 4.--6. "CLKSEL,SLIMbus clock selection" "CLKSEL_0,CLKSEL_1,CLKSEL_2,?,?,?,?,?"
bitfld.long 0x00 0.--3. "CLKDIV,Root divider ratio applied on clock input to obtain root clock to be used at next reconfiguration boundary" "CLKDIV_0,CLKDIV_1,CLKDIV_2,CLKDIV_3,CLKDIV_4,CLKDIV_5,CLKDIV_6,CLKDIV_7,CLKDIV_8,CLKDIV_9,CLKDIV_10,?,?,?,?,?"
line.long 0x04 "SLIMBUS_FR_CONTROL,Framer Device control"
bitfld.long 0x04 1. "BUS_RESET,Bus reset request control when framer is already active" "BUS_RESET_0_r,BUS_RESET_1_r"
bitfld.long 0x04 0. "BOOT,Initiate an active framer (clock source) boot sequence for the component that is when component is default active framer" "BOOT_0_r,BOOT_1_r"
line.long 0x08 "SLIMBUS_FR_FRAMER_HANDOVER,Framer handover control (outgoing if currently active. incoming if currently inactive)"
bitfld.long 0x08 12. "HANDOVER_ENABLE,Enable framer handover upon NEXT_ACTIVE_FRAMER(NCi NCo) reception" "HANDOVER_ENABLE_0,HANDOVER_ENABLE_1"
hexmask.long.word 0x08 0.--11. 1. "NCO_NCI,NCo[11:0] / NCi[11:0] for outgoing / incoming framer respectively as extracted from NEXT_ACTIVE_FRAMER(NCi NCo) Used on framer handover at next reconfiguration boundary"
group.long 0x90++0x03
line.long 0x00 "SLIMBUS_FR_INFO,Framer device status (when active)"
bitfld.long 0x00 5. "CLOCK_RESTART,Clock restart request event detected (that is asynchronous DATA line transition during clock pause)" "CLOCK_RESTART_0,CLOCK_RESTART_1"
bitfld.long 0x00 4. "FRAMER_UNACTIVATED,Framer has left clock source operational state" "FRAMER_UNACTIVATED_0,FRAMER_UNACTIVATED_1"
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bitfld.long 0x00 3. "FRAMER_ACTIVATED,Framer has reached clock source operational state" "FRAMER_ACTIVATED_0,FRAMER_ACTIVATED_1"
bitfld.long 0x00 2. "GC_TX_COL,Collision during guide byte transmit (Guide Channel) Framer device class-specific information element (IE)" "GC_TX_COL_0,GC_TX_COL_1"
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bitfld.long 0x00 1. "FI_TX_COL,Collision during Framing Information transmit (framing channel) Framer device class-specific information element (IE)" "FI_TX_COL_0,FI_TX_COL_1"
bitfld.long 0x00 0. "FS_TX_COL,Collision during Frame Sync symbol transmit (framing channel) Framer device class-specific information element (IE)" "FS_TX_COL_0,FS_TX_COL_1"
group.long 0x68++0x07
line.long 0x00 "SLIMBUS_SMR_CONTROL,Control of Shared Message channel Reception"
bitfld.long 0x00 0. "MESSAGE_DISABLE,Disables the reception of incoming messages (that is broadcast or locally addressed) into the RX Message FIFO" "MESSAGE_DISABLE_0,MESSAGE_DISABLE_1"
line.long 0x04 "SLIMBUS_SMR_FIFO_SETUP,Shared Message Receive channel setup"
bitfld.long 0x04 7. "PACKING,Packing enable control for RX message FIFO" "PACKING_0,PACKING_1"
bitfld.long 0x04 5.--6. "SIZE_HI,(Upper bits of the) capacity of shared RX message FIFO in bytes minus one" "SIZE_HI_0,SIZE_HI_1,SIZE_HI_2,SIZE_HI_3"
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rbitfld.long 0x04 1.--4. "SIZE_LO,(Lower bits of the) capacity of shared RX message FIFO in bytes minus one" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x04 0. "FIFO_CLEAR,Returns message FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
group.long 0x60++0x07
line.long 0x00 "SLIMBUS_SMR_INFO,IRQ status for Shared Message Receive channel"
bitfld.long 0x00 4. "OVERFLOW,Overflow in RX message FIFO: received message is larger than the FIFO" "OVERFLOW_0_r,OVERFLOW_1_r"
bitfld.long 0x00 3. "RECEIVED_RECONFIGURE,RECONFIGURE_NOW message received available in RX message FIFO" "RECEIVED_RECONFIGURE_0_r,RECEIVED_RECONFIGURE_1_r"
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bitfld.long 0x00 2. "RECEIVED_MESSAGE,Message available in the RX message FIFO" "RECEIVED_MESSAGE_0_r,RECEIVED_MESSAGE_1_r"
bitfld.long 0x00 1. "UNDERFLOW,Underflow in RX message FIFO: Software tried to read out more bytes than available" "UNDERFLOW_0_r,UNDERFLOW_1_r"
newline
bitfld.long 0x00 0. "MC_TX_COL,Transmit collision in Message Channel (MC) during RX message during message reception" "MC_TX_COL_0_r,MC_TX_COL_1_r"
line.long 0x04 "SLIMBUS_SMR_MESSAGE,Shared Message Receive channel FIFO output"
group.long 0x58++0x07
line.long 0x00 "SLIMBUS_SMT_CONTROL,Control of Shared Message channel Transmission"
bitfld.long 0x00 0. "MESSAGE_ENABLE,Enable the transmission of the message(s) previously written into the TX Message FIFO with unlimited arbitration auto-retries" "MESSAGE_ENABLE_0_r,MESSAGE_ENABLE_1_r"
line.long 0x04 "SLIMBUS_SMT_FIFO_SETUP,Shared Message Transmit channel configuration"
bitfld.long 0x04 7. "PACKING,Packing enable control for TX message FIFO" "PACKING_0,PACKING_1"
bitfld.long 0x04 5.--6. "SIZE_HI,(Upper bits of the) capacity of shared TX message FIFO in bytes minus one" "SIZE_HI_0,SIZE_HI_1,SIZE_HI_2,SIZE_HI_3"
newline
rbitfld.long 0x04 1.--4. "SIZE_LO,(Lower bits of the) capacity of shared TX message FIFO in bytes minus one" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x04 0. "FIFO_CLEAR,Returns FIFO to initial empty state" "FIFO_CLEAR_0_r,FIFO_CLEAR_1_r"
group.long 0x50++0x07
line.long 0x00 "SLIMBUS_SMT_INFO,IRQ status for Shared Message Transmit channel"
bitfld.long 0x00 7. "ABORT,TX message was aborted before completion because of message sync loss" "ABORT_0_r,ABORT_1_r"
bitfld.long 0x00 5. "UDEF,TX message was UDEF'ed: undefined response protocol error" "UDEF_0_r,UDEF_1_r"
newline
bitfld.long 0x00 4. "NORE,TX message was NORE'ed: no or all-zero message response" "NORE_0_r,NORE_1_r"
bitfld.long 0x00 3. "NACK,TX message was NACK'ed: at least one of the recipient devices requested message retransmission" "NACK_0_r,NACK_1_r"
newline
bitfld.long 0x00 2. "PACK,TX message was PACK'ed: all recipient devices accepted the message" "PACK_0_r,PACK_1_r"
bitfld.long 0x00 1. "OVERFLOW,Overflow in TX message FIFO: Software tried to write more bytes than available in the FIFO" "OVERFLOW_0_r,OVERFLOW_1_r"
newline
bitfld.long 0x00 0. "MC_TX_COL,Transmit collision in Message Channel (MC) during message transmission" "MC_TX_COL_0_r,MC_TX_COL_1_r"
line.long 0x04 "SLIMBUS_SMT_MESSAGE,Shared Message Transmit FIFO input"
tree.end
tree.end
tree "SGX_Overview"
tree "SGX"
base ansd:0x56000000
rgroup.long 0xFE00++0x07
line.long 0x00 "OCP_REVISION,OCP Revision Register"
line.long 0x04 "OCP_HWINFO,Hardware implementation information"
bitfld.long 0x04 2. "MEM_BUS_WIDTH,Memory bus width" "MEM_BUS_WIDTH_0_r,MEM_BUS_WIDTH_1_r"
bitfld.long 0x04 0.--1. "SYS_BUS_WIDTH,System bus width" "SYS_BUS_WIDTH_0_r,SYS_BUS_WIDTH_1_r,SYS_BUS_WIDTH_2_r,SYS_BUS_WIDTH_3_r"
group.long 0xFE10++0x03
line.long 0x00 "OCP_SYSCONFIG,System Configuration register"
bitfld.long 0x00 4.--5. "STANDBY_MODE,Clock standby mode" "STANDBY_MODE_0,STANDBY_MODE_1,?,?"
bitfld.long 0x00 2.--3. "IDLE_MODE,Clock Idle mode" "IDLE_MODE_0,IDLE_MODE_1,?,?"
group.long 0xFE24++0x2F
line.long 0x00 "OCP_IRQSTATUS_RAW_0,Raw IRQ 0 Status"
bitfld.long 0x00 0. "INIT_MINTERRUPT_RAW,Interrupt" "INIT_MINTERRUPT_RAW_0_r,INIT_MINTERRUPT_RAW_1_w"
line.long 0x04 "OCP_IRQSTATUS_RAW_1,Raw IRQ 1 Status"
bitfld.long 0x04 0. "TARGET_SINTERRUPT_RAW,Interrupt 1- Slave port raw event" "TARGET_SINTERRUPT_RAW_0_r,TARGET_SINTERRUPT_RAW_1_w"
line.long 0x08 "OCP_IRQSTATUS_RAW_2,Raw IRQ 2 Status"
bitfld.long 0x08 0. "CORE_IRQ_RAW,Interrupt" "CORE_IRQ_RAW_0_r,CORE_IRQ_RAW_1_w"
line.long 0x0C "OCP_IRQSTATUS_0,Interrupt 0 Status event"
bitfld.long 0x0C 0. "INIT_MINTERRUPT_STATUS,Interrupt" "INIT_MINTERRUPT_STATUS_0_r,INIT_MINTERRUPT_STATUS_1_w"
line.long 0x10 "OCP_IRQSTATUS_1,Interrupt"
bitfld.long 0x10 0. "TARGET_SINTERRUPT_STATUS,Interrupt" "TARGET_SINTERRUPT_STATUS_0_r,TARGET_SINTERRUPT_STATUS_1_w"
line.long 0x14 "OCP_IRQSTATUS_2,Interrupt"
bitfld.long 0x14 0. "CORE_IRQ_STATUS,Interrupt" "CORE_IRQ_STATUS_0_r,CORE_IRQ_STATUS_1_w"
line.long 0x18 "OCP_IRQENABLE_SET_0,Enable Interrupt"
bitfld.long 0x18 0. "INIT_MINTERRUPT_ENABLE,Enable interrupt" "INIT_MINTERRUPT_ENABLE_0_r,INIT_MINTERRUPT_ENABLE_1_w"
line.long 0x1C "OCP_IRQENABLE_SET_1,Enable Interrupt 1"
bitfld.long 0x1C 0. "TARGET_SINTERRUPT_ENABLE,Enable interrupt" "TARGET_SINTERRUPT_ENABLE_0_r,TARGET_SINTERRUPT_ENABLE_1_w"
line.long 0x20 "OCP_IRQENABLE_SET_2,Enable Interrupt 2"
bitfld.long 0x20 0. "CORE_IRQ_ENABLE,Enable interrupt" "CORE_IRQ_ENABLE_0_r,CORE_IRQ_ENABLE_1_w"
line.long 0x24 "OCP_IRQENABLE_CLR_0,Disable Interrupt"
bitfld.long 0x24 0. "INIT_MINTERRUPT_DISABLE,Disable interrupt" "INIT_MINTERRUPT_DISABLE_0_r,INIT_MINTERRUPT_DISABLE_1_w"
line.long 0x28 "OCP_IRQENABLE_CLR_1,Disable Interrupt"
bitfld.long 0x28 0. "TARGET_SINTERRUPT_DISABLE,Disable interrupt" "TARGET_SINTERRUPT_DISABLE_0_r,TARGET_SINTERRUPT_DISABLE_1_w"
line.long 0x2C "OCP_IRQENABLE_CLR_2,Disable Interrupt"
bitfld.long 0x2C 0. "CORE_IRQ_DISABLE,Disable interrupt" "CORE_IRQ_DISABLE_0_r,CORE_IRQ_DISABLE_1_w"
group.long 0xFF00++0x0F
line.long 0x00 "OCP_PAGE_CONFIG,Configure memory pages"
bitfld.long 0x00 3.--4. "OCP_PAGE_SIZE,Defines the page size on OCP memory interface" "OCP_PAGE_SIZE_0,OCP_PAGE_SIZE_1,OCP_PAGE_SIZE_2,OCP_PAGE_SIZE_3"
bitfld.long 0x00 2. "MEM_PAGE_CHECK_EN,Enable page boundary checking" "MEM_PAGE_CHECK_EN_0,MEM_PAGE_CHECK_EN_1"
newline
bitfld.long 0x00 0.--1. "MEM_PAGE_SIZE,Defines the page size on internal memory interface" "MEM_PAGE_SIZE_0,MEM_PAGE_SIZE_1,MEM_PAGE_SIZE_2,MEM_PAGE_SIZE_3"
line.long 0x04 "OCP_INTERRUPT_EVENT,Interrupt events"
bitfld.long 0x04 10. "TARGET_INVALID_OCP_CMD,Invalid command from OCP" "TARGET_INVALID_OCP_CMD_0_r,TARGET_INVALID_OCP_CMD_1_w"
bitfld.long 0x04 9. "TARGET_CMD_FIFO_FULL,Command FIFO full" "TARGET_CMD_FIFO_FULL_0_r,TARGET_CMD_FIFO_FULL_1_w"
newline
bitfld.long 0x04 8. "TARGET_RESP_FIFO_FULL,Response FIFO full" "TARGET_RESP_FIFO_FULL_0_r,TARGET_RESP_FIFO_FULL_1_w"
bitfld.long 0x04 5. "INIT_MEM_REQ_FIFO_OVERRUN,Memory request FIFO overrun" "INIT_MEM_REQ_FIFO_OVERRUN_0_r,INIT_MEM_REQ_FIFO_OVERRUN_1_w"
newline
bitfld.long 0x04 4. "INIT_READ_TAG_FIFO_OVERRUN,Read tag FIFO overrun" "INIT_READ_TAG_FIFO_OVERRUN_0_r,INIT_READ_TAG_FIFO_OVERRUN_1_w"
bitfld.long 0x04 3. "INIT_PAGE_CROSS_ERROR,Memory page had been crossed during a burst" "INIT_PAGE_CROSS_ERROR_0_r,INIT_PAGE_CROSS_ERROR_1_w"
newline
bitfld.long 0x04 2. "INIT_RESP_ERROR,Receiving error response" "INIT_RESP_ERROR_0_r,INIT_RESP_ERROR_1_w"
bitfld.long 0x04 1. "INIT_RESP_UNUSED_TAG,Receiving response on an unused tag" "INIT_RESP_UNUSED_TAG_0_r,INIT_RESP_UNUSED_TAG_1_w"
newline
bitfld.long 0x04 0. "INIT_RESP_UNEXPECTED,Receiving response when not expected" "INIT_RESP_UNEXPECTED_0_r,INIT_RESP_UNEXPECTED_1_w"
line.long 0x08 "OCP_DEBUG_CONFIG,Configuration of debug modes"
bitfld.long 0x08 31. "CORE_INT_BYPASS,Bypass OCP IPG interrupt logic" "CORE_INT_BYPASS_0,CORE_INT_BYPASS_1"
bitfld.long 0x08 5. "SELECT_INIT_IDLE,To select which idle the disconnect protocol should act on" "SELECT_INIT_IDLE_0,SELECT_INIT_IDLE_1"
newline
bitfld.long 0x08 4. "FORCE_PASS_DATA,Forces the initiator to pass data independent of disconnect protocol" "FORCE_PASS_DATA_0,FORCE_PASS_DATA_1"
bitfld.long 0x08 2.--3. "FORCE_INIT_IDLE,Forces the OCP master port to idle" "FORCE_INIT_IDLE_0,FORCE_INIT_IDLE_1,FORCE_INIT_IDLE_2,FORCE_INIT_IDLE_3"
newline
bitfld.long 0x08 0.--1. "FORCE_TARGET_IDLE,Forces the OCP target port to idle" "FORCE_TARGET_IDLE_0,FORCE_TARGET_IDLE_1,FORCE_TARGET_IDLE_2,FORCE_TARGET_IDLE_3"
line.long 0x0C "OCP_DEBUG_STATUS,Status of debug"
bitfld.long 0x0C 31. "CMD_DEBUG_STATE,Target command state-machine" "CMD_DEBUG_STATE_0,CMD_DEBUG_STATE_1"
bitfld.long 0x0C 30. "CMD_RESP_DEBUG_STATE,Target response state-machine" "CMD_RESP_DEBUG_STATE_0,CMD_RESP_DEBUG_STATE_1"
newline
rbitfld.long 0x0C 29. "TARGET_IDLE,Target idle" "0,1"
rbitfld.long 0x0C 28. "RESP_FIFO_FULL,Target response FIFO full" "0,1"
newline
rbitfld.long 0x0C 27. "CMD_FIFO_FULL,Target command FIFO full" "0,1"
rbitfld.long 0x0C 26. "RESP_ERROR,Respond to OCP with error which could be caused by either address misalignment or invalid byte enable" "0,1"
newline
bitfld.long 0x0C 21.--25. "WHICH_TARGET_REGISTER,Indicates which OCP target registers 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"
rbitfld.long 0x0C 18.--20. "TARGET_CMD_OUT,Command received from OCP" "TARGET_CMD_OUT_0_r,TARGET_CMD_OUT_1_r,TARGET_CMD_OUT_2_r,TARGET_CMD_OUT_3_r,TARGET_CMD_OUT_4_r,TARGET_CMD_OUT_5_r,TARGET_CMD_OUT_6_r,TARGET_CMD_OUT_7_r"
newline
rbitfld.long 0x0C 17. "INIT_MSTANDBY,Status of init_MStandby signal" "0,1"
rbitfld.long 0x0C 16. "INIT_MWAIT,Status of init_MWait signal" "0,1"
newline
rbitfld.long 0x0C 14.--15. "INIT_MDISCREQ,Disconnect status of the OCP interface" "INIT_MDISCREQ_0_r,INIT_MDISCREQ_1_r,INIT_MDISCREQ_2_r,INIT_MDISCREQ_3_r"
bitfld.long 0x0C 13. "INIT_MDISCACK,Memory request FIFO full" "INIT_MDISCACK_0_r,INIT_MDISCACK_1_w"
newline
rbitfld.long 0x0C 12. "INIT_SCONNECT2,Defines whether to wait in M_WAIT state for MConnect FSM" "INIT_SCONNECT2_0_r,INIT_SCONNECT2_1_r"
rbitfld.long 0x0C 11. "INIT_SCONNECT1,Defines the busy-ness state of the slave" "INIT_SCONNECT1_0_r,INIT_SCONNECT1_1_r"
newline
rbitfld.long 0x0C 10. "INIT_SCONNECT0,Disconnect from slave" "INIT_SCONNECT0_0_r,INIT_SCONNECT0_1_r"
rbitfld.long 0x0C 8.--9. "INIT_MCONNECT,Initiator MConnect state" "INIT_MCONNECT_0_r,INIT_MCONNECT_1_r,INIT_MCONNECT_2_r,INIT_MCONNECT_3_r"
newline
rbitfld.long 0x0C 6.--7. "TARGET_SIDLEACK,Acknowledge the SIdleAck state machine" "TARGET_SIDLEACK_0_r,TARGET_SIDLEACK_1_r,TARGET_SIDLEACK_2_r,TARGET_SIDLEACK_3_r"
rbitfld.long 0x0C 4.--5. "TARGET_SDISCACK,Acknowledge the SDiscAck state-machine" "TARGET_SDISCACK_0_r,TARGET_SDISCACK_1_r,TARGET_SDISCACK_2_r,TARGET_SDISCACK_3_r"
newline
rbitfld.long 0x0C 3. "TARGET_SIDLEREQ,Request the target to go idle" "TARGET_SIDLEREQ_0_r,TARGET_SIDLEREQ_1_r"
rbitfld.long 0x0C 2. "TARGET_SCONNECT,Target SConnect state" "TARGET_SCONNECT_0_r,TARGET_SCONNECT_1_r"
newline
rbitfld.long 0x0C 0.--1. "TARGET_MCONNECT,Target MConnect state" "TARGET_MCONNECT_0_r,TARGET_MCONNECT_1_r,TARGET_MCONNECT_2_r,TARGET_MCONNECT_3_r"
tree.end
tree.end
tree "Spinlock"
tree "Spinlock"
base ansd:0x4A0F6000
tree "REG_Bundle_0"
group.long 0x800++0x7F
line.long 0x00 "SPINLOCK_LOCK_REG_i_0,This register contains the state of one lock"
bitfld.long 0x00 0. "TAKEN,Lock State" "TAKEN_0_w,TAKEN_1_w"
line.long 0x04 "SPINLOCK_LOCK_REG_i_1,This register contains the state of one lock"
bitfld.long 0x04 0. "TAKEN,Lock State" "TAKEN_0_w,TAKEN_1_w"
line.long 0x08 "SPINLOCK_LOCK_REG_i_2,This register contains the state of one lock"
bitfld.long 0x08 0. "TAKEN,Lock State" "TAKEN_0_w,TAKEN_1_w"
line.long 0x0C "SPINLOCK_LOCK_REG_i_3,This register contains the state of one lock"
bitfld.long 0x0C 0. "TAKEN,Lock State" "TAKEN_0_w,TAKEN_1_w"
line.long 0x10 "SPINLOCK_LOCK_REG_i_4,This register contains the state of one lock"
bitfld.long 0x10 0. "TAKEN,Lock State" "TAKEN_0_w,TAKEN_1_w"
line.long 0x14 "SPINLOCK_LOCK_REG_i_5,This register contains the state of one lock"
bitfld.long 0x14 0. "TAKEN,Lock State" "TAKEN_0_w,TAKEN_1_w"
line.long 0x18 "SPINLOCK_LOCK_REG_i_6,This register contains the state of one lock"
bitfld.long 0x18 0. "TAKEN,Lock State" "TAKEN_0_w,TAKEN_1_w"
line.long 0x1C "SPINLOCK_LOCK_REG_i_7,This register contains the state of one lock"
bitfld.long 0x1C 0. "TAKEN,Lock State" "TAKEN_0_w,TAKEN_1_w"
line.long 0x20 "SPINLOCK_LOCK_REG_i_8,This register contains the state of one lock"
bitfld.long 0x20 0. "TAKEN,Lock State" "TAKEN_0_w,TAKEN_1_w"
line.long 0x24 "SPINLOCK_LOCK_REG_i_9,This register contains the state of one lock"
bitfld.long 0x24 0. "TAKEN,Lock State" "TAKEN_0_w,TAKEN_1_w"
line.long 0x28 "SPINLOCK_LOCK_REG_i_10,This register contains the state of one lock"
bitfld.long 0x28 0. "TAKEN,Lock State" "TAKEN_0_w,TAKEN_1_w"
line.long 0x2C "SPINLOCK_LOCK_REG_i_11,This register contains the state of one lock"
bitfld.long 0x2C 0. "TAKEN,Lock State" "TAKEN_0_w,TAKEN_1_w"
line.long 0x30 "SPINLOCK_LOCK_REG_i_12,This register contains the state of one lock"
bitfld.long 0x30 0. "TAKEN,Lock State" "TAKEN_0_w,TAKEN_1_w"
line.long 0x34 "SPINLOCK_LOCK_REG_i_13,This register contains the state of one lock"
bitfld.long 0x34 0. "TAKEN,Lock State" "TAKEN_0_w,TAKEN_1_w"
line.long 0x38 "SPINLOCK_LOCK_REG_i_14,This register contains the state of one lock"
bitfld.long 0x38 0. "TAKEN,Lock State" "TAKEN_0_w,TAKEN_1_w"
line.long 0x3C "SPINLOCK_LOCK_REG_i_15,This register contains the state of one lock"
bitfld.long 0x3C 0. "TAKEN,Lock State" "TAKEN_0_w,TAKEN_1_w"
line.long 0x40 "SPINLOCK_LOCK_REG_i_16,This register contains the state of one lock"
bitfld.long 0x40 0. "TAKEN,Lock State" "TAKEN_0_w,TAKEN_1_w"
line.long 0x44 "SPINLOCK_LOCK_REG_i_17,This register contains the state of one lock"
bitfld.long 0x44 0. "TAKEN,Lock State" "TAKEN_0_w,TAKEN_1_w"
line.long 0x48 "SPINLOCK_LOCK_REG_i_18,This register contains the state of one lock"
bitfld.long 0x48 0. "TAKEN,Lock State" "TAKEN_0_w,TAKEN_1_w"
line.long 0x4C "SPINLOCK_LOCK_REG_i_19,This register contains the state of one lock"
bitfld.long 0x4C 0. "TAKEN,Lock State" "TAKEN_0_w,TAKEN_1_w"
line.long 0x50 "SPINLOCK_LOCK_REG_i_20,This register contains the state of one lock"
bitfld.long 0x50 0. "TAKEN,Lock State" "TAKEN_0_w,TAKEN_1_w"
line.long 0x54 "SPINLOCK_LOCK_REG_i_21,This register contains the state of one lock"
bitfld.long 0x54 0. "TAKEN,Lock State" "TAKEN_0_w,TAKEN_1_w"
line.long 0x58 "SPINLOCK_LOCK_REG_i_22,This register contains the state of one lock"
bitfld.long 0x58 0. "TAKEN,Lock State" "TAKEN_0_w,TAKEN_1_w"
line.long 0x5C "SPINLOCK_LOCK_REG_i_23,This register contains the state of one lock"
bitfld.long 0x5C 0. "TAKEN,Lock State" "TAKEN_0_w,TAKEN_1_w"
line.long 0x60 "SPINLOCK_LOCK_REG_i_24,This register contains the state of one lock"
bitfld.long 0x60 0. "TAKEN,Lock State" "TAKEN_0_w,TAKEN_1_w"
line.long 0x64 "SPINLOCK_LOCK_REG_i_25,This register contains the state of one lock"
bitfld.long 0x64 0. "TAKEN,Lock State" "TAKEN_0_w,TAKEN_1_w"
line.long 0x68 "SPINLOCK_LOCK_REG_i_26,This register contains the state of one lock"
bitfld.long 0x68 0. "TAKEN,Lock State" "TAKEN_0_w,TAKEN_1_w"
line.long 0x6C "SPINLOCK_LOCK_REG_i_27,This register contains the state of one lock"
bitfld.long 0x6C 0. "TAKEN,Lock State" "TAKEN_0_w,TAKEN_1_w"
line.long 0x70 "SPINLOCK_LOCK_REG_i_28,This register contains the state of one lock"
bitfld.long 0x70 0. "TAKEN,Lock State" "TAKEN_0_w,TAKEN_1_w"
line.long 0x74 "SPINLOCK_LOCK_REG_i_29,This register contains the state of one lock"
bitfld.long 0x74 0. "TAKEN,Lock State" "TAKEN_0_w,TAKEN_1_w"
line.long 0x78 "SPINLOCK_LOCK_REG_i_30,This register contains the state of one lock"
bitfld.long 0x78 0. "TAKEN,Lock State" "TAKEN_0_w,TAKEN_1_w"
line.long 0x7C "SPINLOCK_LOCK_REG_i_31,This register contains the state of one lock"
bitfld.long 0x7C 0. "TAKEN,Lock State" "TAKEN_0_w,TAKEN_1_w"
tree.end
rgroup.long 0x00++0x03
line.long 0x00 "SPINLOCK_REVISION,This register contains the IP revision code"
group.long 0x10++0x07
line.long 0x00 "SPINLOCK_SYSCONFIG,This register controls the various parameters of the L4-CFG interface"
rbitfld.long 0x00 8. "CLOCKACTIVITY,Indicates whether the module requires the interface clock when in IDLE mode" "CLOCKACTIVITY_0_r,CLOCKACTIVITY_1_r"
rbitfld.long 0x00 3.--4. "SIDLEMODE,Slave interface power management (IDLE request/acknowledgement control)" "SIDLEMODE_0_r,SIDLEMODE_1_r,SIDLEMODE_2_r,SIDLEMODE_3_r"
rbitfld.long 0x00 2. "ENWAKEUP,Asynchronous wakeup gereration" "ENWAKEUP_0_r,ENWAKEUP_1_r"
bitfld.long 0x00 1. "SOFTRESET,Module software reset" "SOFTRESET_0_w,SOFTRESET_1_w"
newline
rbitfld.long 0x00 0. "AUTOGATING,Internal interface clock gating strategy" "AUTOGATING_0_r,AUTOGATING_1_r"
line.long 0x04 "SPINLOCK_SYSTATUS,This register provides status information about this instance of the Spinlock module"
hexmask.long.byte 0x04 24.--31. 1. "NUMLOCKS,Number of lock registers implemeted"
bitfld.long 0x04 15. "IU7,In-Use flag 7" "0,1"
bitfld.long 0x04 14. "IU6,In-Use flag 6" "0,1"
bitfld.long 0x04 13. "IU5,In-Use flag 5" "0,1"
newline
bitfld.long 0x04 12. "IU4,In-Use flag 4" "0,1"
bitfld.long 0x04 11. "IU3,In-Use flag 3" "0,1"
bitfld.long 0x04 10. "IU2,In-Use flag 2" "0,1"
bitfld.long 0x04 9. "IU1,In-Use flag 1" "0,1"
newline
bitfld.long 0x04 8. "IU0,In-Use flag 0 covering lock registers" "IU0_0_r,IU0_1_r"
bitfld.long 0x04 0. "RESETDONE,Reset done status" "RESETDONE_0_r,RESETDONE_1_r"
tree.end
tree.end
tree "UART_IrDA_CIR"
repeat 4. (list 3. 1. 2. 4. )(list ansd:0x48020000 ansd:0x4806A000 ansd:0x4806C000 ansd:0x4806E000 )
tree "UART$1"
base $2
group.long 0x00++0x03
line.long 0x00 "UART_DLL,This register. with. stores the 14-bit divisor for generation of the baud clock in the baud rate generator"
hexmask.long.byte 0x00 0.--7. 1. "CLOCK_LSB,Stores the 8-bit LSB divisor value"
rgroup.long 0x00++0x03
line.long 0x00 "UART_RHR,The receiver section consists of the receiver holding register (RHR) and the receiver shift register"
hexmask.long.byte 0x00 0.--7. 1. "RHR,Receive holding register"
group.long 0x00++0x07
line.long 0x00 "UART_THR,The transmitter section consists of the transmit holding register (THR) and the transmit shift register"
hexmask.long.byte 0x00 0.--7. 1. "THR,Transmit holding register"
line.long 0x04 "UART_DLH,This register. with. stores the 14-bit divisor for generating the baud clock in the baud rate generator"
bitfld.long 0x04 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 0x04++0x07
line.long 0x00 "UART_IER,Interrupt enable register"
bitfld.long 0x00 7. "CTS_IT," "CTS_IT_0,CTS_IT_1"
newline
bitfld.long 0x00 6. "RTS_IT," "RTS_IT_0,RTS_IT_1"
newline
bitfld.long 0x00 5. "XOFF_IT," "XOFF_IT_0,XOFF_IT_1"
newline
bitfld.long 0x00 4. "SLEEP_MODE," "SLEEP_MODE_0,SLEEP_MODE_1"
newline
bitfld.long 0x00 3. "MODEM_STS_IT," "MODEM_STS_IT_0,MODEM_STS_IT_1"
newline
bitfld.long 0x00 2. "LINE_STS_IT," "LINE_STS_IT_0,LINE_STS_IT_1"
newline
bitfld.long 0x00 1. "THR_IT," "THR_IT_0,THR_IT_1"
newline
bitfld.long 0x00 0. "RHR_IT," "RHR_IT_0,RHR_IT_1"
line.long 0x04 "UART_EFR,Enhanced feature register"
bitfld.long 0x04 7. "AUTO_CTS_EN,Auto-CTS enable bit" "AUTO_CTS_EN_0,AUTO_CTS_EN_1"
newline
bitfld.long 0x04 6. "AUTO_RTS_EN,Auto-RTS enable bit" "AUTO_RTS_EN_0,AUTO_RTS_EN_1"
newline
bitfld.long 0x04 5. "SPECIAL_CHAR_DETECT," "SPECIAL_CHAR_DETECT_0,SPECIAL_CHAR_DETECT_1"
newline
bitfld.long 0x04 4. "ENHANCED_EN,Enhanced functions write enable bit" "ENHANCED_EN_0,ENHANCED_EN_1"
newline
bitfld.long 0x04 0.--3. "SW_FLOW_CONTROL,Combinations of software flow control can be selected by programming bit" "SW_FLOW_CONTROL_0,SW_FLOW_CONTROL_1,SW_FLOW_CONTROL_2,SW_FLOW_CONTROL_3,SW_FLOW_CONTROL_4,SW_FLOW_CONTROL_5,SW_FLOW_CONTROL_6,SW_FLOW_CONTROL_7,SW_FLOW_CONTROL_8,SW_FLOW_CONTROL_9,SW_FLOW_CONTROL_10,SW_FLOW_CONTROL_11,SW_FLOW_CONTROL_12,SW_FLOW_CONTROL_13,SW_FLOW_CONTROL_14,SW_FLOW_CONTROL_15"
group.long 0x08++0x03
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] =" "8 characters,16 characters,56 characters,60 characters If UART_SCR[7] = 0 and.."
newline
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] =" "8 spaces,16 spaces,32 spaces,56 spaces If UART_SCR[6].."
newline
bitfld.long 0x00 3. "DMA_MODE,This register is considered ifUART_SCR[0] = 0" "DMA_MODE_0_w,DMA_MODE_1_w"
newline
bitfld.long 0x00 2. "TX_FIFO_CLEAR," "TX_FIFO_CLEAR_0_w,TX_FIFO_CLEAR_1_w"
newline
bitfld.long 0x00 1. "RX_FIFO_CLEAR," "RX_FIFO_CLEAR_0_w,RX_FIFO_CLEAR_1_w"
newline
bitfld.long 0x00 0. "FIFO_EN," "FIFO_EN_0_w,FIFO_EN_1_w"
rgroup.long 0x08++0x0B
line.long 0x00 "UART_IIR,Interrupt identification register"
bitfld.long 0x00 6.--7. "FCR_MIRROR,Mirror the contents ofUART_FCR[0] on both bits" "FCR_MIRROR_0,FCR_MIRROR_1,FCR_MIRROR_2,FCR_MIRROR_3"
newline
bitfld.long 0x00 1.--5. "IT_TYPE," "Modem interrupt,?,?,?,,?..."
newline
bitfld.long 0x00 0. "IT_PENDING," "?,IT_PENDING_1_r"
line.long 0x04 "UART_LCR,Line control register"
bitfld.long 0x04 7. "DIV_EN," "DIV_EN_0,DIV_EN_1"
newline
bitfld.long 0x04 6. "BREAK_EN,Break control bit" "BREAK_EN_0,BREAK_EN_1"
newline
bitfld.long 0x04 5. "PARITY_TYPE2,Selects the forced parity format (ifUART_LCR[3] = 1)" "PARITY_TYPE2_0,PARITY_TYPE2_1"
newline
bitfld.long 0x04 4. "PARITY_TYPE1," "PARITY_TYPE1_0,PARITY_TYPE1_1"
newline
bitfld.long 0x04 3. "PARITY_EN," "?,PARITY_EN_1"
newline
bitfld.long 0x04 2. "NB_STOP,Specifies the number of stop-bits" "NB_STOP_0,NB_STOP_1"
newline
bitfld.long 0x04 0.--1. "CHAR_LENGTH,Specifies the word length to be transmitted or received" "CHAR_LENGTH_0,CHAR_LENGTH_1,CHAR_LENGTH_2,CHAR_LENGTH_3"
line.long 0x08 "UART_MCR,Modem control register"
bitfld.long 0x08 6. "TCR_TLR," "?,TCR_TLR_1"
newline
bitfld.long 0x08 5. "XON_EN," "?,XON_EN_1"
newline
bitfld.long 0x08 4. "LOOPBACK_EN," "?,LOOPBACK_EN_1"
newline
bitfld.long 0x08 3. "CD_STS_CH," "?,CD_STS_CH_1"
newline
bitfld.long 0x08 2. "RI_STS_CH," "?,RI_STS_CH_1"
newline
bitfld.long 0x08 1. "RTS,In loopback controls theUART_MSR[4] bit" "RTS_0,RTS_1"
newline
bitfld.long 0x08 0. "DTR," "?,DTR_1"
group.long 0x10++0x07
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"
line.long 0x04 "UART_LSR,Line status register"
bitfld.long 0x04 7. "RX_FIFO_STS," "?,RX_FIFO_STS_1_r"
newline
bitfld.long 0x04 6. "TX_SR_E," "?,TX_SR_E_1_r"
newline
bitfld.long 0x04 5. "TX_FIFO_E," "?,TX_FIFO_E_1_r"
newline
bitfld.long 0x04 4. "RX_BI," "?,RX_BI_1_r"
newline
bitfld.long 0x04 3. "RX_FE," "?,RX_FE_1_r"
newline
bitfld.long 0x04 2. "RX_PE," "?,RX_PE_1_r"
newline
bitfld.long 0x04 1. "RX_OE," "?,RX_OE_1_r"
newline
bitfld.long 0x04 0. "RX_FIFO_E," "?,RX_FIFO_E_1_r"
group.long 0x14++0x07
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"
line.long 0x04 "UART_MSR,Modem status register"
bitfld.long 0x04 7. "NCD_STS,This bit is the complement of the DCD* input" "0,1"
newline
bitfld.long 0x04 6. "NRI_STS,This bit is the complement of the RI* input" "0,1"
newline
bitfld.long 0x04 5. "NDSR_STS,This bit is the complement of the DSR* input" "0,1"
newline
bitfld.long 0x04 4. "NCTS_STS,This bit is the complement of the CTS* input" "0,1"
newline
bitfld.long 0x04 3. "DCD_STS,Indicates that DCD* input (orUART_MCR[3] in loopback) changed" "0,1"
newline
bitfld.long 0x04 2. "RI_STS,Indicates that RI* input (orUART_MCR[2] in loopback) changed state from low to high" "0,1"
newline
bitfld.long 0x04 1. "DSR_STS," "?,DSR_STS_1_r"
newline
bitfld.long 0x04 0. "CTS_STS," "?,CTS_STS_1_r"
group.long 0x18++0x03
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)" "RX_FIFO_TRIG_START_0,RX_FIFO_TRIG_START_1,RX_FIFO_TRIG_START_2,RX_FIFO_TRIG_START_3,RX_FIFO_TRIG_START_4,RX_FIFO_TRIG_START_5,RX_FIFO_TRIG_START_6,RX_FIFO_TRIG_START_7,RX_FIFO_TRIG_START_8,RX_FIFO_TRIG_START_9,RX_FIFO_TRIG_START_10,RX_FIFO_TRIG_START_11,RX_FIFO_TRIG_START_12,RX_FIFO_TRIG_START_13,RX_FIFO_TRIG_START_14,RX_FIFO_TRIG_START_15"
newline
bitfld.long 0x00 0.--3. "RX_FIFO_TRIG_HALT,RX FIFO trigger level to HALT transmission (0 - 60)" "RX_FIFO_TRIG_HALT_0,RX_FIFO_TRIG_HALT_1,RX_FIFO_TRIG_HALT_2,RX_FIFO_TRIG_HALT_3,RX_FIFO_TRIG_HALT_4,RX_FIFO_TRIG_HALT_5,RX_FIFO_TRIG_HALT_6,RX_FIFO_TRIG_HALT_7,RX_FIFO_TRIG_HALT_8,RX_FIFO_TRIG_HALT_9,RX_FIFO_TRIG_HALT_10,RX_FIFO_TRIG_HALT_11,RX_FIFO_TRIG_HALT_12,RX_FIFO_TRIG_HALT_13,RX_FIFO_TRIG_HALT_14,RX_FIFO_TRIG_HALT_15"
group.long 0x18++0x07
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"
line.long 0x04 "UART_SPR,Scratchpad register"
hexmask.long.byte 0x04 0.--7. 1. "SPR_WORD,Scratchpad register"
group.long 0x1C++0x03
line.long 0x00 "UART_TLR,Trigger level register"
bitfld.long 0x00 4.--7. "RX_FIFO_TRIG_DMA,Receive FIFO trigger level" "RX_FIFO_TRIG_DMA_0,RX_FIFO_TRIG_DMA_1,RX_FIFO_TRIG_DMA_2,RX_FIFO_TRIG_DMA_3,RX_FIFO_TRIG_DMA_4,RX_FIFO_TRIG_DMA_5,RX_FIFO_TRIG_DMA_6,RX_FIFO_TRIG_DMA_7,RX_FIFO_TRIG_DMA_8,RX_FIFO_TRIG_DMA_9,RX_FIFO_TRIG_DMA_10,RX_FIFO_TRIG_DMA_11,RX_FIFO_TRIG_DMA_12,RX_FIFO_TRIG_DMA_13,RX_FIFO_TRIG_DMA_14,RX_FIFO_TRIG_DMA_15"
newline
bitfld.long 0x00 0.--3. "TX_FIFO_TRIG_DMA,Transmit FIFO trigger level" "TX_FIFO_TRIG_DMA_0,TX_FIFO_TRIG_DMA_1,TX_FIFO_TRIG_DMA_2,TX_FIFO_TRIG_DMA_3,TX_FIFO_TRIG_DMA_4,TX_FIFO_TRIG_DMA_5,TX_FIFO_TRIG_DMA_6,TX_FIFO_TRIG_DMA_7,TX_FIFO_TRIG_DMA_8,TX_FIFO_TRIG_DMA_9,TX_FIFO_TRIG_DMA_10,TX_FIFO_TRIG_DMA_11,TX_FIFO_TRIG_DMA_12,TX_FIFO_TRIG_DMA_13,TX_FIFO_TRIG_DMA_14,TX_FIFO_TRIG_DMA_15"
group.long 0x1C++0x0F
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"
line.long 0x04 "UART_MDR1,Mode definition register 1"
bitfld.long 0x04 7. "FRAME_END_MODE,IrDA mode only" "FRAME_END_MODE_0,FRAME_END_MODE_1"
newline
bitfld.long 0x04 6. "SIP_MODE,MIR/FIR modes only" "SIP_MODE_0,SIP_MODE_1"
newline
bitfld.long 0x04 5. "SCT,Store and control the transmission" "SCT_0,SCT_1"
newline
bitfld.long 0x04 4. "SET_TXIR,Used to configure the infrared transceiver" "SET_TXIR_0,SET_TXIR_1"
newline
bitfld.long 0x04 3. "IR_SLEEP," "?,IR_SLEEP_1"
newline
bitfld.long 0x04 0.--2. "MODE_SELECT," "?,MODE_SELECT_1,MODE_SELECT_2,MODE_SELECT_3,MODE_SELECT_4,MODE_SELECT_5,MODE_SELECT_6,MODE_SELECT_7"
line.long 0x08 "UART_MDR2,Mode definition register 2"
rbitfld.long 0x08 7. "SET_TXIR_ALT,Provide alternate function for MDR1[4] (SET_TXIR)" "SET_TXIR_ALT_0,SET_TXIR_ALT_1"
newline
bitfld.long 0x08 6. "IRRXINVERT,IR mode only (IrDA and CIR)" "IRRXINVERT_0,IRRXINVERT_1"
newline
bitfld.long 0x08 4.--5. "CIR_PULSE_MODE,CIR pulse modulation definition" "CIR_PULSE_MODE_0,CIR_PULSE_MODE_1,CIR_PULSE_MODE_2,CIR_PULSE_MODE_3"
newline
bitfld.long 0x08 3. "UART_PULSE,UART mode only" "UART_PULSE_0,UART_PULSE_1"
newline
bitfld.long 0x08 1.--2. "STS_FIFO_TRIG,IR-IrDA mode only" "STS_FIFO_TRIG_0,STS_FIFO_TRIG_1,STS_FIFO_TRIG_2,STS_FIFO_TRIG_3"
newline
rbitfld.long 0x08 0. "IRTX_UNDERRUN,IrDA transmission status interrupt" "IRTX_UNDERRUN_0_r,IRTX_UNDERRUN_1_r"
line.long 0x0C "UART_SFLSR,Status FIFO line status register"
bitfld.long 0x0C 4. "OE_ERROR," "OE_ERROR_0,OE_ERROR_1"
newline
bitfld.long 0x0C 3. "FRAME_TOO_LONG_ERROR," "FRAME_TOO_LONG_ERROR_0,FRAME_TOO_LONG_ERROR_1"
newline
bitfld.long 0x0C 2. "ABORT_DETECT," "ABORT_DETECT_0,ABORT_DETECT_1"
newline
bitfld.long 0x0C 1. "CRC_ERROR," "CRC_ERROR_0,CRC_ERROR_1"
group.long 0x28++0x07
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"
line.long 0x04 "UART_RESUME,IR-IrDA and IR-CIR modes only"
hexmask.long.byte 0x04 0.--7. 1. "RESUME,Dummy read to restart the TX or RX"
group.long 0x2C++0x07
line.long 0x00 "UART_TXFLH,Transmit frame length register high"
bitfld.long 0x00 0.--4. "TXFLH,MSB register used to specify the frame length" "TXFLH_0,TXFLH_1,TXFLH_2,TXFLH_3,TXFLH_4,TXFLH_5,TXFLH_6,TXFLH_7,TXFLH_8,TXFLH_9,TXFLH_10,TXFLH_11,TXFLH_12,TXFLH_13,TXFLH_14,TXFLH_15,TXFLH_16,TXFLH_17,TXFLH_18,TXFLH_19,TXFLH_20,TXFLH_21,TXFLH_22,TXFLH_23,TXFLH_24,TXFLH_25,TXFLH_26,TXFLH_27,TXFLH_28,TXFLH_29,TXFLH_30,TXFLH_31"
line.long 0x04 "UART_RXFLL,Received frame length register low"
hexmask.long.byte 0x04 0.--7. 1. "RXFLL,LSB register used to specify the frame length in reception"
rgroup.long 0x30++0x07
line.long 0x00 "UART_SFREGL,Status FIFO register low"
hexmask.long.byte 0x00 0.--7. 1. "SFREGL,LSB part of the frame length"
line.long 0x04 "UART_RXFLH,Received frame length register high"
bitfld.long 0x04 0.--3. "RXFLH,MSB register used to specify the frame length in reception" "RXFLH_0,RXFLH_1,RXFLH_2,RXFLH_3,RXFLH_4,RXFLH_5,RXFLH_6,RXFLH_7,RXFLH_8,RXFLH_9,RXFLH_10,RXFLH_11,RXFLH_12,RXFLH_13,RXFLH_14,RXFLH_15"
rgroup.long 0x34++0x07
line.long 0x00 "UART_SFREGH,Status FIFO register high"
bitfld.long 0x00 0.--3. "SFREGH,MSB part of the frame length" "SFREGH_0,SFREGH_1,SFREGH_2,SFREGH_3,SFREGH_4,SFREGH_5,SFREGH_6,SFREGH_7,SFREGH_8,SFREGH_9,SFREGH_10,SFREGH_11,SFREGH_12,SFREGH_13,SFREGH_14,SFREGH_15"
line.long 0x04 "UART_BLR,BOF control register"
bitfld.long 0x04 7. "STS_FIFO_RESET,Status FIFO reset" "STS_FIFO_RESET_0,STS_FIFO_RESET_1"
newline
bitfld.long 0x04 6. "XBOF_TYPE,SIR xBOF select" "XBOF_TYPE_0,XBOF_TYPE_1"
rgroup.long 0x38++0x13
line.long 0x00 "UART_UASR,UART autobauding status register"
bitfld.long 0x00 6.--7. "PARITY_TYPE," "?,PARITY_TYPE_1_r,PARITY_TYPE_2_r,PARITY_TYPE_3_r"
newline
bitfld.long 0x00 5. "BIT_BY_CHAR," "?,BIT_BY_CHAR_1_r"
newline
bitfld.long 0x00 0.--4. "SPEED,Used to report the speed identified" "SPEED_0_r,SPEED_1_r,SPEED_2_r,SPEED_3_r,SPEED_4_r,SPEED_5_r,SPEED_6_r,SPEED_7_r,SPEED_8_r,SPEED_9_r,SPEED_10_r,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?,?"
line.long 0x04 "UART_ACREG,Auxiliary control register"
bitfld.long 0x04 7. "PULSE_TYPE,SIR pulse width select" "PULSE_TYPE_0,PULSE_TYPE_1"
newline
bitfld.long 0x04 6. "SD_MOD,Primary output used to configure transceivers" "SD_MOD_0,SD_MOD_1"
newline
bitfld.long 0x04 5. "DIS_IR_RX," "?,DIS_IR_RX_1"
newline
bitfld.long 0x04 4. "DIS_TX_UNDERRUN,It is recommended to disable TX FIFO underrun capability by masking corresponding underrun interrupt" "DIS_TX_UNDERRUN_0,DIS_TX_UNDERRUN_1"
newline
bitfld.long 0x04 3. "SEND_SIP,MIR/FIR modes only" "SEND_SIP_0,SEND_SIP_1"
newline
bitfld.long 0x04 2. "SCTX_EN,Store and controlled TX start" "SCTX_EN_0,SCTX_EN_1"
newline
bitfld.long 0x04 1. "ABORT_EN,Frame abort" "ABORT_EN_0,ABORT_EN_1"
newline
bitfld.long 0x04 0. "EOT_EN,EOT (end of transmission) bit" "EOT_EN_0,EOT_EN_1"
line.long 0x08 "UART_SCR,Supplementary control register"
bitfld.long 0x08 7. "RX_TRIG_GRANU1," "?,RX_TRIG_GRANU1_1"
newline
bitfld.long 0x08 6. "TX_TRIG_GRANU1," "?,TX_TRIG_GRANU1_1"
newline
bitfld.long 0x08 5. "DSR_IT," "?,DSR_IT_1"
newline
bitfld.long 0x08 4. "RX_CTS_DSR_WAKE_UP_ENABLE," "?,RX_CTS_DSR_WAKE_UP_ENABLE_1"
newline
bitfld.long 0x08 3. "TX_EMPTY_CTL_IT," "?,TX_EMPTY_CTL_IT_1"
newline
bitfld.long 0x08 1.--2. "DMA_MODE_2,Used to specify the DMA mode valid if theUART_SCR[0] bit =" "DMA_MODE_2_0,DMA_MODE_2_1,DMA_MODE_2_2,DMA_MODE_2_3"
newline
bitfld.long 0x08 0. "DMA_MODE_CTL," "?,DMA_MODE_CTL_1"
line.long 0x0C "UART_SSR,Supplementary status register"
bitfld.long 0x0C 2. "DMA_COUNTER_RST," "?,DMA_COUNTER_RST_1"
newline
rbitfld.long 0x0C 1. "RX_CTS_DSR_WAKE_UP_STS," "?,RX_CTS_DSR_WAKE_UP_STS_1_r"
newline
rbitfld.long 0x0C 0. "TX_FIFO_FULL," "?,TX_FIFO_FULL_1_r"
line.long 0x10 "UART_EBLR,BOF length register"
hexmask.long.byte 0x10 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++0x27
line.long 0x00 "UART_MVR,Module version register"
line.long 0x04 "UART_SYSC,System configuration register"
bitfld.long 0x04 3.--4. "IDLEMODE,Power management req/ack control ref: OCP Design Guidelines Version" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
newline
bitfld.long 0x04 2. "ENAWAKEUP,Wake-up feature control" "ENAWAKEUP_0,ENAWAKEUP_1"
newline
bitfld.long 0x04 1. "SOFTRESET,Software reset" "SOFTRESET_0,SOFTRESET_1"
newline
bitfld.long 0x04 0. "AUTOIDLE,Internal OCP clock gating strategy" "AUTOIDLE_0,AUTOIDLE_1"
line.long 0x08 "UART_SYSS,System status register"
bitfld.long 0x08 0. "RESETDONE,Internal reset monitoring" "RESETDONE_0_r,RESETDONE_1_r"
line.long 0x0C "UART_WER,Wake-up enable register"
bitfld.long 0x0C 7. "TX_WAKEUP_EN," "?,TX_WAKEUP_EN_1"
newline
bitfld.long 0x0C 6. "EVENT_6_RECEIVER_LINE_STATUS_INTERRUPT," "?,EVENT_6_RECEIVER_LINE_STATUS_INTERRUPT_1"
newline
bitfld.long 0x0C 5. "EVENT_5_RHR_INTERRUPT," "?,EVENT_5_RHR_INTERRUPT_1"
newline
bitfld.long 0x0C 4. "EVENT_4_RX_ACTIVITY," "?,EVENT_4_RX_ACTIVITY_1"
newline
bitfld.long 0x0C 3. "EVENT_3_DCD_CD_ACTIVITY," "?,EVENT_3_DCD_CD_ACTIVITY_1"
newline
bitfld.long 0x0C 2. "EVENT_2_RI_ACTIVITY," "?,EVENT_2_RI_ACTIVITY_1"
newline
bitfld.long 0x0C 1. "EVENT_1_DSR_ACTIVITY," "?,EVENT_1_DSR_ACTIVITY_1"
newline
bitfld.long 0x0C 0. "EVENT_0_CTS_ACTIVITY," "?,EVENT_0_CTS_ACTIVITY_1"
line.long 0x10 "UART_CFPS,Carrier frequency prescaler"
hexmask.long.byte 0x10 0.--7. 1. "CFPS,System clock frequency prescaler at (12x multiple)"
line.long 0x14 "UART_RXFIFO_LVL,Level of the RX FIFO"
hexmask.long.byte 0x14 0.--7. 1. "RXFIFO_LVL,Shows the number of received bytes in the RX FIFO"
line.long 0x18 "UART_TXFIFO_LVL,Level of the TX FIFO"
hexmask.long.byte 0x18 0.--7. 1. "TXFIFO_LVL,Shows the number of written bytes in the TX FIFO"
line.long 0x1C "UART_IER2,Enables RX/TX FIFOs empty corresponding interrupts"
bitfld.long 0x1C 1. "EN_TXFIFO_EMPTY,Enables TX FIFO empty corresponding interrupt" "EN_TXFIFO_EMPTY_0,EN_TXFIFO_EMPTY_1"
newline
bitfld.long 0x1C 0. "EN_RXFIFO_EMPTY,Enables RX FIFO empty corresponding interrupt" "EN_RXFIFO_EMPTY_0,EN_RXFIFO_EMPTY_1"
line.long 0x20 "UART_ISR2,Status of RX/TX FIFOs empty corresponding interrupts"
bitfld.long 0x20 1. "TXFIFO_EMPTY_STS,Used to generate interrupt if the TX_FIFO is empty (software flow control)" "TXFIFO_EMPTY_STS_0,TXFIFO_EMPTY_STS_1"
newline
bitfld.long 0x20 0. "RXFIFO_EMPTY_STS,Used to generate interrupt if the RX_FIFO is empty (software flow control)" "RXFIFO_EMPTY_STS_0,RXFIFO_EMPTY_STS_1"
line.long 0x24 "UART_FREQ_SEL,Sample per bit selector"
hexmask.long.byte 0x24 0.--7. 1. "FREQ_SEL,Sets the sample per bit if nondefault frequency is used"
group.long 0x80++0x07
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"
newline
bitfld.long 0x00 1. "NONDEFAULT_FREQ,Used to enable the NONDEFAULT fclk frequencies" "NONDEFAULT_FREQ_0,NONDEFAULT_FREQ_1"
newline
bitfld.long 0x00 0. "DISABLE_CIR_RX_DEMOD,Used to enable CIR RX demodulation" "DISABLE_CIR_RX_DEMOD_0,DISABLE_CIR_RX_DEMOD_1"
line.long 0x04 "UART_TX_DMA_THRESHOLD,Use to manually set the TX DMA threshold level"
bitfld.long 0x04 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"
tree.end
repeat.end
tree.end
tree "Video_Encoder"
tree "VENC_L3"
base ansd:0x58003000
rgroup.long 0x00++0x0B
line.long 0x00 "VENC_REV_ID,Revision ID for the encoder"
line.long 0x04 "VENC_STATUS,STATUS"
bitfld.long 0x04 4. "CCE,Closed Caption Status for Even Field" "0,1"
bitfld.long 0x04 3. "CCO,Closed Caption Status for Odd Field" "0,1"
bitfld.long 0x04 0.--2. "FSQ,Field Sequence ID" "FSQ_0_r,FSQ_1_r,?,?,?,?,?,?"
line.long 0x08 "VENC_F_CONTROL,This register specifies the input video source and format"
bitfld.long 0x08 8. "RESET,RESET the encoder" "RESET_0,RESET_1"
bitfld.long 0x08 6.--7. "SVDS,Select Video Data Source" "SVDS_0,SVDS_1,SVDS_2,SVDS_3"
bitfld.long 0x08 5. "RGBF,RGB /YCrCb input coding range" "RGBF_0,RGBF_1"
newline
bitfld.long 0x08 2.--4. "BCOLOR,Background color select" "BCOLOR_0,BCOLOR_1,BCOLOR_2,BCOLOR_3,BCOLOR_4,BCOLOR_5,BCOLOR_6,BCOLOR_7"
bitfld.long 0x08 0.--1. "FMT,These two bits specify the video input data stream format and timing" "FMT_0,FMT_1,FMT_2,FMT_3"
group.long 0x10++0x07
line.long 0x00 "VENC_VIDOUT_CTRL,Encoder output clock"
bitfld.long 0x00 0. "MHZ_27_54,Encoder output clock" "MHZ_27_54_0,MHZ_27_54_1"
line.long 0x04 "VENC_SYNC_CTRL,SYNC Control register"
bitfld.long 0x04 15. "FREE,Free running" "FREE_0,FREE_1"
bitfld.long 0x04 14. "ESAV,Enable to detect F and V bits only on EAV in ITU-R 656 input mode" "ESAV_0,ESAV_1"
bitfld.long 0x04 13. "IGNP,Ignore protection bits in ITU-R 656 input mode" "IGNP_0,IGNP_1"
newline
bitfld.long 0x04 12. "NBLNKS,Blank shaping" "NBLNKS_0,NBLNKS_1"
bitfld.long 0x04 10.--11. "VBLKM,Vertical blanking mode" "VBLKM_0,VBLKM_1,VBLKM_2,VBLKM_3"
bitfld.long 0x04 8.--9. "HBLKM,Horizontal blanking mode" "HBLKM_0,HBLKM_1,HBLKM_2,HBLKM_3"
newline
bitfld.long 0x04 7. "M_S,Encoder is master or slave of external sync" "M_S_0,M_S_1"
bitfld.long 0x04 6. "FID_POL,FID output polarity" "FID_POL_0,FID_POL_1"
bitfld.long 0x04 3. "VS_POL,VS input polarity" "VS_POL_0,VS_POL_1"
newline
bitfld.long 0x04 2. "HS_POL,HS input polarity" "HS_POL_0,HS_POL_1"
bitfld.long 0x04 0. "FHVMOD,FID extracted from external FID or HSYNC and VSYNC" "FHVMOD_0,FHVMOD_1"
group.long 0x1C++0x6F
line.long 0x00 "VENC_LLEN,LLEN"
bitfld.long 0x00 15. "LLEN_EN,LLEN_EN" "LLEN_EN_0,LLEN_EN_1"
hexmask.long.word 0x00 0.--10. 1. "LLEN,LLEN[10:0] Line length or total number of pixels in a scan line including active video and blanking"
line.long 0x04 "VENC_FLENS,FLENS"
hexmask.long.word 0x04 0.--10. 1. "FLENS,The frame length or total number of lines in a frame including active video and blanking from the source image"
line.long 0x08 "VENC_HFLTR_CTRL,HFLTR_CTRL"
bitfld.long 0x08 1.--2. "CINTP,Chrominance interpolation filter control" "CINTP_0,CINTP_1,CINTP_2,CINTP_3"
bitfld.long 0x08 0. "YINTP,Luminance interpolation filter control" "YINTP_0,YINTP_1"
line.long 0x0C "VENC_CC_CARR_WSS_CARR,Frequencie code control"
hexmask.long.word 0x0C 16.--31. 1. "FWSS,Wide screen signaling run-in code frequency control"
hexmask.long.word 0x0C 0.--15. 1. "FCC,Close caption run-in code frequency control"
line.long 0x10 "VENC_C_PHASE,C_PHASE"
hexmask.long.byte 0x10 0.--7. 1. "CPHS,Phase of the encoded video color subcarrier (including the color burst) relative to H-sync"
line.long 0x14 "VENC_GAIN_U,Gain control for Cb signal"
hexmask.long.word 0x14 0.--8. 1. "GU,Gain control for Cb signal"
line.long 0x18 "VENC_GAIN_V,Gain control of Cr signal"
hexmask.long.word 0x18 0.--8. 1. "GV,Gain control of Cr signal"
line.long 0x1C "VENC_GAIN_Y,Gain control of Y signal"
hexmask.long.word 0x1C 0.--8. 1. "GY,Gain control of Y signal"
line.long 0x20 "VENC_BLACK_LEVEL,BLACK LEVEL"
hexmask.long.byte 0x20 0.--6. 1. "BLACK,Black level setting"
line.long 0x24 "VENC_BLANK_LEVEL,BLANK LEVEL"
hexmask.long.byte 0x24 0.--6. 1. "BLANK,Blank level setting"
line.long 0x28 "VENC_X_COLOR,Cross-Colour Control register"
bitfld.long 0x28 6. "XCE,Cross color reduction enable for composite video output" "XCE_0,XCE_1"
bitfld.long 0x28 3.--4. "XCBW,Cross color reduction filter selection" "XCBW_0,XCBW_1,XCBW_2,XCBW_3"
bitfld.long 0x28 0.--2. "LCD,These three bits can be used for chroma channel delay compensation" "LCD_0,LCD_1,LCD_2,LCD_3,LCD_4,LCD_5,LCD_6,LCD_7"
line.long 0x2C "VENC_M_CONTROL,M_CONTROL"
bitfld.long 0x2C 7. "PALI,PAL I enable" "PALI_0,PALI_1"
bitfld.long 0x2C 6. "PALN,PAL N Enable" "PALN_0,PALN_1"
bitfld.long 0x2C 5. "PALPHS,PAL switch phase setting" "PALPHS_0,PALPHS_1"
newline
bitfld.long 0x2C 2.--4. "CBW,Chrominance lowpass filter bandwidth control" "CBW_0,CBW_1,CBW_2,CBW_3,CBW_4,CBW_5,CBW_6,CBW_7"
bitfld.long 0x2C 1. "PAL,Phase alternation line encoding selection" "PAL_0,PAL_1"
bitfld.long 0x2C 0. "FFRQ,The value of this field and the SQP bit in the BSTAMP_WSS_DATA register control the number of horizontal pixels displayed per scan line # OF MODE SQP FFRQ PIXEL PER LINE ITU-R 601 NTSC 0 1 858 Square pixel NTSC 1 1 780 ITU-R 601 PAL 0 0 864 Square.." "0,1"
line.long 0x30 "VENC_BSTAMP_WSS_DATA,BSTAMP and WSS_DATA"
hexmask.long.tbyte 0x30 8.--27. 1. "WSS_D,Wide Screen Signaling data NTSC: WORD 0 D0 D1 WORD 1 D2 D3 D4 D5 WORD 2 D6 D7 D8 D9 D10 D11 D12 D13 CRC D14 D15 D16 D17 D18 D19 PAL: GROUP A D0 D1 D2 D3 GROUP B D4 D5 D6 D7 GROUP C D8 D9 D10 GROUP D D11 D12 D13"
bitfld.long 0x30 7. "SQP,Square-pixel sampling rate" "SQP_0,SQP_1"
hexmask.long.byte 0x30 0.--6. 1. "BSTAP,Setting of amplitude of color burst"
line.long 0x34 "VENC_S_CARR,Color Subcarrier Frequency Registers"
line.long 0x38 "VENC_LINE21,LINE 21"
hexmask.long.word 0x38 16.--31. 1. "L21E,The two bytes of the closed caption data in the even field"
hexmask.long.word 0x38 0.--15. 1. "L21O,The two bytes of the closed caption data in the odd field - For the data stream content see"
line.long 0x3C "VENC_LN_SEL,LN_SEL"
hexmask.long.word 0x3C 16.--25. 1. "LN21_RUNIN,The two Bytes of the closed caption runin code position from the HSYNC"
bitfld.long 0x3C 0.--4. "SLINE,Selects the line where closed caption or extended service data are encoded.PAL mode: Because there is a one-line offset program the desired line number - 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"
line.long 0x40 "VENC_L21_WC_CTL,L21 and WC_CTL registers"
bitfld.long 0x40 15. "INV,WSS inverter" "INV_0,INV_1"
bitfld.long 0x40 13.--14. "EVEN_ODD_EN,This bit controls the WSS encoding" "EVEN_ODD_EN_0,EVEN_ODD_EN_1,EVEN_ODD_EN_2,EVEN_ODD_EN_3"
bitfld.long 0x40 8.--12. "LINE,Selects the line where WSS data are encoded.PAL mode: Because there is a one-line offset program the desired line number - 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"
newline
bitfld.long 0x40 0.--1. "L21EN,Those bits controls the Line21 closed caption encoding according to the mode" "L21EN_0,L21EN_1,L21EN_2,L21EN_3"
line.long 0x44 "VENC_HTRIGGER_VTRIGGER,HTRIGGER and VTRIGGER"
hexmask.long.word 0x44 16.--25. 1. "VTRIG,Vertical trigger reference for VSYNC"
hexmask.long.word 0x44 0.--10. 1. "HTRIG,Horizontal trigger phase which sets HSYNC"
line.long 0x48 "VENC_SAVID_EAVID,SAVID and EAVID"
hexmask.long.word 0x48 16.--26. 1. "EAVID,End of active video"
hexmask.long.word 0x48 0.--10. 1. "SAVID,Start of active video"
line.long 0x4C "VENC_FLEN_FAL,FLEN and FAL"
hexmask.long.word 0x4C 16.--24. 1. "FAL,First Active Line of Field"
hexmask.long.word 0x4C 0.--9. 1. "FLEN,Field length"
line.long 0x50 "VENC_LAL_PHASE_RESET,LAL and PHASE_RESET"
bitfld.long 0x50 17.--18. "PRES,Phase reset mode" "PRES_0,PRES_1,PRES_2,PRES_3"
bitfld.long 0x50 16. "SBLANK,Vertical blanking setting" "SBLANK_0,SBLANK_1"
hexmask.long.word 0x50 0.--8. 1. "LAL,Last Active Line of Field"
line.long 0x54 "VENC_HS_INT_START_STOP_X,HS_INT_START_STOP_X"
hexmask.long.word 0x54 16.--25. 1. "HS_INT_STOP_X,HSYNC internal stop"
hexmask.long.word 0x54 0.--9. 1. "HS_INT_START_X,HSYNC internal start"
line.long 0x58 "VENC_HS_EXT_START_STOP_X,HS_EXT_START_STOP_X"
hexmask.long.word 0x58 16.--25. 1. "HS_EXT_STOP_X,HSYNC external stop"
hexmask.long.word 0x58 0.--9. 1. "HS_EXT_START_X,HSYNC external start"
line.long 0x5C "VENC_VS_INT_START_X,VS_INT_START_X"
hexmask.long.word 0x5C 16.--25. 1. "VS_INT_START_X,VSYNC internal start"
line.long 0x60 "VENC_VS_INT_STOP_X_VS_INT_START_Y,VS_INT_STOP_X and VS_INT_START_Y"
hexmask.long.word 0x60 16.--25. 1. "VS_INT_START_Y,VSYNC internal start"
hexmask.long.word 0x60 0.--9. 1. "VS_INT_STOP_X,VSYNC internal stop"
line.long 0x64 "VENC_VS_INT_STOP_Y_VS_EXT_START_X,VS_INT_STOP_Y and VS_EXT_START_X"
hexmask.long.word 0x64 16.--25. 1. "VS_EXT_START_X,VSYNC external start"
hexmask.long.word 0x64 0.--9. 1. "VS_INT_STOP_Y,VSYNC internal stop"
line.long 0x68 "VENC_VS_EXT_STOP_X_VS_EXT_START_Y,VS_EXT_STOP_X and VS_EXT_START_Y"
hexmask.long.word 0x68 16.--25. 1. "VS_EXT_START_Y,VSYNC external start"
hexmask.long.word 0x68 0.--9. 1. "VS_EXT_STOP_X,VSYNC external stop"
line.long 0x6C "VENC_VS_EXT_STOP_Y,VS_EXT_STOP_Y"
hexmask.long.word 0x6C 0.--9. 1. "VS_EXT_STOP_Y,VSYNC external stop"
group.long 0x90++0x07
line.long 0x00 "VENC_AVID_START_STOP_X,AVID_START_STOP_X"
hexmask.long.word 0x00 16.--25. 1. "AVID_STOP_X,AVID stop"
hexmask.long.word 0x00 0.--9. 1. "AVID_START_X,AVID start"
line.long 0x04 "VENC_AVID_START_STOP_Y,AVID_START_STOP_Y"
hexmask.long.word 0x04 16.--25. 1. "AVID_STOP_Y,AVID stop"
hexmask.long.word 0x04 0.--9. 1. "AVID_START_Y,AVID start"
group.long 0xA0++0x0B
line.long 0x00 "VENC_FID_INT_START_X_FID_INT_START_Y,FID_INT_START_X and FID_INT_START_Y"
hexmask.long.word 0x00 16.--25. 1. "FID_INT_START_Y,FID internal stop"
hexmask.long.word 0x00 0.--9. 1. "FID_INT_START_X,FID internal start"
line.long 0x04 "VENC_FID_INT_OFFSET_Y_FID_EXT_START_X,FID_INT_OFFSET_Y and FID_EXT_START_X"
hexmask.long.word 0x04 16.--25. 1. "FID_EXT_START_X,FID external start"
hexmask.long.word 0x04 0.--9. 1. "FID_INT_OFFSET_Y,FID internal offset"
line.long 0x08 "VENC_FID_EXT_START_Y_FID_EXT_OFFSET_Y,FID_EXT_START_Y and FID_EXT_OFFSET_Y"
hexmask.long.word 0x08 16.--25. 1. "FID_EXT_OFFSET_Y,FID external offset"
hexmask.long.word 0x08 0.--9. 1. "FID_EXT_START_Y,FID external start"
group.long 0xB0++0x0B
line.long 0x00 "VENC_TVDETGP_INT_START_STOP_X,TVDETGP_INT_START_STOP_X"
hexmask.long.word 0x00 16.--25. 1. "TVDETGP_INT_STOP_X,TVDETGP internal stop"
hexmask.long.word 0x00 0.--9. 1. "TVDETGP_INT_START_X,TVDETGP internal start"
line.long 0x04 "VENC_TVDETGP_INT_START_STOP_Y,TVDETGP_INT_START_STOP_Y"
hexmask.long.word 0x04 16.--25. 1. "TVDETGP_INT_STOP_Y,TVDETGP internal stop"
hexmask.long.word 0x04 0.--9. 1. "TVDETGP_INT_START_Y,TVDETGP internal start"
line.long 0x08 "VENC_GEN_CTRL,TVDETGP enable and SYNC_POLARITY and UVPHASE_POL"
bitfld.long 0x08 26. "MS,UVPHASE_POL MS mode UV phase" "MS_0,MS_1"
bitfld.long 0x08 25. "UVPHASE_POL_656,UVPHASE_POL 656 input mode UV phase" "UVPHASE_POL_656_0,UVPHASE_POL_656_1"
bitfld.long 0x08 24. "CBAR,UVPHASE_POL CBAR mode UV phase" "CBAR_0,CBAR_1"
newline
bitfld.long 0x08 23. "HIP,HSYNC internal polarity" "HIP_0,HIP_1"
bitfld.long 0x08 22. "VIP,VSYNC internal polarity" "VIP_0,VIP_1"
bitfld.long 0x08 21. "HEP,HSYNC external polarity" "HEP_0,HEP_1"
newline
bitfld.long 0x08 20. "VEP,VSYNC externall polarity" "VEP_0,VEP_1"
bitfld.long 0x08 19. "AVIDP,AVID polarity" "AVIDP_0,AVIDP_1"
bitfld.long 0x08 18. "FIP,FID internal polarity" "FIP_0,FIP_1"
newline
bitfld.long 0x08 17. "FEP,FID external polarity" "FEP_0,FEP_1"
bitfld.long 0x08 16. "TVDP,TVDETGP polarity" "TVDP_0,TVDP_1"
bitfld.long 0x08 0. "EN,TVDETGP generation enable" "EN_0,EN_1"
group.long 0xC4++0x07
line.long 0x00 "VENC_OUTPUT_CONTROL,Output channel control register Also contains some test control features"
bitfld.long 0x00 6. "COMPOSITE_SOURCE,Source of composite video data in test mode" "COMPOSITE_SOURCE_0,COMPOSITE_SOURCE_1"
bitfld.long 0x00 4. "TEST_MODE,This enables the video DACs to be tested" "TEST_MODE_0,TEST_MODE_1"
bitfld.long 0x00 3. "VIDEO_INVERT,Controls the video output polarity" "VIDEO_INVERT_0,VIDEO_INVERT_1"
newline
bitfld.long 0x00 1. "COMPOSITE_ENABLE,Enable the Composite output" "COMPOSITE_ENABLE_0,COMPOSITE_ENABLE_1"
line.long 0x04 "VENC_OUTPUT_TEST,Test values for the Luma/Composite Video DAC"
hexmask.long.word 0x04 0.--9. 1. "COMPOSITE_TEST,In test mode DAC input value (if composite video is selected)"
tree.end
tree "VENC_L4_PER"
base ansd:0x48043000
rgroup.long 0x00++0x0B
line.long 0x00 "VENC_REV_ID,Revision ID for the encoder"
line.long 0x04 "VENC_STATUS,STATUS"
bitfld.long 0x04 4. "CCE,Closed Caption Status for Even Field" "0,1"
bitfld.long 0x04 3. "CCO,Closed Caption Status for Odd Field" "0,1"
bitfld.long 0x04 0.--2. "FSQ,Field Sequence ID" "FSQ_0_r,FSQ_1_r,?,?,?,?,?,?"
line.long 0x08 "VENC_F_CONTROL,This register specifies the input video source and format"
bitfld.long 0x08 8. "RESET,RESET the encoder" "RESET_0,RESET_1"
bitfld.long 0x08 6.--7. "SVDS,Select Video Data Source" "SVDS_0,SVDS_1,SVDS_2,SVDS_3"
bitfld.long 0x08 5. "RGBF,RGB /YCrCb input coding range" "RGBF_0,RGBF_1"
newline
bitfld.long 0x08 2.--4. "BCOLOR,Background color select" "BCOLOR_0,BCOLOR_1,BCOLOR_2,BCOLOR_3,BCOLOR_4,BCOLOR_5,BCOLOR_6,BCOLOR_7"
bitfld.long 0x08 0.--1. "FMT,These two bits specify the video input data stream format and timing" "FMT_0,FMT_1,FMT_2,FMT_3"
group.long 0x10++0x07
line.long 0x00 "VENC_VIDOUT_CTRL,Encoder output clock"
bitfld.long 0x00 0. "MHZ_27_54,Encoder output clock" "MHZ_27_54_0,MHZ_27_54_1"
line.long 0x04 "VENC_SYNC_CTRL,SYNC Control register"
bitfld.long 0x04 15. "FREE,Free running" "FREE_0,FREE_1"
bitfld.long 0x04 14. "ESAV,Enable to detect F and V bits only on EAV in ITU-R 656 input mode" "ESAV_0,ESAV_1"
bitfld.long 0x04 13. "IGNP,Ignore protection bits in ITU-R 656 input mode" "IGNP_0,IGNP_1"
newline
bitfld.long 0x04 12. "NBLNKS,Blank shaping" "NBLNKS_0,NBLNKS_1"
bitfld.long 0x04 10.--11. "VBLKM,Vertical blanking mode" "VBLKM_0,VBLKM_1,VBLKM_2,VBLKM_3"
bitfld.long 0x04 8.--9. "HBLKM,Horizontal blanking mode" "HBLKM_0,HBLKM_1,HBLKM_2,HBLKM_3"
newline
bitfld.long 0x04 7. "M_S,Encoder is master or slave of external sync" "M_S_0,M_S_1"
bitfld.long 0x04 6. "FID_POL,FID output polarity" "FID_POL_0,FID_POL_1"
bitfld.long 0x04 3. "VS_POL,VS input polarity" "VS_POL_0,VS_POL_1"
newline
bitfld.long 0x04 2. "HS_POL,HS input polarity" "HS_POL_0,HS_POL_1"
bitfld.long 0x04 0. "FHVMOD,FID extracted from external FID or HSYNC and VSYNC" "FHVMOD_0,FHVMOD_1"
group.long 0x1C++0x6F
line.long 0x00 "VENC_LLEN,LLEN"
bitfld.long 0x00 15. "LLEN_EN,LLEN_EN" "LLEN_EN_0,LLEN_EN_1"
hexmask.long.word 0x00 0.--10. 1. "LLEN,LLEN[10:0] Line length or total number of pixels in a scan line including active video and blanking"
line.long 0x04 "VENC_FLENS,FLENS"
hexmask.long.word 0x04 0.--10. 1. "FLENS,The frame length or total number of lines in a frame including active video and blanking from the source image"
line.long 0x08 "VENC_HFLTR_CTRL,HFLTR_CTRL"
bitfld.long 0x08 1.--2. "CINTP,Chrominance interpolation filter control" "CINTP_0,CINTP_1,CINTP_2,CINTP_3"
bitfld.long 0x08 0. "YINTP,Luminance interpolation filter control" "YINTP_0,YINTP_1"
line.long 0x0C "VENC_CC_CARR_WSS_CARR,Frequencie code control"
hexmask.long.word 0x0C 16.--31. 1. "FWSS,Wide screen signaling run-in code frequency control"
hexmask.long.word 0x0C 0.--15. 1. "FCC,Close caption run-in code frequency control"
line.long 0x10 "VENC_C_PHASE,C_PHASE"
hexmask.long.byte 0x10 0.--7. 1. "CPHS,Phase of the encoded video color subcarrier (including the color burst) relative to H-sync"
line.long 0x14 "VENC_GAIN_U,Gain control for Cb signal"
hexmask.long.word 0x14 0.--8. 1. "GU,Gain control for Cb signal"
line.long 0x18 "VENC_GAIN_V,Gain control of Cr signal"
hexmask.long.word 0x18 0.--8. 1. "GV,Gain control of Cr signal"
line.long 0x1C "VENC_GAIN_Y,Gain control of Y signal"
hexmask.long.word 0x1C 0.--8. 1. "GY,Gain control of Y signal"
line.long 0x20 "VENC_BLACK_LEVEL,BLACK LEVEL"
hexmask.long.byte 0x20 0.--6. 1. "BLACK,Black level setting"
line.long 0x24 "VENC_BLANK_LEVEL,BLANK LEVEL"
hexmask.long.byte 0x24 0.--6. 1. "BLANK,Blank level setting"
line.long 0x28 "VENC_X_COLOR,Cross-Colour Control register"
bitfld.long 0x28 6. "XCE,Cross color reduction enable for composite video output" "XCE_0,XCE_1"
bitfld.long 0x28 3.--4. "XCBW,Cross color reduction filter selection" "XCBW_0,XCBW_1,XCBW_2,XCBW_3"
bitfld.long 0x28 0.--2. "LCD,These three bits can be used for chroma channel delay compensation" "LCD_0,LCD_1,LCD_2,LCD_3,LCD_4,LCD_5,LCD_6,LCD_7"
line.long 0x2C "VENC_M_CONTROL,M_CONTROL"
bitfld.long 0x2C 7. "PALI,PAL I enable" "PALI_0,PALI_1"
bitfld.long 0x2C 6. "PALN,PAL N Enable" "PALN_0,PALN_1"
bitfld.long 0x2C 5. "PALPHS,PAL switch phase setting" "PALPHS_0,PALPHS_1"
newline
bitfld.long 0x2C 2.--4. "CBW,Chrominance lowpass filter bandwidth control" "CBW_0,CBW_1,CBW_2,CBW_3,CBW_4,CBW_5,CBW_6,CBW_7"
bitfld.long 0x2C 1. "PAL,Phase alternation line encoding selection" "PAL_0,PAL_1"
bitfld.long 0x2C 0. "FFRQ,The value of this field and the SQP bit in the BSTAMP_WSS_DATA register control the number of horizontal pixels displayed per scan line # OF MODE SQP FFRQ PIXEL PER LINE ITU-R 601 NTSC 0 1 858 Square pixel NTSC 1 1 780 ITU-R 601 PAL 0 0 864 Square.." "0,1"
line.long 0x30 "VENC_BSTAMP_WSS_DATA,BSTAMP and WSS_DATA"
hexmask.long.tbyte 0x30 8.--27. 1. "WSS_D,Wide Screen Signaling data NTSC: WORD 0 D0 D1 WORD 1 D2 D3 D4 D5 WORD 2 D6 D7 D8 D9 D10 D11 D12 D13 CRC D14 D15 D16 D17 D18 D19 PAL: GROUP A D0 D1 D2 D3 GROUP B D4 D5 D6 D7 GROUP C D8 D9 D10 GROUP D D11 D12 D13"
bitfld.long 0x30 7. "SQP,Square-pixel sampling rate" "SQP_0,SQP_1"
hexmask.long.byte 0x30 0.--6. 1. "BSTAP,Setting of amplitude of color burst"
line.long 0x34 "VENC_S_CARR,Color Subcarrier Frequency Registers"
line.long 0x38 "VENC_LINE21,LINE 21"
hexmask.long.word 0x38 16.--31. 1. "L21E,The two bytes of the closed caption data in the even field"
hexmask.long.word 0x38 0.--15. 1. "L21O,The two bytes of the closed caption data in the odd field - For the data stream content see"
line.long 0x3C "VENC_LN_SEL,LN_SEL"
hexmask.long.word 0x3C 16.--25. 1. "LN21_RUNIN,The two Bytes of the closed caption runin code position from the HSYNC"
bitfld.long 0x3C 0.--4. "SLINE,Selects the line where closed caption or extended service data are encoded.PAL mode: Because there is a one-line offset program the desired line number - 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"
line.long 0x40 "VENC_L21_WC_CTL,L21 and WC_CTL registers"
bitfld.long 0x40 15. "INV,WSS inverter" "INV_0,INV_1"
bitfld.long 0x40 13.--14. "EVEN_ODD_EN,This bit controls the WSS encoding" "EVEN_ODD_EN_0,EVEN_ODD_EN_1,EVEN_ODD_EN_2,EVEN_ODD_EN_3"
bitfld.long 0x40 8.--12. "LINE,Selects the line where WSS data are encoded.PAL mode: Because there is a one-line offset program the desired line number - 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"
newline
bitfld.long 0x40 0.--1. "L21EN,Those bits controls the Line21 closed caption encoding according to the mode" "L21EN_0,L21EN_1,L21EN_2,L21EN_3"
line.long 0x44 "VENC_HTRIGGER_VTRIGGER,HTRIGGER and VTRIGGER"
hexmask.long.word 0x44 16.--25. 1. "VTRIG,Vertical trigger reference for VSYNC"
hexmask.long.word 0x44 0.--10. 1. "HTRIG,Horizontal trigger phase which sets HSYNC"
line.long 0x48 "VENC_SAVID_EAVID,SAVID and EAVID"
hexmask.long.word 0x48 16.--26. 1. "EAVID,End of active video"
hexmask.long.word 0x48 0.--10. 1. "SAVID,Start of active video"
line.long 0x4C "VENC_FLEN_FAL,FLEN and FAL"
hexmask.long.word 0x4C 16.--24. 1. "FAL,First Active Line of Field"
hexmask.long.word 0x4C 0.--9. 1. "FLEN,Field length"
line.long 0x50 "VENC_LAL_PHASE_RESET,LAL and PHASE_RESET"
bitfld.long 0x50 17.--18. "PRES,Phase reset mode" "PRES_0,PRES_1,PRES_2,PRES_3"
bitfld.long 0x50 16. "SBLANK,Vertical blanking setting" "SBLANK_0,SBLANK_1"
hexmask.long.word 0x50 0.--8. 1. "LAL,Last Active Line of Field"
line.long 0x54 "VENC_HS_INT_START_STOP_X,HS_INT_START_STOP_X"
hexmask.long.word 0x54 16.--25. 1. "HS_INT_STOP_X,HSYNC internal stop"
hexmask.long.word 0x54 0.--9. 1. "HS_INT_START_X,HSYNC internal start"
line.long 0x58 "VENC_HS_EXT_START_STOP_X,HS_EXT_START_STOP_X"
hexmask.long.word 0x58 16.--25. 1. "HS_EXT_STOP_X,HSYNC external stop"
hexmask.long.word 0x58 0.--9. 1. "HS_EXT_START_X,HSYNC external start"
line.long 0x5C "VENC_VS_INT_START_X,VS_INT_START_X"
hexmask.long.word 0x5C 16.--25. 1. "VS_INT_START_X,VSYNC internal start"
line.long 0x60 "VENC_VS_INT_STOP_X_VS_INT_START_Y,VS_INT_STOP_X and VS_INT_START_Y"
hexmask.long.word 0x60 16.--25. 1. "VS_INT_START_Y,VSYNC internal start"
hexmask.long.word 0x60 0.--9. 1. "VS_INT_STOP_X,VSYNC internal stop"
line.long 0x64 "VENC_VS_INT_STOP_Y_VS_EXT_START_X,VS_INT_STOP_Y and VS_EXT_START_X"
hexmask.long.word 0x64 16.--25. 1. "VS_EXT_START_X,VSYNC external start"
hexmask.long.word 0x64 0.--9. 1. "VS_INT_STOP_Y,VSYNC internal stop"
line.long 0x68 "VENC_VS_EXT_STOP_X_VS_EXT_START_Y,VS_EXT_STOP_X and VS_EXT_START_Y"
hexmask.long.word 0x68 16.--25. 1. "VS_EXT_START_Y,VSYNC external start"
hexmask.long.word 0x68 0.--9. 1. "VS_EXT_STOP_X,VSYNC external stop"
line.long 0x6C "VENC_VS_EXT_STOP_Y,VS_EXT_STOP_Y"
hexmask.long.word 0x6C 0.--9. 1. "VS_EXT_STOP_Y,VSYNC external stop"
group.long 0x90++0x07
line.long 0x00 "VENC_AVID_START_STOP_X,AVID_START_STOP_X"
hexmask.long.word 0x00 16.--25. 1. "AVID_STOP_X,AVID stop"
hexmask.long.word 0x00 0.--9. 1. "AVID_START_X,AVID start"
line.long 0x04 "VENC_AVID_START_STOP_Y,AVID_START_STOP_Y"
hexmask.long.word 0x04 16.--25. 1. "AVID_STOP_Y,AVID stop"
hexmask.long.word 0x04 0.--9. 1. "AVID_START_Y,AVID start"
group.long 0xA0++0x0B
line.long 0x00 "VENC_FID_INT_START_X_FID_INT_START_Y,FID_INT_START_X and FID_INT_START_Y"
hexmask.long.word 0x00 16.--25. 1. "FID_INT_START_Y,FID internal stop"
hexmask.long.word 0x00 0.--9. 1. "FID_INT_START_X,FID internal start"
line.long 0x04 "VENC_FID_INT_OFFSET_Y_FID_EXT_START_X,FID_INT_OFFSET_Y and FID_EXT_START_X"
hexmask.long.word 0x04 16.--25. 1. "FID_EXT_START_X,FID external start"
hexmask.long.word 0x04 0.--9. 1. "FID_INT_OFFSET_Y,FID internal offset"
line.long 0x08 "VENC_FID_EXT_START_Y_FID_EXT_OFFSET_Y,FID_EXT_START_Y and FID_EXT_OFFSET_Y"
hexmask.long.word 0x08 16.--25. 1. "FID_EXT_OFFSET_Y,FID external offset"
hexmask.long.word 0x08 0.--9. 1. "FID_EXT_START_Y,FID external start"
group.long 0xB0++0x0B
line.long 0x00 "VENC_TVDETGP_INT_START_STOP_X,TVDETGP_INT_START_STOP_X"
hexmask.long.word 0x00 16.--25. 1. "TVDETGP_INT_STOP_X,TVDETGP internal stop"
hexmask.long.word 0x00 0.--9. 1. "TVDETGP_INT_START_X,TVDETGP internal start"
line.long 0x04 "VENC_TVDETGP_INT_START_STOP_Y,TVDETGP_INT_START_STOP_Y"
hexmask.long.word 0x04 16.--25. 1. "TVDETGP_INT_STOP_Y,TVDETGP internal stop"
hexmask.long.word 0x04 0.--9. 1. "TVDETGP_INT_START_Y,TVDETGP internal start"
line.long 0x08 "VENC_GEN_CTRL,TVDETGP enable and SYNC_POLARITY and UVPHASE_POL"
bitfld.long 0x08 26. "MS,UVPHASE_POL MS mode UV phase" "MS_0,MS_1"
bitfld.long 0x08 25. "UVPHASE_POL_656,UVPHASE_POL 656 input mode UV phase" "UVPHASE_POL_656_0,UVPHASE_POL_656_1"
bitfld.long 0x08 24. "CBAR,UVPHASE_POL CBAR mode UV phase" "CBAR_0,CBAR_1"
newline
bitfld.long 0x08 23. "HIP,HSYNC internal polarity" "HIP_0,HIP_1"
bitfld.long 0x08 22. "VIP,VSYNC internal polarity" "VIP_0,VIP_1"
bitfld.long 0x08 21. "HEP,HSYNC external polarity" "HEP_0,HEP_1"
newline
bitfld.long 0x08 20. "VEP,VSYNC externall polarity" "VEP_0,VEP_1"
bitfld.long 0x08 19. "AVIDP,AVID polarity" "AVIDP_0,AVIDP_1"
bitfld.long 0x08 18. "FIP,FID internal polarity" "FIP_0,FIP_1"
newline
bitfld.long 0x08 17. "FEP,FID external polarity" "FEP_0,FEP_1"
bitfld.long 0x08 16. "TVDP,TVDETGP polarity" "TVDP_0,TVDP_1"
bitfld.long 0x08 0. "EN,TVDETGP generation enable" "EN_0,EN_1"
group.long 0xC4++0x07
line.long 0x00 "VENC_OUTPUT_CONTROL,Output channel control register Also contains some test control features"
bitfld.long 0x00 6. "COMPOSITE_SOURCE,Source of composite video data in test mode" "COMPOSITE_SOURCE_0,COMPOSITE_SOURCE_1"
bitfld.long 0x00 4. "TEST_MODE,This enables the video DACs to be tested" "TEST_MODE_0,TEST_MODE_1"
bitfld.long 0x00 3. "VIDEO_INVERT,Controls the video output polarity" "VIDEO_INVERT_0,VIDEO_INVERT_1"
newline
bitfld.long 0x00 1. "COMPOSITE_ENABLE,Enable the Composite output" "COMPOSITE_ENABLE_0,COMPOSITE_ENABLE_1"
line.long 0x04 "VENC_OUTPUT_TEST,Test values for the Luma/Composite Video DAC"
hexmask.long.word 0x04 0.--9. 1. "COMPOSITE_TEST,In test mode DAC input value (if composite video is selected)"
tree.end
tree.end
tree "Watchdog_Timers"
tree "WDTIMER2_L4Interconnect"
base ansd:0x4A314000
rgroup.long 0x00++0x03
line.long 0x00 "WDT_WIDR,IP revision identifier"
group.long 0x10++0x27
line.long 0x00 "WDT_WDSC,This register controls the various parameters of the L4 interface"
bitfld.long 0x00 5. "EMUFREE,Emulation mode" "EMUFREE_0,EMUFREE_1"
bitfld.long 0x00 3.--4. "IDLEMODE,Configuration of the local target state management mode" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 1. "SOFTRESET,Software reset" "SOFTRESET_0_w,SOFTRESET_1_r"
line.long 0x04 "WDT_WDST,This register provides status information about the module"
bitfld.long 0x04 0. "RESETDONE,Internal module reset monitoring" "RESETDONE_0_r,RESETDONE_1_r"
line.long 0x08 "WDT_WISR,This register shows which interrupt events are pending inside the module"
bitfld.long 0x08 1. "DLY_IT_FLAG,Pending delay interrupt status" "DLY_IT_FLAG_0_w,DLY_IT_FLAG_1_r"
bitfld.long 0x08 0. "OVF_IT_FLAG,Pending overflow interrupt status" "OVF_IT_FLAG_0_w,OVF_IT_FLAG_1_r"
line.long 0x0C "WDT_WIER,This register controls (enable/disable) the interrupt events"
bitfld.long 0x0C 1. "DLY_IT_ENA,Delay interrupt enable/disable" "DLY_IT_ENA_0,DLY_IT_ENA_1"
bitfld.long 0x0C 0. "OVF_IT_ENA,Overflow interrupt enable/disable" "OVF_IT_ENA_0,OVF_IT_ENA_1"
line.long 0x10 "WDT_WWER,This register controls (enable/disable) the wake-up events"
bitfld.long 0x10 1. "DLY_WK_ENA,Delay wake-up enable" "DLY_WK_ENA_0,DLY_WK_ENA_1"
bitfld.long 0x10 0. "OVF_WK_ENA,Overflow wake-up enable" "OVF_WK_ENA_0,OVF_WK_ENA_1"
line.long 0x14 "WDT_WCLR,This register controls the prescaler stage of the counter"
bitfld.long 0x14 5. "PRE,Prescaler enable/disable configuration" "PRE_0,PRE_1"
bitfld.long 0x14 2.--4. "PTV,Prescaler value The timer counter is prescaled with the value: 2" "0,1,2,3,4,5,6,7"
line.long 0x18 "WDT_WCRR,This register holds the value of the internal counter"
line.long 0x1C "WDT_WLDR,This register holds the timer load value"
line.long 0x20 "WDT_WTGR,Writing a different value than the one already written in this register does a watchdog counter reload"
line.long 0x24 "WDT_WWPS,This register contains the write posting bits for all writeable functional registers"
bitfld.long 0x24 5. "W_PEND_WDLY,Write pending for register WDLY" "W_PEND_WDLY_0_r,W_PEND_WDLY_1_r"
bitfld.long 0x24 4. "W_PEND_WSPR,Write pending for register WSPR" "W_PEND_WSPR_0_r,W_PEND_WSPR_1_r"
bitfld.long 0x24 3. "W_PEND_WTGR,Write pending for register WTGR" "W_PEND_WTGR_0_r,W_PEND_WTGR_1_r"
bitfld.long 0x24 2. "W_PEND_WLDR,Write pending for register WLDR" "W_PEND_WLDR_0_r,W_PEND_WLDR_1_r"
newline
bitfld.long 0x24 1. "W_PEND_WCRR,Write pending for register WCRR" "W_PEND_WCRR_0_r,W_PEND_WCRR_1_r"
bitfld.long 0x24 0. "W_PEND_WCLR,Write pending for register WCLR" "W_PEND_WCLR_0_r,W_PEND_WCLR_1_r"
group.long 0x44++0x07
line.long 0x00 "WDT_WDLY,This register holds the delay value that controls the internal pre-overflow event detection"
line.long 0x04 "WDT_WSPR,This register holds the start-stop value that controls the internal start-stop FSM"
group.long 0x54++0x13
line.long 0x00 "WDT_WIRQSTATRAW,IRQ unmasked status. status set per-event raw interrupt status vector. line 0"
bitfld.long 0x00 1. "EVENT_DLY,Settable raw status for delay event" "EVENT_DLY_0_w,EVENT_DLY_1_r"
bitfld.long 0x00 0. "EVENT_OVF,Settable raw status for overflow event" "EVENT_OVF_0_w,EVENT_OVF_1_r"
line.long 0x04 "WDT_WIRQSTAT,IRQ masked status. status clear per-event enabled interrupt status vector. line 0"
bitfld.long 0x04 1. "EVENT_DLY,Clearable enabled status for delay event" "EVENT_DLY_0_w,EVENT_DLY_1_r"
bitfld.long 0x04 0. "EVENT_OVF,Clearable enabled status for overflow event" "EVENT_OVF_0_w,EVENT_OVF_1_r"
line.long 0x08 "WDT_WIRQENSET,IRQ enable set per-event interrupt enable bit vector. line 0"
bitfld.long 0x08 1. "ENABLE_DLY,Enable for delay event" "ENABLE_DLY_0_w,ENABLE_DLY_1_r"
bitfld.long 0x08 0. "ENABLE_OVF,Enable for overflow event" "ENABLE_OVF_0_w,ENABLE_OVF_1_r"
line.long 0x0C "WDT_WIRQENCLR,IRQ enable clear per-event interrupt enable bit vector. line 0"
bitfld.long 0x0C 1. "ENABLE_DLY,Enable for delay event" "ENABLE_DLY_0_w,ENABLE_DLY_1_r"
bitfld.long 0x0C 0. "ENABLE_OVF,Enable for overflow event" "ENABLE_OVF_0_w,ENABLE_OVF_1_r"
line.long 0x10 "WDT_WIRQWAKEEN,This register controls (enable/disable) the wake-up events"
bitfld.long 0x10 1. "DLY_WK_ENA,Enable delay wake-up" "DLY_WK_ENA_0,DLY_WK_ENA_1"
bitfld.long 0x10 0. "OVF_WK_ENA,Enable overflow wakeup" "OVF_WK_ENA_0,OVF_WK_ENA_1"
tree.end
tree "WDTIMER3_Cortex_A9"
base ansd:0x40130000
rgroup.long 0x00++0x03
line.long 0x00 "WDT_WIDR,IP revision identifier"
group.long 0x10++0x27
line.long 0x00 "WDT_WDSC,This register controls the various parameters of the L4 interface"
bitfld.long 0x00 5. "EMUFREE,Emulation mode" "EMUFREE_0,EMUFREE_1"
bitfld.long 0x00 3.--4. "IDLEMODE,Configuration of the local target state management mode" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 1. "SOFTRESET,Software reset" "SOFTRESET_0_w,SOFTRESET_1_r"
line.long 0x04 "WDT_WDST,This register provides status information about the module"
bitfld.long 0x04 0. "RESETDONE,Internal module reset monitoring" "RESETDONE_0_r,RESETDONE_1_r"
line.long 0x08 "WDT_WISR,This register shows which interrupt events are pending inside the module"
bitfld.long 0x08 1. "DLY_IT_FLAG,Pending delay interrupt status" "DLY_IT_FLAG_0_w,DLY_IT_FLAG_1_r"
bitfld.long 0x08 0. "OVF_IT_FLAG,Pending overflow interrupt status" "OVF_IT_FLAG_0_w,OVF_IT_FLAG_1_r"
line.long 0x0C "WDT_WIER,This register controls (enable/disable) the interrupt events"
bitfld.long 0x0C 1. "DLY_IT_ENA,Delay interrupt enable/disable" "DLY_IT_ENA_0,DLY_IT_ENA_1"
bitfld.long 0x0C 0. "OVF_IT_ENA,Overflow interrupt enable/disable" "OVF_IT_ENA_0,OVF_IT_ENA_1"
line.long 0x10 "WDT_WWER,This register controls (enable/disable) the wake-up events"
bitfld.long 0x10 1. "DLY_WK_ENA,Delay wake-up enable" "DLY_WK_ENA_0,DLY_WK_ENA_1"
bitfld.long 0x10 0. "OVF_WK_ENA,Overflow wake-up enable" "OVF_WK_ENA_0,OVF_WK_ENA_1"
line.long 0x14 "WDT_WCLR,This register controls the prescaler stage of the counter"
bitfld.long 0x14 5. "PRE,Prescaler enable/disable configuration" "PRE_0,PRE_1"
bitfld.long 0x14 2.--4. "PTV,Prescaler value The timer counter is prescaled with the value: 2" "0,1,2,3,4,5,6,7"
line.long 0x18 "WDT_WCRR,This register holds the value of the internal counter"
line.long 0x1C "WDT_WLDR,This register holds the timer load value"
line.long 0x20 "WDT_WTGR,Writing a different value than the one already written in this register does a watchdog counter reload"
line.long 0x24 "WDT_WWPS,This register contains the write posting bits for all writeable functional registers"
bitfld.long 0x24 5. "W_PEND_WDLY,Write pending for register WDLY" "W_PEND_WDLY_0_r,W_PEND_WDLY_1_r"
bitfld.long 0x24 4. "W_PEND_WSPR,Write pending for register WSPR" "W_PEND_WSPR_0_r,W_PEND_WSPR_1_r"
bitfld.long 0x24 3. "W_PEND_WTGR,Write pending for register WTGR" "W_PEND_WTGR_0_r,W_PEND_WTGR_1_r"
bitfld.long 0x24 2. "W_PEND_WLDR,Write pending for register WLDR" "W_PEND_WLDR_0_r,W_PEND_WLDR_1_r"
newline
bitfld.long 0x24 1. "W_PEND_WCRR,Write pending for register WCRR" "W_PEND_WCRR_0_r,W_PEND_WCRR_1_r"
bitfld.long 0x24 0. "W_PEND_WCLR,Write pending for register WCLR" "W_PEND_WCLR_0_r,W_PEND_WCLR_1_r"
group.long 0x44++0x07
line.long 0x00 "WDT_WDLY,This register holds the delay value that controls the internal pre-overflow event detection"
line.long 0x04 "WDT_WSPR,This register holds the start-stop value that controls the internal start-stop FSM"
group.long 0x54++0x13
line.long 0x00 "WDT_WIRQSTATRAW,IRQ unmasked status. status set per-event raw interrupt status vector. line 0"
bitfld.long 0x00 1. "EVENT_DLY,Settable raw status for delay event" "EVENT_DLY_0_w,EVENT_DLY_1_r"
bitfld.long 0x00 0. "EVENT_OVF,Settable raw status for overflow event" "EVENT_OVF_0_w,EVENT_OVF_1_r"
line.long 0x04 "WDT_WIRQSTAT,IRQ masked status. status clear per-event enabled interrupt status vector. line 0"
bitfld.long 0x04 1. "EVENT_DLY,Clearable enabled status for delay event" "EVENT_DLY_0_w,EVENT_DLY_1_r"
bitfld.long 0x04 0. "EVENT_OVF,Clearable enabled status for overflow event" "EVENT_OVF_0_w,EVENT_OVF_1_r"
line.long 0x08 "WDT_WIRQENSET,IRQ enable set per-event interrupt enable bit vector. line 0"
bitfld.long 0x08 1. "ENABLE_DLY,Enable for delay event" "ENABLE_DLY_0_w,ENABLE_DLY_1_r"
bitfld.long 0x08 0. "ENABLE_OVF,Enable for overflow event" "ENABLE_OVF_0_w,ENABLE_OVF_1_r"
line.long 0x0C "WDT_WIRQENCLR,IRQ enable clear per-event interrupt enable bit vector. line 0"
bitfld.long 0x0C 1. "ENABLE_DLY,Enable for delay event" "ENABLE_DLY_0_w,ENABLE_DLY_1_r"
bitfld.long 0x0C 0. "ENABLE_OVF,Enable for overflow event" "ENABLE_OVF_0_w,ENABLE_OVF_1_r"
line.long 0x10 "WDT_WIRQWAKEEN,This register controls (enable/disable) the wake-up events"
bitfld.long 0x10 1. "DLY_WK_ENA,Enable delay wake-up" "DLY_WK_ENA_0,DLY_WK_ENA_1"
bitfld.long 0x10 0. "OVF_WK_ENA,Enable overflow wakeup" "OVF_WK_ENA_0,OVF_WK_ENA_1"
tree.end
tree "WDTIMER3_L3Interconnect"
base ansd:0x49030000
rgroup.long 0x00++0x03
line.long 0x00 "WDT_WIDR,IP revision identifier"
group.long 0x10++0x27
line.long 0x00 "WDT_WDSC,This register controls the various parameters of the L4 interface"
bitfld.long 0x00 5. "EMUFREE,Emulation mode" "EMUFREE_0,EMUFREE_1"
bitfld.long 0x00 3.--4. "IDLEMODE,Configuration of the local target state management mode" "IDLEMODE_0,IDLEMODE_1,IDLEMODE_2,IDLEMODE_3"
bitfld.long 0x00 1. "SOFTRESET,Software reset" "SOFTRESET_0_w,SOFTRESET_1_r"
line.long 0x04 "WDT_WDST,This register provides status information about the module"
bitfld.long 0x04 0. "RESETDONE,Internal module reset monitoring" "RESETDONE_0_r,RESETDONE_1_r"
line.long 0x08 "WDT_WISR,This register shows which interrupt events are pending inside the module"
bitfld.long 0x08 1. "DLY_IT_FLAG,Pending delay interrupt status" "DLY_IT_FLAG_0_w,DLY_IT_FLAG_1_r"
bitfld.long 0x08 0. "OVF_IT_FLAG,Pending overflow interrupt status" "OVF_IT_FLAG_0_w,OVF_IT_FLAG_1_r"
line.long 0x0C "WDT_WIER,This register controls (enable/disable) the interrupt events"
bitfld.long 0x0C 1. "DLY_IT_ENA,Delay interrupt enable/disable" "DLY_IT_ENA_0,DLY_IT_ENA_1"
bitfld.long 0x0C 0. "OVF_IT_ENA,Overflow interrupt enable/disable" "OVF_IT_ENA_0,OVF_IT_ENA_1"
line.long 0x10 "WDT_WWER,This register controls (enable/disable) the wake-up events"
bitfld.long 0x10 1. "DLY_WK_ENA,Delay wake-up enable" "DLY_WK_ENA_0,DLY_WK_ENA_1"
bitfld.long 0x10 0. "OVF_WK_ENA,Overflow wake-up enable" "OVF_WK_ENA_0,OVF_WK_ENA_1"
line.long 0x14 "WDT_WCLR,This register controls the prescaler stage of the counter"
bitfld.long 0x14 5. "PRE,Prescaler enable/disable configuration" "PRE_0,PRE_1"
bitfld.long 0x14 2.--4. "PTV,Prescaler value The timer counter is prescaled with the value: 2" "0,1,2,3,4,5,6,7"
line.long 0x18 "WDT_WCRR,This register holds the value of the internal counter"
line.long 0x1C "WDT_WLDR,This register holds the timer load value"
line.long 0x20 "WDT_WTGR,Writing a different value than the one already written in this register does a watchdog counter reload"
line.long 0x24 "WDT_WWPS,This register contains the write posting bits for all writeable functional registers"
bitfld.long 0x24 5. "W_PEND_WDLY,Write pending for register WDLY" "W_PEND_WDLY_0_r,W_PEND_WDLY_1_r"
bitfld.long 0x24 4. "W_PEND_WSPR,Write pending for register WSPR" "W_PEND_WSPR_0_r,W_PEND_WSPR_1_r"
bitfld.long 0x24 3. "W_PEND_WTGR,Write pending for register WTGR" "W_PEND_WTGR_0_r,W_PEND_WTGR_1_r"
bitfld.long 0x24 2. "W_PEND_WLDR,Write pending for register WLDR" "W_PEND_WLDR_0_r,W_PEND_WLDR_1_r"
newline
bitfld.long 0x24 1. "W_PEND_WCRR,Write pending for register WCRR" "W_PEND_WCRR_0_r,W_PEND_WCRR_1_r"
bitfld.long 0x24 0. "W_PEND_WCLR,Write pending for register WCLR" "W_PEND_WCLR_0_r,W_PEND_WCLR_1_r"
group.long 0x44++0x07
line.long 0x00 "WDT_WDLY,This register holds the delay value that controls the internal pre-overflow event detection"
line.long 0x04 "WDT_WSPR,This register holds the start-stop value that controls the internal start-stop FSM"
group.long 0x54++0x13
line.long 0x00 "WDT_WIRQSTATRAW,IRQ unmasked status. status set per-event raw interrupt status vector. line 0"
bitfld.long 0x00 1. "EVENT_DLY,Settable raw status for delay event" "EVENT_DLY_0_w,EVENT_DLY_1_r"
bitfld.long 0x00 0. "EVENT_OVF,Settable raw status for overflow event" "EVENT_OVF_0_w,EVENT_OVF_1_r"
line.long 0x04 "WDT_WIRQSTAT,IRQ masked status. status clear per-event enabled interrupt status vector. line 0"
bitfld.long 0x04 1. "EVENT_DLY,Clearable enabled status for delay event" "EVENT_DLY_0_w,EVENT_DLY_1_r"
bitfld.long 0x04 0. "EVENT_OVF,Clearable enabled status for overflow event" "EVENT_OVF_0_w,EVENT_OVF_1_r"
line.long 0x08 "WDT_WIRQENSET,IRQ enable set per-event interrupt enable bit vector. line 0"
bitfld.long 0x08 1. "ENABLE_DLY,Enable for delay event" "ENABLE_DLY_0_w,ENABLE_DLY_1_r"
bitfld.long 0x08 0. "ENABLE_OVF,Enable for overflow event" "ENABLE_OVF_0_w,ENABLE_OVF_1_r"
line.long 0x0C "WDT_WIRQENCLR,IRQ enable clear per-event interrupt enable bit vector. line 0"
bitfld.long 0x0C 1. "ENABLE_DLY,Enable for delay event" "ENABLE_DLY_0_w,ENABLE_DLY_1_r"
bitfld.long 0x0C 0. "ENABLE_OVF,Enable for overflow event" "ENABLE_OVF_0_w,ENABLE_OVF_1_r"
line.long 0x10 "WDT_WIRQWAKEEN,This register controls (enable/disable) the wake-up events"
bitfld.long 0x10 1. "DLY_WK_ENA,Enable delay wake-up" "DLY_WK_ENA_0,DLY_WK_ENA_1"
bitfld.long 0x10 0. "OVF_WK_ENA,Enable overflow wakeup" "OVF_WK_ENA_0,OVF_WK_ENA_1"
tree.end
tree.end
autoindent.off
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